Microbiology Final Review – Flashcards
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Genus Brucella |
very small gram negative coccobacilli
aerobic
obligate parasites of mammals
target reproductive organs |
Genus Brucella |
Stains red with Ziehl-Neelsen stain (partially acid fast)
Growth on blood agar or chocolate under increased Co2 |
B. abortus (7 biovars) |
Main Host: Cattle Abortion, orchitis, epididymitis
Sheep, goats, pigs -- sporadic abortion Horses -- butsitis Humans -- intermittent systemic disease
|
B. melitensis (3 biovars) |
main hosts: Goats and Sheep abortion, orchitis, epididymitis
Cattle -- sporadic abortion Humans -- severe systemic disease |
B. suis (5 biovars)
|
Main host: Pigs abortion, orchitis, epididymitis
Humans -- intermittent systemic disease |
B. ovis |
Sheep
Epididymitis |
B. canis |
Main host: dogs abortion, epididymitis, discospondylitis
Humans -- mild systemic disease |
B. abortus
B. melitensis
B. suis
|
have smooth colonies on isolation, due to long LPS O-antigens, and react with antibodies to antigen A and/or antigen M |
B. ovis
B. canis |
have rough colonies, with short LPS O antigens, and react with antibody to R (rough) antigen, but not A or M |
Colonial Morphology
and
PCR |
Two ways to distinguish Brucella genera |
Brucellosis |
Horses are resistant, but can have inflammation of the supra-atlantal (poll evil) and supraspinous (fistulous withers) bursae due to infection. The bursa is swollen and painful initially and may rupture to discharge through a sinus |
Genus Brucella |
Found worldwide unless eradication programs in place
Reservoir: Reproductive organs of animals
Major cause of abortion
|
Brucella |
Transmission: ingestion of organsisms from aborted fetuses and vaginal discharge, or milk via mating for some species penetration of skin via cuts and abrasions inhalation, transplacental
sexually mature animals are more susceptible and pregnant animals are most suscetible |
Brucella |
no exotoxins known
smooth LPS -- smooth strains and species are more virulent than rough, and more resistant to phagocytic killing and complement mediated killing Required for uptake into macrophages via lipid rafts
cyclic beta-glucans in outer membrane
Type IV secretion system (Vir system)
survival and multiplication in macrophages in vacuole, which is formed via fusion with rough ER |
Brucella Abortus |
cattle
bacteria ingested and penetrate intestinal mucosa through Peyer's patches ; engulfed by macrophages |
; ; ; Brucella abortus |
Cattle bacteria survive within macrophages by blocking phagosome maturation and forming the Brucella-containing vaculoe ; acidification of vacuole, but no fusion with lysosomes resistance to oxidative killing via catalase, superoxide dismutaste, etc fusion with ER membranes |
; ; ; ; Brucella abortus |
cattle ; spread to regional lymph nods dissemination hematogenously to reticuloendothelial system and repro tract erythritol growth factor (sugar alcohol in placenta/mammary/epididymis) |
; ; ; Brucella abortus |
Cattle replication in trophoblast cells of placenta increases in late gestation due to hormones produced -- infection spreads to fetus
placentitis leads to fetal death and abortion
large numbers of bacteria are shed in aborted fetuses, placentas, and vaginal discharge
presistent lifelong infection with intermittent shedding in productive and mammary secretions |
Brucella abortus |
Cattle abortions in unvaccinated first-calf heifers is the most common presentation, with no overrt systemic illness late gestation females usually abort only nce, presumably due to aquired immunity continue to shed organisms in milk an vaginal secretions In males, epididymitis and orchitis, with decreased fertility and eventually sterility |
Brucella melitensis |
goats and sheep
transmission via ingestion abortion storms in last 2 months of pregnancy mastitis common in goats
causes the most severe infections in humans |
Brucella ovis |
sheep
reduced virulence due to "rough" rather than "smooth" LPS organism carried by rams -- epididymitis and infertility in ram, disease prevalence increases with age
low pathogenicity for ewes - rare abortion in ewes |
Brucella suis |
pigs
transmission via ingestion and venereally
orchitis with swelling and necrosis of one or both testicles leads to sterility |
Brucella canis |
Dogs- permanently rough so of comparatively low virulence mainly seen in breeding kennels causes abortion in last trimester of pregnancy with no prior signs, stillbirth, infertility, vaginal discharge after abortion for several weeks - fetuses usually autolyzed, suggesting death in utero prior to abortion In males, inflammation of the testes and epididymis, infertility Can also see spondylitis and uveitis |
Brucella
|
Pathology Placentitis: multifocal pale foci are scattered in the cotyledons and the intercotyledonary spaces also show thickening, with a yellowish gelatinous exudate and necrosis of their surface.
marked edema of placenta
epididymitis and orchitis are commonly seen in males |
Brucella |
Diagnosis Examination of placenta is critical - thickened, yellow gelatinous exudate - brown, necrotic, edematous - gram neg coccobacilli, MZN positive
Serology to detect antibody in blood, milk, semen - milk ring test - agglutination tests (rose bengal test) - CF - AGID, ELISA, etc. - more serologic tests than any other organism |
B. melitensis |
On a large sheep farm, there was an abortion storm, with 40% of the ewes aborting in late gestation. Aborted lambs showed edema and congestion of the lungs, spleen and other internal organs. Placental membranes were edmeatous and had yellow fibrious exuate, and cotyledons were hemorrhagic and necrotic. |
Brucella |
use combination antibiotics treat for 6-8 weeks in humans and dogs
Tetracycline + Rifampin or similar |
Brucella |
eradication programs rely upon: - eradication of positive animals - serology for monitoring - vaccination
same as other agents of abortion: isolate all aborted animals for several weeks, burn all placentas, clean areas where abortions occured
organism can survive for several monts in environment |
Brucella |
Prevention live attenuated vaccines- RBS1 or strain 19 in cattle - RBS1 is safer, does not elicit antibodies that cause false positive reactions on serologic tests - all calves should be vaccinated; adult females can be vaccinated if needed; bulls should not be vaccinated (development of orchitis)
Rev1 strain in goats - partially attenuated bacterin for sheep not very effective no vaccine for dogs, pigs, or humans |
Brucellosis |
most commonly reported laboratory-aquired infection, and vet exposure throud disease and vaccine
Human transmission--> ingestion of contaminated milk or products, inhalation of infectious aerosols, contamination of skin wound, rarely person-to-person via sexual contact or breast-feeding
Human symptoms --> fever, chills, malaise, headache, low back pain, joint pain, drenching sweats, 103-104F, undulant fever --> chronic: anorexia, weight loss, abdominal pain, joint pain, headace, weakness, irritbility, insominia, depression, constipation
Physical findings: mainly splenomegaly, lymphadenopathy |
Bacillus anthracis |
| A farmer in North Dakota found one of his cows dead on the pasture one morning in June. It had been a very dry spring, but there had been heavy rainstorms and flooding for the past few days. The farmer suspected a lightning strike had killed the cow. The next morning, 5 more cows were found dead, with very bloated carcasses and dark blood discharge from noses, mouths and anuses. Several other animals appeared depressed, were not eating, and had labored breathing and high fevers. |
Bacillus anthrcis |
REPORTABLE
large gram positive spore-forming rods aerobic grows on blood agar with "ground glass" morphology colonies have "medusa head" appearance |
Bacillus anthracis |
spores in soil endemic in S./N. Dakota, Nebraska, Arkansas, Texas, Louisiana, Mississippi, California
transmission through ingestion, inhalation, or breaks in skin
no direct animal-to-animal transmission |
Bacillus anthracis |
primarily a disease of herbivores- carnivores are infected by ingestion of contaminated meat
outbreaks associated with climate change, such as after a rainstorm ending a period of drough or dry summer after heavy rain
usually warmer months
endemic in tropical and sub-tropical areas with high rainfall |
Bacillus anthracis |
Capsule and toxins- encoded on separate plasmids, required for disease production
Capsule - poly-D-glutamic acid - loss of capsule leads to reduced virulenc - encoded on plasmid pXO2 - non-toxic, but protects bacteria against phagocytosis and complement-mediated killin
Exotoxin- complex of protective Ag, lethal factor, and edema factor - loss of toxin leads to loss of virulence - encoded on plasmid pXO1
|
Bacillus anthracis exotoxins |
edema factor- adenylate cyclase which causes increased intracellular levels of cAMP once it enters host cells which leads to fluid accumulation in tissues
lethal factor- endoprotease that kills macrophages
protective Ag- binds three factors and facilitates entry of EF and LF into host cells |
Bacillus anthracis |
Pathogenesis - ingestion or inhalation of spores from environment - sproes rapidly phagocytized by macrophages - spores germinate in macrophages - rapidly produce toxin and capsule - bacteria multiply within macrophages - carried to regional lymph nodes - Bacteria kill macrophages and escape - multiply in lymph nodes and spread systemically - septicemia leads to massive invasion of tissues - toxemia leads to extensive edema and necrosis and eventually shock, hypotension, anoxia, organ failure |
Bacillus anthracis |
In cattle and sheep, most animals found dead with no premonitory signs - high fever, depression, congested mucosae, subcutaneous edema, respiratory distress, anorexia
In pigs, edematous swelling of the throat and head and regional lymphadenitis
In horses, slower progression because disease is usually due to introduction of spores into skin abrasions - extensive subcutaneous edema of thorax, legs, prgressing to similar disease as cattle |
Bacillus anthracis |
Necropsy: rapid bloating absence of rigor mortis dark unclotted bloody discharges from nose, mouth, anus, vulva, etc. dark bloodstained fluids in body cavities Splenomegaly - extremely large soft spleen |
Bacillus anthracis |
Diagnosis: clinical signs and necropsy
stain of tissue or blood with polychrome methylene blue
culture on blood agar, NG on MacConkey, gram stain, confirmation by biochemical tests and PCR |
Bacillus anthracis |
Treatment:
High doses of penicillin G or oxytetracycline if administered early
ciprofloxacin for humnas
hyperimmune serum if available |
Bacillus anthracis |
Prevention: in endemic areas, annual vaccination with sterne strain (avirulent due to loss of pXO2 plasmid and capsule) spore vaccine
In sporadic epidemics, biosafety is critical!
anthrax vaccine for humans, preparation of protective antigen recovered from the culture filtrate of an avirulent, non-encapsulated strain that produces PA during active grwoth |
Bacillus anthracis |
major zoonotic pathogen and potential biological warfare agent!
natural disease in humans is often cutaneous, with localized papules that progress to ulcers then necrotic eschars, with extensive edema (can be systemic)
can progress to septicemia and systemic disease
inhalation anthrax also occurs |
Yersinia pestis |
| A veterinarian in Colorado treated a male cat with sub-mandibular abscess, high fever, anorexia, and dehydration. The owner mentioned that this was a barn cat who regularly catches rats and prairie dogs, and that two other barn cats had died recently. While he was examining the cat, it coughed and sneezed several times. Three days later, the veterinarian developed persistent high fever, myalgias, malaise, and vomiting. Upon arrival at the ER, she was found to have right lower lobe pneumonia. She was hospitalized with severe respiratory distress, and over the next few hours became severely hypotensive and hypoxic, and was placed on a ventilator |
Yersinia pestis |
gram negative rods, ferment glucose and other sugars but not lactose, oxidasse negative
facultatice anaerobes, catalase positive
facultative intracellular pathogen
"the black death" |
Yersinia pestis |
circulates in rodent reservoirs
Sylvatic cycle- wild rodents transmitted by fleas
Urban cycle- rat populations with transmission by fleas
humans-flea bites, direct contact with infected animals or tissues, human aerosols
|
Yersinia pestis |
Reservoir
rodents- rats and fleas in urban areas, prairie dogs, ground squirrels, fleas, in rural areas
|
Yersinia pestis |
Transmission
In rodents via fleas, cats through ingestion of infected rodents, rodent bites, or flea bites
In humans- usually through flea bites, systemic spread from localized infection or via inhalation of aerosols from animals or people |
Yersinia pestis |
Many virulence factors are regulated by temperature, with some required for maintenance in the flea produced at flea temperature (20C) and others for virulence in mammals produced at 37C |
Yersinia pestis |
| Flea bite, ingestion or inhalation depostis bacteria on mucosal surface --> carried to regional lymph nodes (most common sub-mandibular) --> multiply --> spread systemically in bloodstream (in cats frequently fatal) --> pneumonic lesions may result from hematogenous spread and bacteria can spread via aerosols |
Yersinia pestis |
bubonic plague - characterized by enlarged lymph nodes associated with lymphatic drainage from site of infection. fever, depression, anorexia, affected superficial lymph nodes may rupture, discharge pus
septicemic - fever, hypotension, shock, hepatosplenomegaly
pneumonic plague - fever, dyspnea, hypotension, shock, hemoptysis |
Yersinia pestis |
Diagnosis: culture from pus, blood, or lymph node aspirates
giemsa stain smears may show small rods with bipolar staining
direct fluorescent antibody staining |
Yersinia pestis |
Treatment: may respond to tetracycline of chloramphenicol
Control: routine treatment fro fleas, rodent control
Prevention: no vaccine |
Yersinia pestis |
Zoonosis: humans infected through flea bites, animal bites, cat scratches, and aerosols
once a human has pneumonic plague, highly infectious to others
1-40 cases per year in US, 15% mortality |
Francisella tularensis |
gram negative coccobacillary rods, obligate aerobes
fastidious, cysteine required for growth
NG on MacConkey
facultative intracellular pathogen
|
Francisella tularensis |
rabbits, deer, rodents, beaver, muskrats, ticks
ticks and deerflies- inhalation of infectious aerosols, ingestion
reported in sheep, horses, young pigs- clinical disease in livestock is rare
occurs in cats and humans
transmission correlates with heavy tick infestations |
Francisella tularensis |
| bacteria enter host through insect bite, inhalation, ingestion --> ingested by macrophages --> bacteria dely acidification and phagolysosomal fusion, and escape from phagosome into the host cell cytoplasm --> bacteria replicate and kill the macrophage |
Escherichia coli |
gram negative rod, oxidase negative, ferments glucose and lactose- bright pink colonies on Mac
LPS - in outer membrane and endotoxin
moltile withe peritrichous flagella
generally colonize GI shortly after birth and persist as normal flora
more virulent strains not usually normal flora |
Francisella tularensis |
In sheep and mammals- characterized by sudden onset of high fever, lethargy, anorexia, stiffness, reduced mobility, increased pulse and respiratory rates = classic signs of septicemia
lymphadenitis, local or generalized
Humans- insect bite handling infected animals, skin ulcer, swollen lymph node, fever and septicemia |
Francisella tularensis |
Diagnosis: clinical signs are non-specific heavy tick infestation in severely ill animals within endemic areas culture or detection by PCSR or fluorescent antibody stain of organism must differentiate from other causes of septicemia- plague |
Francisella tularensis |
treatment: effective antibiotics include streptomycin, amikacin, and fluoroquinolones
Control: tick control, in endemic regions prevention from hunting wildlife
Prevention: no vaccines, vaccine for humans under review |
Francisella tularensis |
causes a serious and potentially fatal infections in humans
hunters, trappers, veterinarians, and lab workers under particular risk |
Burkholderia mallei |
| A horse in quarantine after import from Bahrain developed purulent slightly bloody bilateral nasal discharge, and examination showed ulcerous lesions along the nasal septum. The submandibular lymph nodes were swollen and draining purulent discharge. In addition, he had nodules and ulcers on his hind legs and lateral abdomen, some of which had purulent exudate. |
Burkholderia mallei |
short gram negative rods, aerobic, obligate parasites
facultative intracellular pathogens
highly resistant to many antibiotics
causative agent of glanders, a disease that affects primarily horses, mules, and donkeys --> REPORTABLE |
Burkholderia mallei |
Reservoir: sub-clinically affected chronic carrier horses, donkey, mules
eradicated from US in mid 1900s
endemic in much of Eastern Europe, Asia, and N Africa, including former USSR, Iraq, Turkey, India, Pakistan, China, and United Arab Emirates |
Burkholderia mallei |
Transmission: ingestion of food or water contaminated with respiratory exudates or skin exudates from clinically affected or carrier animals
Carnivores- ingestion of contaminated meat
infection through skin cuts and abrasions
inhalation |
Glanders |
three cardinal signs of clinical glanders in equines that can occur individually or in combination:
chronic nasal discharge that occurs with or without ulceration of the nasal septum - can progress to pulmonary, with nodules and abscesses in the lungs
enlargement and induration along the lymphatics and lymph nodes, especially the submandibular lymph nodes
nodules , pustules or ulcers on the flanks and extremeties of infected animals - swollen lymph vessels are present on the flanks of infected animals in a manifestation referred to as cording |
Acute Glanders |
nasal and pulmonary signs, including high fever, decreased appetite, coughing progressive dyspnea, nasal discharge, and ulcers and nodules on the nasal mucosa --> death within a few days to weeks
|
Chronic Glanders |
develops insidiously and results in progressive debilitation
couging, malaise, dyspnea, intermittent fever, enlargement of lymph nodes, chonic nasal discharge, and ulcers, nodules and stellate scars on th enasal mucosa
skin and lymphatics may also be involved
slowly progressive and often fatal- affected animals may live for years before seccumbing to the disease |
Burkholderia mallei |
in endemic areas, clinical signs may be diagnositic
culture from lesions (not done in most labs)
serology - complement fixation and ELISA tests
mallein test = skin test similar to Tb tests
inject mallein just below lower eyelid; positive test is indicated by local swelling and mucopurulent ocular discharge within 24-48 hrs
|
Burkholderia mallie |
Treatment- euthanasia of affected equids in most countries
Control- in an outbreak, quarantine of all animals and affected premises, in endemic areas, keep animals away from communal feeding and watering areas
Prevention- testing of animals prior to shipping across national and international lines; no vaccine
|
Burkholderia mallei |
glander is rare but serious zoonotic diease
human infections can be traced to direct contact with infected animals or to laboratory exposure
mortality in acutely infected humans reaches 95% in three weeks if untreated |
Burkholderia pseudomallei |
gram negative coccobacillary rods bipolar staining
causative agent of mellioidosis in many animals an humans
grows on blood agar, growth on ashdown's agar |
Burkholderia pseudomallei |
Reservoir: widespread in soil and water in tropical areas (no found in US, europe)
Transmission: ingestion, inhalation, or skin contamination from environmental sources, occurs in wide range of animals- horses, sheep, goats, dogs, cats, primates, etc.
