Neurological system disorders (ch 7) Flashcards

Question 1

Q

Lateral central fissure (aka_____) separates _____ lobe from _____ and _____ lobes.

Answer

A

Lateral central fissure (aka SYLVIAN FISSURE) separates TEMPORAL lobe from FRONTAL and PARIETAL lobes.

Question 2

Q

Longitudinal cerebral fissure separates ____________.

Answer

A

THE TWO HEMISPHERES.

Question 3

Q

Central sulcus separates ______ lobe from the ______ lobe

Answer

A

Central sulcus separates FRONTAL lobe from the PARIETAL lobe.

Question 4

Q

Frontal lobe: precentral gyrus contains….

Answer

A

primary motor cortex for voluntary muscle activation

Question 5

Q

Frontal lobe: prefrontal cortex controls…

Answer

A

emotions, judgements, higher order cognitive functions (ideations and abstraction)

Question 6

Q

Frontal lobe: premotor cortex controls…

Answer

A

motor aspects of speech (related to planning of movements including Broca’s area)

Question 7

Q

Parietal lobe: poscentral gyrus is…

Answer

A

primary sensory cortex for integration of sensation

Question 8

Q

Parietal lobe also contains…

Answer

A

receptive fibers conveying touch, proprioceptive, pain and temperature sensations from opposite side of body

Question 9

Q

Temporal lobe: which cortexes are here??

Answer

A

Primary auditory (receives/processes auditory stimuli);
associative auditory cortex (processis auditory stimuli);
Wernicke’s area (language comprehension).

Question 10

Q

Occipital lobe contains 2 cortexes…?

Answer

A

Primary visual cortex (recieves/processes visual stimuli);

Visual association cortex (processes visual stimuli).

Question 11

Q

Insula is located where and does what?

Answer

A

deep within lateral sulcus; associated with visceral functions

Question 12

Q

The limbic systems consists of what? and has what functions?

Answer

A

consists of limbic lobe (cingulate, parahippocampal, and subcallosal gyri), hippocampal formation, amygdaloid nucleus, hypothalamus, anterior nucleus of thalamus.
Oldest part of the brain- concerned with instincts and emotions contributing to preservation of individual. Functions include feeding, aggression, emotions, endocrine aspects of sexual response, and long-term memory formation.

Question 13

Q

What is white matter?

Answer

A

myelinated nerve fibers located centrally.

Question 14

Q

What are the three kinds of white matter?

Answer

A

transverse fibers: interconnect the 2 hemispheres (including corpus callosum (largest), anterior commissure, and hippocampal commissure.
projection fibers: connect cerebral hemispheres with other portions of the brain and spinal cord.
Association fibers: connect different portions of the cerebral hemispheres (within the same hemisphere), allowing cortex to function as an integrated whole.

Question 15

Q

What/where is the basal ganglia?

Answer

A

Masses of gray matter deep within the cerebral hemispheres, including corpus striatum, amygdaloid nucleus, and claustrum. (Lenticular nuclei= putamen and globus pallidus).

Question 16

Q

What does basal ganglia do?

Answer

A

forms an associated motor system (extrapyramidal system) with other nuclei in the subthalamus and midbrain. Has numerous fiber interconnections…. caudate loop works with association cortex in motor planning; putamen loop work with sensorimotor cortex to scale/adjust movements.

Question 17

Q

What are three parts of thalamus and what do they do?

Answer

A

sensory nuclei: integrate/relay sensory info from body, face, retina, coclea, and taste receptors to cerebral cortex and subcortial regions; smell is the exception.
motor nuclei: relay motor info from cerebellum and globus pallidus to precentral motor cortex.
other nuclei: assis in integration of visceral and somatic functions

Question 18

Q

What does subthalamus do?

Answer

A

involve din control of several functional pathways for sensory, motor, and reticular function.

Question 19

Q

What does hypothalamus do?

Answer

A

integrates and controls functions of the autonomic nervous system and neuroendocrine system;
maintains body homeostasis (regulates temp, eating, water balance, anterior pituitary function/sexual behavior, and emotion).

