Term
What terms are used to describe "acutely alered consciousness" and how do you define each of these terms? |
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Definition
lethargy (sleepy but easily aroused with stimulation); hypersomnia (excessively sleepy but normal cognition when awakened); obtundation (mental blunting, decreased alertness; shows cognitive dysfunction in addition to severe lethargy); stupor (eyes open briefly after vigorous stimulation before returning to deep sleep; cognition is impaired); coma (eyes remain closed after vigorous stimulation); delirium (altered mental state in which a disoriented, confused patient fluctuates between lethargy and agitation; mispercpeiton of sensory stimuli, hallucinations; vacillates between quiet, sleepy periods and hyper-vigilance/agitation) |
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Term
Why is it essential to describe a patient's response to stimulation and to define what you mean by "remains obtunded" when documenting a patient's presentation? |
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Definition
different doctors may use terms to mean slightly different things, so detailed description of patient's symptoms may be better than saying "remains obtunded" |
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Term
What terms are used to describe patients in the aftermath of a coma and what do the terms mean? |
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Definition
abulia (awake but apathetic, no spontaneity; may have normal cognitive function with vigorous stimulation; ex: bilateral frontal lobe disease, lobotomized); akinetic mutism (silent, alert-appearing immobility; no mental activity with vigorous sitmulation; no evidence of mental activity even with vigorous stimulation; ex: disease of frontal lobes and hypothalamus); minimally conscious state (appears "vegetative" but shows fragments of awareness); vegetative state (awake, no awareness or meaningful interaction with the environment; akinetic mutism is sometimes used interchangeably; defined as persistent if symptoms last more than 30 days) |
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Term
When do patients in deep coma develop eye-opening? |
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Definition
generally after 2-4 weeks, regardless of coma cause (they show sleep-wake cycles) |
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Term
What does "vegetative" refer to in the term "vegetative state" or "persistent vegetative state" (PVS)? |
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Definition
the "vegetative functions" of the brainstem that include maintaining sleep-wake cycles, respirations, heart rate, BP, and visceral autonomic regulation |
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Term
If a patient is in a minimally conscious state (MCS), what might they do? |
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Definition
reach for objects, grunt, gesture in response to a command, visually fixate and track |
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Term
Are abulia, akinetic mutism, minimally conscious state, or vegetative state mutually exclusive terms or can they overlap? |
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Definition
these conditions overlap and transition over time; they are NOT static; they simply describe the stimuli for arousal and the patient's response |
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Term
What are the 2 components of consciousness? |
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Definition
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Term
What is arousal? What brain components contribute to arousal? What do diseases of arousal cause? |
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Definition
wakefullness/sleep-wake cycles; ascending arousal system (aka reticular activating system) of the rostral brainstem; diseases of arousal cause stupor and coma |
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Term
What is content? What brain components contribute to content? What do diseases of content cause? |
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Definition
all cognitive activity responsible for self-awareness and purposeful intereaction with the environment (behaviors are premeditated and not reflex); cortical circuits contribute to cognition and purposeful interaction with the world; diseases of content cause dementia |
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Term
What is/are impossible without arousal? |
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Definition
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Term
In the early 1900s, an encephalitis known as encephalitis lethargica caused a "sleeping sickness" with patients sleeping for 20 hours a day (described by von Economo). When autopsy/post-mortem studies were performed on those who died, where were the lesions in the brain found? Were there any variations to this presentation? |
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Definition
rostral periaqueductal gray matter and posterior 3rd ventricle; some patients with encephalitis would sleep at most only a FEW hours per day and had lesions in the rostral hypthalamus |
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Term
Among survivors of encephalitis lethargica, what occurred during the recovery phase? Define these terms |
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Definition
sleep attacks and cataplexy (sudden, involuntary loss of muscle tone during emotional excitement, such as intense laughter, causing the individual to fall down)= narcolepsy, as we call it today |
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Term
Where were the lesions found in narcoleptic patients? |
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Definition
posterior lateral hypothalmus lying between a sleep promoting area in rostral hypothalmus and wakefulness-promoting area in upper midbrain |
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Term
What disappears during atonic phase of cataplexy? What appears? |
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Definition
deep tendon reflexes disappear and Babinki signs transiently appear |
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Term
What is the sleep promoting area? What happens when it is destroyed? |
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Definition
ventrolateral preoptic nucleus; when destroyed=insomnia |
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Term
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Definition
loss of neurons that you can histochemically stain with Ab against neuropeptide NT orexin |
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Term
What did long term survivors of von Economo's encephalitis/encephalitis lethargica? |
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Definition
developed a post-encephalitic Parkinsonism syndrome |
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Term
What does the EEG distinguish? |
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Definition
patterns of cortical electrical activity characteristic of wakefulness versus sleep |
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Term
What does a brainstem transection at the level of the cervical medulla cause? What happens when you mechanically ventilate someone with lesion at this point? What do successive lesions marched rostral toward the midbrain produce? What does all of thiis mean? |
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Definition
quadriplegia and respiratory arrest are caused by a cervical medulla transection; mechanically ventilating will show a desynchronized brain wave pattern on EEG (characteristic for awake state); successive lesions marched rostral produce the SAME effect until a cut at the level of posterior colliculi (quadrigeminal plate)- at which point, EEG becomes synchronized, showing high voltage slow waves typically of sleep pattern and in some coma patients; this means that lesions of the brainstem did not affect wakefulness (as defined by EEG pattern) until the lesion reached the upper pontine and midbrain level (which corresponds to von Economo's encephalitis lethargica theory of lesions in an "arousal center of the midbrain") |
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Term
What are the primary lesions that cause coma? |
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Definition
extensive, acute bi-hemispheric disease; lesions of the diencephalon (thalamus and hypothalamus); lesions of the midbrain peri-aqueductal gray; involvement of upper 1/3 of pontine tegmentum |
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Term
Is the upper brainstem typically involved in coma-causing lesions? |
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Definition
it is unusual to have an extensive global insult (such as sudden, bilateral hemispheric disease) without affecting the upper brainstem; most of the primary lesions that cause coma notably include some part of the upper brainstem but ALWAYS include the reticular gray formation (whether in thalamus, hypothalamus, midbrain peri-aqueductal gray, or upper 1/3 of pons) |
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Term
Is damage secondary to herniation syndrome common in primary lesions leading to coma? |
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Definition
yes (though not shown in pictures in the lecture); damage to diencephalon, micbrain peri-aqueductal gray, and upper 1/3 of pontine tegmentum is often secondary to herniation syndrome affecting one or both cerebral hemispheres |
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Term
What is the reticular gray formation? What does it do? |
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Definition
diffuse aggregations (found among CN nuclei and other clearly demarcated cell groups) of neurons of different types/sizes, separated by fibers traveling in all direction; sections stained to show neuronal processes displayed a net-like/reticular pattern of fibers (myelin) and cell bodies; provide heightened alertness to sudden major sensory changes (really does much more than this- cytoarchitectonic differences exist between different areas of reticular formation and various cell groups have highly specific connections) |
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Term
If diencephalon/most of the midbrain are spared injury in your coma patient, where might you expect the injury/lesion to be? |
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Definition
most commonly in the paramedian tegmental area just ventral to aqueduct of Sylvius from midbrain to rostral pons |
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Term
Knowing that the paramedian tegmental area just ventral to aqueduct of Sylvius from midbrain to rostral pons is a common lesion helps to explain what? |
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Definition
lesions confined to upper pons can cause coma in absence of midbrain and thalamic injury, explaining why some paitnets with pontine hemorrhage are comatose |
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Term
What do lesions below the rostral pons disrupt? |
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Definition
disrupt corticospinal and corticobulbar tracts bilaterally to leave patient quadriplegic with a paralyzed lower face, unable to speak, swallow, or breathe on his/her own BUT patient is conscious, aware, can see and hear, retains some control voer vertical eye movements and blinking through which he can communicate with outside world |