- infection usually disseminated, with abscesses developing in many organs- lungs, spleen, liver, etc
- chronic, devilitating, progressive disease with long incubation period |
Burkholderia pseudomallei |
Treatment: euthanasia of infected animals in most countries antibiotic treatment is expensive and unreliable, relapses frequent
Prevention- no vaccines available |
Coxiella burnetii |
small pleiomorphic gram negative rod
obligate intracellular pathogen
no growth in lab media, require tissue culture
causative agent of Q fever
affects sheep, goats, cattle, humans, also cats and dogs |
Coxiella burnetii |
Reservoir: obligate intracellular pathogen so the reservoir is carrier animals, a tropism for reproductive tissues
Transmission: aerosols of bacterin in vaginal discharges, can persist in dust, aerosols for long periods, direct contact with pregnant shedders |
Coxiella burnetii |
Pathogenesis: bacteria replicate in monocytes and macrophages primarily
do not block fusion of phagosome and lysosome
require acidic conditions of mature phagolysosome
bacteria replicated exclusively within the phagosome
slow replication (20hr generation time) may explain why organism does not cause more damage
spread hematogenously in macrophages to reproductive tissues |
Coxiella burnetii |
mainly asymptomatic in sheep, goats, cattle
reproductive failure often only clinical symptom sporaic late term abortions, stillbirths, weak newborns, infetility
organisms shed in placenta, vaginal discharge, also in milk, urine, feces |
Coxiella burnetii |
Necropsy: placentitis, rarely fetal lesions, esp pneumonia
Intercotyledonary placenta is thickened, opaque and multifocally covered by tan clumps of exudate. margins of several cotyledons are tan (necrosis) and centers are mottled red-brown (congestion and exudation).
Difficult to distinguish from brucellosis by appearance only |
Coxiella burnetii |
Diagnosis: smears from placental tissue and uterine discharges stained with modified Ziehl-Neelsen (MZN) method or giemsa
can use immunofluorescence or immunohistochemistry with specific antibioties to confirm
Serology- complement fixation, ELISA, etc. |
Coxiella burnetii |
Treatment- not usually done
Control- standard with infectious abortion, careful disposal of placentas, etc, and segregation of animals that have aborted
Prevention- vaccines for domestic ruminants available in some countries but not in US |
Coxiella burnetii |
Zoonotic pathogen and potential biological warfare agent- vets, stockyard workers, sheep shearers, tanners, farmers are at risk
Humans- mid flu-like symptoms, with abrupt onset of fever, malaise, headache, myalgia, and symptoms of atypical pneumonia (dry cough, dyspnea, chest pain) may also include GI symptoms, with nausea, and vomiting chronic forms- may cause endocarditis |
Rickettsia rickettsii |
very small gram negative coccobacillary rods
obligate intracellular pathogens- must be grown in living hosts, tissue culture, embryonated eggs
true gram negative cell wall, with peptidoglycan and outer membrane with LPS, but gram stain poorly
more readily seen by immunologic methods with specific antibodies |
Rickettsia rickettsii |
reservoir: ticks, rodents
american dog tick, dermacentor veriabilis, and RM wood tick, D. andersonii
theses ticks can carry it at all life stages (larva, nymphs, adults) and transmit the bacteria transoverially
1-3 % of these ticks carry this disease |
Rickettsia rickettsii |
Transmission:
Tick bite-which requires attachment and feeding of tick for 6-20 hrs
less frequently, removal of tick from dog leads to human infecton via skin abrasion
april - october |
Rickettsia rickettsii |
cycle of ticks and hosts
infected tick larvae --> rodent --> infected nymph tick --> infected adults --> dog/human --> infected tick eggs --> infected larvae |
Rickettsia rickettsii |
inoculated into the skin by a tick bite spread through the bloodstream and infect cells of the vascular endothelium trigger phagocytosis into these cells ( type IV secretion system) once in phagosome they rapidly escape into host cell cytoplasm (phospholipase) move on polymerized actin tails and escape into neighboring cells primary lesion - vasculitis endothelial damage triggers fibrinlytic and coagulagulation cascade leads to thrombosis and leakage of RBCs into tissues causing rash and petechial lesions leads to thrombocytopenia, DIC, vascular collapse, renal and heart failure |
Rickettsia rickettsii |
Clinical Signs fever 4-5 days after tick bite lethargy, anorexia, depression, diarrhea cutaneous lesions include hyperemia and edema of extremities, ears, lips, scrotum petechial lesions visible on oral and genital mucosa ocular signs: conjuntivitis, retinitis, uveitis arthritis, myalgia, stiffness, reluctance to walk vestibular and neurologic signs
|
Rickettsia rickettsii |
Necropsy: widespread petechial and ecchymotic hemorrhages in all tissues lymphadenopathy and splenomegaly
necrotizing vasculitis with perivascualr cuffing |
Rickettsia rickettsii |
Diagnosis CBC- thrombocytopenia, leukocytosis with a left shift, prolonged coagulation time
Serology- IFA immunofluorescence assay, which can be used either with single serum looking for high titer or with paired sera looking for increase in titer
can also look for rickettsia in tissue (biopsies) of petechial lesions) by immunohistologic stain or by PCR |
Rickettsia rickettsii |
| A 2 year hunting dog was seen with a 3 day history of fever (40.6 C), anorexia, depression, lethargy and vomiting on the day he was seen. Petechial hemorrhages were seen on the dog's oral mucous membranes as well as multifocal retinal hemorrhages. He had edema of the scrotal area, and was reluctant to walk, and when he did walk seemed unblalanced,, with his head tilted to one side. |
Rickettsia rickettsii |
Treatment: tetracycline or oxytetracycline
Prevention: no vaccine avoidance of tick-infested areas and prompt removal of attached ticks, and use of acaricides
Zoonotic: occurs in humand and dogs, but not spread from dogs to humans except via tick vectors. Dog disease sentinel for human disease humans- major symptom is petechial rash with lesions on trunk, extremities, palms and soles |
Neorickettsia (Ehrlichia) risticii |
gram negative coccobacillary rods
obligate intracellular parasites
tropism for monocytes
causative agent of potomac horse fever = equine monocytic ehrilichiosis
first identified in 1979 in outbreak in Maryland |
Neorickettsia (Ehrlichia) risticii |
Epidemiology infectious but not contagious
occurs in sporadic localized epidemics
found in US, canada, S America, Europe
highest prevalence near large rivers
seasonal- most cases in summer and autumn in areas with cold winters, year-round in warmer areas
seen only in equids- rare in foals <1 year of age |
Neorickettsia (Ehrlichia) risticii |
Reservoir: Trematodes found in fresh water snails and aquatic insects, life cycle involves trematodes (flukes), snails, aquatic insects, possibly bats or birds
|
Neorickettsia (Ehrlichia) risticii |
Transmission: ingesition of aquatic insects, ingestion of trematodes or of grass contaminated with trematodes and snails
apparently NOT from biting insects
horses appear to be an accidental dead end host for an organism that normally cycles between trematode life stages in snails, aquatic insects, bats, etc. |
Neorickettsia (Ehrlichia) risticii |
Life Cycle horses ingest infected fluke larvae/or adult insects --> potomavac horse fever may develop in hoses, causing signs such as anorexia, fever, diarrhea, signs of colic, and laminitis --> neorickettsia risticii is the agent of the disease --> N. resticii - infected trematodes (flukes) --> snails --> water insects --> N. risticii move to aquatic insects (such as mayflies and caddisflies) |
Neorickettsia (Ehrlichia) risticii |
Pathogenesis after ingestion, bacteria infect blood monocytes block phagolysosomal fusion and persist in monocytes spread to GI, colonic epithelial cells, mast cells, and tissue macrophage infection of GI leads to diarhea, due to disruption of sodium and chloride absorption and increased water loss in lg and sm colon |
Neorickettsia (Ehrlichia) risticii |
Clinical signs: incubation period: 2-3 weeks
acute onset of anorexia and depression, with rising fever (107C) decreased GI sounds
within 24-48 hrs moderate to severe diarrhea develops, from "cow-pie" to projectile watery diarhea
colic (mild to acute), subcutaneous ventral edema seen in some cases, dehydration, increased heart and respiratory rate
laminitis in 40% of cases, 5-30% fataltiy
may see abortion in mares that were pregnant when infected
|
Neorickettsia (Ehrlichia) risticii |
Diagnosis Hematology - leukopenia and neutropenia with left shift, thrombocytopenia, hemoconcentration
Blood chemistry - hyponatremia, hypokalemia, hypochloremia, metabolic acidosis
definitive diagnosis base on isolation of N. risticii from blood (10d) or feces (13d) of infected horses, or PCR
Serology- IFA (indirect immunofluorescence assay) used, but high rate of false positives
|
Neorickettsia (Ehrlichia) risticii |
| In mid-August in Michigan, a 6 year old Quarter horse mare developed fever (107F), depression and anorexia. Two days later, she developed profuse watery projectile diarrhea that persisted for several days. She showed signs of colic had ventral edema, and also developed laminitis. A week later, two other animals in the same pasture began to show similar symptoms. |
Neorickettsia (Ehrlichia) risticii |
Necropsy subcutaneous edema of ventral body wall
very fluid consistency to contents of colon
cecum and colon- congestion, hemorrhage, and scattered mucosal erosions
swollen edematous mesenteric lymph nodes
detect organisms in tissue with silver stain or immunohistology
aborted fetuses have enterocolitis and necrosis of mesenteric lymph nodes
|
Neorickettsia (Ehrlichia) risticii
|
Treatment: oxytetracycline IV for 5-7 days
Prevention: inactivated whole cell vaccine (6 mo or before summer), 1 strain of Mr, and may provide minimal protection against other strains
No Zoonotic potential- not a human pathogen |
Anaplasma marginale
Anaplasma ovis |
infect erythrocytes
cattle, sheep, goats |
Anaplasma phagocytophilum
Ehrlichia ewingii |
infect granulocytes
tick-borne fever in ruminans; equine, canine, human granaulocytic anaplasmosis
canine granulocytic ehrlichiosis |
|
Infect platelets
canine cyclic thrombocytopenia |
Ehrlichia canis |
Infect monocytes and macrophages
canine monocytic ehrlichiosis |
Ehrlichia ruminatium |
Infect macrophages and vascular endothelial cells
heartwater |
Anaplasma & Ehrlichia |
small gram negative coccobacilli
do not have peptidoglycan cell walls
obligate intracellular parasites (cannot be cultured ex. in tissue culture or egg yolk sac)
tropism for hematopoietic cells- RBCs, granulocytes, monocytes, platelets, seen in bloodsmears by giemsa stain (purplish-blue small organisms individual or clusters- morulae)
vector borne- ticks |
Anaplasma marginale
Anaplasma ovis
|
Anaplasmatosis (gall sickness) cattle, sheep, goats, other ruminants
worldwide in tropical and sub-tropical regions--> south/central America, US, S. Europe, Africa, Asia, Australia
infect erythrocytes- wright-giemsa stain basophilic intracellular organisms, spherical incusion near margins
|
Anaplasma marginale & Anaplasma ovis |
Reservoir: infected carrier animals
Transmission: ticks, iatrogenic (needles, dehorning tools, etc), seasonal- vector season, trans-stadiallly but not trans-ovarially in ticks
Pathogenesis: infect mature erythrocytes --> multiply within membrane-bound vesicles, at edge of erythrocyte --> exit via exocytosis, and infect more RBC --> parasitized RBC are removed by macrophages
|
Anaplasma marginale & Anaplasma ovis |
Clinical signs: incubation period: 3-4 weeks, number of infected RBC doubles every 24-48 hrs
requires about 15% RBCs to be infected for apparent clinical signs--> fever, anorexia, weight loss, icterus (jaundice)
acute disease--> severe anemia, pale mucous membrane, lethargy, no hemoglobinemia, hemoglobinuria (destruction of erythrocytes), fever, death
many animals survive emaciated condition - subclinical carriers
more severe in adult animals >3 yrs --> young generally become sub-clinically infected- carriers
peracute cases- affected animals are hyperexcitable and tend to attack attendants just before death |
Anaplasma marginale & Anaplasma ovis
|
Diagnosis: clinical signs in endemic areas, marked anemia, jaundice in absence of hemoglobinuria
hematology: giemsa stained bloodsmear showing densly staining bodies near periphery of RBCs
Immunofluorescence or PCR
Serologic testing (ELISA, CF) detect chronic carriers |
Anaplasma marginale & Anaplasma ovis |
| Three 6-10 year old cows in a herd in Alabama developed fever, anorexia, and lethargy. All were in thin body condition. Their mucous membranes were jaundiced and showed marked pallor. One tried to attack the herdsman, and then dropped dead. |
Anaplasma marginale & Anaplasma ovis |
Treatment: long acting oxytetracycline
Prevention: vaccination (killed or live attenuated) prior to introduction to endemic areas can prevent severe disease but not carriage - weekly dipping in acaricide to reduce tick burden - testing herd and removing carriers |
Ehrlichia (Cowdria) ruminantium |
causative agent of heartwater in domestic and wild ruminants- REPORTABLE
found in sub-saharan Africa and Carribean islands transmitted by amblyomma ticks- not currently in US but could be imported
replicates in macrophages and vascular endothelial cells of capillaries, esp. nervous system leading to increased vascular permeability
found as clumped organisms at ends of nuclei in cytoplasm of brain capillary endothelial cells |
Ehrlichia (cowdria) ruminatium |
clinical signs: sudden fever, neurologic signs (chewing movements, exaggerated blinking, high stepping, circling, prostration, convulsions) in less acute cases- neuro signs are inconsistant
Necropsy: extensive edema (pericardium, thorax, lungs, brain), splenomegaly, extensive mucosal and serosal hemorrhages
Treatment: tetracycline administered early in disease, tick control |
Anaplasma phagocytophilum |
causative agent of tick-borne fever in cattle and ruminants as well as equine, canine and human granulocytic anaplasmosis
more common in older animals
infects granulocytes, where it forms microcolonies called morulae |
Anaplasma phagocytophilum |
