MH & anesthesia for pt with neuromuscular disease – Flashcards
Flashcard maker : Robert May
• Chronic disease of the neuromuscular junction
• Most prevalent neuromuscular disorder; Autoimmune disease
• Most prevalent neuromuscular disorder; Autoimmune disease
Myasthenia Gravis
Myasthenia has an abrupt or insidious onset
True
Affects Women: most often between 30-40 years of age
& Men: most often between 50-60 years of age
& Men: most often between 50-60 years of age
Myasthenia Gravis
Myasthenia Gravis
Incidence: 3-30 people:1,000,000
postsynaptic Ach
Weakness is due to autoimmune destruction, blockage, or
inactivation of ________________ receptors at the NM junction,
inactivation of ________________ receptors at the NM junction,
postsynaptic
↓ed number of receptors & loss of folds on _________________membrane
Myasthenia Gravis is manifested by ↑ing skeletal muscle weakness, fatigability on effort, & at least partial restoration of function after rest
true
MG course includes fluctuating, periods of exacerbation & remission
true
↓ in the number of functional postsynaptic ACh receptors
• caused by immune-mediated destruction, blockage, or inactivation
• caused by immune-mediated destruction, blockage, or inactivation
Myasthenia Gravis
Mouth, eyes, pharynx, proximal limb, & shoulder muscles
most commonly affected with
most commonly affected with
Myasthenia Gravis
Myasthenis Gravis is associated with Extraocular muscle weakness ptosis & diplopia
true
Laryngeal & pharyngeal muscle weakness, dysarthria,
difficulty swallowing, problems clearing secretions, &
pulmonary aspiration are associated with
difficulty swallowing, problems clearing secretions, &
pulmonary aspiration are associated with
Myasthenia Gravis
Severe disease of myasthenia gravis has
respiratory muscle involvement
What accounts for much of the morbidity & mortality of myasthenia gravis
swallowing and respiratory dysfunction
With myasthenia gravis muscle strength deteriorate with rest, but improve with repeated effort
False
muscle strength improves with rest, but deteriorates rapidly with repeated effort in myasthenia gravis
true
enhanced and repetitive effort with mysathenia gravis will
enhance weakness
What is the treatment of Myasthenia Gravis
Anticholinesterase drugs (Pyridostigmine)
Corticosteroids or other immunosuppressants
Plasmapheresis – washes antibodies out of plasma
IV immunolgobulin (IVIg)
Thymectomy (remove the thymus gland)
Corticosteroids or other immunosuppressants
Plasmapheresis – washes antibodies out of plasma
IV immunolgobulin (IVIg)
Thymectomy (remove the thymus gland)
How does Anticholinesterase drugs (Pyridostigmine) work
By inhibiting hydrolysis of Ach by acetylcholinesterase,
these drugs ↑ the amount of Ach at the NM junction
these drugs ↑ the amount of Ach at the NM junction
how does Corticosteroids or other immunosuppressants help myasthenia gravis
Corticosteroids- 80% remission rate
Azathioprine (Imuran) & cyclosporine works by suppressing immune system
Azathioprine (Imuran) & cyclosporine works by suppressing immune system
what occurs with Under-dosing of an anticholinesterase
Myasthenic Crisis
Severe exacerbation of myasthenic lead to s/s
respiratory distress
Over-medicating of an anticholinesterase
Cholinergic Crisis
Produces a surplus of ACh at the NMJ, resulting in a depolarizing-like block & augmenting skeletal muscle weakness
Cholinergic Crisis
what are the Muscarinic side effects present in cholinergic crisis
Abdominal cramping, diarrhea, salivation, bradycardia, respiratory distress, miosis
what is Edrophonium Test used for?
To differentiate a myasthenic crisis from a cholinergic crisis
If you have increased strength after edrophonium test what does that diagnose?
myasthenic crisis
Increased weakness after edrophonium test mean patient is having a
cholinergic crisis
After up to 10mg IV edrophonium (Enlon, Tensilon) (a short-acting anticholinesterase)
How do you perform a enlon, tensilon, edrophonium test?
what is the Preferred anesthetic techniques for Myasthenia gravis?