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Term
How should you treat "locked-in" patients? |
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Definition
patients with more caudal pontine hemorrhages appear to be in a coma but actually awake and "locked-in," and you should treat them as fully conscious and mentally competent (therfore, you must make the correct diagnosis) |
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Term
What is the minimal amount of reticular formation that can be damaged in the upper brainstem to produce coma? |
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Definition
paramedian tegmental area just ventral to aqueduct of Sylvius from midbrain to rostral pons |
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Term
What is the reticular activating system? Where is it? How might it be impaired? |
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Definition
RAS= areas of reticular formation that might result in coma when damage; RAS lies in intralaminar nuclei of thalamus, the tegmentum of midbrain, and the tegmentum of the upper 1/3 of the pons (extends from upper 1/3 of pons through midbrain tegmentum and through 3rd ventricle into thalmus); may be impaired by structural lesions, or by diffuse metabolic conditions (injuries include traumatic, hemorrhagic, ischemic, or metabolic) |
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Term
What does the Ascending Arousal System (AAS) include? |
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Definition
cholinergic nuclei that put that thalamus in "transmission" mode for relaying sensory info to the cortex; consists of multiple ascending pathways originating in tegmentum of midbrain and pons |
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Term
How is the cortex activated in the AAS? |
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Definition
acitvated directly by monoaminergic inputs to improve the signal to noise ratio and avoid misperception of incoming stimuli (like that which occurs in delirium) |
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Term
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Definition
cholinergic lateral dorsal tegmental (LDT) and pedunculopontine tegmental (PPT) nuclei project to thalamic relay nuclei that are inhibited from firing, increasing wakefulness and placing thaalmus in transmission mode for filtering and relaying sensory info to cortex |
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Term
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Definition
increased bursting by thalmic relay neurons promotes synchronization of cortical activity, inducing sleep |
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Term
What is the purpose of monoaminergic systems of AAS? |
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Definition
direct and indirect connections that are widespread to the cortex; to improve signal to noise ratio and avoid misperception of incoming sensory stimuli (delirium results if system fails) |
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Term
What is the VPLO? What does it do? What drugs mimic it? |
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Definition
ventrolateral preoptic nucleus is the sleep promoting center in the brain (causes insomnia when destroyed); deploys inhibitory NT GABA and inhibitory neuropeptide galanin to inhibit many nuclear centers that promote wakefulness and comprise the AAS; sedatives (ethanol, benzos) have GABAergic activity |
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Term
From where does the AAS receive feedback? What do the pathways mediate? |
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Definition
AAS receives feedback from thalamus, limbic system, frontal and association cortex; pathways mediate emotional memories and permit concentrated attention to one sensory modality when necessary; loss of feedback-->apathy and indifference to sensory stimul with severe damage causing abulia and akinetic mutism |
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Term
What are the causes of coma? |
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Definition
structural: supratentorial mass lesions, acute obstructive hydrocephalus, ifratentorial mass lesions; metabolic: reversible injury (sedative overdose), irreversible injury (hypoxia in cardiac arrest); always rule out psychogenic coma first |
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Term
What symptoms/presentations might you see in structural causes of coma? What interventions might you do? |
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Definition
raised ICP with headache made worse with recumbency, nausea, vomiting, transient visual obscurations, papilledema, focal deficits on exam and an abnormal CT/MRI pointing to hemispheric abscess, stroke,neoplasm, or mass in posterior fossa; may require neurosurgical intervention such as evacuating a subdural hematoma or placing a shunt for acute hydrocephalus |
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Term
What symptoms/presentation might you see in metabolic causes of coma? What interventions might you do? |
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Definition
non-focal exam with no lateralizing signs and patient may be managed medically in ICU (no need for surgery) |
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Term
What might be trapped in a transtentorial (uncal) herniation of medial temporal lobe? What else does the herniation cause? |
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Definition
oculomotor nerve is compressed first (particularly the nerve fascile mediating pupillary consctriction), even before pressure on midbrain and diencephalon produces ischemia and causes increased lethargy/stupor/coma; posterior cerebral artery may also be trapped against cerebellar tentorium, causing ipsilateral ischemia and stroke |
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Term
How does a patient present bedside with uncal herniation? Are these signs important? |
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Definition
pupil on herniated side is widened and slower to react to direct and indirect light (may precede ptosis and weakness of ocular movement); often precedes increased lethargy and development of ocntrolateral hemiparesis and controlateral babinksi sign; STRUCTURAL and SURGICAL emergency- loss of puil reactivity to light should signal possiblity of imminent herniation, raised ICP, and impending catastrophe |
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Term
Uncal herniation might be caused by epidural hematoma from skull fracture. What else might cause it? What do you see grossly? |
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Definition
large, malignant tumor such as glioblastoma multiforme; causes massive swelling of right/left hemisphere (depending on which side tumor is on) with herniation of medial temporal lobe; causes medial temporal lobe to herniate around the tentorium and compress brainstem; compression of brainstem causes small hemorrhages called Duret's hemorrhages; pressure against midbrain causes ischemic hemorrhagic necrosis; you may see indentation of tentorium into temporal lobe |
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Term
What do you think gets caught between the herniating temporal lobe and the upper brainstem? |
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Definition
oculomotor nerve; oculomotor nerve is quite close to the tentorium (rests on the uncus of the temporal lobe) |
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Term
How can herniation involve both hemispheres? |
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Definition
trauma that produces bilateral subdural hematoms or hemispheres are severely and irreversibly damaged by certain metabolic insults such as hypoxia or cerebral edema that accompanies fulminant liver failure (diffuse and symmetric pressure on the brain both medial and downward to produce central herniation |
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Term
What is a falcine herniation? |
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Definition
herniation that involves a mass effect pushing the brain under the falx cerebri; traps and compresses one or both anterior cerebral arteries against the falx to cause ischemic stroke in the parasagittal cortex on one or both sides |
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Term
Is ICP diffuse or symmetric? |
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Definition
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Term
How do you recognize central herniation at bedside? |
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Definition
rostral to caudal deterioration (steady progressive failure of brainstem in that direction); diencephalon --> midbrain failure; begins with increasing lethargy due to early pressure on retircular gray in both thalami; pressure on hypothalmus and central sympathetic tracts originating in hypothalamus are then compromised, leading to small but still reactive pupils; later, pressure extends to midbrain and Edinger-Westphal nuclei fail (constrictive puipllary tone is lost and pupils become fixed in mid-position); decorticate or flexor posturing is followed by decrebrate or extensor posturing and is a late sign of herniation; Cheyne =-Stokes respirations (apneic spells interspersed with hyperventilation periods) provide an early warning of herniation |
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Term
How do lesions produce mixed transtentorial and central herniation syndrome? |
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Definition
lesions cause both diffuse and focal supratentorial pressure; monitor transtentorial by lateral signs and by neuroimaging |
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Term
Describe infratentorial lesions. |
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Definition
below the cerebellar tentorium in the posterior fossa; intrinsic brainstem lesions: top of the basilar artery, ischemic stroke; pontine hemorrhage OR extrinsic lesions that compress and distort the brainstem: cerebellar hemorrhage/infarction/brain tumor |
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Term
What do primary brainstem lesions cause? |
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Definition
segmental cranial nerve deficits; ascending (spinothalamic) tract dysfunction- contralateral pain and temprature is reduced; descending (corticospinal, central sympathetic) tract dysfunction; early cerebellar signs ; medial lemniscus carries fine touch, vibration, and propriocenptive information |
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Term
What do pontine hemorrhages cause? |
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Definition
a distinct clinical syndrome: abrupt coma, pinpoint pupils, decerebrate rigidity or flaccid quadriplegia, horizontal gaze paresis, ocular bobbing |
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Term
What is metabolic encephalopathy (toxic-metabolic coma)? |
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Definition
non-cerebral disease that may interfere with the metabolism of the cerebral cortex and rostral brainstem AAS; endogenous toxins in uremia and hepatic failure; exogenous toxins in drug overdose, poisons, and sepsis; hypoxia, hypoglycemia, hypo- and hyper-osmolality; electrolyte and acid-base imbalances |