Reservoir: infected carriers, deer, white-footed mice, squirrels, other small rodents
Transmission: tick bites, trans-stadially but not trans-ovarially in ticks
found worldwide in northern latitudes (europe, US, etc) upper midwest and northeastern regions and pacific coastal states |
Anaplasma phagocytophilum |
Pathogenesis bacteria injected through dermis by tick bite --> phagocytized by neutrophils
do not stimulate oxidative burst, and block subsequent oxidative responses (immunosuppresion)
block maturation of phagosome at early stage- does not acquire early endosomal markers, does not acidify or acquire V-ATPase
multiply within membrane-blound vacuole delays apoptosis of infected cells
immunosuppression predisposes to opportunistic infections |
Anaplasma phagocytophilum |
Ruminants Clinical Signs incubation period of 5-14 days, occurs after moving animals to tick-infested pastures, esp in spring
sudden fever lasts 4-10 days, may recur reduced appetite, lethargy, decreased milk production, weight loss, cough, resp. distress
pregnant animals in late gestation may abort
immunosuppression, increased susceptibility to many other infections
transient thrombocytopenia, prolonged leukopenia |
Anaplasma phagocytophilum |
Horse Clinical Signs incubaton 8-14 days
severity of clinical signs varies with age >4 years most severe
fever, depression, reduced appetite, limb edema, petechiation of mucosal membrane, icterus, ataxia, staggering, reluctance to move, base-wide stance, weakness, ataxia may be severe (fractures possible), abortion, laminitis, immunosuppression, increased susceptibility to other infections |
Anaplasma phagocytophilum |
Diagnosis- clincial signs and geographic area, time of year ID morulae in neutrophils, cytology, PCR Lab findings- leukopenia, transient thrombocytopenia morulae in nuetrophils and eosinophils
Treatment- long acting tetracycline
Prevention- no vaccine, tick control |
Ehrlichia canis |
causative agent of canine monocytic ehrlichiosis
Reservoir: domestic and wild canids
Transmission: ticks
found world wide in tropical and subtropical areas |
Ehrlichia canis |
Pathogenesis & Clinical Signs incubation period 1-3 weeks
bacteria replicate in monocytes, and macrophages- block phagolysosome fusion
acute phase: fever, depression, lethargy, petechial lesions, swollen lymph nodes and spleen, mild weight loss, epistaxis
cytology: thrombocytopenia, leukopenia, anemia
w/o treatment generally progresses to subclinical phase, with persistent carriage in spleen and persistent thrombocytopenia
chronic: some dogs develop persistent bone marrow depression, pancytopenia, uncontrolled bleeding, secondary infections |
Ehrlichia canis |
| A 6 year old irish setter was brought to the vet because of 3 week history of listlessness, anorexia, weight loss, coughing, and generally malaise. When examined, it had epistaxis, fever, subcutaneous hemorrhages on the abdome, and enlarged parotid and subligual lymph nodes. Hematology showed anemia, thrombocytopeniaa, and lymphopenia, with immature erythrocytes and lymphocytes |
Ehrlichia canis |
Diagnosis: cytology: morulae in monocytes
thrombocytopenia, leukopenia, anemia
blood chemistry: hypergobulinemia, elevated liver enzymes
antibody titers to hyperglobulinemia, elevated liver enzymes
antibody titers by indirect FA |
Ehrlichia canis |
Treatment: tetracycline or oxytetracycline
Prevention: no vaccines, avoidance of tick-infested areas, prompt removal of ticks, and topical acaricides
thrombocytopenia with infection of monocytes- decreased production of platelets from hypoplastic bone marrow, seqestration, increased consumption, secretion of platelet-migration inhibiton factor my lymphocytes exposed to infected cells |
Ehrlichia ewingii |
causative agent of canine granulocytic ehrlichiosis
Reservoir: domestic and wild canids, deer
Transmission: ticks
found US, south and southeast
younger animals |
Ehrlichia ewingii |
Pathogenesis and Clinical Signs bacteria multiply in phagosomes in neutrophils (granulocyes)- block phagolysosomal fusion
acute fever, depression, lethargy, acute polyarthritis, lameness
Neuro signs- ataxia, tremors, vestibular defects
difficult to distinguish from A phagocytophilum infection |
Ehrlichia ewingii |
Diagnosis: thrombocytopenia, morulae in neutrophils, neutrophilic polysynovitis, no specific serotest, PCR testing
Treatment: tetracycline or oxytetracycline
Prevention: no vaccines available, avoid tick-infested areas and prompt removal of attached ticks, topical acaricides |
Anaplasma platys |
causative agent of canine cyclic thrombocytopenia
Reservoir: domestic and wild canids
Transmission: ticks, proably but not proven
found worldwide, including southern US
organism has never been cultured |
Anaplasma platys |
Pathogenesis bacteria infect and multiply in platelets (not in megakaryocytes in bone marrow)
leads to massive drop in platelet count, which resolves
bacteremia and thromocytopenia recur repeatedly at 1-2 week intervals |
Anaplasma platys |
Clinical Signs: acute fever, lethargy, pale mucous membranes, petechial hemorrhages of skin and oral, bleeding
Diagnosis: thrombocytopenia, morulae in platelets (seen in mycroscopy or fluorescent Ab staining), indirect FA test for serum antibodies
Prevention: no vaccine , avoid tick infested areas and prompt removal, topical acaricides |
Haemotropic Mycoplasmas |
small uncultureable bacteria, formerly classified as rickettsia but reclassified based on small size, lack of cell wall, and resistance to penicillin
associate with surface of erythrocytes (not intracellular) and cause severe hemolytic anemia |
Mycoplasma haemofelis |
feline infectious anemia
occurs worldwide- strongly associated with male sex and access to outdoors
Reservoir- infected cats
Transmission: not certian, possibly fleas or bite wounds, experimentally through blood transfusion |
Mycoplasma haemofelis |
bacteria attach to the surface of erythrocytes - not intracellular
damage to erythrocytes --> direct damage by pathogen, immune-mediated mechanisms
|
Mycoplasma haemofelis |
Clinical Signs anemia, lethargy, mucosal pallor, tachypnea, tachycardia
severe disease- profound anemia, overwhelming parasitemia rapidly results in death
more commonly- mild disease with anemia and jaundice
immunocompetent cats- successive waves of parasitemia are gradually eliminated by immune response |
Mycoplasma haemofelis |
Diagnosis: demonstration of bacteri on surface of RBCs in giemsa-stained smears PCR to identify organism in blood hematology: may see reduced packed cell volume and evidence of regenerative anemia
Treatment: doxycycline, blood transfusions |
Mycoplasma haemocanis |
hemotropic mycoplasmosis in dogs
milder disease in dogs, clinical signs apparently in normal dogs
transmitted by brown dog tick
forms chains of organisms across the surface of the erythrocyte |
Mycoplasma haemosuis |
hemolytic anemia in pigs
maninly young piglets
organisms on surface of erythrocytes and free in plasma |
Chlamydophila felis |
causative agent of conjunctivitis and rhinitis in cats
"feline pneumonitis" misnomer rarity of lower respiratory disease with pathogen
gram negative bacterium
obligate intracellular pathogen with unique developmental cycle - grown in tissue culture, does not grow in standard media |
Chlamydophila felis |
unique developmental cycle includes infectious form and replicative form
elementary body (EB): hardy, extracellular form, non-replicative, but infectious--> can survive in environment
Reticulate body (RB): fragile, metabolically active and replicative --> does not survive in environment
|
Chlamydophila felis |
Developmental cycle: elementary bodies (infectious form) attach to host cells--> taken up by receptor mediated endocytosis and block maturation of phagosome--> EBs reorganize into RBs (replicative form)-> multiply--> some continue replication others tranform to EBs--> inclusion body contains both --> cell lysis with release of infections EBs and loss of RBs |
Chlamydophila felis |
Reservoir: cats
Transmission: direct contact or aerosols, transmitted to kittens through parturition, venereal transmission (not proven)
Clinical signs: conjunctival hyperemia (redness), chemosis (swelling of conjunctiva), blepharospasm, serous to mucopurulent ocular discharge, sneezing, nasal discharge |
Chlamydophila felis |
| A 2 year old cat developed sneezing, nasal discharge, and ocular discharge, with chemosis (swelling of the conjunctiva), conjunctival inflammation, and blepharospasm |
Chlamydophila felis
|
Diagnosis: stained conjunctival smears showing intracytoplasmic inclusions (giemsa or iodine) culture in tissue culture PCR, commercial ELISA
Treatment: tetracycline
Prevention: live and inactivated vaccines are available |
Moraxella bovis |
Short fat gram negative rods, usually in pairs
aerobic, oxidase positive
grow on blood, beta-hemolytic, NG on MacConkey
causative agent of infectious bovine kerato-conjunctivitis |
Moraxella bovis |
Reservoir: carrier cattle - carriage in conjunctiva, nares, vagina, occurs worldwide
Transmission: mainly face flies, direct contact, tall grass, etc. |
Moraxella bovis |
Virulence factors: Pili- two different types involved in adherence to cornea, extensive antigenic variation in amjor pilus protein
RTX hemolysin- kills neutrophils and damages corneal tissue
Loss of either pili or toxin leads to avirulence |
Moraxella bovis |
Pathogenesis bacteria transmitted by face flies attach to corneal surface via pili, which allows bacteria to circumvent clearance by lacrimal secretions and blinking
replicating bacteria produce a calcium-dependent RTX hemolysin that damages corneal tissue and causes corneal erosions within 12 hrs
inflammatory response brings neutrophils to infected area
toxin kills neutrophils and release of hydrolytic enzymes from neutrophils contributes to corneal damage |
Moraxella bovis |
Clinical signs incubation period 2-3 days
early signs are edema and infection of the conjunctiva, accompanied by copius watery lacrimation, blepharospasm and photophobia
may have low fever, decrease in milk yield and decrease appetite
after 1-2 days, a small opacity appears in the center of the cornea that may become elevated and ulcerated over the 2-4 days- peak infection may cover entire cornea
in most cases- cornea will heal within few weeks, but some animals may develop severe ulceration resulting in blindness |
Moraxella bovis |
| Over half of the beef cattle in a herd on open pasture developed photophobia, excessive lacrimation, mucopurulent ocular dicharge, conjunctivitis, and varying degrees of keratitis. Both bilater and unilater eye infections were seen. Lesions varied from mild conjunctivitis to ulcerative keratitis. Disease incidence was much higher in the younger animals. |
Moraxella bovis |
Diagnosis: affects many animals in a herd culture of lacrimal secretions on blood agar and MacConkey (should yeild beta-hemolytic colonies on blood and NG on MacConkey) confirm biochemical tests or PCR
Treatment: topical antibiotics, parenteral oxytetracycline
Prevention: pilus and hemolysin vaccines are available but have limited efficacy, fly control
|
Leptospirosis |
Worldwide zoonotic disease, almost all mammals susceptible
gram negative bacteria
over 250 serovars |
Leptospirosis |
Disease characteristics depends on host/serovar combination
age and condition of animal
certain serovars prevalent within an area
each serovar has one or more maintenance hosts in an ecosystem --> wildlife, domestic animals |
Leptospirosis |
maintenance host: perferred host, obvious illness rare, organism persists, long term shedding, low titers of Ab, reservoirs of infection, vary infectious
Incidental host: all mammals except maintenance host, severe disease common, organism cleared, little shedding, high titers, transmission to other animals is rare |
E. coli |
Virulence Factors pili and toxins encoded capsular polysaccharide = K antigen endotoxin Fibrial adhesins (K, F, P) K88 (F4) pigs, K99 (F5) calves, lambs, pigs, pups 987P (F6) neonatal pigs, F18 - older pigs F41- calves bundle forming pili, intimin, and Tir |
Leptospirosis |
clinical signs- incidental hosts fever, anorexia, vomiting/diarrhea, bleeding, hemolytic anemia, jaundice, renal failure, abortion storms --> livestock and horses
Clinical signs- maintenance hosts subclinical infections, develop clinical signs as sequelae in chronic infection dogs- end-stage kidneys and chronic renal failure cattle- infertility and late term abortions |
Hardjo
|
| maintenance Host--> cattle |
Pomona |
| maintenance host --> pigs, cattle, skunks |
Grippotyphosa |
| maintenance host --> raccoons, possums |
Icterohaemorrhagiae |
| maintenace host--> rats |
Canicola |
| maintenance host --> dogs |
E. coli |
Protein Exotoxins Heat Labile toxin: LT AB subunit protein exotoxin A active unit, B binding unit increases cAMP in GI, extensive watery diarrhea
Heat stable toxin: ST small peptide toxin binds and increases cGMP |
bratislava |
maintenace host --> pigs, horses
|
Lepto |
infection spread by contact with urine from infected animals organism thrives in moist warm climates
can survive outside the body for several months
infection rates in maintenance host are often 30% or higher
Routes of infection: ocular, oral, reproductive, skin |
Lepto |
Pathogenesis: penetrates mucous membranes --> bacteremia --> liver, kidney, spleen, CNS, etc --> antibodies develop
maintenance hosts --> privileged sites --> long term shedding
Incidental hosts --> recovery with short term urinary shedding |
Lepto |
Virulence factors: motility, hemolysins, LPS- not toxic, cytotoxins
varies from region to region increase rainfall --> increase incidence more common in spring and fall |
Lepto |
Diagnostics
Indirect --> serology Direct --> fluorescent antibiotic test- sensitivity, live organisms not required, rapid, inexpensive, can be used on frozen tissues Immunohistochemistry- insensitive, silver-stains tricky, inexpensive, widely available, fixed tissue Culture- definitive, identify serovar, expensive, difficult, long time, live organism PCR- sensitive, not serovar specific, expensive, rapid, technically demanding |
Microscopic agglutination test |
used for Lepto widely available, relatively specific insensitive for some serovars vaccination complicateds interpretation highest titer = infecting serovar titers likely to be low in acute stages of disease