Regional & Local
these patients are 2-3 times more resistant to succinylcholine
untreated myasthenia gravis patient
these patients exhibit normal or prolonged response to succinylcholine
treated myasthenia gravis patient
these patients are Extraordinarily sensitive to NDMR
myasthenia gravis
Overtreatment with NDMR reversal AChE inhibitors can cause cholinergic crisis & aggravate muscle weakness
true
Presence of cholinesterase inhibitors may potentiate vagal responses in these patients
mysathenia gravis
Respiratory depressant effects of sedatives, narcotics, & volatile agents may be exaggerated with these patients
myasthenia gravis
Relaxant effects of volatile agent may be sufficient for intubation in myasthenia gravis patient
true
why does a treated myasthenia gravis patient have a prolong duration of succinylcholine &
ester-type local anesthetics
ester-type local anesthetics
because the anticholinesterase drugs these patients have been on for therapy also inhibit plasma cholinesterase
If you have a untreated myasthenia gravis patient for RSI, how will you dose the succinylcholine
increase succinylcholine dose to 1.5-2 mg/kg
Even a defasciculating dose can lead to nearly complete paralysis in these patients
myasthenia gravis
If NDMR needed for myasthenia gravis patient, you should use very small doses of short NDMR & monitor closely
true
why should reversal of NDMR with AChE inhibitor performed cautiously in myasthenia gravis patients
because overtreatment can lead to cholinergic crisis & aggravate muscle weakness
Should you avoid reversal by careful titration of NDMR to allow complete spontaneous recovery in myasthenia gravis patients
Yes
When should the patient with myasthenia gravis be extubated
when complete, sustained return of strength
Inform myasthenia gravis patient of risk of postop intubation & ventilation
Strength may appear to be adequate postop, but may deteriorate a few hours later
is a rare, autoimmune disease; mostly in men 50-70 years old; often seen in patients with small-cell lung Ca
Myasthenic Syndrome or Eaton-Lambert syndrome or Lambert-Eaton Myasthenic Syndrome (LEMS)
PRESYNAPTIC
LEMS is a disorder of neuromuscular transmission caused by antibodies that impair the _____________ release of ACh.
LEMS lambert-eaton myasthenic syndrome
The release of ACh is regulated by the influx of calcium through voltage-gated channels (VGCC) in nerve terminals. Pathogenic autoantibodies directed against these VGCC are thought to ↓ calcium influx & inhibit ACh release in this disease
Number & quality of postjunctional ACh receptors unaltered; end-plate sensitivity normal in this disease
LEMS
Characterized by muscle weakness, fatigue, hyporeflexia, & proximal limb muscle aches; diaphragm & other respiratory muscles involved
LEMS
There is Autonomic nervous system dysfunction with LEMS
True
What are the Autonomic nervous system dysfunction that occur with LEMS
Impaired gastric motility, orthostatic hypotension, urinary retention
weakness improves briefly with effort & is unaffected by
anticholinesterases
anticholinesterases
LEMS
What is the treatment for LEMS
No Cure; 3,4-Diaminopyridine (promotes presynaptic Ca++ influx &
↑s amount of ACh released; plasmapheresis; corticosteroids; IV immunoglobulin (IVIg); immunosuppressants
↑s amount of ACh released; plasmapheresis; corticosteroids; IV immunoglobulin (IVIg); immunosuppressants
NDMR Reversal with anticholinesterase may be used with these patients
LEMS
Extremely sensitive to NDMR & succinylcholine
LEMS
Inhalation agents alone may be adequate for intubation in these patients
LEMS lambert eaton myasthenic and MG myasthenia gravis
Symptoms improve with repetitive movement
LEMS
Symptoms worsen with repetitive movements
MG
These patients have decreased reflexes
LEMS
These patients have normal reflexes
MG
LEMS is associated with thymoma
false; MG
MG is associated with oat cell lung cancer/small cell cancer
false
LEMS patients have ptosis and diplopia
false
LEMS usually no ptosis & usually no diplopia
true
has antibodies to POST synaptic acetylcholine receptors
myasthenia gravis
has antibodies to PRE synaptic acethylcholine receptors
LEMS
Chronic, progressive, inflammatory disease of the CNS
(MS) multiple sclerosis
The myelin sheath around the axon is damaged & destroyed with inflammation & scarring
MS
Who does MS affect
• Affects: women 2x’s > men
• Women 20-40 yrs of age
• Rare in children or elderly
• Women 20-40 yrs of age
• Rare in children or elderly
What are some causes of MS
Autoimmune – B & T lymphocytes & macrophages cells attack myelin
• ? – Viruses may play a role
• Not hereditary, but hereditary predisposition
• ? – Viruses may play a role
• Not hereditary, but hereditary predisposition
Physical or mental stress is a risk factor for exacebation of MS
True
Physical or mental stress
• Hormonal disorders (e.g. during menopause)
• Infections (e.g. influenza)
• Desensitization in cases of allergy (e.g. hay fever)
• Immunostimulatory drugs
• Hormonal disorders (e.g. during menopause)
• Infections (e.g. influenza)
• Desensitization in cases of allergy (e.g. hay fever)
• Immunostimulatory drugs
Risk factors responsible for acute attacks in MS patients
Acute exacerbations characterized by occurrence of new symptoms or recurrence of symptoms that had disappeared, persisting for > 24 hrs.