Question 20

Q

Epithalamus is made of 2 things and does what?

Answer

A

Habenular nuclei: integrates olfactory, visceral, and somatic afferent pathways.
Pineal gland: secretes hormones that influence the pituitary gland and several other organs; influences circadian rhythm.

Question 21

Q

Brainstem is made of 3 things:

Answer

A

midbrain, pons, and medulla oblongata

Question 22

Q

Midbrain: tegmentum contains what and does what?

Answer

A

contains all ascending tracts and some descending tracts
red nucleus receives fibers from cerebellum and is origin for rubrospinal tract (important for coordination); contains cranial nerve nuclei (oculomotor and trochlear).

Question 23

Q

Midbrain: substantia nigra

Answer

A

a large motor nucleus connecting with basal ganglia and cortex; is important in motor control and muscle tone.

Question 24

Q

Midbrain: superior colliculus

Answer

A

important relay station for visual and visual reflexes; inferior colliculus is important relay station for hearing and auditory reflexes.

Question 25

Q

Pons! Where and what?

Answer

A

Connects medulla oblongata to the midbrain, allowing passage if important ascending and descending tracts.
acts as bridge to cerebellum
midline raphe nuclei project widely and are improtant for modulating pain and controlling arousal
tegmentum contains cranial nerve nuclei of abducens, trigeminal, facial, vestibulocochlear.

Question 26

Q

Medulla oblongata! where and what?

Answer

A

connects spinal cord with pons; contains relay nuclei of dorsal columns; fibers cross to give rise to medial lemniscus.
inferior cerebellar peduncle relays dorsal spinocerebellar tract to cerebellum.
corticospinal tracts decussate in pyramids.
medial longitudinal fasciculus arises from vestibular nuclei and extends throughout brain stem and upper cervical spinal cord; important for control of head mvmts and gaze stabilization.
cranial nerve nuclei: hypoglossal, dorsal nucleus of vagus, and vestibulocochlear
contains centers for vital functions: cardiac, respiratory, and vasomotor centers.

Question 27

Q

Cerebellum is located where?

Answer

A

behind dorsal pons and medulla in posterior fossa.

Question 28

Q

3 parts of the cerebellum and what they do:

Answer

A

archicerebellum (flocculonodular lobe) connects with vestibular system and is concerned with equilibrium and regulation of muscle tone.
paleocerebellum (anterior lobes and vermis) recieves input from proprioceptive pathways and is concerned with modifying muscle tone and synergistic actions of muscles; imprtant in maintenance of posture and voluntary mvmt control.
Neocerebellum (middle lobes) receives input from cortiopontocerebellar tracts and olivocerebellar fibers; is concerned with smooth coordination of voluntary mvmts; ensures accurate force, direction, and degree of mvmt.

Question 29

Q

Segments of the spinal cord:

Answer

A

8 cervical
12 thoracic
5 lumbar
5 sacral
and a few coccygeal segments

Question 30

Q

Dorsal column/medial lemniscus tract

Answer

A

convey sensations of proprioception, vibration, and tactile discrimination.

divided into fasciculus cuneatus (UE tracts, laterally located) and fasciculus gracilis (LE tracts, medially located)
neurons ascend to medulla where fibers cross (lemniscal decussation) to form medial lemniscus, ascend to thalamus and then to somatosensory cortex

Question 31

Q

Spinothalamic tracts:

Answer

A

convey sensations of pain and temperature and crude touch; tracts ascend 1 or 2 ipsilateral spinal cord segments, synapse and cross in spinal cord to opposite side and ascend in ventrolateral spinothalamic system.

Question 32

Q

Spinocerebellar tracts:

Answer

A

convey proprioception info from muscle spindles, Golgi tendon organs, touch, and pressure receptors to cerebellum for control of voluntary movements; dorsal spinocerebellar tract ascends to ipsilateral inferior cerebellar peduncle.