Interpretation--> do not compare between labs, cross-reactivity common, vaccine titers 60-120 days- titers to multiple serovars
|
Lepto |
first described in 1899- canicola, icterohaemorrhagiae dogs main source of exposure vaccines developed prevent disease well, may not prevent infection incidence dropped dramatically Reemergence- serovars involved increased diagnosis = increased in disease |
BPP: Bolin's Prevalence Postulate |
No of diagnoses = Z x N x L
Z= the true incidence of the disease N= the number of animals at risk L= number of leptospirologists in the area |
Lepto |
Cross reaction = Cross protection
infection and vaccination with one serovar induces antibiodies that react with other serovars
certain patterns of x-reactivity are typical dogs infected with grippo, also have titers against Brat and Pomona
immunity is serovar specific
|
Lepto |
Vaccination titers lasts for 60-120 days ex. w/repeated vacc titers to multiple serovars
2-way products--> canicola, Icterhaemorrhagiae 4-way producs --> canicola, icterohaemorrhagiae, groppotyphosa, pomona (whole-cell, adjuvant, unadjuvant)
initially 2 doses required, yearly for most dogs every 6 months for high risk dogs or evironments |
Lepto |
Bovine
common: hardjo, pomona, grippotyphosa
occasional: icterohaemorrhagiae, canicola, bratislava
vaccines: whole-cell inactivated, alum adjuvant, 5 or 6 serovars, given before breeding |
Lepto |
Dogs: supportive care, 'cillin' when they are sick, 'cycline' for 3 weeks as they recover
Cattle: tetracyclines and vaccine will stop abortion storms, long acting tetracycline, or tilmicosin for chronic infections (primarily hardjo) |
Lepto |
Zoonotic occupational exposure--> in lab, working with animals, agriculture workers, handling body fluids, care when washing out cages/runs, need a clinic plan in case of exposure
client education- vaccination of dogs/livestock, care when handling urine, realistic risk assessment, provide an information sheep
Recreational exposure- exposure to open bodies of fresh water, hunting
Increasing prevalence of lepto in companion animals |
Spirochetes |
includes- treponema, borrelia, leptospira, brachyspira
Spiral motile gram negative bacteria with endoflagella located in periplasmic area between cell membrane and outer membrane
labile in environment, sensitive to dessication, require specialized media (can be grown in vitro) |
Lepto |
Spirochete
found in aquatic envrionements, cause systemic infections in many species |
Brachyspira |
Spirochete
intestinal some of which are importen pathogens in pigs (hyodysenteriae) |
Borrelia |
spriochete
transmitted by arthropod vectors, cause systemic infections in many species |
Genus Borrelia |
helical gram negative bacteria corkscrew motility due to endoflagella unique linear chromosome, multiple circular and linear plasmids obligate parasites of vertebrate hosts --> do not survive well in envrionment transmitted via arthropod vector
|
Borrelia burgdorferi |
| causative agent of Lyme disease |
Borrelia anserine |
| causative agent of avian borreliosis |
Borrelia burgdorferi |
first identified following cluster of arthritis in children
reported in humans, dogs, horses, cattle, and sheep
Reservoir: variety of small mammals, such as white-footed mouse, also deer, sheep, and other large mammals maintenance host for ticks. humans, dogs, horses are incidental hosts
Transmission: tick bites, Ixodes scapularis- eastern and central US, Ixodes pacificus- west coast |
Borrelia burgdorferi |
virulence factor outer surface proteins (OspA-F) is expressed in tick midgut and is required for adherence
during tick feeding, OspA is turned off and OspC turned on, which releases bacteria from tick midgut and help protect bacteria from complement mediated killing host
VIsE is a variable surface protein expressed in mammalian hosts, which continually alters its antigenic region to help evad immune response |
Borrelia brugdorferi |
Pathogenesis transmitted into mammalian hosts by tick bites--> requires attachment and feeding for 48hrs --> multiply within the skin but spread then to bloodstream or migrate through tissues --> many symptoms likely to be due to immune responses, esp migrating polyarthritis |
Borrelia burgdorferi |
early infection: erythma migrans appear around bite with 3-30 days after tick bite (80% of people), persist for 3-4 weeks
can be isolated/identified in skin classic "bull's eye" rash (erythema migrans) of lyme disease |
Borrelai burgdorferi |
dissemination stage- weeks to months following infection
spread hematogenously to additional body tissues symptoms- fatigue, chills, fever, headache, muscle and joint pain, swollen lymph nodes, secondary annular skin lesions
nervous systme abnormalities can include numbness, pain, bell's palsy (paralysis of facial muscles), and meningitis (fever, stiff neck, and severe headache)
can be identified in bloodstream, joints, CNS |
Borrelia burgdorferi |
persistent infection typically involves intermittent episodes of joint pain and swelling, usually in one ore more large joints and migratory pain to joints, tendons, muscle, and bone
generally do not see spirochetes in joint fluid - may be due to deposition of immune complexes |
Borrelia burgdorferia |
Clinical disease in dogs about 5-10% of dogs develop clinical disease after exposure (2-6 months)
difficult to determine actual time of infection, since dogs do not develop erythema migrans (transient redness)
more severe in younger animals
clinical signs- fever, shifting leg lameness, swelling of joints, polyarthritis, lymphadenopathy--> responsive to antibiotic therapy at early stages but polyarthris may respond
Acute progressive renal failure can occur, protein-losing glomerulopathy associated with proteinuria, uremia, peripheral edema, vomiting, concurrent lameness, euthanized, no bacteria in kidneys
mild focal meningitis, but neuro signs not observed |
Borrelia burgdorferi |
| although about 13-47% of cats in endemic areas have been found to be seropositive, no clinical sings of have been reported in naturally exposed cats |
Borrelia burgdorferi |
horses- many clinical signs have been attributed to disease but no produced experimentally
clinical signs frequently reported include low grade fever, stiffness, lameness in more than one limb, muscle tenderness, lethargy
both neurologic dysfunction and panuveitis reported
high fever, and limb edema have been reported but more likely due to concomitant infection with anaplasma phagocytophila (spread via same tick) |
Borrelia burgdorferi |
| A 2 year old dog developed lameness in the right hind leg that persisted for 2 weeks and then disappeared. Two weeks later, the dog developed lameness in the left hind leg. When examined, he had mild fever, was reluctant to walk, and the joints on the affected leg, as well as inguinal lymph nodes, were swollen and tender |
Borrelia burgdorferi |
Diagnosis history of exposure to ticks in endemic area with clinical signs Detection of organisms culture (difficult and expensive) in specialized medium take 6+ weeks, rarely done PCR detection of bactrial DNA in samples such as skin immunolfuorescence or darkfield microscopy Serologic diagnosis demonstrates rising antibody titers, not confirmatory alone ELISA and indirect FA tests using whole bacteria as antigens may have false positives with animals infected with other spirochetes western blotting can differentiate Ab resposnes- time consuming and training (confirmatory) solid-phase ELISA tests for VIsE protein- differentiates infected from vaccinated |
Borrelia burgdorferi |
Treatment: tetracyclines - because they are effective against causes of similar clinical signs acute disease- rapid improvement chronic diease- prolonged therapy |
Borrelia burgdorferi |
Prevention: acaricidal sprays, tick control vaccines include whole cell bacterins and recombinant subunit vaccines
OspA vaccines stimular production of Abs that can kill bacteria in tick midgut after ingests blood benefits of vaccinating are disputed |
Borrelia burgdorferi |
most frequently resported tick borne disease of humans in NA
dogs can act as transport hosts for infected ticks, exposing humans to risk of infection |
Staph aureus |
gram positive cocci clusters
pyogenic- pus forming
catalase positive, coagulase positive
beta-hemolytic on blood agar
Invasive and toxigenic |
Staph aureus |
| major cause of mastitis in cattle and small ruminants |
Staph aureus |
causes:
skin infections, abscesses, wound infections, pneumonia, septicemia, osteoarthritis
scaled skin syndrome, toxic shock syndrome, exudative epidermis, food poisoning |
Staph aureus |
reservoirs: skin and anterior nares about 25% of all humans and animals
Transmission: mainly direct contact but also by direct injection, or aerosols
very common nosocomial pathogen in humans and animals |
Staph aureus |
adhesins- MSCRAMMS- fibronectin and collagen-binding proteisn, linked to cell wall peptidoglycan
anti-phagocytic surface molecules--> protein A binds immunoglobulins by Fc end, capsule
|
Staph aureus |
Exotoxins: multiple cytolysins/hemolysins (alpha, beta, gamma, delta - toxin, panton-valentine leukocidin)
exfoliating toxins
pyrogenic exotoxins = superantigen toxins, toxic shock syndrom toxin, enterotoxins |
Staph aureus |
Exoenzymes spreading factors- degradative enzymes that break down host tissues and intracellular matrix, such as collagenase, hyaluronidase, proteases, DNase, staphylokinase (fibrinolysin), etc
Coagulase- activates thrombin, leads to conversion of fibrinogen to fibrin = forms fibrin clots around bacteria |
Staph aureus |
Pore-forming cytolysins alpha toxin- lyses host cell membrane and kills host cells, toxic for neutrophils, important cause of localized tissue damage
panton-valentine leukocidin- toxic for neutrophils and macrophages, has been linked to severe necrotizing pulmonary and cutaneous disease and to community-aquired MRSA |
Staph aureus |
Exfoliating toxins proteases that target the intercellular adhesion protein desmoglien, found only in the epidermis, and specifically destroy desmosomes that connect epithelial cells, causing separation of layers of epidermal cells
cause sloughing of skin around lesions such as boils or cause bullous impetigo
systemic infections can cause scalded skin syndrome, symptoms of toxic shock syndrome |
Staph aureus |
superantigen toxins Enterotoxins- cause food poisoning, ingested as pre-formed toxin, very heat stable, trigger vomiting and abdominal pain, rapid onset due to intoxication not infection
Toxic shock syndrome toxin- superabsorbant tampons, toxin can cross mucosal barriers and spread systemically from localized infection, causes massive release of cytokines from T cells, leading to vascular leakage, shock and death, causes supersensitivity to other toxins like exfoliating toxins and endotoxin |
Staph aureus |
soft tissue infections--> boils, furuncles, carbuncles, other abscesses, impetigo, superficial dermatitis, wound infections
septicemia, osteoarthritis, pneumonia, toxinogenic disease, scalded skin syndrome = systemic effect of exfoliating toxin |
Staph aureus |
salt and acid tolerance- established in hair follicle or sebaceous gland or minor wound
alpha toxin or leukocidins- localized tissue necrosis, kill phagocytes that migrate to area, causing degranulation, toxic for skin, muscle, WBCs |
Staph aureus |
evasion of host immune system main host defense is PMNs but it can evade
leukocidins and hemolysins act to kill phagocytic cells
Protein A inhibits phagocytosis and blocks antibody function, capsule inhibits phagocytosis
catalase helps resist oxygen-dependent phagocytic killing mechanisms |
Staph aureus |
| A 10 year old harness horse with painful papules, pustules, edema, exudate, and crusting in areas under the harness |
Staph aureus |
Diagnosis: based initially on lesion appearance and location, time of year, pruritis, othe animals affected
culture of pus on blood agar or CNA or mannitol salt agar
hemolysis and colonial morphology on blood, growth and mannitol fermentation on MSA
gram stain and morphology
catalase and coagulase test |
Staph aureus |
Antibiotic resistance major problem 90% resistant to penicillin many often resistant to other classes except vancomycin and new oxazolidinones resistant isolates now very common in many species |
Staph pseudointermedius |
| A 2 yr old yellow labrador with dermatitis on the abdome, with multiple erythematous papules, pustules, exudate and crusting |
Staph pseduointermedius |
gram positive, pyogenic, coccus, catalse positive
coagulast positive, beta-hemolytic on blood agar
most common cause of canine pyoderma also cats, rarely horses and cattle |
Staph pseudointermedius |
Reservoir: skin, mucosal areas of dogs, puppies aquired it from dams within 8 hrs after birth, normal flora
disease requires some distubance in host, wounds, or infections, immune dysfunction |
Staph pseudointermedius |
virulence factors
adhesins, anti-phagocytic surface molecules - protein A- binds immunoglobulins by Fc end, capsule exoenzymes- spreading factors, coagulase exotoxins- cytolysins, exfoliating toxin, superantigen toxins |
Staph pseudointermedius |
canine pyoderma pyogenic or pus-producing skin infection classification based on depth--> suface, superficial, deep
treat with beta-lactamase resistant cephalosporins or clindamycin |
Staph pseudointermedius |
diagnosis: examination of skin scrapings
culture of pus on blood agar or CNA or mannitol salt agar hemolysis and colonial morphology on blood, growth and mannitol fermentation on MSA
gram stain morphology, catalase and coagulase test |
staph pseudointemedius |
| skin infection that can be aquired from canine pets, especially incases of deep pyoderma |
Corynebacterium Pseudotuberculosis |
gram positive, rod, catalase positive, small zone beta-hemolysis on blood agar
Reservoir: infected animals and organisms in soil, pastures, facilities, shearing tools, etc, contaminate with bacteria, long term survival in soil |
Corynebacterium pseudotuberculosis |
Ovis: non-nitrate reducing
causes caseous lymphadenitis in sheep and goats |
Corynebacterium pseudotuberculosis |
equis: nitrate reducing
causes ulcerative lymphangitis in horses and cattle |
Coynebacterium pseudotuberculosis |
Transmission:
in sheep and goats- primarily due to small wounds such as shearing wounds
In horses and cattle- mainly due to insect bites and skin wounds |