MS
In many cases, symptoms develop for a few days & remain constant for 3-4 wks before declining slowly for 1 month.
MS
There is a cure for MS
No cure; treatments to relieve symptoms, slow disease
progression, & prevent relapses
progression, & prevent relapses
What are long term treatments of MS
Interferons: proteins synthesized by the body that are involved in
intercellular communication & play important role in immune system.
They have an anti-inflammatory activity, & are used to stabilize or
slow progression of the disease.
• Immunoglobulins (IVIg): proteins in blood, as antibodies involved in
immune reactions; effectiveness not yet established
• Glatiramer acetate: mostly in patients with mild symptoms
• Immunosuppressants
intercellular communication & play important role in immune system.
They have an anti-inflammatory activity, & are used to stabilize or
slow progression of the disease.
• Immunoglobulins (IVIg): proteins in blood, as antibodies involved in
immune reactions; effectiveness not yet established
• Glatiramer acetate: mostly in patients with mild symptoms
• Immunosuppressants
Acute exacerbation of MS is treated with Anti-inflammatory drugs (cortisone, glucocorticoids)
True
Stress of surgery will exacerbate symptoms of MS
False
The complications of surgery (infection & fever) does not exacerbate symptoms
False
Impact of surgery & anesthesia on MS related to severity of the disease process
True
Risk of elective surgery in presence of MS is same as in the general population for young & otherwise healthy adults, & in these patients, a diagnosis of MS is not an absolute contraindication for surgery.
True
MS is an absolute contraindication for elective surgery
False
Considerations for patients who are severely disabled or who have
respiratory problems as a result of MS
respiratory problems as a result of MS
In patients with respiratory problems, the nature of the surgery, including the potential need for prolonged respiratory support & mechanical ventilation, should be considered. Patients should be informed in advance of these possibilities so they can decide whether to proceed with surgery.
An ↑ in body temperature of as little as 1°C can cause exacerbation of MS symptoms.
true
Increase of temperature in MS pt can lead to what?
↑s in temperature block the conduction of demyelinated nerves, leading to deterioration of nerve tissue at the sites of demyelination,& are more likely than the drugs used for anesthesia to cause postop exacerbation of symptoms of MS.
What is more likely than the drugs used for anesthesia to cause postop exacerbation of symptoms of MS.
An increase in temperature
GA & Regional have been used in MS pts
true
No unique interactions between MS & drugs used for GA, & no evidence supports recommendations for specific inhaled or IV anesthetic drugs
MS and anesthesia
There is a possibility of exaggerated K+ release after succinylcholine with who
Esp. in severely debilitated patients with neurological deficits & muscle atrophy
This drug may be safe in patients in remission or with mild symptoms of MS
succinylcholine
Possibility of prolonged responses & resistance to effects of NDMR in MS patients
True
Prolonged responses to NDMR consistent with existing degree of skeletal muscle weakness & ↓s in skeletal muscle mass in this disease
MS
Why are MS patients resistant to effect of NDMR
Resistance to effects of NDMR also is possible & has been reported, possibly related to proliferation of extrajunctional cholinergic receptors in upper motor neuron lesions.