Question 33

Q

Spinoreticular tracts:

Answer

A

convey deep and chronic pain to reticular formation of brain stem via diffuse, polysynaptic pathways

Question 34

Q

Corticospinal tracts:

Answer

A

descending; important for voluntary motor control
arise from primary motor cortex, descend in brain stem, cross in medulla, via lateral cortiospinal tract to ventral gray matter; 10% of fibers do not cross and travel in anterior cortiospinal tract to cervical and upper thoracic segments.

Question 35

Q

Vestibulospinal tracts:

Answer

A

descending; important for control of muscle tone, antigravity muscles, and postural reflexes.
arise from vestibular nucleus and descend to spinal cord in lateral and medial vestibulospinal tracts.

Question 36

Q

Rubrospinal tract:

Answer

A

descending; assists in motor function

- arises in contralateral red nucleus and descends n lateral white columns to spinal gray.

Question 37

Q

Reticulospinal system:

Answer

A

descending; modifies transmission of sensation, especially pain; influences gamma motor neurons and spinal reflexes.
arises in the reticular formation of the brain stem and descends in both ventral and lateral columns, terminates both on dorsal gray and ventral gray.

Question 38

Q

Tectospinal tract:

Answer

A

descending; assists in head turning responses in response to visual stimuli.
arises from superior colliculus and descends to ventral gray.

Question 39

Q

What does the autonomic nervous system do?

Answer

A

innervations of involuntary structures (smooth muscle, heart, glands; helps maintain homeostasis).

Question 40

Q

What are the 2 divisions of autonomic nervous system and what do they do?

Answer

A

Sympathetic (thoracolumbar)- fight or flight, emergency, raises heart rate and BP, contstricts peripheral BVs and redistributes blood; inhibits peristalsis.
Parasympathetic (craniosacral)- conserves and restores homeostasis; slows heart rate and reduces BP, increases peristalsis and glandular activity.

Question 41

Q

What are the autonomic plexuses (name them)?

Answer

A

cardiac, pulmonary, celiac (solar), hypogastric, pelvic

Question 42

Q

What are the 3 meninges of the brain (and name them)?

Answer

A

3 membranes that envelop the brain!

Dura mater (outer, tough, fibrous membrane attached to inner surface of cranium)
arachnoid (delicate, vascular membrane)
5… then subarachnoid space (formed by arachnoid and pia mater, contains CSF and cisterns, major arteries).
Pia mater (thin, vascular membrane that covers the brain surface; forms tela choroidea of ventricles.)

Question 43

Q

Ventricles of brain- there are 4!

Answer

A

Filled with CSF and communicate with each other and with spinal cord canal….

Lateral ventricles: large, irregularly shaped, with anterior posterior and inferior horns; communicates with third ventricle through foramen on Monro.
Third ventricle: located posterior and deep b/w the two thalami; cerebral aqueduct communicates third with fourth ventricle.
Fourth ventricle: pyramid-shaped cavity located in pons and medulla

Question 44

Q

What does cerebrospinal fluid do?

Answer

A

provides mechanical support (cushions brain), controls brain excitability by regulating ionic composition, aids in exchange of nutrients and waste products.

produced in chorioid plexuses in ventricles.
normal pressure 70-180 mm/H2O.
total volume: 125-150 cc.

Question 45

Q

What is the blood-brain barrier

Answer

A

the selective restriction of blood borne substances from entering the CNS; associated with capillary enothelial cells.

Question 46

Q

Blood supply to the brain: brain is 2% of body weight with a circulation of 18% of total blood volume. Just a fun fact

Question 47

Q

What is the carotid system of blood supply?

Answer

A

internal carotid arteries arise off of common carotids and branch to form anterior and middle cerebral arteries;

supplies a large area of brain and many deep structures.

Question 48

Q

What is the vertebrobasilar system of blood supply?

Answer

A

vertebral arteries arise off of subclavian arteries and unite to form the basilar artery; this vessel bifurcates into two posterior cerebral arteries;

supplies the brain stem, cerebellum, occipital lobe, and parts of thalamus.

Question 49

Q

What is the Circle of Willis?

Answer

A

formed by anterior communicating artery connecting the two anterior cerebral arteries and the posterior communicating artery connecting each posterior and middle cerebral artery!