Corynebacterium pseudotuberculosis |
virulence factors phospholipase D (Pld) an exotoxin that degrades mammalian cell membranes, is leukotoxic, and can damage endothelial cells and promote spread from initial site of infection to regional lymph nodes and visceral organs
cell wall is distinctive, with arabinogalactan and corynemycolic acid components- chemical composition enables organism to resist being killed in a phagolysosomes within macrophages and trigger granluomatous infection
facultative intracellular pathogen with ability to survive and multiply within phagolysosomes |
caseous lymphadenitis |
one of most important bacterial infections of small ruminants - sheep and goats worldwide
major economic importance- decrease yield of wool, meat, increased culling, thin ewe syndrom, condemnation at slaughter
chronic abscessation of peripheral lymph nodes (may be in visceral lymph nodes)
|
Caseous lymphadenitis corynebacterium pseudotuberculosis |
pathogenesis: enter through small wounds--> multiply --> trigger inflammatory response and influx of first PMNs then macrophages --> phagocytized, survive, carried to lymph nodes --> multiply tigger granulomatous response --> classic lesions |
Caseous lymphadenitis |
animals chronically infected
endemic areas adult animals may have lesions with no clinical signs
visceral abscesses occura and lead to thin ewe syndrome
abscesses rupture and drainage can contaminated environment |
Corynebacterium pseudotuberculosis |
| several adult goats, on MI farm have swellings of the superficial lymph nodes of the head, throat, chest and flank regions |
Corynebacterium pseudotuberculosis |
Diagnosis: based initially on lesion appearance, which is considered diagnostic in herds with history of CLA
Confirmation: culture pus gram stain and cell morphology hemolysis pattern with synergistic hemolysis with Rhodococcus equi and inhibition of Staph aureus beta-hemolysis (reverse CAMP test) |
Corynebacterium pseudotuberculosis |
Treatment drainage or surgical removal of abscess, decontamination pus collected and burned quarantine affected animal antibiotics don't work well but combo of erythromycin and rifampin for 4-6 weeks has been suggested |
Corynebacterium pseudotuberculosis |
Control: eradication extremely difficult- culling of serologically positive animals If herd is free, extreme care should be taken to keep it that way vaccines available-bacterins and pld toxiod management CRITICAl |
Corynebacterium pseudotuberculosis |
| human lymphadenitis caused by this organism mainly in owners/handlers, slaughterhouse workers, and vets |
Ulcerative lymphangitis |
worldwide, US mainly southwest during dry season
associated with insect vectors
external abscess most common forms- primarily in pectoral region and along ventral midline of abdomen, lg amounts of pus, encapsulated, severe edema
limb swelling, cellulitis, draining tracts following lymph vessels |
Corynebacterium pseudotuberculosis pigeon fever |
| A 4 year old gelding on a MI farm has severe swelling of the chest area, pain on palpation, and lameness |
corynebacterium pseudotuberculosis |
Diagnosis: clinical presentation culture, gram stain, cell morphology
hemolysis pattern with synergistic hemolysis with Rhodococcus equi and inhibition of S. aureus beta-hemolysis (reverse CAMP test)
Serology- synergistic hemolysis inhibition test for Abs against pld, difficult to distinguish active infection from exposure or convalescence |
corynebacterium pseudotuberculosis |
Treatment: external abscesses- drainage of abscess, decontamination pus collected and burned internal abscesses require long term antibiotic therapy, generally rifampin plus another antimicrobial
Ulcerative lymphangitis- treat early and aggressively, oral rifampin and IV cephalosporin, till improves, then trimethoprim-sulfa and/or rifampin fro 4-6 weeks |
Mycobacterium bovis |
phagocytic cells, such as macrophage:
pathogens are engulfed into phagosome and survive by blocking killing mechanisms, such as oxidative burst and maturation and/or acidification of phagosomes |
Corynebacterium pseudotuberculosis |
Prevention/Control
vaccines are available for small ruminants but not tested for efficacy in horses strict insect control critical proper sanitation to reduce spread to other horses |
Genus Clostridium |
large gram positive spore-forming rods, anaerobic
Reservoirs: soil and gastrointestinal tracts of animals
Transmission: wound contamination or ingestion |
Genus Clostridium |
Endospores specialized structures that are highly resistant to advers conditions
produced under nutrient limitation or other stress
sporulation= formation of spore from vegetative cell = complex developental process require regulatory cascade
exotoxins are key virulence factors
|
Clostridium perfringens A |
causes gas gangrene and myonecrosis in warm-blooded animals
alpha toxin and perfringolysin
endospores enter into tissue by injury (punture or injections) which causes sufficient damage to tissue and blood supply (anerobic atmosphere)
multiply, produce toxins, local tissue destruction |
Clostridium perfringens A
|
growth of bacteria produces gas, emphasematous/crepitant appearance
hemorrhage, edema, tissue necrosis, with gas
death from toxemia and/or septicemia
gas gangrene caused by one of several species, this being the most common |
Clostridium perfringens A |
Diagnosis: based on history of recent IM injection, penetrating injury, plus gross pathology and histopathology
gram positive bacteria isolated using anaerobic culture, fluorescent antibodies |
Clostridium perfringins |
five types defined on presence or absence of 4 different toxins
alpha, beta, epsilon, lota
A, B, C, D, E |
alpha toxin |
| phospholipase C or lecithinase, lethal, necrotizing |
beta toxin |
| pore-forming cytolysin |
Epsilon toxin |
| increases permeability of epithelial and endothelial cells |
Lota toxin |
| AB subunit toxin that ADP-ribosylates actin within host cells, causing disorganization of cytoskeleton and death of cell |
perfingolysin |
| a cholesterol-binding pore-forming cytolysin that kills host cells |
Clostridium perfingens A |
| alpha toxin, perfringolysin causes gas gangrene and enterotoxemia |
Clostridium perfringens B |
| alpha, beta, epsilon, perfringolysin causes enterotoxemia in newborn lambs ("lamb dysentery") |
Clostridium perfringens C |
| alpha, beta, perfringolysin causes enterotoxemia in newborn calves, foals, piglets, lambs |
Clostridium perfingens D |
| alpha, epsilon, perfingolysin causes enterotoxemia in older lambs, goats, calves = "pulpy kidney disease" |
Clostridium perfringens E |
| alpha, iota, perfringolysin rare enterotoxemia |
Clostridium perfringens A |
| Thirty-six hours after IM injection with ivermectin, a 7 year old quater horse mare developed abdominal pain which was not relieved with penicillin and banamine. Twelve hours later, the mare was depressed anorexic, sweating profusely, and pawing the ground. The left cervical regions where she had been injected had marked crepitant swelling and was hot and painful to the touch in some areas and cold in others. |
Clostridium perfringes A |
Treatment immediate very high dose of penicillin, with possible addition of rifampin or metronidazole
myotomy and fasciotomy to allow drainage and debridement of necrotic areas and oxygenation of tissues
hyperbaric oxygen if available, or infusion of oxygen into tissues |
Clostridium |
control vaccines that elicit antibodies that neutralize toxins
bacterin and toxoid and combo vaccines are available
|
Clostridium tetani |
an acute toxemia that affects almost all mammals, horses and humans suceptible, dogs/cats/birds relatively resistant
major symptom - spastic paralysis
major virulence factor - tetanospasmin
AB subuint exotoxin |
Clostridium tetani |
B subunit - binds to gangliosides on CNS neurons
A subunit - zinc-dependent matalloprotease that cleaves synaptobrevins (proteins found in synaptic vesicles of neurons) essential for release inhibitory neurotransmitters - GABA
leads to unregulated excitatory synaptic activity in motor neurons, resulting in spastic paralysis
toxin binding is irreversible, recovery depends on whether new axonal terminals form
spastic paralysis |
Clostridium tetani |
Pathogenesis reservoir: bacteria in GI tracts of humans and animals, spores in soil (persistent)
Transmission: injection of spores into a deep traumatic wound
tissue necrosis and anoxia environment for germination, growth and production of toxin
toxin spreads systemically by retrograde transport up nerve fibers to CNS or via bloodstream
early signs muscle stiffness accompanied by muscular tremor and increased responsiveness to stimuli |
Clostridium tetani |
trismus= spasm of jaw muscles with resitriction of jaw movement and inability to eat
grinding teeth, retraction of third eyelid, erect ears, unsteady straddling gain with tail head out stiffly, anxious expression
severe muscle spasms and convulsiosn
death caused by paralysis of respiratory muscles |
Clostridium tetani |
infected cats...from bite wounds do not seem to develop full systemic disease, instead symptoms are apparent mainly in limb where the bite wound is located
particularly a problem in neonates, including humans, foals, lambss
can occur due to infection of the umbilicus, castration, or docking |
Clostridium tetani |
| Two weeks after being stabbed in the stifle with a piece of wire, a 4 yr old horse began walking stiffly, with an unsteady, straddling gait and muscle tremors, and was very jumpy. The horse had an anxious expression, with stiff erect ears, prolapse of the third eyelid, and dilation of the nostils. Over the next few days, the muscle tremors developed a "sawhorse" stance, with tail extended and stiff. The horse went down, could not rise, and developed more pronounced muscular spasms and convulsions. The horse had not received standard vaccinations. |
Clostridium tetani |
Diagnosis mainly based on the clinical signs and a history of recent trauma in unvaccinated animals
can attempt culture of organism from wound or assay of toxin from bloodstream (difficult)
differential - fully developed is clinically distinctive early stages confused with meningitis, encephalitis, sarcocystis, rabies, strychnine poisoning, myositis, acute laminitis in horses |
Clostridium tetani |
Prevention vaccination toxoid, inactivated but still immunogenic toxin protein. given routinely to horses, humans initially 2 doses followed by regular boosters
vaccine provides long-lasting protection but immunity takes 7-10 days after 2nd shot
antitoxin provides protection in 2-3 hrs but only lasts 2-3 weeks |
Clostridium botulinum |
acute intoxication acquired by pre-formed toxin
major symptom - flaccid paralysis
Major virulence factor - toxin
most potent toxin known in nature, with estimated lethal dose less than 1 mg
AB subunit exotoxins |
Clostridium botulinum |
AB subunit leads to lack of excitation of motor neurons, resulting in flaccid paralysis
toxin binding is irreversible, so recovery depends on whether new axonal terminals form
Multiple types of toxin A-G found in different geographic areas
cattle and sheep are more sensitive than horses > birds and poultry > mink and ferrets
uncommon in dogs and pigs- no natural cases in cats |
Clostridium botulinum |
Reservoir: spres can be found in soil, ponds, lake sediments
Transmission: ingestion of food contaminaed with preformed toxin
most commonly seen in infant - shaker foal syndrome
ingested toxin is absorbed via the intestinal tract and reaches neuromusclar junction target via bloodstream
at neuromuscular junction B binds to cell surface receptors and triggers endocytosis of A subunit which degrades synaptobrevina required for release of acetylcholine--> flaccid paralysis |
Clostridium botulinum |
Clinical Signs early muscle tremor progressive symmetrical weakness developing into motor paralysis--> recumbency head turned into flanks mydriasis (dilation) ptosis (drooping) dysphagia, drooling, weak tongue retraction, facial muscle paresis rumen stasis, bloat atonic bladder- loss of urination sensation of consciousness retained until death limberneck in birds- paralyzed unable to walk birds are sentinel species |
Clostridium botulinum |
Sources of toxin spoiled stored silage or grain - B silage made using poultry litter or products - C phosphorus deficiency in cattle leading to pica, esp ingestion of bones or carcasses - C carcasses baled or chopped into hay - C |
Clostridium botulinum |
| A holstein dairy herd in the central Valley of California lost 80 of 441 cows on 1 morning mid-April 1998. Cows died after having developed signs of weakness, ataxia, recumbency, and watery diarrhea. Many of the remaining animals were on the ground in sternal recumbancy with the head turned in to the flank, or were completely recumbent on their sides. Over the next 14 days, 427 of the animals died. Investigation found that the animals had been fed a load of total mixed ration that included a rotten bale of oat hay containing a dead cat. |
Clostridium botulinum |
Diagnosis mainly based on clinical signs definitive is demonstration of toxin in serum, intestinal contents, feed, by ELISA ro mouse bioassay demonstration of spores in feed Differential - other causes of neurologic dysfunction in lg animals, including EPM and encephalitis in horses, tick paralysis in ruminants, and various poisons, milk fever etc. |
Clostridium botulinum |
Treatment neutralize residual toxin with antitoxin provide supportive care to maintain hydration and nutrition mortality 10-65 in cattle%
Prevention good husbandry to maintain quality feed and reduce rodents vaccination with toxiod |
Streptococcus equi |
gram positive, coccus in chains, catalase negative
beta hemolytic, Lancefield group C
strangles - highly contagious infection of upper respiratory tract and lymph nodes |
Streptococcus equi |
M protein (SeM) major surface antigen, highly conserved anti-phagocytic multiple domains with different functions acts as adhesion binds to fibrinogen and IgG, impedes complement deposition and thus phagocytosis loss of SeM results in loss of virulence Fibronectin binding proteins, pili |
Strep equi |
Extracellular proteins pore-forming cytolysin/hemolysin can lyse RBCs, leukocytes, platelets, responsible for beta-hemolysis several superantigen toxins exotoxins that contribute to high fever, symptoms extracellular enzymes streptokinase= fibrinolysin, spreading factors such as hyaluronidase, DNase, |