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Term
What causes metabolic encephalopathy? |
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Definition
metabolic abnormalities such as: hyponatremia, hypoglycemia, hypothermia, hyperglycemia, uremia, hepatic failure, thiamine deficiency, hypoxia, drug intoxication, etc (cause altered mental status due to metabolic encephalopathy) |
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Term
How do you recognize metabolic encephalopathy at bedside? |
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Definition
neurological deficits are diffuse and global (b/c the metabolic insult is also diffuse and global); insult is symmetric; neuro exam is non-focal (minimal or no lateralizing signs such as hemiparesis); negative head CT (or old findings): pupils stay reactive even with other brainstem reflexes lost (exceptions: atropine, botulism, glutethimide); asterixes, multifocal myoclonus and tremor (ex: uremia, liver failure, hypoxia); stupor and coma are reversible with metabolic correction and ICU support |
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Term
What is one significant sign difference between metabolic and structural causes of coma? |
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Definition
In metabolic causes, the pupils are often the last to go whereas in structural causes, pupils are often the earliest to be affected |
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Term
What is another way to describe asterixes? |
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Definition
negative myoclonus (refers to sudden lapse in muscle tone) |
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Term
Describe multifocal myoclonus. |
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Definition
refers to mucle twitching in different parts of the body that occurs in chaotic and unpredictable fashion (reversible etiologies for these abnormal movements are liver failure, uremia, hypoxia, drug overdose; irreversible in the rare Creutzfeld-Jacob dx) |
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Term
Which causes of metabolic encephalopathy are common in the elderly? |
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Definition
dehydration; drug intoxication; sepsis; Wernicke's (thiamine deficiency) |
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Term
How does the post-ictal state compare to metabolic encephalopathy? |
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Definition
post-ictal state may mimic metabolic encephalopathy but consciousness improves over the next few hours |
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Term
How can a metabolic encephalopathy and a structural lesion be confused? |
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Definition
if a patient has an old and well-compensated brain lesion (ex: stroke), a new metabolic encephalopathy may unmask the old lesion and foold the clinician into thinking there is an acute structural lesions causing new focal weakness; use CT and MRI to date the structural lesion and get diagnosis back on track |
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Term
What do you do for immediate management of coma? |
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Definition
stabilize vital signs (ABCs first)- secure airway, cardiac monitor, IV access and blood draw; stabilize neck (particularly in trauma but assume neck is broken until you get a CT or x-ray to clear the C spine if you are unclear about trauma as a possiblity); determine circumstances (history); rapidly examine the patient; empirical D50 (in case patient is hypoglycemic) preceded by IV thiamine, naloxone (opiate OD); tasks performed simultaneously by ED team |
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Term
Do coma patients have normal vital signs? |
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Definition
seldom! Usually increased/decreased body temp or purlse or BP or respirations..abnormal patterns; if you find normal vital signs in someone who is not responding , consider psychogenic coma (test by ice water calorics) |
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Term
In coma patients, what do you look for on the skin? |
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Definition
petechiae, purpura, spider angiomata, jaundice, splinter hemorrhages, needle tracks; clues to meningococcal meningitis, Rocky Mtn Spotted Fever, hepatic encephalopathy, bacterial endocarditis |
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Term
What do retinal venous pulsations do for our diagnosis? |
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Definition
increased ICP is NOT a aprt of the equation so a huge list of diagnostic possibilities have been eliminated |
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Term
What do you ask in your history of a comatose patient? |
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Definition
onset of coma (sudden-->head trauma, seizure, top of basilar artery embolic stroke, masive brain hemorrhage); recent complains of HA, head injury, depression, limb weakness, dizziness; hx of psychiatric illness; medical illnesses predisposing to metabolic encephalopathy (diabetes, renal failure, alcoholism, absue of sedative or street drugs) |
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Term
What do respiratory patterns in coma depend on? |
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Definition
site of lesion; remember that Cheyne-Stokes respirations can be early warning sign of transtentorial or central herniation |
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Term
What are some noxious stimuli to arouse patients who do not respond to voice command? |
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Definition
motor response is important SO you may try: pressure on supraorbital nerve, nailbed pinch, sternal rub (painful but leave no marks); nipple pinch or twisting may leave a bruise which appears sadistic |
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Term
What does a flexor response to pain indicate? |
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Definition
loss of cortical control of brainstem motor centers (corticospinal tract, rubrospinal tract, tectospinal tract, rostral reticulospinal tract are all flexor facilitory- origins at cortex or midbrain level); aka decorticate posturing |
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Term
What does extensor response to pain indicate? |
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Definition
aka decerebrate posturing; arises with loss of red nucleus and rubrospinal tract in midbrain; vestibulospinal tract and caudal reticulospinal are extensor facilitatory (origin at pontine level) |
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Term
What is the Glasgow coma scale? |
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Definition
developed for prognosis in head trauma; score of 15 has excellent prognosis; 8 is poor; and 3 is very poor(usually death); measure eye opening, motor response |
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Term
How do you measure prognosis in regards to motor response in coma patients? |
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Definition
For prognosis: best response is following a complex motor command; slightly greater injury shows patients following simple commands; with no response t ovoice command, painful stimulus is introduced with highest level of response is localizing pain and pushing away offending hand; next decrement is purposeful withdrawal to pain, following by semi-purposeful movement to pain; next are reflex, stereotypic responses to pain (definite deterioration), first with flexor responses, then extensor; prognosisis worse with extensor posturing; changing from flexor to extensor posturing is a dire development (patient just lost midbrain); worst prognosis is no motor response at all (ex; such a severe insult, such as hypoxia and hypotension, that even spinal cord suffers direct hypoxic damage) |
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Term
How do flexor and extensor responses interact? |
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Definition
balance between extensor and flexor in response to pain favors flexor posturing when cerebrum loses conscious control of movement; once midbrain is compromied, flexor influence is lost and pontine extensor pathways dominate |
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Term
Which lab tests to do you use to evaluate metabolic coma? |
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Definition
stat tests: venous blood (glucose, electrolytes, urea or creatinine, osmolality, CBC, coag studies); arterial blood (color, pH, PO2, PCO2, carboxyhemoglobin, esp if blood is bright red); CSF (cells, gram stain, glucose); EKG; additional tests: venous blood (LFTs, thyroid and adrenal function, blood cultures, viral titers); urine (culture); CSF (protein, culture, viral and fungal Ab, PCR) |
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Term
What diagnostic testing is used in coma? What are those tests looking for? |
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Definition
STAT Head CT (or MRI if available; screen for structural etiologies such as trauma, ischemic stroke, hemorrhage, other mass lesions, herniations, hydrocephalus); CXR (screen for CHF, pneumonia, lung cancer); special tests: EEG (status epilepticus, brain death), spinal tap (CNS infx, SAH), cervical spine X-ray (trauma), STAT toxicology (cocaine, opiates, phencyclidine; barbiturates, anticonvulsants, sedatives; ethanol, methanol, ethylene glycol; acetaminophen, salicylates, tricyclics, others) |
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Term
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Definition
Apart from necessary surgical intervention: ensure oxygenation (check blood gas that it is adequate and not inducing CO2 narcsosis); maintain circulation (BP must be maintained with IV fluids and pressor agents if necessary); control glucose; lower ICP (hyperventilation can bring PCO2 down to 25-30 mm Hg to reduce pressure for 30 min or so; mannitol/other osmotic agnets can draw free water out of brain and into circulation- allows extra time to get to OR so shunt could be placed); stop seizures (anticonvulsants); treat infx (Abx empirically given if chance of CNS infx and/or sepsis); restore acid-base balance and electrolytes; body tempoerature adjusted (may help to lower temp in conditions such as ischemia or hypoxia); give thiamine and multivitamins; give antitode if specific cause is known (ex: naloxone, flumazenil); control agitation (haldol, ativan for sedation; hypoxia can be unsuspected cause of agitated delirium and treatment is with O2; sedation and tight restraints can result in respiratory arrest |
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Term
In non-traumatic coma, what might indicate poor prognosis? |
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Definition
absence of pupillary light and coreneal reflex at 3 days |
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Term
In hypoxic coma, what might indicate poor prognosis? |
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Definition
absence of purposeful motor movements at 3 days |
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Term
When is there zero chance of moderate disability/good recovery on day 3? |
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Definition