Question 50

Q

What are ganglia?

Answer

A

compact groups of peripheral nerve cell bodies (nuclei)

Question 51

Q

Projection neurons carry impulses to….

Answer

A

other parts of the CNS

Question 52

Q

Interneurons are…

Answer

A

short relay neurons

Question 53

Q

Axon bundles are called…

Answer

A

tracts or fasciculi (in spinal cord, collections of tracts are called columns, or funiculi)

Question 54

Q

What are neuroglia?

Answer

A

support cells that do not transmit signals; important for myelin and neuron production; maintenance of K+ levels and re-uptake of neurotransmitters following neural transmission at synapses.

Question 55

Q

Resting membrane potential is ____ on outside and ____ on inside

Answer

A

positive on outside and negative on inside.

Question 56

Q

What is action potential?

Answer

A

increased permeability of Na+ and influx into cell with outflow of K+ results in polarity changes and depolarization; generation of an action potential is all-or-none!!!

Question 57

Q

Just know this: Conduction velocity is proportional to axon diameter; the largest myelinated fibers conduct the fastest.

Question 58

Q

The small gaps in myelination are called…

Answer

A

nodes of Ranvier

Question 59

Q

what is saltatory conduction

Answer

A

when the action potential jumps from one node of Ranvier) to the next.

Question 60

Q

Nerve fiber types: “A” fibers characteristics and types?

Answer

A

large, myelinated, fast conducting

Alpha (proprioception, somatic motor
Beta (touch, pressure)
Gamma (motor to muscle spindles
Delta (pain, temp, touch)

Question 61

Q

Nerve fiber types: B fibers characteristics?

Answer

A

small, myelinated, conduct less rapidly; preganglionic autonomic.

Question 62

Q

Nerve fiber types: C fibers characteristics and types?

Answer

A

smallest, unmyelinated, slowest conducting.

dorsal root (pain, reflex responses)
sympathetic (post-ganglionic sympathies)

Question 63

Q

Lower Motor Neurons: structures, and symptoms of a lesion

Answer

A

Structures: cell bodies in the anterior horn of spinal cord, spinal nerves, and cranial nerve fibers that travel to target muscles.
Symptoms of lesion: flaccidity, decreased or absent deep tendon reflexes, atrophy.

Question 64

Q

Upper Motor Neurons: structures, and symptoms of a lesion

Answer

A

Structures: any nerve cell body or nerve fiber in the spinal cord (except the anterior horn cells), all superior structures (gray and white matter affecting motor function and descending nerve tracts), cranial nerve nuclei.
Symptoms of lesion: increased depp tendon reflexes, spasticity, clonus, emergence of primitive reflexes including Babinski sign, exaggerated cutaneous reflexes, autonomic dysreflexia, flaccidity may occur at the level of lesion.

Answer 63

A

the skeletal muscles innervated by motor axons in a given spinal root.

Answer 64

A

the alpha motoneuron and the muscle fibers it innervates

Answer 65

A

L1; cauda equina.

Answer 66

A

efferent (motor) fibers to voluntary muscles, and to viscera, glands and smooth muscles.

Answer 67

A

afferent (sensory) fibers from sensory receptors from skin, joints, and msucles; each dorsal root possesses a dorsal root ganglion; there is no dorsal root for C1.

Answer 68

A

a specific segmental skin area innervated by sensory spinal axons.

Answer 69

A

involuntary responses to stimuli; basic, specific and predictable; dependent upon intact neural pathway (reflex arc).

Answer 70

A

stimulus: muscle stretch
reflex arc: afferent 1a fiber from muscle spindle to alpha motoneuron projecting back to muscle of origin (monosynaptic)
functions to maintain muscle tone, support agonist muscle contraction, and provide feedback about muscle length.
clinically, sensitivity of the stretch reflex and intactness of spinal cord segment are tested by applying stretch to the deep tendons (DTR)
reciprocal innervation: describes the responses a stretch stimulus can have on agonist, antagonist, as well as synergistic muscles.