Strep equi |
Reservoir: infected horse and asymptomatic carrier, carried in nasopharyx
Transmission: aerosol or direct horse-to-horse contact with purulent nasal discharge, or with housing, water sources, feed and feed utensils, tack, and other fomites contaminated with nasal discharge, including clothing of handlers
can affect horses of any age, more common and more severe in younger horses
bacteria enter by mouth or nose and attach to crypt cells of tonsils |
Strep equi |
bacteria penetrate to lamina propria of tonsils --> tiggers massive influx of PMNs, which fail to kill bacteria --> multiply and toxins kill PMNs and large amounts of pus develop in tonsil area
first clinical signs is rapid increase in rectal temp of 103 or higher - associated with release of pyrogenic exotoxins into bloodstream |
Strep equi |
anorexia, depression bilateral mucopurulent nasal dicharge, acute swelling with subsequent abscess formation in submandibular and retropharyngeal lymph nodes--> hot, swollen, painful, dyspnea due to pharyngeal compression
eventually lymph nodes rupture and drain |
Strep equi |
Immune mediated complications purpura hemorrhagica- aseptic necrotizing vasculitis with subcutaneous edema and petechiation of MM rare but serious, due to deposition of immune complexes in blood vessel walls with M protein (critical antigen), severe edema of head and legs, sloughing of skin
Glomerulonephritis and mycarditis- development of cross-reactive antibodies cause damage to heart muscle and deposition of immune complexes in kidneys |
Strep equi |
| A 3 year old horse developed high fever, mucopurulent nasal discharge, and severely swollen intermandibular and pharyngeal lymph nodes 6 days after returing from a horse show. Over the next two weeks, several other horses in the stable developed similar symptoms. |
Strep equi |
Diagnosis gram stain and culture PCR to detect the SeM gene in isolates Serology demonstrating high serum antibody titer to SeM
Treatment isolation of infected animals, systemic administration of penicillin local treatment of abscesses (drainage) implement hygiene measures purpura hemorrhagica requires cortocosteroids and supportive care |
Actinobacillus pleuropneumoniae |
small gram, negative pleiomorphic rods, catalase negative
facultative anaerobes, require added CO2, PIGS
15 serotypes base on antigenic differences in capsular polysaccharides 1,5,7 most common
causative agent of contagious pleuropneumonia in pigs worldwide
will not grow on blood agar alon or MacConkey agar requires NAD for growth = V factor |
Actinobacillus pleuropneumoniae |
Actinobacillus pleuropneumoniae |
on blood, will "satellite" around colonies or a streak of S. aureus
will only grow on soy agar if V factor is available |
Actinobacillus pleuropneumoniae |
reservoir: tonsils and nasopharynx of infected pigs and carriers, strictly pig pathogen
Transmission: direct contact via infected nasal secretions or aerosol
Most common in feeder pigs 2-6 mo moving and mixing of pigs increases risk
requires factor V for growth
|
Actinobacillus pleuropneumoniae |
Virulence factors pore forming cytolysins of the RTX toxin type hemolysins/cytolysins that lyse RBCs and are toxic for porcine macrophages and neutrophils and lung tissue bind to CD18 most active against spcific species Capsular polyasccharide antiphagocytic, important protective antigen, LPS, pilus adhesins, iron-binding proteins, resistance to oxidative stress
|
Actinobacillus pleuroneumonia |
| bacteria through nares--> colonize tonsils or lung --> adhesins adhere to tonsil/lung tissue --> scarce nutrients --> acquire iron --> LPS stimulates inflammatory response --> capsular polysaccharide enables resistance to phagocytosis and clearance |
Actinobacillus pleuroneumonia |
Apx toxin kills neutrophils and lung tissue lung lesions, edema, capillary congesion and multiplication of bacteria, necrotizing, hemorrhagic, fibrinous pleuritis
rapid deep breathing, minimal cough, fever, stop eating/drinking, depression, dyspnea, cyanosis, bloody frothy discharge, necrotizng hemorrhagic pneumonia, pulmonary edema, vascular thrombosis, loss of architecture, pleuritis
moratility 10% on one day |
Actinobacillus pleuropneumonia |
peracute: death within a few hourse from sever dyspnea and progressive cyanosis of entire body
Acute: high fever, severe resp distress, cyaosis, dyspnea, coughing, anorexia, die within 2-4 days, chronic carriers
chronic: resolved/fibrosed pulmonary lesions, intermittent cough, decreased appetite, decreased weight gain
pigs 2-6 months most susceptible |
Actinobacillus pleuropneumoniae |
| A farmer who raises feeder pigs found many of his young pigs ill one morning, although they had all been fine the night before. The most severely ill were recumbent, with high fevers (106-107F), elevated respiratory rates (80-100 bpm), and dyspnea, and would not move even when he touched them. Many of these pigs were coughing, thumping, open-mouth breathing and dog-sitting. some had a bloody nasal discharge and their noses and ears were tinged blue. Other pigs initally had milder symptoms that became progressively worse. Many of the affected pigs died within 24-36 hours and othe became ill. The farmer mentioned that he had recently added several new pigs from a different source to the herd |
Actinobacillus pleuropneumoniae |
Diagnosis initially clinical signs and gross pathology culture from lung lesions at necropsy, serotyping culture from tonsils from carrier pigs, selective medium ID with biochem tests (ApxIV, OmlA genes) and PCR
Serodiagnosis used to evaluate immune status of herds Gold used to be complement fixation test (difficult low sensitivity) ELISA, hemolysin neutralization assay problems with cross-reacting Abs |
Actinobacillus pleuropneumoniae |
Treatment mass treatment of herd give Abs parenterally (SQ or IM) determine antimicrobial susceptibility of isolate, resistance common penicillin, cephalosporins, tetracycline
Prevention and Control control by management- all in, all out strategy contol by eradiaction- good biosecurity control by vaccination- humoral immunity (Apx toxins)
feeder pigs..pleuritis |
Manheimia Haemolytica |
small gram negative, pleiomorphic rods, catalase negative
facultative anaerobes, grow on macConkey agar requires added CO2
cattle and other ruminants
two biotypes- A & T, based on fermentation of arabinose or trehalose, 17 serotypes based on capsular polysaccharides
causative agent of pneumonic pasteurellosis "shipping fever" |
Manheimia Haemolytica |
Reservoir: upper respiratory tract of ruminants
Transmission: often endogenous inhalation of bacteria from upper respiratory tract, under stress, from animal-to-animal by direct contact or aerosols
Virulence factors:RTX leukotoxin, LktA specific for bovine/ovine leukocytes (bind CD18), capsular polysaccharides, endotoxin, pilus adhesins, iron-binding outer membrane proteins |
Manheimia haemolytica |
bacteria in lungs --> LPS stimulates inflammatory response, neutrophils migrate --> resist phagocytosis and clearance (capsular polysaccharide) --> Lkt kills neutrophils and damages lung tissues
severe acute, necrotizing, hemorrhagic pneumonia, fibrinous pleuritis, after stress, listlessness and anorexia, fever, nasal discharge, shallow breathing, moist cough, dpression, ddyspnea, painful respirations
morbidity 35%, mortality 5-10% |
Mannheimia haemolytica |
| Several calves recently shipped cross-country to a feedlot became listless and uninterested in food within a week of arrival. They became depressed, with drooped head and ears, and developed a thin nasal discharge that rapidly became thick and viscous. All had fevers of up to 107F and raid, labored breathing. They were reluctant to move and stood with head and neck extended and front legs spread with elbows away from the chest wall. A third of the animals died within 3-4 days |
Mannheimia haemolytica |
Diagnosis clinical signs and gross pathology cultures biotype A serotype 1 most common in cattle, also in sheep
Treatment start very early- ceftiofur, enrofloxacin, tilmicosin, florphenicol bacterin vaccines exise but not very good unless supplemented with Lkt vaccinate 3 weeks before transport |
Pasteurella multocida |
small gram negative coccobacilli
facultative anaerobes, required CO2 fro growth
bipolar on staining, NG on MacConkey
commensals of the upper respiratory tract, opportunisic pathogen
five serogroups A,B,D,E,F |
Pasteurella multocida |
causes: fowl cholera (A, F) hemorrhagic septicemia of ungulates atrophic rhinitis of pigs bovine pneumonia bite wound infections- normal oropharyngeal flora in c/d |
Pasteurella multocida |
Atrophic Rhinitis infectious progressive, severe and permanent and accompanied by poor growth
dermonecrotic toxin, and Rho activating toxin is and AB toxin--> activates G proteins that activate Rho signaling pathways --> lead to turbinate bond degeneration, due to inhibiton of osteoblast, differentiation, and increase epithelial hyperplasia |
Pasteurella multocida |
| On a midwestern farm, many 3-8 week old suckling pigs were sneezing and snuffling. Most had a nasal discharge, which was bloody in som animals, and many showed evidence of tear staining. Weight gains in the affected pigs wer substantially lower than in apparently healthy pigs. Some of the older pigs had malformation of the nose with twisting and shortening. |
Pasteurella multocida |
Diagnosis clinical signs and pathology at slaughter culture from nasal swabs demonstration of toxin produced by isolate by ELISA, or of toxin gene by PCR
Treatment ASAP, all adult stock should be vaccinated with with PMT toxoid vaccine sows vaccinated 4-6 weeks prior to each farrowing weaned pigs medicated in-feed until clinical outbreak has subsided long acting tetracyclines |
Pasteurella multocida |
REPORTABLE infections hemorrhagic septicemia fatal acute speticemia, cattle/water buffalo edema, swelling prevalent in Africa, and Asia last case in US 1968 bacterin vaccines are available slaughter of all affected contact animals
Fowl Cholera generally septicemia with high morbility and mortality, rapidly fatal turkeys, geese, wild fowl |
Bordetella bronchiseptica |
aerobic gram negative, coccobacilli, very small
obligate parasites of ciliated respiratory epithelium in humans, animals and birds
worldwide distribution
principle agent of canine infectious tracheobronchitis most prevalent respiratory infections of dogs |
Bordetella bronchiseptica |
Virulence Factors adhesins- mediate adherence to ciliated cells of respiratory tract (fimbriae, filamentous hemagglutinin, pertactin) Capsule LPS- endotoxin, Long O antigen repeats hinder attachemnt of membrane attack complex Exotoxins- tracheal cytotoxins, dermonecrtoic toxin (non-progressive AT), adenylate cyclase toxin (cAMP levels) |
Bordetella bronchiseptica |
Reservoir: nasopharyngeal mucosa of dogs, other mammals
Transmission: direct contact with infected animals, aerosols, and fomites such as fod bowls
inhaled, attaches and replicates on ciliated cells of respiratory epithelium--> colonize nasal cavity, larynx, trachea, bronchi by adhesins such as fimbriae and filamentous hemaggltinin and pertactin |
Bordetella bronchiseptica |
| produces toxins that paralyze and kill ciliated cells and trigger excessive secretions and disrupt phagocytic function and thus clearance of bacteria --> increased mucous secretions, loss of ciliary activity, leads to coughing, nasal discharge, excessive mucous, honking cough, swollen tissues restricting airflow |
Bordetella bronchiseptica |
Clinical Signs paroxyms of harsh coughing followed by retching or gagging white cell counts, temp generally normal fever, purulent discharge, productive cough indicates progression to more severe disease- bronchopneumonia high morbidity, low mortality symptoms decreasse in 5 days and resolve in 2-3 weeks may persist longer |
Bordetella bronchiseptica |
Diagnosis clinical signs and history tracheal wash collected, centrifuged and cultured on blood and MacConkey
Treatment resistant to penicillins, cephalosporins tetracycline drug of choice (antimicrobial sensitivity test) antitussives with codien to relieve cough vaccines- live avirulent IN isolation of infected dogs |
Bordetella bronchiseptica |
| A young dog is brough to your clinic with a two day history of paroxysmal hacking cough, often accompanied by retching and runny discharge from nose and eyes. The owner mentions that the dog spent several days at a kennel. A week ago while the owner was traceling and the symptoms began a few days after the dog returned home |
Mycoplasma hyopneumoniae |
chronic enzootic pneumonia, mainly in young pigs, dry non-productive (peribronchial) cough common, fever, dyspnea, impaired growth with more severe disease
30-80% of all pigs have lesions at slaughter |
Mycoplasma hyosynoviae |
| sporadic polyarthritis in young pigs |
Mycoplasma hyorhinis |
| sporadic polyserositis/polyarthritis in pigs <3 months old |
Mycoplasma bovis |
chronic enzootic pneumonia
unresponsive pneumonia because it doesn't respond to standard first line antibiotics
feedlot calves
associated with arthritis
frequent component of bovine respiratory disease complex
no good vaccine
economic loss due to decreased weight gain |
Mycoplasma |
Diagnosis culture is laborious, time-consuming, low sensitivity isolation is not confirmation
Immunologic methods using specific antisera most commonly used- immunofluoresence and immunoperoxidase staining of histologic samples, ELISA
for some diseases, can use serology, such as complement fixation test, ELISA
Complement fixation test- serial dilutions, heat treat, inactivate complement, add Ag, add RBCs, antibodies present clear, if not pink due to RBC lysis |
Mycoplasma |
Treatment and Prevention tetracyclines, macrolides, tilmicosin NOT beta-lactams or vancomycin
vaccines available for bovis (live attenuated), hyopneumoniae (bacterin) --> provide short term immunity |
Mycobacterium bovis |
aerobic rods, gram positive better defined as acid fast
cell walls rich in complex lipids and mycolic acids
very slow growth
need complex egg-enriched media for growth, Lowenstein-Jensen
resistant to chemical treatments, disinfectants, drying but susceptible to heat treatment (pasteurization) |
Mycobacterium bovis |
| tuberculosis mainly in cattle, also in humans, deer, badgers, cats, etc. |