Duchenne’s Muscular Dystrophy develop proximal muscle weakness (pelvis & shoulders), manifested first as a gait disturbance
True
• Affects 1:3500 males; evident at 3-5 years
Duchenne’s Muscular Dystrophy
Most common & severe form of MD (inherited)
Duchenne’s Muscular Dystrophy
• Fibrous & fatty infiltration of muscles
• lead to progressive degeneration & necrosis of muscle fibers
• Affects skeletal, cardiac, & smooth muscle
• See enlargement of calf muscles
• lead to progressive degeneration & necrosis of muscle fibers
• Affects skeletal, cardiac, & smooth muscle
• See enlargement of calf muscles
DMD
Duchenne’s Muscular Dystrophy affects skeletal, cardiac, & smooth muscle
True
You will see enlargement of calf muscles in LEMS
false, Duchenne’s Muscular Dystrophy
Progressive weakness & contractures lead to kyphoscoliosis in this disease
Duchenne’s Muscular Dystrophy
As Duchenne’s Muscular Dysrophy becomes severe,it leads to degeneration of
respiratory muscles
(ineffective cough, impaired swallowing,
inability to mobilize secretions),
cardiomyopathy (at 10-20 yrs), mitral
regurgitation, ventricular dysrhythmias
(ineffective cough, impaired swallowing,
inability to mobilize secretions),
cardiomyopathy (at 10-20 yrs), mitral
regurgitation, ventricular dysrhythmias
Duchenne’s Muscular Dystrophy is diagnosis is confirmed by muscle biopsy
true
By age 12, most confined to wheelchair
Duchenne’s Muscular Dystrophy
Duchenne’s Muscular Dystrophy
Death in early adulthood due to progressive
cardiomyopathy or pneumonia
cardiomyopathy or pneumonia
These patients need Surgical steroid coverage (if on steroids)
Duchenne’s Muscular Dystrophy
Compromised cardiac & respiratory conditions may be masked by limited activity
Duchenne’s Muscular Dystrophy
Why do you omit/minimize preop sedation & use smallest possible amounts of anesthetics in DMD patients
Because these patients are VERY sensitive to respiratory depressant effects of opioids, sedatives, GA agents
Delayed pulmonary insufficiency, as late as 36 hours postop can occur in DMD patients
true
Since DMD patients are sensitive to myocardial depressant effects of inhalation agents, sedatives, &
narcotics what induction agent can be used successfully?
narcotics what induction agent can be used successfully?
Ketamine
When you see sudden hypotension & tachycardia during GA in DMD patients, this can signal
heart failure
DMD patients are on aspiration prophylaxis measures d/t
Delayed gastric emptying + weak laryngeal reflexes
Judicious used of fluids with these patients
DMD, because when you see sudden hypotension & tachycardia during GA can signal heart failure in these patients
Succinylcholine is contraindicated in Duchenne’s Muscular Dystrophy
true
Why is Succinylcholine is contraindicated in Duchenne’s Muscular Dystrophy
because it would lead to profound hyperkalemia
(extensive trt: hyperventilation, CaCl, NaHCO3, glucose/insulin)
which would lead to ventricular fibrillation & intractable cardiac arrest
(extensive trt: hyperventilation, CaCl, NaHCO3, glucose/insulin)
which would lead to ventricular fibrillation & intractable cardiac arrest
Local or Regional anesthesia preferred; if GA, use TIVA in DMD patients
true
DMD genetically associated with MH & ↑ed MH risk
False
Uncommon, life-threatening, hypermetabolic disorder of skeletal muscle (not cardiac or smooth muscle) triggered in susceptible individuals
Malignant Hyperthermia
MH is 2.5 to 4.5 times more common in males than females
True
Incidence: between 1:5,000 to 1:50,000 general anesthetics. Highest in young people (mean of 18.3 years)
Malignant Hyperthermia
Inherited, autosomal dominant; 1st formal case report in 1960’s
Malignant Hyperthermia
High-incidence US areas for MH
Wisconsin, Nebraska, West Virginia, Michigan
MH-susceptible patient may be anesthetized multiple times before an MH event
True
What is the mortality rate of MH
< 5%, depending on availability of Dantrolene & proper diagnosis & treatment
MH is a pharmacogenetic disease
true
What is a pharmacogenetic disease
Susceptible patients possess a genetic predisposition for the development of this disease, which is not manifested until they are exposed to triggering agents
Gene for MH is located on chromosome 19, which is also the genetic coding site for the Ca+ release channel of SKELETAL muscle sarcoplasmic reticulum______________________receptor
(ryanodine receptor, RYR1)
Some MH patients have a normal ryanodine receptor & abnormalities in 2nd messengers & modulators of calcium release, such as fatty acids & phosphatidylinositol, may be
present.
present.