Answer 71

A

stimulus: muscle contraction
reflex arc: afferent 1b fiber from Golgi tendon organ via inhibitory interneuron to muscle of origin (polysynaptic)
functions to provide against inhibition, diminution of force of agonist contraction.

Answer 72

A

STRETCH reflex forms part of this loops.
Allows muscle tension to come under control of descending pathways.
Descending pathways excite gamma motor neurons, causing contraction of the muscle spindle, and in turn increased stretch sensitivity and increased rate of firing from spindle afferents; impulses are then conveyed to alpha motor neurons.

Answer 73

A

stimulus: cutaneous sensory stimuli
reflex arc: cutaneous receptors via interneurons to largely flexor muscles; multi-segmental response involving groups of muscles (polysynaptic).
functions as a protective withdrawal mechanism to remove body part form harmful stimuli.

Answer 74

A

stimulus: noxious stimuli and reciprocal action of antagonists ; flexors of one side are excited causing extensors on same side to be inhibited; opposite responses occur in opposite limb.
reflex arc: cutaneous and muscle receptors diverging to many spinal cord motor neurons on same and opposite side (polysynaptic).
function: coordinates reciprocal limb activities such as gait.

Answer 75

A

ischemic= clot
hemorrhagic= bleed

Answer 76

A

due to transient disturbances of blood flow (like TIA- brief interruption of blood supply). TIA symptoms don’t last as long as stroke (usually only hour to 24 hours).

Answer 77

A

due to either embolism or thrombosis of the intra or extracranial arteries.

Answer 78

A

thrombus: mass of clotted platelets and other parts of blood;
embolus: when a piece of the thrombus moves and then gets stuck somewhere else.

Answer 79

A

bleed secondary to hypertension or aneurysm

Answer 80

A

abnormal, tangled collections of dilated blood vessels that result from congenitally malformed vascular structures

Answer 81

A

contralateral hemiplegia, hemianestehesia, homonymous hemianopsia, aphasia (usually left MCA), and/or apraxia (usually left MCA), unilateral neglect (usually R MCA), spatial dysfunction (usually R MCA)

Answer 82

A

symptoms similar to those associated with MCA CVA.

contralateral hemiplegia, hemianestehesia, homonymous hemianopsia, aphasia (usually left MCA), and/or apraxia (usually left MCA), unilateral neglect (usually R MCA), spatial dysfunction (usually R MCA)

Answer 83

A

contralateral hemiplegia, grasp reflex, incontinence, confusion, apathy, and/or mutism.

Answer 84

A

homonymous hemianopsia, thalamic pain, hemisensory loss, and/or alexia.

Answer 85

A

pseudobulbar signs (dysarthria, dysphagia, emotional instability), tetraplegia

Answer 86

A

mvmnt of right side of body; processing of sensory info from R side
visual reception from r field
visual verbal processing
BIL motor praxis
verbal memory
BIL auditory reception
speech
processing of verbal auditory info

Answer 87

A

mvmnt of L side of body; processing sensory info from L side
visual reception from L field
visual spatial processing
L motor praxis
nonverbal memory
attention to incoming stimuli
emotion
processing of nonverbal auditory info
interpretation of abstract info
interpretation of tonal inflections

Answer 88

A

Modifiable: hypertension, cardiac disease, A-fib, diabetes, smoking, ETOH, hyperlipidemia
Non-modifiable: age, gender (males higher risk), race (black/latino), heredity

Answer 89

A

flexed UE, extended LE

Answer 90

A

all extended UE and LE

Answer 91

A

purpose- for initial eval and continuing assessment to determine person’s level of consciousness after head injury. Its a neurologic scale providing a method to record state.
assessed on criteria of eye, verbal, and motor responses
scoring: highest is 15 (fully conscious); lowest is 3 (deep coma or death).