if the corneal reflex is absent and motor response is absent or reflex at best showing extensor or flexor posturing |
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Term
What is the clinical criteria for brain death in adults and children in the US? |
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Definition
coma of established cause (no presence of potentially anesthetizing amounts of toxins or therapeutic drugs; no hypothermia below 30°C or other physiologic abnormalities; irreversible structural disease or a known and irreversible endogenous metabolic cause due to organ failure); absence of motor responses (absence of pupillary responses to light and pupils at midposition with respect to dilation 4-6 mm; absence of corneal/gag/sucking/rooting reflexes; absence of caloric vestibulo-ocular responses; absence of coughing in response to tracheal suctioning; absence of respirtaory drive at PaCO2 that is 60 mmHg or 20 mmHg above normal baseline values- apnea testing); interval between 2 evaluations by patients age (term to 2 months: 48 hours; >2 months to 1 year: 24 hours; >1 year to <18 years : 12 hours; ≥ 18 years, optional); confirmatory tests (term to 2 months: 2 confirmatory tests >2 months to 1 year: 1 confirmatory test >1 year to <18 years optional; ≥ 18 years, optional) |
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Term
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Definition
any disease that affects the spinal cord |
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Term
Where does the spinal cord end? |
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Definition
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Term
Where are spinal taps performed? |
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Definition
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Term
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Definition
lumbar - if a patient describes thoracic back pain, be concerned |
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Term
Describe pertinent spinal cord anatomy and presentations of lesions at those anatomical locations. |
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Definition
root: lancinating pain, numbness, hyporeflexia; spinothalamic tract: loss of pain and temperature, sensory level; posterior columns: loss of vibration, position sense, Romberg sign; corticospinal tract: hyperreflexia, spasticity, Babinski signs, weakness; Anterior horn cells: flaccid weaness, hyporeflexia, fasciculations |
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Term
Describe spinal cord anatomy from inside of cord to outside. Which areas have multiple terms for description? |
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Definition
spinal cord (parenchyma)-->pia mater-->subarachnoid space-->subdural space-->dura-->epidrual space (with fat)-->bone (vertebral body) remember that epidural=extradural; intradural=subdural; leptomeningeal=within the subarachnoid space; intramedullary=within spinal cord parenchyma |
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Term
What is notable in an MRI of the cervical spine? |
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Definition
CSF is white; spinal cord is gray/black; proximity of cord to discs, vertebral bodies, etc |
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Term
What are common sensory dermatomes in spinal cord lesions? |
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Definition
patients with spinal cord syndrome commonly develop sensory levels (they cannot feel sensation at or below this level); T4 is the nipple line; T10 is the umbilicus |
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Term
What is common in spinal cord lesions? What is the mechanism? |
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Definition
sphincter dysfunction is common; micturition (bladder control) is a CNS phenomenon (complex process controlled by brain and spinal cord), so bladder symptoms are common in spinal cord lesions; long axons from frontal lobe of brain synapse in thoracic and sacral areas of spinal cord, making these tracts very vulnerable to injury |
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Term
What bladder symptoms might you expect in spinal cord lesions? |
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Definition
2 kinds- acute and chronic; acute= urinary retention with some overflow incontinence while chronic= small spastic bladder that does not completely empty with spasms, urinary frequency, urge incontinence |
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Term
How do you approach a patient with acute/subacutemyelopathy? |
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Definition
acute and subacute myelopathies are neurologic emergencies! Recognize signs and symptoms; IMMEDIATE neuro-radiologic testing; other diagnostic tests depending on clinical picture; LP may be needed (especially with negative neuro-radiologic testing); therapy is usually IV steroids |
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Term
How do you approach a patient with chronic myelopathies? |
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Definition
you need to RECOGNIZE them as many are reversible; work up on an expedited basis; recognize signs and symptoms; neuro-radiologic testing to rule out compressive myelopathies; other diagnostic tests depending on clinical picture; LP (esp if neuro-radiologic testing is negative); therapy directly related to cause of myelopathy |
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Term
How does therapy differ in chronic versus acute/subacute myelopathy? |
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Definition
chronic: treat the cause; acute/subacute: IV steroids |
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Term
Generally speaking, what do you ask about in history for a patient in which you suspect myelopathy? General exam? Neuro exam? |
|
Definition
Hx: other illnesses, fever, location of pain, neuro symptoms, pace of symptoms; General exam: fever, have patient show you where it hurts, check for vertebral body tenderness; Neuro exam: motor weakness and tone; sensory pain or temperature, joint position sense/vibration; reflexes (Babinski), gait |
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Term
Why is the pace of symptoms critical when dealing with myelopathy? |
|
Definition
pace is critical and unpredictable b/c patients may walk into your office and without recognition of symptoms, they may be paralyzed when they leave |
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Term
Describe the progression of an epidural lesion. |
|
Definition
A. may occur over hours to days; motor symptoms are usually early (compression of corticospinal tract) with hyperreflexia, Babinski signs, difficulty walking (weakness is not always evident); sensory: numbness or allodynia if dorsal root is damaged or compressed at level of lesion (root irritatio)n, hypersesnitive to touch (IPSILATERAL), if spinothalamic tract is injured at this point, subtle changes in sensory symptoms seen in CONTRALATERAL lower extremity; band or girdle-like sensation in the abdomen; urinary urgency (DO NOT FORGET TO ASK- patients may be embarassed); B. may occur over hours to days; motor: spastic and weak legs, brisk reflexes, Babinski; sensory: symptoms are worse with root area is totally numb (ipsilateral), pain in contralateral LE is decreased (spinothalamic); definite sphincter dysfunction ; may appear as Partial Brown-Sequard Syndrome: hemi-cord syndrome with weakness and numbness to touch and vibration on the IPSILATERAL side AND loss of pain sensation on the CONTRALATERAL side due to crossing of spinothalamic tract within the spinal cord; C. may occur over hours to days; final stage- may be acute; motor:if acute or hyper-acute, flaccid, areflexic due to spinal cord shock OR spastic paraparesis if more chronic or subacute or slow; sensory: complete sensory level to all modalities at level of the lesion |
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Term
What are some extradural examples of myelopathy? Intradural extramedullary? Intramedullary? (these were starred in the notes) |
|
Definition
Disc disease, metastatic tumor, abscess/// neurinoma, meningioma///syringomyelia, glioma,myelitis |
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Term
Describe myelopathy caused by disc disease. |
|
Definition
severe disc disease in cervical or thoracic cord can cause epidural cord compression and myelopathy; herniated disc or degnerative disc disease; may see edema associated with compression; treat with steroids and surgery |
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Term
Describe spinal cord trauma. |
|
Definition
paraparesis/paraplegia; quadriparesis/quadriplegia; vertebral body compression; hematoma; spinal cord infarct; cord transection; patient may present with spinal cord "shock" b/c of acuity of lesion; treat with methylprednisolone 30 mg/kg IV over 1 hour and follow with 5.4 mg/kg/hr over the next 23 hours |
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Term
What are some causes of spinal cord dysfunction in patients with cancer? |
|
Definition
cancers can affect spinal cord at every level/layer; epidural cord compression due to tumor, abscess, hematoma; intramedullary processes due to metastases, abscess, hematoma, syrinx; other myelopathies due to radiation, chemotherapy, paraneoplastic; neoplastic meningitis; spinal arachnoiditis |
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Term
Where is epidural compression common? |
|
Definition
complication of metastatic cancer; cancer enters vertebral body, weakens it, expands, and then compresses spinal cord; most common in lung, breast, prostate cancer |
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Term
What do you do if you suspect spinal cord compression? |
|
Definition
treat with steroids (dexamethasone), spinal MRI with gadolinium, and follow patient slowly; neurosurgical consult; CT myelograms are rare (sensitivity and non-invasiveness of MRI); even with negative work-up, cancer cells may enter SA space, cause meningitis and spinal cord injury so a spinal tap is REQUIRED if no evidence of cord compression by imaging techniques |
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Term
Where do most metastic cancers begin (in the spine)? |
|
Definition
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|
Term
Where do most spinal abscesses begin? What causes them? How do you test it? |
|
Definition
spinal abscesses usually begin in disc space and expand to cause spinal cord compression; most common infection involved is Staph aureus; be suspiciuos in IV drug users; use MRI of spine to test |
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Term
What are the signs and symptoms of epidural abscess? What are the risk factors? |
|
Definition
fever, pain on percussion, elevated white count, elevated ESR; risk factors include IV drug use, HIV, immunosuppression |
|
|
Term
|
Definition
infection of the vertebral bodies, causing weakness of bones, collapse of vertebral body, and subsequent cord compression |
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Term
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Definition
classic neurologic syndrome of osteomyelitis from TB infection |
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|
Term
What is a spinal meningioma? |
|
Definition