True
An abnormal sodium channel in skeletal muscle may also play a role
True
Abnormal cell permeability to Ca+ in SKELETAL muscle
leads to severe hypermetabolism in MH
(Ca+ “trapped” in intracellular space causes rigidity) (Ca+ is “stuck” inside cells)
What happens with Calcium in MH
Enhanced calcium release from sarcoplasmic reticulum leads to uncontrolled increase in extracellular calcium in skeletal muscle in MH
False, uncontrolled ↑ in INTRAcellular calcium in skeletal muscle
This sudden release of calcium from sarcoplasmic reticulum removes the inhibition of troponin in MH and causes
intense muscle contraction
In MH there is ↑ed muscle metabolism (by 2-3 times)
True, Energy-dependent re-uptake mechanisms attempt to remove excess calcium
In MH ↑ed O2 consumption, ↑ed CO2 production, ↑ed heat production, depletion of ATP stores, generation of lactic acid (anaerobic metabolism) are d/t
Accelerated cellular processes
Acidosis, hyperthermia, & ATP depletion lead to
sarcolemma/muscle membrane destruction
marked egress (exit) of potassium, myoglobin, & creatinine kinase from muscle cells to the extracellular fluid lead to
hyperkalemia, myoglobinuria, ↑ed CPK
Hypermetabolic state rapidly progresses and lead to
markedly ↑ing O2 consumption & CO2 production & producing severe lactic acidosis & hyperthermia
These may occur in as little as 15
minutes
minutes
• ↑ed sympathetic tone, acidosis, & hyperkalemia all predispose
patients to V-Fib & sudden death,
patients to V-Fib & sudden death,
Family History of MH
MH; Unexplained anesthetic complications or mortality
• Muscle rigidity/stiffness or high fever under anesthesia
• High temperature or death during exercise
• Muscle rigidity/stiffness or high fever under anesthesia
• High temperature or death during exercise
• Muscle rigidity/stiffness/cramping (unrelated to exercise)
• Dark or “coca-cola” colored urine after surgery or exercise
• Fevers of undetermined origin (esp. after surgery or other stressors)
• Dark or “coca-cola” colored urine after surgery or exercise
• Fevers of undetermined origin (esp. after surgery or other stressors)
Patient history could be susceptible to MH
These patient are a risk for MH
• Intolerance to caffeine (coffee, tea, sodas)
• Chronic subluxation of joints, hypermobility of joints
• Curvature of spinal column requiring treatment
• Strabismus
• Burkitt lymphoma
• Osteogenesis imperfecta
• Myelomeningocele
• Chronic subluxation of joints, hypermobility of joints
• Curvature of spinal column requiring treatment
• Strabismus
• Burkitt lymphoma
• Osteogenesis imperfecta
• Myelomeningocele
RECENT: NO RISK for MH over general population:
• Duchenne Muscular Dystrophy, Becker muscular dystrophy, neuroleptic malignant syndrome, myotonia congenita, myotonic dystrophy
These patient have STRONG clinical & /or genetic link to MH
1) Central core disease
2) King Denborough syndrome
3) Multiminicore disease
2) King Denborough syndrome
3) Multiminicore disease
Amide local anesthetics are MH triggers
False
Phenothiazines/tricyclic antidepressants are MH trigger
false
Nitrous oxide IS NOT an MH trigger
True
Depolarizing muscle relaxants (succinylcholine) and ALL Volatile Inhaled Anesthetics are MH triggers
true
Heat stroke is an MH trigger
true
Strenuous exercise is not an MH trigger
False
Emotional stress, caffeine, infections are MH triggers
true
Onset of MH can occur in PACU, usually one hour after GA
true
MH can occur immediately after induction or several hours into surgery
true
Clinical features not uniform & time between initial signs & fulminant MH is variable
true