Mycobacterium avium subsp. |
| Johne's disease in cattle, ruminants and deer |
Mycobacterium bovis |
causative agent of bovine tuberculosis
incidence higher in dairy than beef cattle but also seen in goats, pigs, rare in sheep, horses
occurs worldwide
major cause of production loss due to chronic progressive nature of the disease
developed countries have testing and eradication programs |
Mycobacterium bovis |
Reservoirs: infected cattle, deer, other wildlife
Transmission: mainly via aerosols, ingestion requires significant higher dose, through milk to calves and humans, pigs from eating improperly processed carcasses
Key virulence factor is ability to survive and multiply within alveolar macrophages
no exotoxins or endotoxins |
Mycobacterium bovis |
cell envelope lipids and glycolipids and mycolic acids, such as mannose-liparabinomannan, which contributes to suruvival within macrophages and stimulate granuloma formation
specialized ESX-1 secretion system and effectors, also contribute to survival within macrophages
heat stable proteins such as tuberculin |
Mycobacterium bovis |
tuberculin and PPD (prurified protein derivative) heat stable protein mycolic acids- delayed hypersensitivity, contain infctions and causes lung damage standard skin test for Tb measures delayed hypersensitivity
facultative intracellualr pathogen that multiplies within inactivated alveolar macrophages (can be killed by activated macrophage) |
Mycobacterium bovis |
Entry: bind to complement receptor CR3 and enters macrophage
Surival: prevents maturation of phagosome at early endosomal stage before it acidifies
Spread: continues to multiply until macrophage bursts or is killed, then infect other macrophages
often form granuloma in tuberculosis |
Mycobacterium bovis |
within alveolar macrophages a localized inflammatory response --> recruitment of monocytes --> building blocks for granuloma or tubercle --> granuloma- consists of infected macrophages surrounded by foamy macrophages and other monocytes, with mantle of lymphocytes and fibrous cuff of collagen and other matrix proteins
granuloma represents containment phase of infection- no overt signs of disease or transmission |
Mycobacterium bovis |
hypersensitivity to tuberculin - activated macrophages and cytokines limit further bacterial growth = latency
large doses of Ag can lead to tissue destruction and necrosis in and around granuloma
humoral antibodies develop but provide no significant protection
loss of condition, weakness, varialbe appetite, intermmittent fever, wet cough, dyspnea, mastitis , enlargement supramammary lymph nodes
only see clinical signs in advance disease |
Mycobacterium bovis |
| Several cows in a dairy herd in MI showed significant weight loss and reduced milk production over several monthes. All had capricious appetites, fluctuating low grade fevers, and rough hair coats. They became progressively weak and emaciated and developed a chronic, wet cough especially upon exertion. Several had swollen lymph nodes in the neck and ches |
Mycobacterium bovis |
Diagnosis Ante-mortem- tuberculin test in cattle- monitor herds in eradication efforts measures delayed hypersensitivity reaction to tuberculin Inject PPD intra-dermally 1-3 days to migrate/respond positive - indicates infection at some time negative - never been exposed single intradermal/comparative intradermal
Post-mortem classic lesions, acid fast stain of tissues from lesions, culture --> ID colonies with DNA probe or PCR techniques |
Mycobacterium bovis |
Treatment and Control inappropriate in control programs, positive --> slaughtered have achieved erradication in many countries wildlife reservoirs are major obstacles to eradication vaccine for humans- live attenuated BCG = bacillus Clamette-Guerin relative protection, work in progress
Zoonotic- spread mainly via unpasteurized milk |
Actinobacillus suis |
gram negative pleiomorphic rod
normal flora of upper respiratory tract in pigs
causes septicemia, meningitis, arthritis, bronchopnemonia in young pigs under 3 months
in high health herds can cause disease in any age
clinicals signs: fever, prostration, respiratory distress with occasional arthritis
no commercial vaccines |
Mycoplasma hyorhinis |
sporadic polyserositis/polyarthritis in pigs <3 months old
fever, labored breathing, lameness, swollen joint
serofibrinous pleurisy, pericarditis, pertonitis are seen as well as serosanguinous synovial fluid in joints
high morbidity, low mortality
common inhabitant of respiratory tract in pigs |
Mycoplasma hyosynoviae |
sporadic polyarthritis in young pigs 10-30 weeks of age
transient lameness, usually without fever
on necropsy, serosanguinous synovial fluid in affected joints
high morbidity, low mortality
common inhabitant of respiratory tract in pigs |
Haemophilus parasuis |
gram negative pleiomorphic rod, requires V factor for growth
normal flora of upper respiratory tract and tonsils of pigs
Causes Glasser's disease = polysersitis and leptomeningitis in weaned pigs but to 12 weeks
sporadic disease of young swine compromised by stress, like weaning or transport |
Haemophilus parasuis |
fever, depression, anorexia, dyspnea, lameness, pain (evidenced by squealing), lateral recumbency, cyanosis of ears and snout
If meningitis present- incoordination, tremors, convulsions
Necropsy: serofibrinous to fibrinopurulent exudate on serosal surfaces (pleura, pericardium, peritoneum), joints, meninges
bacterin vaccines available |
Streptococcus suis |
gram positive coccus in chains, catalase negative
alpha hemolytic, Lancefield group D
causes: septicemia, meningitis, arthritis, bronchopneumonia, sporadic cases of endocarditis
found worldwide |
Streptococcus suis |
Reservoir: tonsils and nasal cavities of asymptomatic carrier pigs
Transmission: from sows to their litters
Virulence factors: capsule, suilysin (hemolysin)
outbreaks most common in intesively reared pigs under stress
Clinical signs: fever, respiratory distress, tremors and seizures, lameness and swollen joints, neurological signs from meningitis |
Streptococcus suis or Haemophilus parasuis |
Four dozen early weaned pigs were purchased and transported in cold spring in an open truck. Wihtin a few days, more then half the pigs showed severe lameness and swollen joints as well as high fever, depression, and anorexia. Many were recument or dog-sitting due to joint pain. Several showed muscular tremors, paralysis, and convulsions suggestive of meningitis. Most untreated cases dies within 2-4 days and those that survived were stunted and lame
culture to confirm diagnosis |
Erysipelothrix rhusiopathiae |
gram positive small rods (acute disease) or filaments (chronic disease)
catalase negative, coagulase positive
pigs, turkeys, humans
|
Erysipelothrix rushiopathiae |
Reservoir: tonsils of healthy pigs also isolated from many other animals, poultry and wild birds
Transmission: bacteria shed in large numbers in feces; infection by ingesion of contaminated food or water, or through skin abrasions
occurs in 4 forms septicemia and cutaneous = acute arthritis and vegetative endocarditis = chronic |
Erysipelothrix rhusiopathiae |
Acute Clinical Signs sudden onset, high fever, sometimes sudden death withdraw from herd, lie down and don't move upon rising, squeal in pain, stiff, stilted gait, shifting, recumbency post-exposure, develop characteristic raised "diamond skin" cutaneous lesions |
Erysipelothrix rhusiopathiae |
Chronic Clinical Signs arthritis cardiac insufficiency due to endocarditis erosion of bone and proliferation of synovial tissue |
Erhysipelothrix rhusiopathiae |
Diagnosis age of pigs and clinical sings culture and ID is critical systemic- culture blood from live animals- joints, hear and meninges |
Erysipelothrix rhusiopathiae |
| Many of the feeder pigs on a farm became acutely ill, with high fevers and severe lameness. Examination of the lame pigs revealed enlargement of elbow, hip, hock, stifle, knee joint and joints were hot and painful. These pigs were often recumbent and would only rise if provoked. They then, squealing in pain, moved in a stiff stilted gait and returned quickly to recumbency. Some of the affected pigs also showed skin lesions which ranged from small light pink to purple raised areas to diamond shaped urticarial lesions with areas turning black and separating from the underlying raw surfaces |
Strep suis |
grows on blood and chocolate agar
NG on MacConkey
hemolytic, catalase negative
several epidemics in humans |
STEC |
| frequently carried asymptomatically in intestinal tract of cattle and other ruminants without causing edema disease |
Haemophilus parasuis |
grows on chocolate or as satellite around S. aureus on blood
NG on MacConkey
requires v factor |
Actinobacillus suis |
| growth on blood, chocolate, Mac |
Erysipelas rhusiopathiae |
growth on blood
NG on MacConkey
catalase negative, coagulase positive
causes infections in humans |
Erysipelas treatment |
penicillin, tetracycline
not effective once chronic lesions have developed
both live attenuated and bacterin vaccines available |
Streptococcus suis treatment |
penicillin
bacterin vaccine |
Haemophilus parasuis |
penicillin, tetracycline
bacterin vaccine |
Actinobacillus suis treatment |
penicllin, tetracyclin
no vaccine |
STEC |
produces vertotoxin = shigatoxin
AB subunit toxin
toxin produced in GI, absorbed into bloodstream and affects endothelial cells and CNS |
ETEC |
| entertoxigenic |
ETEC |
Adhesins- Pili F4, F5, etc
Exotoxins- LT, ST
Pathology- hypersecretion, small intestine
Disease- watery diarrhea, often neonatal |
STEC |
Adhesins- F18 fimbriae
Exotoxins- Stx, hemlysin
Pathology- invasion, colon
Disease- edema disease in pigs |
ETEC |
neonatal diarrhea and septicemia in piglets, calves, lambs, less commonly in foals
post-weaning diarrhea in pigs |
ETEC |
Reservoir: GI, contaminated soil, food, water
Transmission: by ingesion, or ubilical cord -- septicemia
bacteria ingested --> survive stomach --> colonize epithelial surface of small intestine (fimbrial adhesins) --> proliferate --> secrete enterotoxins --> trigger secretion of water and electrolytes --> severe watery diarrhea, dehydration, listlessness, metabolic acidosis, death (may occur before signs of diarrhea) |
ETEC |
Calf scours profuse yellow-white diarrhea that accumulates on the hind legs and tail, animals become dehydrated, lose weight and condition
severely affected calves die within a few days without treatment |
ETEC |
Pig Neonatal Diarrhea newborn pigs dying of neonatal diarrhea
distended intestins with fluid but no physical damage to the mucosa
fluorescent antibody staining with anti-F6 pilin demonstrates infection, yellowish fluorescent layer on top of the villi |
ETEC |
Diagnosis age of affected animals, clinical signs, duration of illness
culture of fecal specimen on Mac, also on blood
bright pink on Mac, oxidase neg
gram stain
PCR |
ETEC |
| Several newborn calves (1-5 days old) developed severe diarrhea, with watery yellow-white feces. Their tails and hindquarters were soiled and the feces had an offensive, rancid smell. The calves were weak, dull and listless, and had rough hair coats and loose skin. Two of the most severely affectd aimals died within 24 hrs |
ETEC |
Treatment fluids and electrolytes to counter dehydration Ab desired, should do susceptibility panel, since often resistant
Control ensure newborns recieve colostrum, vaccination with pilus vaccines or whole cell vaccines breeding for disease resistance |
STEC |
bacteria adhere to intestinal epithelial cells via F18 pili
toxin produced in GI is absorbed into bloodstream, damages endothelial cells and cause perivascular edema
sudden onset, edema of eyelids, and face, musclular tremors, paresis, leading to flaccid paralysis, death within 36 hrs
Necropsy- edema of stomach, colon, perivascular edema in CNS |
Salmonella enterica |
Non-professional phagocytes, such as intestinal epithelial cells :
entry of pathogen-specified receptor-mediated endocytosis. Bacteria trigger their own uptake into host cells |
facultative intracellular pathogens need a means to evade killing by host cell |
escape from phagosome - listeria
distrupt maturation - mycobacterium, salmonella
survive with pagosome - coxiella |
Salmonella enterica |
gram negative rod, ferment glucose, oxidase negative
does not ferment lactos, colorless colonies Mac, produces H2S
LPS in outer membrane and therefore endotoxin
motile, with peritrichous flagella
multiple antigenic types based mainly on O and H antigens , some also have capsular antigens |
Salmonella enterica |
enterocolitis, with diarrhea with fecal leukocytes and sometimes blood, speticemia and systemic disease
broad host range
Reservoir: GI of many animals, water and food contaminated with fecal matter
Transmission: ingestion of contaminated food |
Salmonella enterica |
requires significant infecting dose
Type III secretion system and invasion proteins
modify phagosome to permit multiplication with epithelial cells -> multiply -> exocytose into lamina propria -> taken up by macrophages
stimulate local inflammatory response |
Salmonella enterica |
disease damages enterocytes by multiplication and inflammatory response
septicemic infection, conveys persistence in macrophage, which then transport bacteria to lymph nodes and through bloodstream
Clinical signs: enterocolitis, fever, depression, anorexia, colic/cramping, profuse diarrhea, dehydration, weight loss, abortion , severe in young animals |
Salmonella enterica |
Septicemia abrupt onset, high fever, depression, recumbency, enteric signs, very young animals
Diagnosis culture on MacConkey, specialized medium for Salmonella- Hektoen enrichment broth colonies will be colorless on Mac, oxidase negative, H2S positive gram stain = gram negative biochem tests plus serotyping PCR
Necropsy: entercolitis with blood-stained luminal contents and enlarged mesenteric lymph nodes |
Salmonella enterica |
A dairy herd with 100 cows, and 35 calves was affected by an outbreak of diarrheal disease characterized by profuse, fetid, blood-streaked diarrhea. The affected animals exibited fever, anorexia, depression, and dehydration and become progressively weak. Twelve of 20 affected cows and 2/7 affected calves died within 2-3 days and several pregnant cows aborted in late gestation. All of the affected animals had eaten feed containing a new lot of bone meal.