usually typical benign meningiomas; 2nd most common of spinal tumor; classic patient is middle-aged women; most common in thoracic spine; 90% are intradural extramedullary; image findings: bone erosion, Ca rare, isointense with cord on T1- and T2WI, moderate contrast enhancement, +/- dural "tail"; clinical clue: occasionally, benign herniated disc occur in thoracic spine but most diseases of thoracic spine are bad |
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Term
Describe nerve sheath tumors. |
|
Definition
variable location but most common intradural extramedullary mass; Schwannoma and neurofibroma are most common types; usually seen in middle-aged adults; dumbell shape is relatively uncommon but CLASSIC; clinical symptoms mimic disc herniation; image findings: enlarged neural foramen is common, Ca rare; 75% isointense and 25% hyperintense on T1WI; >95% hyperintense on T2WI; virtually 100% enhance |
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Term
Describe the progression of a central cord lesion (lesions beginning in the spinal cord parenchyma itself). |
|
Definition
A: may start in central spinal cord, where spinothalamic fibers cross, so loss of pain and temperature is an early sign; also begins with pain in shoulders (cervical lesion); B. as lesion involves dorsal root entry zones, reflexes are lost in arms; continued loss of pain and temperature (more severe); Horner's syndrome due to involvement of sympathetic pathways; posterior columns are spared until late so touch and joint position are intact though pain and temperature are lost (konwn as dissociated sensory level); below lesion, involvement of corticospinal pathways result in spastic paraparesis, hyperreflexia, and Babinski signs;C. worsening of symptoms but there may be sacral sparing b/c those fibers are the most lateral from central cord/spinothalamics (not damaged and sacral dermatomes maintain normal sensation); may involve face due to sensory nucleus of trigeminal nerve |
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|
Term
What is the classic central cord syndrome? |
|
Definition
syrinx- large expanding space in spinal cord; can be result of a trauma or tumor |
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Term
Describe spinal cord astrocytoma. |
|
Definition
central cord syndrome; usually low grade fibrillary astrocytoma, anaplastic astrocytoma, GBM rare; 2nd most common spinal cord tumor overal (most common cord tumor in children); cause of low back pain and painful scoliosis in children; image findings: long, multisegment intramedullary mass typical, causes diffuse cord expansion; interpediculate distance widened and pedicles thinned; iso-to-hypointense on T1; hyperintense on T2WI; cysts common, often extensive; virtually 100% enhance; large amount of edema |
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|
Term
Describe vascular disease of the spinal cord. |
|
Definition
aneurysm, AVM, infarct much less common than in brain; aneurysm EXTREMELY rare except with AVM; infarct secondary to atherosclerosis, aortic dissection, disck herniation, trauma, hypertension, etc; venous infarct (?Foix-Alajouanin syndrome); Spinal cord vascular supply: one anterior, 2 posterior spinal arteries; anterior spinal artery (Adamkiewicz) supplies 70% of cord; many end arteries, comparative few collaterals; watershed zone at periphery of central gray matter |
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Term
Describe anterior spinal artery syndrome. (what does it affect/symptoms/etc) |
|
Definition
aka artery of Adamkiewicz or great radicular artery; anterior 2/3 of spinal cord is supplied by this artery (located in mid-thoracic region); sypmtoms referable to spinothalamic (pain/temp/sensory level loss), corticospinal function (weakness) but INTACT POSTERIOR COLUMN FUNCTION (vibration and joint position) |
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|
Term
Describe anterior spinal artery syndrome caused by AVM. |
|
Definition
can also cause anterior spinal artery syndrome but may be incomplete due to location and area of hemorrhage |
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|
Term
Patient presents w/ acute onset of numbness below waste, patchy areas of numbness at torso and upper abdomen. Initially not weak but over 24 hours developed lower extremity weakness and urinary retention. What is important to note here? |
|
Definition
patient is presenting with acute non-compressive myelopathy; note that did NOT have back pain; early urinary retention suggests a spinal cord lesion |
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|
Term
What do you find on neuro exam in acute non-compressive myelopathy? |
|
Definition
HIF normal; CN full and symmetric; decreased pinprick of midchest distally; paraparesis L>R; great difficulty walking; hyperreflexic w/extensor plantar response; decreased rectal tone; post-void residual of 250 cc |
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|
Term
What is the definition of transverse myelitis? |
|
Definition
acute neurologic condition that reflects focal inflammation of spinal cord; acute or subacutely developing motor, sensory, and sphincter disturbance; spinal segmental level of sensory disturbance w/ well-defined upper limit; no evidence of spinal cord compression (radiological, not clinical issue); absence of other known neurologic disease; may be first sign of MS (30%) |
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|
Term
How do you treat transverse myelitis? |
|
Definition
|
|
Term
What might be an early sign of multiple sclerosis? |
|
Definition
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|
Term
How does transverse myelitis look on MRI? |
|
Definition
hyperintense on T2WI, acutely enhances with gadolinium |
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|
Term
What if you have a patient with both optic neuritis (ON) and transverse myelitis â„¢? |
|
Definition
the patient has neuromyelitis optica (NMO) |
|
|
Term
What does the brain MRI look like in a neuromyelitis optica patient? |
|
Definition
|
|
Term
other than MRI, what testing might you do for neuromyelitis optica? |
|
Definition
antibody testing for NMO titer (aquaporin 4); CSF-acute w/neutrophils but oligoclonal bands usually NEGATIVE |
|
|
Term
How many levels of thes pinal cord are usually involved in neuromyelitis optica? |
|
Definition
3 or more levels usually involved |
|
|
Term
Flaccidity is usually an indication of peripheral nerve lesion, but in the setting of complete sensory level and urinary retention, how would you view the symptom of flaccidity? |
|
Definition
dagnosis of acute spinal cord injury |
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|
Term
With complete transection of the spinal cord, what symptoms do you see? What might cause it? How might you describe it? |
|
Definition
transverse myelitis, among other causes, can lead to complete transection of the cord, which is acutely described as spinal cord shock; symptoms include flaccid paralysis, complete sensory level to all modalities, loss of bladder/bowel/sexual function, autonomic malfunction; if transection presents chronically, there is no shock and spastic paralysis accompanies the symptoms above |
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|
Term
What causes Brown-Seuard hemi-section syndrome? |
|
Definition
rare condition (though more common to see Brown-Sequared in partial form); sometimes seen in myelitis |
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|
Term
What presentation do you see in Brown-Sequard syndrome? |
|
Definition
ipsilateral spastic paralysis (after spinal shock) below the level of the lesion; hyperreflexia; Babinski signs; ipsilateral loss of vibration and joint position sense; contralateral loss of pain and temperature |
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|
Term
How does B12 deficiency (pernicious anemia) cause in the spinal cord? |
|
Definition
subacute combined degeneration of the spinal cord |
|
|
Term
How does B12 deficiency-caused subacute combine degeneration of the spinal cord present? |
|
Definition
spastic weakness of lower extremities; decreased sensation to vibration and position; Romberg's sign; ataxia (non-cerebellar); Babinski signs and hyperreflexia; may also cause peripheral neuropathy (mixed signs) |
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|
Term
How do you treat B12 deficiency? |
|
Definition
intramuscular B12 injections |
|
|
Term
|
Definition
human T-lymphocyte virus type 1; first human retrovirus discovered with reservoir of CD4+ T-lymphocytes |
|
|
Term
What is HTLV-1 associated with? |
|
Definition
HAM/TSP, acute T cell leukemia (ATL); uveitis, polymyositis; arthritis, ALS, other diseases |
|
|
Term
What does infection with HTLV-1 cause? |
|
Definition
spastic paraparesis and spinal cord disease |
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|
Term
What is HAM/TSP? What are the symptoms/clinical presentation? |
|
Definition
HTLV-1 associated myelopathy/tropical spastic paraparesis; patients infected with HTLV-1; develop paraparesis; CNS infiltrated by monocytes; CNS demyelination and axonal degeneration (corticospinal tract > posterior columns); CSF shows oligoclonal bands and increased IgG |
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|
Term
What is vacuolar myelopathy? |
|
Definition
neurologic complication of HIV infection, usually late with AIDS; progressive spastic parapresis- hyperreflexia, extensor plantar responses; sensory ataxia and incontinence; vacuolation and myelin pallor (posterior and lateral columns); resembles B12 defiency |
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|
Term
What resembles B12 defiency? |
|
Definition
|
|
Term
Describe posterior tract syndrome. |
|
Definition
loss of sensation for position and vibration; astereognosis; Romberg's sign; Tabes dorsalis (syphilis); subacute combined degeneration; Friedrich's ataxia; trauma; extramedullary tumors |
|
|
Term
|
Definition
complication of neurosyphilis; posterior column dysfunction; loss of vibration and position sense; Romberg's sign |
|
|
Term
|
Definition
Lou Gehrig's disease; combination of flaccid (anterior horn cell) and spastic (pyramidal tract) weakness; combination of hyper and hyporeflexia, Babinski signs; no sensory signs (included in spinal cord syndrome lecture b/c it can present clincally with spinal cord lesions) |
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|
Term
Remember these top 10 things about myelopathy. |
|
Definition
acute myelopathies are neuro emergencies; spinal cord ends at L1/L2; back pain in cancer patient is an emergency until proven otherwise; myelopathies can progress quickly; do not delay neuroradiologic testing; ask the patient where it hurts; percuss the vertebral column; steroids are always always indicated in acute myelopathies (plus other tx needed); make the patient walk; remember the basic neuroanatomy |
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|
Term
Remember 10 things commonly on the boards. |
|
Definition
basic spinal cord anatomy; epidural abscess; Pott's disease; Brown-Sequard syndrome; anterior spinal artery syndrome; extradural vs intradural vs intramedullary; tabes dorsalis and syphilis; dissociated sensory level; spinal cord shock; central cord vs epidural syndrome |
|
|
Term
What is multiple sclerosis (MS)? |
|
Definition
most common demyelinating disease in humans; chronic , inflammatory disease of CNS |
|
|
Term
What causes MS and what results from it? |
|
Definition
occurs when myelin (made by oligodendrocytes) is destroyed and underlying axons and neurons are damaged; pathological lesion (loss of myeling in multple areas) in the CNS is the MS plaque (inflammation and sclerosis=scar tissue); results in periodic loss of neurological function and often progressive disability |
