Neuro Micro – Flashcards
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Unlock answers| 6 types of CNS/PNS infections and bacterial agents that cause each |
1. Bacterial Meningitis=Strep pneumoniae, H. influenzae type b, Neisseria meningitidis 2. Neonatal meningitis=Strep agalactiae, E. coli, Listeria monocytogenes 3. Tetanus=Colstridium tetani 4. Botulism=Clostridium botulinum 5. Tuberculoid Leprosy=Mycobacterium leprae 6. Lepromatous Leprosy= |
Discussion Questions:
What pathogen caused the outbreak of meningitis in Michigan? What are the key features of this disease that indicate it is meningitis and not simply a case of the “flu”? How was the disease transmitted in these settings? Why is it important to quickly identify close contacts of those who come down with meningitis? What are the other common causes of bacterial meningitis? |
Bacterial Meningitis symptoms in adults |
sudden fever severe headache stiff neck
nausea, vomiting, confusion, SEIZURES, photophobia, flu-like symptoms
rashes--meningococcal meningitis (Neisseria) |
Bacterial Meningitis clinical symptoms in newborns/children |
constant crying poor feeding sleeping constantly irritability |
Strep pnuemoniae diseases it causes |
MOPS Meningitis Otitis Media Pneumonia Sinusitis
also Conjunctivitis |
| Strep pneumoniae |
Gram + alpha hemolytic OPTOCHIN SENSITIVE extremely unstable in the environment
Normal flora of URT spread by respiratory droplets |
S. pneumoniae virulence |
polysaccharide capsule(antiphagocytic and antigenic) enzymes (autolysin/pneunmolysin and IgA protease)
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Pneumococcal Meningitis -disease mechanism -distinguishing features -diagnosis -prevention |
Disease mechanism: lungs-->blood-->meninges -in meninges, they replicate-->mac response (IL-1, TNF-alpha)
Distinguishing features -prolonged fever (IL-1 is fever inducing) -hearing loss; hydrocephalus
Diagnosis -gram stain CSF -isolate bacteria from CSF (confirmation) -rapid tests for S. pneumoniae antigens
Prevention Vaccine conjugate-Prevnar |
| Hallmark of Pneumococcal Meningitis |
| identification of neutrophils in the normally sterile CSF! (shouldn't be immune cells here) |
Neisseria basics |
gram - non-motile oxidase + cat + aerobic |
Neisseria meningitidis (vs. N. gonorrhoeae) basics |
ferments glucose AND maltose polysaccharide capsule Serovars A=africa B/C=developing countries and U.S. W-135 Y ; lives in respiratory tract |
Which serovar of Neisseria meningitidis is on the rise and causes the most meningitis? ; |
| C |
| N. meningitidis pathogenicity |
Polysac capsule (can survive in blood) pili=adherence, antigenic variation, phase variation LPS=Sialic acid addition (mimic RBCs) IgA protease outer memb proteins |
| When and where are most common outbreaks of N. meningitidis? |
winter close contacts=military, schools, etc. |
| Meningococcal Disease Mechanism |
spread by droplet transmission (15% of healthy ppl carry it in their URT) ; adhere to non-ciliated columnar ep (1-4 days)-->blood-->meningococcemia/LOS-->septicemia-->meningitis
it survives bc of its capsule! |
| Hallmark of meningococcal disease |
| petechial rashes bc N. meningitidis is septic |
Meningococcal meningitis diagnosis |
gram stain of CSF culture of CSF, blood, or skin lesions rapid agglutination tests-polysaccharide capsule (for partially treated patients) |
| Prevention of meningococcal meningitis |
Natural immunity-group specific opsonizing ab
quadrivalent meningococcal conjugate vaccine -protects against A, C, W-135, Y (not B) |
Haemphilus influenzae - tybe b basics |
pleomorphic gram - facultative anaerobe grows on Chocolate agar supplemented with NAD and Factor X