The average time between onset of 1st adverse sign & dantrolene administration is 35 minutes
true
The FIRST sign of MH is
• Hypercarbia – 1st sign (abrupt or gradual onset)
• ↑↑↑ ETCO2 (out of proportion to minute ventilation) (> 55 mmHg)
• ↑↑↑ ETCO2 (out of proportion to minute ventilation) (> 55 mmHg)
clinical manifestations of MH
• Hypercarbia
Unexplained tachycardia (Reflects release of epinephrine & norepinephrine)
• Rapid ventricular arrhythmias (bigeminy, multifocal PVCs, V-tach)
• ↓ed SaO2 (Cyanosis)
• Muscle rigidity (75% of cases) (Masseter muscles of jaw (& body)
• Labile BP (• Early – Hypertension • Late – Hypotension)
• Tachypnea (• Mixed acidosis (respiratory & metabolic)
• Skin signs vary (• Flushing due to vasodilation • Mottling/blanching due to vasoconstriction)
Unexplained tachycardia (Reflects release of epinephrine & norepinephrine)
• Rapid ventricular arrhythmias (bigeminy, multifocal PVCs, V-tach)
• ↓ed SaO2 (Cyanosis)
• Muscle rigidity (75% of cases) (Masseter muscles of jaw (& body)
• Labile BP (• Early – Hypertension • Late – Hypotension)
• Tachypnea (• Mixed acidosis (respiratory & metabolic)
• Skin signs vary (• Flushing due to vasodilation • Mottling/blanching due to vasoconstriction)
In MH muscle rigidity will be seen in
the masseter muscles of jaw & body
Muscle rigidity occurs in 75% of MH cases
true
Fever is a early sign of MH
false
Fever in MH
↑s 1-2 C every 5 minutes
• Reaches as high as 46 C (averages 39.3 C, or 102.7° F)
• Reaches as high as 46 C (averages 39.3 C, or 102.7° F)
What will you see in arterial and central venous blood analysis in MH
Arterial hypoxemia
• Respiratory & Metabolic acidosis
• pH 60 mmHg)
• Base excess more negative than -8 mEq/L
• Marked central venous O2 desaturation
• Respiratory & Metabolic acidosis
• pH 60 mmHg)
• Base excess more negative than -8 mEq/L
• Marked central venous O2 desaturation
What happens to potassium levels with MH
Hyperkalemia – early (> 6 mEq/L) & Drops rapidly after normothermia returns
How do you treat hyperkalemia in MH
• Hyperventilation
• Insulin & glucose
• Diuresis (mannitol & lasix)
• Insulin & glucose
• Diuresis (mannitol & lasix)
What are some clinical manifestations of MH that you will see in your breathing circuit
Rapid exhaustion of soda lime & heat
• Excessive breathing circuit heating
• Excessive breathing circuit heating
Transaminases & CPK will peak levels 12-24 hours after acute episode
true
Transaminases & CPK -plasma & urine myoglobin are markedly decreased in MH
False
what are the 12 TERMINAL signs of MH
• Cardiac arrest
• Myoglobinuric (acute) renal failure
• Consumptive coagulopathy (DIC)
• Hepatic dysfunction
• Pulmonary edema
• Cerebral edema
• Fixed pupils
• Areflexia
• Blindness, Seizures, Coma, Paralysis
• Myoglobinuric (acute) renal failure
• Consumptive coagulopathy (DIC)
• Hepatic dysfunction
• Pulmonary edema
• Cerebral edema
• Fixed pupils
• Areflexia
• Blindness, Seizures, Coma, Paralysis
DIFFERENTIAL DIAGNOSES of MH
• Insufficient anesthetic depth
• Hypoxia
• Neuroleptic malignant syndrome
• Propofol infusion syndrome
• Thyrotoxicosis (thyroid storm)
• Pheochromocytoma
• Sepsis
• Hypoxia
• Neuroleptic malignant syndrome
• Propofol infusion syndrome
• Thyrotoxicosis (thyroid storm)
• Pheochromocytoma
• Sepsis
what 2 differential diagnosis of MH can also be treated with Dantrolene
neuroleptic malignant syndome & Thyrotoxicosis
How do you treat patient with positive family or personal history of MH
• Stress free atmosphere – preop med as needed
• AVOID volatile inhaled agents, DMR, Ca+, K+
• Prepare anesthesia machine
• Flush with O2 at 10 L/min x 20 min (old machines) up to 150 min (new machines)