|
|
Term
|
Definition
periodic loss of neurologic function; a new neurologic disability that lasts greater than 24 hours |
|
|
Term
What is Uhthoff's phenomena? Why does it occur? |
|
Definition
MS symptoms that worsen in the heat/during increase in body temperature- very common in MS patients; occurs as a result of poor electrical conduction along demyelinated axons |
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|
Term
With MS relapse, do patients return to normal? |
|
Definition
relapses may resolve over time or patients may not return entirely to normal |
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|
Term
Are relapses occurences of the same neurlogical symptoms or different? |
|
Definition
relapses are separated by time and space (2 different areas of the CNS); onset is subacute (separating it from stroke); may be a recurrence of an old symptom (ex: loss of vision in same eye twice, separated by a year); may be a new symptom (ex: weakness and numbness of both legs) |
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|
Term
How do you visualize MS plaques? |
|
Definition
you can visualize them with MRI- this is how you diagnose MS |
|
|
Term
What do you seen in spinal fluid in MS patients? |
|
Definition
inflammatory profile (lecture patient had 20 lymphocytes, elevated IgG index and oligoclonal bands; CSF protein may be normal, however; NEVER see neutrophils) |
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|
Term
How do MS plaques present in MRI? |
|
Definition
bright white hyperintense areas; enhance w/gadolinium, a sign of inflammation and breakdown of BBB; periventricular |
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|
Term
If MS plaques enhance with gadolinium, what can you assume? |
|
Definition
that there is an acute (new) plaque with active inflammation and breakdown of the BBB that allows gadolinium to enter the brain parenchyma |
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|
Term
What are the classic diagnostic criteria for MS? |
|
Definition
clinical evidence of lesions reflecting white matter dysfunction disseminated in time and space and in expected age range (18-50); objective abnormalities on neurlogical examination (preferably at time of diagnosis); dissemination of lesions in one of 2 patterns: at least 2 clear cut episodes of functionally significant symptoms lasting over 24 hours each and separated by at least 1 month OR slow progressive deterioration of same disseminated pattern evolving over at least 6 months; diagnosis made by a skilled physician; no better explanation for diagnosis |
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|
Term
Where do you see MS plaques at autopsy? |
|
Definition
within deep white matter and periventricular areas |
|
|
Term
How do MS plaques look when stained with Luxol fast blue stain? |
|
Definition
Luxol fast blue stains normal myelin blue; damaged areas (demyelinated) are white |
|
|
Term
What do you see histologically when looking at a MS plaque? |
|
Definition
robust inflammatory response within plaque, especially at edges; monocytes within a blood vessel is a perivascular cuff, show staining for T cell and B cells and macrophages but NOT neutrophils; some cells enter the brain parenchyma |
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|
Term
Normal axons are contiguous. In MS, axons and nerve cells are damaged. What would you see upon staining? |
|
Definition
staining is disrupted with an abnormal spheroid at end of axon- indicative of a transected axon |
|
|
Term
What triggers symptoms of MS? |
|
Definition
inflammation that leads to demyelination that leads to axonal nerve loss |
|
|
Term
What does myelin allow for? |
|
Definition
very fast saltatory conduction down an axon |
|
|
Term
What occurs in an MS patient as a result of demyelination? |
|
Definition
neurologic dysfunction due to conduction impairment along partially or completely demyelinated fibers; these demyelinated fibers are temperature sensitive and less efficient with increasing temperature; decree of edema following breakdown of myelin also contributes to severity of symptoms |
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|
Term
What is the pathogenesis of MS? |
|
Definition
cause uncertain but it is an immune-mediated inflammatory disease of the CNS; leukocytes penetrate BBB and secrete inflammatory cytokines; T cells, B cells, and macrophages orchestrate the autoimmune attack against myelin antigens; may develop in genetically susceptible individuals who are exposed to undefined "triggers" |
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|
Term
What do TH1 cells do in MS? TH2? |
|
Definition
TH1 are activated in systemic circulation and cross BBB to initate an autoimmune response in the CNS; they stimulate B cells to make Ab and macrophages to make substance that demyelinate or cause axonal damage; TH2 cells regulate the process and reudce the pro-inflammatory response of the TH1 cells; CNS becomes its own immune organ in MS patients (like a lymph node) |
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|
Term
How many people in the US are affected by MS? In whom is MS typically diagnosed? |
|
Definition
approx 350,000 in the US affected; most commonly diagnosed in young adults between 20-40; 2/3 of people diagnosed with relaspsing remitting MS (RRMS) are women but gender distribution is about equal in primary progressive MS (PPMS) |
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|
Term
What is the typical age of onset for MS? By how much do women outnumber women? Is there any geographic relationshpi to MS? What is the incidence of MS? What is the prevalence? |
|
Definition
peak age of onset is 3rd decade of life with age range 15-45; 70% of those diagnosed are women by a ratio of 2:1 over men; studies support a copmlex interaction with environmental and genetic factors with incidence increasing with distance from the equator; incidence is 8500-10,000 new cases per year with 350,000 cases in the US total |
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|
Term
What are the 2 categories of MS? |
|
Definition
relapsing and progressive |
|
|
Term
Describe relapsing forms of MS. |
|
Definition
exacerbations followed by complete or incomplete recovery; slow, inconsistent accumulation of disability occurs in the majority of patients |
|
|
Term
Describe progressive forms of MS. |
|
Definition
steady progression of disabilty with few or no exacerbations; if progressive from onset, MS falls into this category; gender distribution is equal; patients usually develop spastic paraparesis over a period of years; they will have evidence of corticospinal dysfunction (spasticity, weakness), sensory disturbance, urinary symptoms ("long tracts of the CNS symptoms") |
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|
Term
Do MRI and CSF of progressive MS look any different than relapsing MS? |
|
Definition
no- work up looks the same, yet progressive patients never relapsed |
|
|
Term
Is progressive MS easy to treat? |
|
Definition
very difficult to treat with no FDA approved medications to treat progressive MS |
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|
Term
What do MS medicines treat? |
|
Definition
|
|
Term
Can patients develop a progressive MS after having a relapsing MS? |
|
Definition
yes- then it is called secondary progressive MS |
|
|
Term
percent of patients presenting with relapsing remitting MS at onset? |
|
Definition
|
|
Term
Is it common for RRMS patients to develop secondary progressive MS? |
|
Definition
yes- a large number of patients progress in this way- they have significant disability so early treatment with an immunomodulating is crucial |
|
|
Term
How many patients need walking aids within 15 years of diagnosis? |
|
Definition
|
|
Term
What is the natural history of benign MS? |
|
Definition
benign MS: patients have few relapses and never progerss (rare) |
|
|
Term
What is the natural history of secondary progressive MS? |
|
Definition
the number of plaques increases within the CNS and patients worsen even when the relapses stop |
|
|
Term
What is the natural history of PPMS? |
|
Definition
patients worsen without relapses; usually they lose ability to walk due to spastic paraparesis and other symptoms referable to CNS system that affect gait (balance, sensory input, etc0 |
|
|
Term
|
Definition
in any combination: weakness, numbness, fatigue, vision problems, slurred speech, poor coordination, short-term memory loss, depression, bladder and bowel dysfunction, in severe cases- partial or complete paralysis |
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|
Term
What are some common demylinating syndromes you see with MS? Are theyacute or subacute symptoms? |
|
Definition
optic neuritis, myelitis, and brainstem syndromes; they are subacute at onset (separating them from stroke which is acute and neurodegenerative diseases like PD which is chronic) |
|
|
Term
Describe optic neuritis as related to MS. |
|
Definition
unilateral, retrobulbar pain; no retinal exudates, disc hemorrhage infrequent, some recovery |
|
|
Term
Describe myelitis as related to MS. |
|
Definition
partial sensory >motor, band-like pressure; Lhermitte's sign; bowel and bladder sx are common; acute dystonias |
|
|
Term
|
Definition
clincial signs and symptoms; MRI (brain, cervical, thoracic, and/or lumbar; gadolinium enhanced are best to evaluate progression); spinal tap (elevated myelin basic protein, oligoclonal banding); evoked potentials (measures brain's response to visual, auditory, sensory stimuli) |
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|
Term
what are oligoclonal bands? What do they suggest? |
|
Definition
markers for MS are increased IgG index and presence of oligoclonal bands; oligoclonal ands are IgGs of similar size that are not normally present in normal CSF (they are present in serum); suggest MS in a patient w/no other isgns of systemic illness (may also be elevated in lyme disease, syphilis, lupus) |
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|
Term
What is a visual evoked response (in MS)? |
|
Definition
can assist in diagnosing MS; flash light in front of a patient (takes 100 msec for light to pass from retina through optic nerve and chiasm to occipital cortex); wave that results is calledthe P100; if optic nerve is demyelinated, there is a delay of P100 or copmlete absence |
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|
Term
What are other evoked responses (in MS)? |
|
Definition
measure how long it takes for a click to be heard from ear to auditory cortex (brainstem evoked response), how long for an electrical stimulus to travel from finger and toes to sensory cortex via ascending sensory fibers (somatosensory evoked response), demyelination of these pathways shows abnormal wave forms |
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|
Term
What is an APD consisten with? |
|
Definition
demyelination and axon damage on the side of the lesion |
|
|
Term
Describe a classic MS lesion on MRI. |
|
Definition
ovoid, deep white matter, periventricular, hyperintense |
|
|
Term
What is common in the corpus callosum and why? |
|
Definition
MS plaques b/c the CC is heavily myelinated |
|
|
Term
Does one MS elapse event, accompanied by plaques on MRI mean the patient has MS? |
|
Definition