found in URT |
Haemophilus influenzae - type b virulence
|
polysac capsule IgA protease |
H. influenzae - type b Who does it affect? |
non-immunized kids btw 1 month and 3 yrs INVASIVE! enters blood then invades meninges |
H. influenziae - type b diagnosis |
gram stain CSF culture confirmation (choc agar) immunological tests to demonstrate abs to capsular antigen |
Neonatal meningitis causative bacteria |
1. Strep agalactiae 2. E. coli 3. Listeria monocytogenes |
Strep agalactiae basics |
gram + beta hemolytic cell wall antigen=B (GBS) CAMP test positive bacitracin resistant |
Strep agalactiae virulence |
polysac capsule with sialic acid C5a peptidase |
| Risk factors for Strep agalactiae neonatal meningitis |
pre-term delivery early rupture of membranes prolonged labor fever |
Strep agalactiae diagnosis |
CAMP test positive -express a phospholipase-->can synergize with the alpha toxin of S. aureus-->produces an ARROW HEAD hemolysis when put together on a plate |
S. agalactiae disease course (child) |
transmission occurs DURING BIRTH early onset=less than 7 days after birth=pneumonia/bacteremia late onset=more than 7 days after birth=meningitis |
S. agalactiae disease course (mother) prevention |
post partum or post-surgical fever and endometritis-->bacteremia-->meningitis
mothers dont usually get this
screening is done 35-37 weeks gestation |
| Which organism is the leading cause of neonatal sepsis and meningitis? |
| Strep agalactiae |
| Escherichia coli |
gram - facultative anaerobe oxidase negative ferments lactose-MacConkey agar (turns pink) motile |
| What is the most important virulence factor of E. coli meningitis? |
K antigen=allows organism to adhere to meninges
others: O antigen (LPS), H antigen (flagellum) |
| E. coli diseases |
Intestinal disease UTI neonatal meningitis nosocomial infections |
E. coli disease mechanism |
transmitted DURING BIRTH-->K1 capsular antigen associated with the disease (may promote adherence to brain endothelial cells)
NO intrauterine transfer, unlike Strep agalactiae |
Listeria basics |
short, non-spore forming gram + facultative anaerobe ubiquitous in the environment CONTAMINATES PREPARED MEATS, COLD CUTS, DIARY PRODUCTS (SOFT CHEESE) |
Listeria identifying features |
intracellular parasite grows at 4 degrees-food borne infections small zone of beta hemolysis TUMBLING MOTILITY only at 22-25 degrees |
Listeria monocytogenes roots of transmission
|
1. mother to child 2. food born infection |
Listeria monocytogenes lifecycle and pathogenesis |
enters through GI tract-->macs + internalin (host protein) engulf Listeria-->Once inside it is encased in a phagosome-->fuses with lysosome-->should cause death of lysteria, but it doesnt bc of LYSTERIOLYSIN O. This allows it to escape into the cytoplasm of the host cell ActA=causes formation of actin filaments. Gets a tail, which propels the organism to the cytoplasm of the host cell-->forces a protrusion into an adjacent cell-->produces a phospholipase |
Listeriosis risk factors clinical presentation |
Risk factors: impaired cell-mediated immunity (bc it is an intracellular pathogen)
Presentations: 1. Gastroenteritis=48 hrs following ingestion, diarrhea, fever, self limiting, no antibiotics 2. Bacteremia=fever, chills, myalgias 3. Meningitis=in ppl with risk factors |
| Listeriosis in pregnant women |
bacteremia flu-like illness, no CNS involvement
early onset: infection IN UTERO, disseminated disease (sepsis), granulomas, meningitis, DEATH late onset: acquired AT BIRTH, meningitis in 3rd-4th week, lower mortality |
Listeriosis diagnosis How does our body fight it? |
culture from blood, CSF resistant to cephalosporins!