Answer 92

A

No response: total assistance

-coma

Answer 93

A

Generalized response: total assistance

generalized reflex response to pain stimuli
responses to repeated auditory stimuli with decreased/increased activity
responds to external stimuli w/ physiological changes, gross body mvmnt, or nonpurposeful vocalization
may be significantly delayed responses though

Answer 94

A

Localized response: total assistance

withdrawal or vocalization to painful stimuli
turns toward/away from auditory stimuli
blinks with strong light
follows moving object passed w/in visual field
pulls tubes/restrains
inconsistent response to simple comands
may respond to friends/family but not others

Answer 95

A

Confused/agitated: max assist

alert and in heightened state of activity
purposeful attempts to remove restraints/tubes and get out of bed
brief and usually nonpurposeful moments of sustained alternatives and divided attn
absent short-term memory
may perform motor activities like sitting, reaching, walking; but w/out apparent purpose
may scream out of proportion to stimulus
aggressive/flight behavior
mood swing from euphoric to hostile with no apparent cause
uncooperative with tx efforts
verbalizations often incoherent or inappropriate to activity

Answer 96

A

Confused, inappropriate non-agitated: max assist

alert, not agitated but may wander randomly or w/ vague intention of going home
not oriented x3
brief periods of nonpurposeful sustained attn
severely impaired recent memory
absent goal directed, problem solving, self-monitoring behavior
unable to learn new info
able to respond appropriately to simple commands fairly consistently with cues.
converse on social automatic level for brief time with cues

Answer 97

A

Confused, appropriate: mod assist

inconsistently oriented x3.
can attend to highly familiar tasks in non-distracting enviro for 30 min w/ redirection
remote memory deeper than recent memory
vague recognition of staff
emerging awareness of appropriate response to self, family, and needs
mod assist to problem solve task barriers
supervised for old learning (self care)
unaware of impairments, disabilities and safety risk.
verbal expressions are appropriate in highly familiar and structured situations.

Answer 98

A

Automatic, appropriate: min assist for daily living skills

consistently oriented to person & place in familiar enviro; mod assist for orientation to time
able to attend to familiar tasks for at least 30 min with min assist
min supervision for new learning
carries out steps of familiar personal and household routine (shallow recall of what he’s been doing).
superficial awareness of condition but unaware of impairments and limited safety awareness.
unaware of others’ needs/feelings
unable to consider consequences of actions
oppositional/uncooperative
unable to recognize inappropriate social interaction behavior

Answer 99

A

Purposeful, appropriate: SBA

consistently oriented x3
indep attends to/completes familiar tasks for 1 hour in distracting enviro
recall and integrate past and recent events
no assistance once new tasks learned
aware of impairments, but req SBA to take appropriate corrective action
depressed, irritable, low frustration tol, argumentative, self-centered
able to recognize inappropriate social interaction behavior while occurring and take corrective action with min assist
over/underestimates abilities
acknowledges others’ needs/feelings and responds appropriately with min assist.

Answer 100

A

Purposeful, appropriate: SBA on request

indep completes tasks for at least 2 hours
uses assistive memory devices, to do lists.
initiates/carries out steps to familiar tasks indep and unfamiliar tasks with assist when requested.
able to consider consequences with assist when requested
depression maybe, irritability maybe, low frustration tolerance maybe
self monitor appropriate social interaction with SBA
acknowledges others’ needs/feelings and responds appropriately with SBA
requires SBA to anticipate a problem.

Answer 101

A

Purposeful, appropriate: modified independent

able to handle multiple tasks simultaneously in all enviros with periodic breaks.
indep procure, create, maintain assistive memory devices
indep do familiar and unfamiliar tasks with incr time
anticipates impact of impairments/ on ability to complete daily living tasks and avoids problems, with incr time and/or compensatory strategies
periodic depression, irritability, and low frustration tolerance
consistently appropriate social behavior
accurately estimates abilities
recognizes needs/feelings of others and responds appropriately

Answer 102

A

A=complete, no sensory or motor function is preserved in the sacral segments S4-S5
B= incomplete, sensory but no motor function is preserved below neurological level and extends through the sacral segments
C= incomplete, motor function is preserved below the neurological level, and the majority of key muscle groups below the level have a muscle grade less than 3/5
D= incomplete, motor function is preserved below neurological level, and the majority of key muscle groups below level have a muscle grade greater or = to 3/5.
E= normal, sensory and motor function are normal.