• Change CO2 absorbent
• Remove vaporizers
• Disposable circuit
• MH cart; ice & 3000 mL cold IV solution readily available
• AVOID volatile inhaled agents, DMR, Ca+, K+
• Prepare anesthesia machine
• Flush with O2 at 10 L/min x 20 min (old machines) up to 150 min (new machines)
• Change CO2 absorbent
• Remove vaporizers
• Disposable circuit
• MH cart; ice & 3000 mL cold IV solution readily available
What is a good technique to use in MH patients
Local
MAC
Regional when possible(no protection from stress MH)
GA- narcotics, barbs, NDMR, propofol,(TIVA)
MAC
Regional when possible(no protection from stress MH)
GA- narcotics, barbs, NDMR, propofol,(TIVA)
Important monitoring
***Capnography***
• First line monitor; CO2 ↑s – 1st sign
•Pulse oximeter
•ECG – tachycardia, ventricular arrhythmias
•BP
• Core temp
• Last line monitor; Temp ↑s well into crisis
• First line monitor; CO2 ↑s – 1st sign
•Pulse oximeter
•ECG – tachycardia, ventricular arrhythmias
•BP
• Core temp
• Last line monitor; Temp ↑s well into crisis
What is the treatment of MH CRISIS
• STOP anesthesia (volatile agent & succinylcholine) &
surgery immediately; Call for HELP
• HYPERVENTILATE with 100% O2 at high flows (10 L/min)
• DANTROLENE: • 2.5 mg/kg IV Q 5-10 minutes until symptoms abate • Typically use 2-5 mg/kg
• Rarely need > 10 mg/kg; if > 20 mg/kg given, re-evaluate diagnosis
• Titrate to: ↓ HR, muscle rigidity relaxation, ↓ in temperature
• Give in largest vein possible (phelbitis in small veins)
• Change breathing circuit & anesthesia machine
• CORRECTt severe metabolic ACIDosis with NaHCO3 1-2 mEq/kg IV, based on arterial pH & base deficit
surgery immediately; Call for HELP
• HYPERVENTILATE with 100% O2 at high flows (10 L/min)
• DANTROLENE: • 2.5 mg/kg IV Q 5-10 minutes until symptoms abate • Typically use 2-5 mg/kg
• Rarely need > 10 mg/kg; if > 20 mg/kg given, re-evaluate diagnosis
• Titrate to: ↓ HR, muscle rigidity relaxation, ↓ in temperature
• Give in largest vein possible (phelbitis in small veins)
• Change breathing circuit & anesthesia machine
• CORRECTt severe metabolic ACIDosis with NaHCO3 1-2 mEq/kg IV, based on arterial pH & base deficit
list active cooling with cold solutions:
• NG lavage with iced saline
• Wound irrigation
• Foley catheter
• Cold IVF: NS; AVOID LR
• Surface cooling (hypothermia blanket, ice packs to groin, axilla, neck)
• Wound irrigation
• Foley catheter
• Cold IVF: NS; AVOID LR
• Surface cooling (hypothermia blanket, ice packs to groin, axilla, neck)
In MH crisis cooling measures are stopped when body temp ↓s to 38 C
true
what are the 3 treatments for hyperkalemia in MH crisis
• Hyperventilation
• Bicarbonate
• Insulin & glucose
• Bicarbonate
• Insulin & glucose
Ventricular arrhythmias: Often respond to treatment of acidosis, but if not, give standard antiarrhythmics in MH crisis
true
You can give calcium channel blockers with dantrolene in MH crisis
false
How do you maintain UOP > 2 mL/kg/hr in MH crisis
• Hydration; Lasix (0.5-1.0 mg/kg); Mannitol (0.25 g/kg, as needed)
What labs are drawn during MH crisis
Electrolytes (serum K+, Ca+), ABGs, glucose Q 15 min. until stable
• CK, Coagulation profile, liver enzymes, blood & urine myoglobin
• CK, Coagulation profile, liver enzymes, blood & urine myoglobin
Dantrolene works at NMJ
false
Dantrolene works by
• Skeletal muscle relaxation/muscle weakness (does not work at NMJ) • ↓s amount of Ca+ released from sarcoplasmic reticulum
• Binds with ryanodine receptor & inhibits calcium release
• Binds with ryanodine receptor & inhibits calcium release
Mix each vial of Dantrolene with 60 mL sterile water
true