two children on the farm developed fever, chil, bloody diarrhea, and abdominal cramps 2 days after consuming raw milk from the farm and required hospitalization |
Salmonella enterica |
Treatment fluids and electrolytes to counter dehydration antibiotics generally not used except in foals to prevent septicemia
Control live attenuated and bacterin vaccines to pregnant animals vaccines do not give long term protection biosecurity and reducing risk of exposure critical careful disinfection after infected animals |
Salmonella enterica |
| A 4-year old standardbred stallion presented with acute onset of severe diarrhea of 8 hrs duration. Fecal samples contained blood, fecal leukocytes and mucus. History was unremarkable, and the horse had been in full training and racing at the local racetrack. On clinical exam the horse was depressed, dehydrated, mildly colicky and mildly tachycardic but temperature was normal. Venous blood gasses and electrolytes showed milkd metabolic acidosis with hyponatremia. A CBC showed leukocytosis with a left shift and hyper-fibringenemia, which were both compatible with severe colitis. The horse improved with treatment. Unfortunatley, over the next few weeks, many other horses treated at the same vet hospital developed similar symptoms and 44 % of those affected died |
Lawsonia intracellularis |
small curved gram negative rod, single polar flagellum
obligate intracellular pathogen- found in cytoplasm of intestinal crypt cells, can be grown in pig enterocytes
microaerophilic
causative agent of proliferative enteropathy of pigs and foals
pigs and foals recently weaned, or feeder pigs |
Lawsonia intracellularis |
Reservoir: GI tracts of many animals, including pigs, horses, deer, canids
Transmission: ingestion
once in illeum bacteria attach to and enter enterocytes adhesins not yet identified
escape from phagosome and replicate in cytoplasm |
Lawsonia intracellularis |
need actively proliferating and differentiating crypt cells to infect and cause disease (occurs at weaning)
bacteria may trigger proliferation of crypt cells, and inflammatory response
foals- diarrhea, hypoproteinemia, ventral edema, and ill-thrift, illeum proliferative enteropathy- thickened corrugated mucosa due to hyperplasia |
| [image] |
Lawsonia intracellularis |
Lawsonia intracellularis |
porcine intestinal adenomatosis- non-hemorrhagic, diarrhea, failure to gain weight
Chronic necrotic enteritis- progressive emaciation, and chronic scours
proliferative hemorrhagic enteropathy - hemorrhagic form, severe bloody diarrhea |
Lawsonia intracellularis |
| necrotic enteritis-> yellow-gray cheesy masses that adhere tightly to mucosa |
Lawsonia intracellularis |
Diagnosis Pigs histologic observation silver stain or PCR demonstration of bacteria serology, ELISA and IFA for antibodies
Horses clinical signs, hypoproteinemia serology, ELISA, IFA for antibodies PCR |
Lawsonia intracellularis |
Treatment Pigs tylosin or tiamulin prophylactically
Foals IV oxytetracycline 1 w, followed by erythromycin for several weeks
Control live attenuated vaccine |
Lawsonia intracellularis |
| Many of the 8-16 week old feeder pigs on a swine feedlot developed bloody scours or black scours. The affected pigs had poor appetite and diarrhea that began as soft mucoid feces but progressed to mucohemorrhagic diarrhea. Many of the severely affected pigs died, and were found lying in a puddle of blood-colored liquid feces. Animals that survived were often stunted and unthrifty. |
Brachyspira (serpulina) hyodysenteriae |
| swine dysentery |
Brachyspira (serpulina) hyodysenteriae |
gram negative, motile, oxygen tolerant, anaerobic spirochete
beta-hemolytic on blood
found worldwide |
Brachyspira hyodysenteriae |
Reservoir: found in the intestinal tract of clinically affected as well as normal pigs
Transmission: ingestion of food/water contaminated with feces
Virulence factors: motility- penetration through mucus into crypts, hemolytic activity
migrate through intestinal mucus, attach to epithelial cells, tigger production of excessive mucus
hemolysin and LPS involved in damage and inflammatory response |
Brachyspira hyodysenteriae |
clinical signs most common in weaned pigs 6-12 weeks diarrhea, soft yellow-gray feces, anorexia, fever, watery diarrhea w/blood, mucus, flecks of white mucofibrious exudate, dehydration, emaciation, acidosis lying in pool of bloody feces, too weak to rise lesions confined to large intestine |
Brachyspira hyodysenteriae |
Diagnosis age, and clinical signs microscopy or fluorescent AB detection of bacteria anaerobic culture
Treatment- tylosin or tiamulin in water for treatment, feed for prophylaxis
Control- no good vaccines, biosecurity, antimicrobials |
Clostridium perfringens |
produces wide varietty of toxins, divided into 5 types (A-E), with presence of 4 lethal toxins: alpha, beta, epsilon, iota
Nagler test for phopholipase activity: streak on egg yolk agar, and look for opaque area around streak, caused by degradation of lecithin, inhibited by anti-alpha-toxin |
Clostridium perfringens A |
| gas gangrene, food poisoning, enterocolitis, hemorrhagic enteritis, necrotic enteritis |
Clostridium perfringens B |
| lamb dysentery, enterotoxemia |
Clostridium perfringens C |
| struck = acute enterotoxemia, hemorrhagic eneritis, necrotic enteritis, enterocolitis |
Clostridium perfringens D |
| pulpy kidney disease |
Clostridium perfringens E |
| bovine neonatal enterotoxemia |
Pulpy kidney disease |
worldwide in lambs, kids, calves, and adult goats
prevalence <10%, close to 100% mortality
affected animals on high nutrient diets, large quantities of starch into small intestine, rumenal stasis
epsilon toxin penetrates through intestinal mucosa, spreads via bloodstream to brain, causes degeneration of vascular endothelium and edema in brain, and other organs |
Pulpy kidney disease |
very rapid, fatal outcome found dead with no symptoms severe convulsions dullness, depression, anorexia, green pasty diarrhea, staggers, sircling, convulsions, opisthotonus, death hyperglycemia, glycosuria |
Pulpy kidney disease |
Necropsy soft pulpy kidneys hemorrhage, edema, liquefaction in brain pericardial sac filled with straw colored fluid patchy congestion of intestinal mucosa focal symmetrical encephalomalacia
Treatment: not practical
|
Lamb Dysentery |
worldwide but rare in US
affects lambs <1 week old
die with no signs, abdomina distension, severe abdominal pain, diarrhea, brown fluid feces, tenesmus, recumbency, death
Risk factor- unestablished normal flora, low proteolytic activity
Necropsy- hemorrhagic enteritis, focal necrosis, ulceration of small intestine |
Neonatal Enterotoxemia |
C- piglets, B&C- calves, B-foals
bloody diarrhea, tenesmus, acute abdominal pain, depression, dehydration, neuro signs (B), more severe (C)
Necropsy: hemorrhagic enteritis, ulceration of mucosa, localized area of necrosis in illeum, peritonitis, blood in the lumen, gas evident |
Necrotic Enteritis in poultry |
A, occasionally C, broilers up to 12 weeks
actue enterotoxemia- sudden, depression, diarrhea, reluctance to grow, death
Risk factors- concurrent infection, mucosal damage, diet high in wheat or barley rather than corn
Necropsy- necrotic mucosa of small intestine, villous necrosis, gas distention, large G+ rods, yellow pseudomembrane |
Necrotic Enteritis in Poultry |
| Twenty of 110 6-8 week old feedlot lambs on a Midwestern farm died suddenly over a 24 hr period. The lambs had only recently arrived in the feedlot, and were fed a high grain ration. Some of the lambs had diarrhea, and others showed incoordination, circling and staggering and convulsions before they died. On necropsy, there was straw-colored fluid in th epericardial sacs and throacic cavities, degenerative changes in the brains, autolysis of the kidneys and patchy hemorrhages ont he intestinal mucosa. |
Necrotic Enteritis in Poultry
|
Diagnosis clinical signs, suddent death focal symmetrical encephalomalacia (D) gram stains- G+ rods culture (anaerobic) biochemical tests or PCR ELISA
Treatment- hyperimmune serum
Control- vaccination |
Clostridium difficile |
gram positive, anaerobic spore-forming rod
normal flora of intestin of people and animals
disease = antibiotic associated diarreha --> developes into pseudomembranous colitis
antibiotics disrupt normal flora and allow germination of spores
severe entercolitis |
Clostridium difficile |
two toxins, enterotoxin and cytotoxin -> disruption of epithelial cytoskeleton, loss of tight junctions, cytokine release, and inflammation
plaques of fibrin, dead epithelial cells, mucus, inflammatory cells
diarrhea and fatal necrotizing enterocolotis, profuse watery diarrhea, dehydration, antibiotic induced disease
treatment- discontinue Ab and use vancomycin or metronidazole |
Mycobacterium avium subsp. paratuberculosis
|
aerobic rods, gram positive, better defined as acid fast
cell walls rich in complex lipids and mycolic acids
obligate pathogen, although can survive up to a year in contaminated soil- resistant to drying (cell wall glycolipids)
Causes Johne's, chronic, contagious, fatal enteritis |
Mycobacterium avium subsp. paratuberculosis |
facultative intracellular pathogen that lives within intestinal macrophages
grows very slowly on enriched egg yolk agar, needs iron chelator, rough colonies
host range - true ruminants cattle, shee, goats, and deer as well as pseudoruminants- llamas, alpacas, and camels
|
Reservoir: intestines of infected cattle, goats, deer, etc. and soil contaminated with feces, may also be carried in carnivores and prey animals
Transmission: via ingestion, or in utero
Virulence factors: key-ability to survive and multiply within macrophages, cell envelope lipids and glycolipids and mycolic acids, mannos-lipoarabinomannan, granuloma formation, immune response to Map is critical, johnin-delayed hypersensitivity
|
Mycobacterium avium subsp. paratuberculosis |
Mycobacterium avium subsp paratuberculosis |
Pathogenesis: younger animals ingested--> bind and are phagocytosed (M cells in peyer's patches), requires Map --> transcytose when engulfed --> Map blocks maturation, survives, multiplies --> initally no evidence of disease (silent carriers) --> progresses to granulomatous reaction --> enteropathy thickened and corrugated large intestinee |
Mycobacterium avium subsp paratuberculosis |
silent, subclinical, non-detectable --> sub-clinical shedders --> clinical disease- visible symptoms --> end stage disease
reduced milk production, diarrhea- pea soup, weight loss, bottle jaw, premature culling, decreased fertility
increased incidence of mastitis |
Mycobacteriu subsp. avium paratuberculosis |
| The owner of a 200 cow dairy herd in MI called the vet to investigate a diarrheal disease problem. He had 2 cows with a history of chronic progressive diarrhea that had been worsening for several months. Both cows were markedly emaciated, with sunken eyes and rough coats and submandibular edema, but had normal temps and appetities. Both cows had reduced milk production, as did 6 others who appeared healthy but had intermittent diarrhea. |
Mycobacterium avium subsp paratuberculosis |
| A small dairy goat herd had been maintained as free of both caseous lymphadenitis, and paratuberculosis for a dozen years. The owner wanted to improve quality of her herd, and purchased a 3 mo old buck from a reputable breeder. Two years later, she had two young goats show significant weight loss and reduced milk production over several months. When one of these goats was euthanized and necropsied, there was severe illeal enteropathy and histopathology of the lesions showed many macrophages containing acid fast rods. |
Mycobacterium avium subsp paratuberculosis |
Diagnosis- Necropsy gross and histopathology of intestinal lesions granulomatous inflammation detection of Map- culture or PCR detection of cell-mediated immmune response -> gamma interferon assay, hypersensitivity test detection of antibody to Map- CF, ELISA, AGID
Treatment- not done
Control- screening, cull positives, vaccines (bacterin and live),
may be associated with Crohn's disease in humans |
Listeria monocytogenes |
| causes septicemia, encephalitis, and/or abortion in sheep, cattle, goats, pigs, dogs, cats, horses |
Chlamydophil abortus |
| causes abortion in sheep and other species |
Brucella sp |
| abortion in cattle, goats, sheep, pigs, dogs |
Listeria monocytogenes |
gram positive, short rod, non-spore forming
highly motile, facultative anaerobe, catalase positive
beta-hemolytic on blood, CAMP positive
capable of growth at wide range of temps
facultative intracellular pathogen |
Listeria monocytogens |
food born infection that can lead to bacteremia and systemic disase in many animals
encephalitis, late abortion, GI infection, septicemia
Reservoir: intestinal tracts of humans and animals, ubiquitous in environment in soil, water on plants = soil saprophyte; multiplies in poor quality, high pH silage
|
Listeria monocytogenes |
Transmission: ingestion, can be transplacentally infects fetus- tiggering abortion, during delivery- cause septicemia and meningitis
Virulence Factors: Internalin A and B- suface proteins, zipper mech Listeriolysin O- pore-forming cytolysin lyses phagosome Phospholipases PlcA and PlcC- release baceria ActA- actin-based motility |
Listeria monocytogenes |
pathogenesis bacteria ingested--> infect intestinal epithelial cells --> trigger uptake into cells (zipper) --> can become septicemia --> can also cross BBB --> blood brain barrier
can also cross placenta
2 major diseases : encephalitis, late abortion |
Listeria monocytogenes |
encephalitis- migrate up cranial nerves, trigeminal, to brain to case microabscesses in brain stem
incoordination, lateral head tilk, facial nerve paralysis, drooping of ear/eyelid, tongue protrusion, excessive salivation, circling, head deviation, recumbency, drooling
Late abortion- GI bloodstream, placenta to fetus, systemic illness
|
Listeria monocytogenes |
disease most severe in neonates, elderly and immune-compromised, and pregnant women
Diagnosis: culture blood agar, cold enrichment,
Treatment- tetracyclines, Abs that can enter host cells response poor in neural infection
control- good quality silage, live attenuated vaccines
Zoonotic- severe food-borne disease, pregnant women avoid unpasteurized milk or soft cheeses |
Campylobacter fetus subsp. venerealis |
causes bovine genital campylobacteriosis
venereal disease of cattle primarily in early embryonic death, infertility, protracted calving season and abortion
rare cause of abortion in sheep and goats |
Campylobacter fetus subsp venerealis |
Reservoir: genitalia of bulls, preputial and penile crpts and carrier cows, older bulls more likely to be infected, increased epithelial crypts provides microaerophilic conditions
Transmission: natural breeding or artifical insemination
Pathogenesis: campylobacter in cervicovaginal mucus --> endometritis and salpingitis during progestational phase --> early embryonic death and resorption --> transient infertility --> protective immunity, return of fertility |
Campylobacter fetus subsp. venerealis |
Clinincal Sign: bulls- none, cows -> systemically normal, early embryonic death, prolonged luteal phase, irregular estrous, repeat breeding, protracted calving, observed abortion, herd-> low or marginally low pregnancy rates and increased rate
Diagnosis: detection of bacteria in sheath, mucus, fluorescent Ab, or PCR, culture, ID, ELISA
|
Campylobacter fetus subsp venerealis |
Treatment bulls- streptomycins systemically and topically
Prevention: vaccination (bacterin), before and during breeding season |
Campylobacter fetus subsp. fetus |
ovine genital campylobacteriosis
most common causes of ovine abortion worldwide less frequent in goats and cattle
|
Campylobacter fetus subsp fetus |
Reservoir: GI tracts many animals, genital tracts of infected ewes
Transmission: fecal-oral, NOT venereal
pathogenesis: ingestion --> multiply in GI --> localization in uterus and infection of uterin wall and placenta--> late term abortion, stillbirth, birth of weak lambs |
Campylobacter fetus subsp fetus |
Clinical signs: sudden abortion, vaginal discharge
Diagnosis: staining bacteria, fluorescent Ab test, culture, PCR, liver necrosis w. gray-white necrotic foci, exam of placenta
Treatment: chlortetracycline, isolation, remove and burn contamination, move flock to fresh pasture
Prevention: vaccination (bacterin) |
Chlamydophila abortus |
causative agent of enzootic abortion of ewes
most common cause of abortion in sheep in US and worldwide, also goats and sometimes cattle.
gram negative, obligate intracellular pathogen with unique developmental cycle |
Chlamydophila abortus |
MUST be grown in tissue culture, will not grow on standard media
developmental cycle: EB-elementary body infectious form, RB- replicative form
Reservoir: asymptomatic carriers in GI or genital tract |
Chlamydophila abortus |
Transmission: ingestion of organism, shed in placenta and discharge, venereal, in utero, via ticks, or latent infected ewe
Pathogenesis: ingested EBs --> multiplication int tonsils or GI --> modulation of immune system --> infection of uterus, and placenta --> infection of trophoblast cells --> suppurative necrotic placentitis --> prevent normal transfer of nutrients--> fetal death and abortion |
Chlamydophila abortus |
Clinical signs late gestation abortion, dead or weak lambs, diseased afterbirth, vaginal discharge, usually in first pregnancy, develop protective immunity, persistent infection shed at estrus
Diagnosis exam of placenta- necrotic cotyledon, thickened, edematous, exudate culture, specific stains serology with CF, ELISA detection of bacteria and inclusion bodies by giemsa/iodine stain confirmation fluorescent Ab staining or culture, or Ag detetction |
Chlamydophila abortus |
Treatment: tetracyclines, or other drugs that can enter host cells, treate all pregnant ewe once any in herd abort
Control: isolate all aborted ewes, burn all placentas, clean areas where abortion occurred
Prevention: live attenuated vaccine administrated prior to breeding, inactivated vaccine can be used in pregnant animals
Zoonotic: serious for pregnant women, lead to develop abortion, stillbirth, pre-term labor, via oral rout |
Chlamydophila abortus or Campylobacter fetus supsp. fetus |
| On a local sheep farm, 3 weeks before lambing season; there was an abortion storm, with 30% of the ewes aborting in late gestation. Many of the ewes had a mucopurulent vaginal discharge for several days before and after abortion. Several ewes delivered immature lambs, and many full term lambs were weak and sickly. |