Answer 103

A

(4-8 weeks) all reflex activity is obliterated below level of injury presenting as flaccid paralysis.

Answer 104

A

SPASTICITY in UMN lesions; FLACCIDITY in lesions below L1.

Answer 105

A

results from hyperextension injuries and presents as more UE deficits than LE.

Answer 106

A

hemi-section of cord. causes disruption of the descending lateral coricospinal tracts, ascending DC/ML, and ascending lateral spinothalamic tracts. Result is ipsilateral paralysis, ipsilateral loss of position sense, ipsilateral loss of discriminative touch, contralateral loss of pain, and contralateral loss of thermal sense.

Answer 107

A

caused by flexion injuries.
Lost BIL below lesion: motor function, pain, pinprick, and temp sensation
Preserved: proprioception and light touch.

Answer 108

A

injury to the posterior columns.
Lost: proprioception.
Preserved: pain, temp, touch; motor function preserved to varying degrees.

Answer 109

A

injury of sacral cord and lumbar nerve roots resulting in LE motor and sensory loss and areflexic bowel and bladder.

Answer 110

A

injury at L1 level and below resulting in LMN lesion; flaccid paralysis with no spinal reflex activity; areflexic bowel and bladder.

Answer 111

A

respiratory complications, decreased vital capacity, pneumonia.
decubitus ulcer formation
orthostatic hypotension
deep vein thrombosis
autonomic dysreflexia
UTI
heterotropic ossification (the formation of bone in abnormal anatomical locations)

Answer 112

A

abnormal response to noxious stimulus that results in extreme rise in blood pressure, pounding headache, and profuse sweating. Medical emergency. Can be caused by bowel irritation/over-distension, bladder infection/over-distention, skin irritants, sexual irritants (menstrual cramps, labor/delivery), heterotopic ossification/myositis ossificans, fractures, appendicitis.

Answer 113

A

identify the offending stimulus and relive the issue immediately.
medications if no impact can be made by removing irritant.

Answer 114

A

teach person/caregiver frequent pressure relief principles
compliance w/ intermittent catheterization
well-balanced diet
medication compliance
educate person/caregivers on prevention methods; recognize signs/symptoms; initiate first aid to deal effectively with condition.

Answer 115

A

prevention of further cord damage via stabilization
traction and rest for unstable injuries
surgery
diuretic prescription to decrease inflammation
bladder care
decubiti prevention
control of autonomic dysreflexia and orthostatic hypotension
prevention of thrombus formation
tx for heterotopic ossification

Answer 116

A

injury and/or disease prior to, during, or shortly after birth resulting in brain damage and secondary neurological and muscular deficits.
Common prenatal causes= lack of oxygen, intracranial hemorrhage, meningitis, chronic alcohol abuse, toxicosis, infection, genetic factors, endocrine, and metabolic disorders.

Answer 117

A

lesion of the motor cortex will result in spasticity with flexor and extensor imbalance. Spasticity can express itself as: hypertonic (increased muscle tone) and hyperreflexia (increased intensity of reflex responses).

Answer 118

A

a lesion in the basal ganglia results in fluctuations in muscle tone. Symptoms:

dystonia (excessive/inadequate muscle tone)
athetosis (writing involuntary mvmnts which are more distal than proximal)
chorea (spasmodic involuntary mvmnts which are more proximal than distal and a lack of cocontractions.

Answer 119

A

a lesion in the cerebellum results in hypotonia and ataxic mvmnts; characterized by a lack of stability so coactivation is difficult, resulting in more primitive total patterns of mvmnt. Classification is according to level of severity.

Answer 120

A

less UE involvement and greater LE functional impairment

Answer 121

A

seizures (50% of children)
language and cognitive deficits (50-75%)… speech/language deficits, difficulty coordinating breathing with swallowing, dysarthria, aphasia, cognitive deficits more associated with seizures.
visual impairments (40-50%) (strabismus, nystagmus, myopia, hyperopia, presbyopia)
feeding disturbances
diminished sensation (common in spastic hemiplegia)

Answer 122

A

deviation of how one eye aligns with the other

Answer 123

A

reflexive response of the eyes triggered by head movement

Answer 124

A

nearsightedness

Answer 125

A

farsigntedness

Answer 126

A

decreased elasticity of the lenses causing difficulty in accommodation when focusing on objects nearby and when shifting focus from near to far.