Dantrolene should be protected from light
true
1 vial of dantrolene = 20mg
true
2.5 mg/kg IV every 5-10 minutes
Dantrolene dose
Dantrolene Dosing for a 70kg patient
175 mg IV every 5-10 minutes
• 9 vials every 5-10 minutes
• Repeat as needed until symptoms are controlled (rarely need > 10 mg/kg)
• Up to 700 mg (35 vials)
• Typically 2-5 mg/kg
• Typically use 140-350mg (7-17.5 vials)
• 9 vials every 5-10 minutes
• Repeat as needed until symptoms are controlled (rarely need > 10 mg/kg)
• Up to 700 mg (35 vials)
• Typically 2-5 mg/kg
• Typically use 140-350mg (7-17.5 vials)
Dantrolene cost
• Dantrolene shelf life: 30 months
• Cost: about $3,000 for 36 vial supply
• Should NOT be shared between facilities
• Cost: about $3,000 for 36 vial supply
• Should NOT be shared between facilities
What is the post op management if NO MH episode (in MH susceptible patient)
• Close PACU observation for at least 2.5 hours; then may D/C home
What is the post op management if MH episode (in MH susceptible patient)
• ICU x at least 36 hours
• 12-lead ECG for changes
• CPK, K+ (follow until normal)
• Temperature
• Instability may persist for days
• UOP > 1 mL/kg/hr
• Renal failure due to myoglobinuria
• Fluid redistribution (4mg/kg/24 hrs x 48 hrs)
• IV Dantrolene half-life: 6 hours
• Dantrolene 1mg/kg IV every 4-6 hrs x 24-48 hrs
• MH can recur within 24 hours (in 20-25% of cases)
• Mean time: 13 hours
• Most likely: muscular body type; > 150 minutes from induction to MH reaction
• Monitor liver function
• 0.1 – 0.2% incidence of hepatitis
• 12-lead ECG for changes
• CPK, K+ (follow until normal)
• Temperature
• Instability may persist for days
• UOP > 1 mL/kg/hr
• Renal failure due to myoglobinuria
• Fluid redistribution (4mg/kg/24 hrs x 48 hrs)
• IV Dantrolene half-life: 6 hours
• Dantrolene 1mg/kg IV every 4-6 hrs x 24-48 hrs
• MH can recur within 24 hours (in 20-25% of cases)
• Mean time: 13 hours
• Most likely: muscular body type; > 150 minutes from induction to MH reaction
• Monitor liver function
• 0.1 – 0.2% incidence of hepatitis
what is the definitive diagnosis of MH
Biopsy of vastus muscle of thigh (MAC, SAB)
How is biopsy of vastus muscle performed
Skeletal muscle specimen subjected to isometric contracture
testing under the influence of caffeine or halothane, or both
(caffeine halothane contracture test, CHCT)
• Measure contractile response of muscle to caffeine, halothane, or both
• Caffeine & halothane produce exaggerated contracture of skeletal
muscle from a patient susceptible to MH
• Test is available at 4 medical centers in North America
• Patient must travel to testing site
• Patients who have survived an MH episode are considered MHS
• CHCT is for family members of MHS patient or for patients who have
had a suspicious but undiagnosed reaction to anesthesia
testing under the influence of caffeine or halothane, or both
(caffeine halothane contracture test, CHCT)
• Measure contractile response of muscle to caffeine, halothane, or both
• Caffeine & halothane produce exaggerated contracture of skeletal
muscle from a patient susceptible to MH
• Test is available at 4 medical centers in North America
• Patient must travel to testing site
• Patients who have survived an MH episode are considered MHS
• CHCT is for family members of MHS patient or for patients who have
had a suspicious but undiagnosed reaction to anesthesia
What other alternative testing for MH
• Alternative Testing: Genetic testing & DNA-based mutation
analysis
• Only about 25% of people at risk for MH are detected by genetic tests
analysis
• Only about 25% of people at risk for MH are detected by genetic tests