classically, MS patients must be diagnosed using time and space as criteria. Historically you wait for a second relapse and examine for new neurologic deficits; but MRI can now be used diagnositcally- so if a patient had 5 lesions and then 3 months later had 6 lesions, that patient has now had a 2nd attack ("time") OR if a patient has optic neuritis (lesion of optic nerve) and 15 lesions within her brain, she has 2 lesions in 2 different areas of the CNS, satisfying "space" |
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|
Term
What are some conditions to exclude in suspected MS? |
|
Definition
vasculopathies and vasculitis; structural lesions; inherited leukodystrophies; infections; other (B12 deficiences, neuro sarcoid, Behcet's disease, Sjogren's syndrome), Acute disseminated encephalomyelitis |
|
|
Term
What should you use MRI for in MS diagnosis? |
|
Definition
|
|
Term
What MRI should you order for MS? |
|
Definition
brain MRI: T1, T1+gad, T2 (post fossa) flair, in axial and saggital view; spine MRI; repeat in 3-12 months if necessary |
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|
Term
What drugs are used to treat specific MS symptoms? |
|
Definition
steroids (acute relapse); baclofen; tizanidine; amantadine; modafinil; antidepressants |
|
|
Term
DO steroids alter the natural history of MS? |
|
Definition
|
|
Term
drugs that treat underlying disease in MS? |
|
Definition
interferon beta-1a; interferon-beta- 1b, glatiramer acetate, mitoxantrone, natalizumab, phase 2 trial data |
|
|
Term
What are your treatment options for a MS relapse? |
|
Definition
none b/c at least 1/3 of relapses resolve with no intervention; steroids for severe neurlogic deficit |
|
|
Term
What is internuclear opthalmoplegia? |
|
Definition
results from damage to the medial longitudinal fasciculus; lesion is on the side of the adduction deficit; can be bilateral or unilateral; most commonly seen in MS |
|
|
Term
Where do cell bodies of origin for sensory nerve fibers reside? |
|
Definition
|
|
Term
How do sensory and motor nerve fibers exit the spinal cord? |
|
Definition
they exit in small groups called rootlets which fuse to form roots |
|
|
Term
How many pairs of nerve roots come from the spinal cord? |
|
Definition
31 pairs: 8 cervical, 12 thoracic, 5 lumbar, 5 sacral, 1 coccygeal |
|
|
Term
Where does the spinal cord end? What do the nerve roots that have not yet exited do? |
|
Definition
spinal cord ends at conus medullaris between L1 and L2 vertebral bodies; nerve roots that have not yet exited continue inferiorly and exit at their respective formina, forming the cauda equina |
|
|
Term
What do dorsal and ventral rootlets fuse to form? |
|
Definition
|
|
Term
What do dorsal and ventral roots fuse to form? |
|
Definition
fuse within their respective intervertebral foramen, forming a mixed spinal nerve (MSN) |
|
|
Term
Upon exiting the intervertebral foramen, what does the MSN give off? |
|
Definition
a posteriorly directed branch, the posterior primary ramus, and continues as the anterior primary ramus- these are the proximal elements of the brachial plexus |
|
|
Term
Describe the brachial plexus (divisions, root, trunk, etc). |
|
Definition
C5-T1 nerve roots (anterior rami); upper/middle/lower trunks; 6 divisions lie behind the clavicle--> lateral, posterior, medial cords |
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|
Term
What is the sensory domain of a PNS element? |
|
Definition
sensory domain: skin region innervated by sensory nerve fibers contained within a nerve root; dermatom is a sensory domain of a root |
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|
Term
What is a muscle domain of a PNS element? |
|
Definition
muscle innervated by motor nerve fibers contained within a nerve root; mytome is the motor domain of a root |
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Term
What are the 2 most common causes of radiculopathies? |
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Definition
disk herniation and degeneration (cervical radiculopathies: HNP C7>C6 and spondylosis C5 and C6 most frequent) AND lumbosacral radiculopathies (95%HNP affect either L5 or S1) |
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Term
What is the frequency of spondylosis? |
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Definition
by age 60 years, 70% women and 85% of men; after age 70, 93% of women and 97% men |
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Term
Why does traction tend to produce rupture at C5 and C6 MSN? |
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Definition
C5 and C6 MSNs are tehtered to the transverse process by connective tissue |
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Term
Why does traction tend to cause avulsion injury at C8 and T 1 nerve roots? |
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Definition
these roots are typically NOT tethered, resulting in avulsion injury from traction |
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Term
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Definition
C7 MSN varies in its degree of tethering |
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Term
What are the clinical features of radiculopathy? |
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Definition
pain the historical hallmark: paracentral axial pain that is radiation in nature, sharp, stabbing, hot, electric; often aggravated by maneuver's that stretch the root |
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Term
What are some of the maneuvers that aggravate radiculopathy? |
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Definition
neck extension is best maneuver for upper extremity; neck rotation, and spurling's maneuver may also be used for cervical radiculopathies; for lower extremity, SLR (if L5 or S1 suspected) and reverse SLR (if L4 is suspected); also crossed- SLR may be more specific |
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Term
Other than maneuvers that stretch the root, how else might you physically examine a radiculopathy? |
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Definition
spinal column percussion: may ID disorders of the VBs- metastic disease, epidural abscess, osteomyelitis |
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Term
What are some other clinical features of radiculopathy (other than classic hallmark of pain)? |
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Definition
weakness and atrophy (motor nerve fibers, myotomal distribution); paresthesias and sensory loss (sensory nerve fibers, dermatomal distribution); muscle stretch reflexes (diminished or absent) |
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Term
What are the different types of spondylosis? |
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Definition
common in greater than 50 year old age range; cervical: myeloradiculopathy (spinal canal stenosis); lumbosacral: neurogenic claudication (ambulation -->LE pain and weakness) and cauda equina syndrome) |
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Term
What do you do when confronted with a patient with new onset lower back pain? |
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Definition
Step 1: exclude emergencies- require immediate attention or diagnostic evaluation for etiology, spinal cord compression, cauda equina syndrome; possible causes include: fractures or dislocation due to trauma is the major cause in young patients, minor cause in elderly; bone disease such as osteoporosis, osteomalacia, paget disease, corticosteroid therapy, congenital anomalies; infection (myelitis) such as fever, immunosuppressed status, IVDA, spinal surgery, penetrating wound; neoplasm such as history of cancer, constitutional symptoms (like weight loss), pain at rest, neurological deficit (cauda equina localization) |
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Term
In patients with new onset lower back pain, why is addressing the etiology so pertinent? |
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Definition
neoplastic processes may progress rapidly not be functionally reversible if not recognized and treated early; myelitis is a neurologic emergency; w/fractures or bone disease: spinal column instability puts the cord at risk |
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Term
What are some pertinent positives in the history of a patient with new onset lower back pain? What conditions are associated with these positives? |
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Definition
pain at rest (neoplasm, infection, primary bone disease); pain that causes writhing(neoplasm, visceral disease- ulcers, pancreatic disease); fever (vertebral osteomyelitis, subacute bacterial endocarditis); acute pain in a cancer patient (metastasis- epidural spinal cord compression); urinary incontinence or retention (cauda equina syndrome, myelopathy); pain increases with spinal extension and decreases with flexion (spinal stenosis) |
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Term
What do standing and walking cause in regards to spinal flexion/extension? Sitting? |
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Definition
standing and walking cause spinal extension and narrow intervertebral foramina while sitting causes spinal flexion and expansion of intervertebral foramina- walking uphill is easier than downhill; bicycling is easier than walking |
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Term
What do you do to evaluate a patient with suspected radiculopathy? |
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Definition
history and exam are most important- sw/spinal cord compression, determine the sensory level, anal tone, fecal or urinary incontinence, check cutaneous reflexes (abdominal, bulbocavernosus, anal wink, cremaster); cauda equina syndrome; plain radiographs, CT (+/- myelography), MRI |
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Term
What are you looking for on plain radiographs in a suspected radiculopathy patient? |
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Definition
assess VBs for body abnormalities (fracture, neoplasm, congenital deformity); oblique views (spondylosis and spondylolisthesis); flexion and extension views (assess spinal stability) |
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Term
What are you using CT for in a radiculopathy patient? |
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Definition
useful for body detail but invasive; adding contrast die (myelography) gives enhancement of spinal cord and root visualization |
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Term
What are you using MRI for in a radiculopathy patient? |
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Definition
most useful imaging modality for assessing anatomic structure; superior to CT for all spine conditions; multiplanar; greater contrast sensitivity (tumor and infection detection); noninvasive; non-ionizing radiation; gadolinium contrast (scar tissue versus recurrent disk protrustion) |
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Term
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Definition
most helpful study for assessing nerve fiber function; more sensitive than clinical exam and false positive studies are extemely unlikely; yields physiologic infromation; complements MRI (anatomic changes with high false positive rate) |
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Term
What does EDX testing do? |
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Definition
assesses sensory and motor nerve fibers; assesses muscle fibers; identifies demyelination and axon loss; localizes the disorder; generates differential diagnosis or the actual diagnosis; determines severity; determines prognosis; dictates management and follow up |