Immunity=cell mediated! |
Clostridia review |
gram + anaerobe bacilli-SPORE FORMER DAMAGED BY OXYGEN (so difficult to send to lab for colonization bc it will be dead)
found in soil and human intestine
|
Clostridia species |
C. botulinum=botulism C. tetani=tetanus
C. perfingens C. difficile |
C. tetani and C. botulinum toxins and symptoms |
they are not very aggressive, but elaborate very POTENT NEUROTOXINS
Botulinism=flaccid paralysis Tetanus=Tetanospasmin... contractile paralysis, opisthotonos (arching of back), Lock Jaw
Eventually people will die bc of inability to BREATH |
C. tetani identifying features |
large, blunt-ended rods spores look like "TENNIS RAQUET" anaerobe and motile
causes disease in old ppl--waning immunity |
| C. tetani pathogenicity |
-metalloproteinase blocks the synaptic vesicle release of INHIBITORY NTs -the toxin has a heavy and light chain-->light chain cleaves synaptobrevin-->prevents inhibitory release |
C. tetani disease mechanism |
-the spore is inoculated into a wound (where there is little oxygen)-->7-21 day incubation period -->multiply locally-->releases tetanospasmin -->taken up by neurons-->retrograde (axonal) transport to CNS |
Tetanus diagnosis and prevention |
muscle spasm, lock jaw, back spasm, paralysis of back muscles, trouble breathing
childhood immunization IgG response to neutralize the toxin |
Clostridium botulinum properties |
7 serotypes (A-G) spores in soil and fresh water, fruits, veggies, honey, roasted peppers germinate in anaerobic
BOTulinsm=BOTtles |
Botulinum disease pathogenesis |
The toxin is resistant to gastric enzymes Metalloproteinase acts on presynaptic membranes at NMJs-->blocks the release of ACh targets peripheral nerves
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C. Botulinum disease mechanism |
| heavy chain of the toxin allows it to enter-->light chain blocks influx of Ca2+-->prevents the release of ACh |
Botulism 3 presentations |
1. classic=12-36 hrs after ingestion, GI symptoms, blurry vision, dysphagia, PROGRESSIVE DESCENDING SYMMETRIC FLACCIDPARALYSIS 2. infant=2 weeks-8 months, ingest toxin or spore-->germinates in the gut, constipation, lethargy, paralysis, Floppy baby syndrome 3. wound=rare, inoculation of spores, IV drug users |
Botulism diagnosis |
clinical observation reportable disease isolating/culturing of organism |
Mycobacteria basics |
acid fast bacilli (pink, Ziehl-Neelson method) mycolic acid=waxy in nature. They repel gram stain. slow growth (4-12 weeks) Aerobes non-motile non-spore former |
| Medically important mycobacteria |
Mycobacterium tuberculosis Mycobacterium avium-intracellulare
MYCOBACTERIUM LEPRAE |
| Mycobacterium leprae |
causative agent of Leprosy low infectivity; requires prolonged contact! has not been grown in culture, BUT has been grown on armadillios |
| Another name for Leprosy? |
| Hansen's disease |
Leprosy distribution transmission |
rare in U.S. majore cause of disease worldwide (tropical and subtropical areas, Asia, Africa)
transmitted by nasal secretions, through nasal mucosa, or through skin lesion
LONG INCUBATION
chronic granulomatous disease, effects peripheral nerves, skin and nasal mucosa |
Disease mechanism--Granulomatous disease in Leprosy |
mycobacterium is taken up by MACS and Schwann cells-->replicate-->release PGL-1, which prevents the fusion of a lysosome with a phagosome -->survival of organism-->body responds by bringing in additional macs and immune cells -->formation of granulomas |
| 2 forms of Leprosy |
1. Tuberculoid=if individual has a strong immune response 2. Lepromatous=if poor cell-mediated response |
Tuberculoid Leprosy symptoms diagnosis |
granulomatous lesion has extensive epithelium giant cell and lymphocyte infiltration; FEW bacilli
symptoms: large, flattened plaques on the face, trunks and limbs (raised erythmatous edges and dry, pale, hairless centers). Patchy anesthesia
diagnosis=clinically and histologically. Lepromin skin test (type 4 hypersensitivity)
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