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Term
How do you treat radiculopathy? |
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Definition
conservatively! Most acute radiculopathies improve within 6 weeks; bed rest 0-2 days, if required; do daily activities, avoiding those that exacerbate pain; physical therapy (heat, cold, ultrasound, massage; stretching exercises; ergonomic education); medications (NSAIDs, prednisone, benzos); nerve blocks |
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Term
Why would you do surgery for radiculopathy? |
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Definition
certain etiologies suggest surgery- neoplasm; spinal instability; severe or progressive weakness; spinal cord compression; cauda equina syndrome; sphincter or sexual dysfunction; incapacitating neurogenic claudication; intractable pain (**ill advised if isolated pain w/ negative imaging) |
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Term
What are the elements of the brachial plexus? |
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Definition
anterior primary rami; trunks; divisions; cords; terminal nerves |
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Term
The brachial plexus is divided into a supraclavicular and infraclavicular plexus. What does this mean for lesions? |
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Definition
from roots --> trunks, little nerve fiber rearrangement occurs so trunk lesions resemble root lesions clinically; after divisions -->cords, terminal nerves are given off, making cord lesions resember nerve lesions clincally |
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Term
What do C5 and C6 join to form? C7? C8 and T1? Basically, how is the brachial plexus formed? |
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Definition
C5+C6= upper trunk, C7=middle trunk, and C8+T1=lower trunk; each trunk becomes 2 divisions, one anterior and one posterior; anterior divisions of upper and middle trunk join to form lateral cord; 3 posterior divisions form the posterior division; anterior division of lower trunk continues as medial cord; terminal nerves derive from cords |
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Term
Are the muscle domains of the brachial plexus definable? |
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Definition
yes, they are derived from the mytome charts |
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Term
What is the muscle domain of the upper trunk? |
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Definition
C5 mytome+C6 myotome=dorsal scapular and long thoracic nerves |
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Term
From where do sensory nerve fibers constituting lateral antebrachial cutaneous nerve come? |
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Definition
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Term
Which sensory nerve fibers innervate the thumb? |
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Definition
sensory nerve fibers of median nerve that derive from C6 DRG |
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Term
From where do the sensory nerve fibers making up superficial radial nerve come? |
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Definition
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Term
The nerve fibers that innervate the second digit come from? |
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Definition
sensory nerve fibers of median nerve that derive mostly from C7 DRG |
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Term
Digit 3 is innervated by? |
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Definition
sensory nerve fibers of median nerve derived from C7 DRG |
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Term
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Definition
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Term
The medial antebrachial cutaneous nerve comes from? |
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Definition
sensory nerve fibers derived from T1 DRG |
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Term
When presented with a patient w/neuropathy, what information should you gather for a differential diagnosis? |
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Definition
distribution and symmetry (generalized, multiple mononeuropathies, mononeuropathies); sensory or motor fibers; demyelinating or axon loss; temporal course |
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Term
Describe stocking-glove distribution. |
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Definition
axonal loss, sensory earlier and more profoundly than motor |
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Term
Describe a situation with generalized motor with distal sensory neuropahty? |
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Definition
acquired demyelination, acute-subacute (AIDP-SIDP-CIDP) |
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Term
Describe a situation with generalized distal motor>sensory neuropathy. |
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Definition
hereditary dysmyelination, chronic |
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Term
What is the etiology in the majority of acquired, slowly progressive, sensory > motor, stocking glove neuropathies? |
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Definition
toxic metabolite : #1 diabetes, #2 ethanol abuse |
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Term
What do the majority of acute to subacute-onset generalized weakness w/ stocking globe sensory abnormalities represent? |
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Definition
typically represent acquired demyelinating neuropathy |
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Term
What do the majority of chronic, stocking glove distribution weakness that is out of proportion with degree of sensory loss represent? |
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Definition
usuallyr elated to hereditary dysmyelination |
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Term
What are some examples of multiple mononeuropathies (multifocal presenation)? |
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Definition
ischemic (vasculitis, diabetic amyotrophy); inflammatory/immune-mediated (neuralgic amyotrophy, sarcoidosis); infectious (leprosy, lyme disease, CMV); genetic (HNPP, hereditary enuralgic amyotrophy); mechanical (entrapments); neoplastic |
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Term
List the cutaneous and motor branches of radial nerve. |
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Definition
posterior cutaneous nerve of arm; posterior cutaneous nerve of forearm; triceps and anconeus muscles; brachioradialis and ECR longus; gives off SRN and continues as PIN; supinator; ECR brevis; EDC; EDM; ECU; APL; EPL; EPB; EIP |
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Term
List the cutaneous and motor branches of the median nerve. |
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Definition
pronator teres and FCR; palmaris longus and FDS; anterior interosseus nerve (FPL, FDP-D2 and D3; pronator quadratus); palmar cutaenous nerve; thenar muscles and lumbricals 1 and 2; palmar digital nerves |
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Term
List the cutaneous and motor branches of the ulnar nerve. |
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Definition
FCU and FDP-D3 and D4; palmar cutaneous nerve; dorsal cutaneous nerve; superficial terminal nerve; palmaris brevis; hypothenar muscles; lumbriclas 3 and 4; interossei; adductor pollicis; FPB (deep head) |
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Term
List the cutaneous and motor branches of the common peroneal nerve. |
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Definition
lateral sural cutaneous nerve; lateral cutaneous nerve of calf (superficial peroneal nerve- peroneus longus and brevis, cutaneous distribution; deep peroneal nerve-TA, EHL, EDL, EDB, cutaneous distribution) |
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Term
List the cutaneous and motor branches of the tibial nerve. |
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Definition
medial sural cutaneous nerve; gastrocnemius; soleus (popliteus, plantaris); tibialis posterior; FDL; FHL (medial plantar nerve- AH, FDB, FH, lumbricals 1 and 2, cutaneous distribution; lateral plantar nerve- ADM, FDM, adductor hallucis, interossei, lumbricals 3 and 4, cutaneous distribution; medial calcaneal nerve) |
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Term
Where does Wallerian degeneration occur? What does it allow? |
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Definition
occurs from the disruption site, distally; it permits EDX testing to differentiate intraspinal canal lesions (ex: ALS, radiculopathies) from plexopathies and neuropathies |
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Term
How do you identify focal demyelination? |
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Definition
stimulating and recording electrodes must be placed so that they straddle the 2 sides of the lesion |
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Term
What does uniform slowing (EMG) do? |
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Definition
maintains the shape of recorded waveform |
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Term
What does nonuniformed slowing do (EMG)? |
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Definition
affects the CMAP morphology |
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Term
What happens with demyelinating conduction block (DMCB)? |
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Definition
demyelination is so severe that the impulses cannot propagate across the lesion site; lesions may be partial or complete |
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Term
What does axon disruption do? |
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Definition
induces distal degenerative changes (wallerian degeneration) that renders the distal segment of the disrupted nerve fiber unexcitable; process occurs over 3-7 day period |
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Term
How long does it take for axon disruption to induce distal degenerative changes? |
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Definition
3-7 days; until then, the distal stump still conducts and mimics demylinating conduction block |
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Term
Why is it important that demyelinating conduction block can look much like axon disruption on EMG? |
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Definition
prognoses vary significantly so the timing of EDX assessment is extremely important to provide the EDX consultant |
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Term
What sort of prognosis does does demyelinating conduction block have, as compared to axon disruption? |
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Definition
DMCB has an excellent prognosis but axon disruption does not; because these can look similar on on nerve conduction study, it is important to note the onset of weakness |
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Term
Do denervated muscle fibers discharge? |
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Definition
yes, they can generate spontaneous discharges- see insertional postiive waves and fibrillation potentials |
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