Answer 127

A

involuntary, nonrepetitive, but occasionally stereotyped movement affecting distal, proximal, and axial muscles in varying combinations. Most are representative of basal ganglia disorders.

Answer 128

A

a brief and rapid contraction of a muscle or group of muscles.

Answer 129

A

brief, purposeless, involuntary mvmnt of distal extremities and face; usually considered to be a manifestation of dopaminergic overactivity in basal ganglia.

Answer 130

A

alterations of muscle tones resulting in sustained abnormal postures and disruptions of ongoing mvmnt. Dystonias may be generalized or focal.

Answer 131

A

a lack of coordination while performing voluntary movements. It may appear as clumsiness, inaccuracy, or instability. Movements are not smooth and may appear disjointed/jerky.

Answer 132

A

usually characterized by involuntary flinging motions of the extremities. The movements are often violent and have wide amplitudes of motion. Are continuous and random and can involve proximal and/or distal muscles on one side of the body.

Answer 133

A

tremor, rigidity, resistance to passive motion that isn’t velocity dependent (cogwheel or led pipe), akinesia, postural instability, festinating gait, falling backwards (retropulsion), or forwards (propulsion), mask face, micrographia.

Answer 134

A

unilateral tremor, rigidity, akinesia, minimal or no functional impairment.
bilateral tremor, rigidity or akinesia, with or without axial signs, independent with ADL, no balance impairment.
worsening symptoms, first sins of impaired righting reflexes, onset of disability in ADLs, can lead indep life.
requires help with some/all ADLs, unable to live along without assistance, able to walk and stand unaided.
confined to wheelchair or bed, maximally assisted

Answer 135

A

failure of spinal column’s vertebral arches to fully form to enclose and protect the neural tube. May result in protrusion of the neural tube. Idiopathic (genetic, intrauterine, and/or enviro causes). Most common neural tube disorder. Decreased incidence with folic acid during pregnancy.

Answer 136

A

thoracic or lumbar spine.

Answer 137

A

a bony malformation with separation of vertebral arches of one or more vertebrae with no external manifestations; may not be discovered until late childhood.

Answer 138

A

when external manifestations of spina bifida are present covering the site, such as red birthmark, patch of hair, dermal sinus, fatty benign tumor, or dimple.

Answer 139

A

an exposed pouch comprised of the spinal cord and meninges.

with meningocele: protrusion of a sac through the spine containing CSF and meninges but NOT spinal cord.
with myelomeningocele: protrusion of a sac through spine containing CSF and meninges AND the spinal cord or nerve roots. Most commonly lumbar.

Answer 140

A

none for spina bifida occulta
occult spinal dysraphism: may result in spinal cord being split (diplomyelia) or tied down and tethered (diastematomyelia) which may lead to neuro damage and developmental abnormality as child grows.
spina bifida meningocele: usually no symptoms impacting function. Occasionally slight instability and neuromsucular impairment (gait, bowel/bladdar problems).
spina bifida myelomeningocele: sensory and motor deficits occurring below lesion level; may result in LE paralysis or deformities, bowel and bladder incontinence, decubitus ulcer and DVT. Lesions S2-S4 result in bladder/bowel problems.

Answer 141

A

Occurs in the tail end of the spinal cord when cord is stretched as a result of compression, being trapped with a fatty mass or scar tissue, developmental abnormality, or injury. Signs include hairy patch of skin, hemangioma (small strawberry mark), and/or dimple of lower spine.
-trouble with bowel/bladder control, gait, deformities, of feet, low back pain, scoliosis.

Answer 142

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a portion of the cerebellum and medulla oblongata slip down through foramen magnum to the cervical spinal cord (due to increased pressure in cranium- associated with spina bifida); can cause dizziness, muscle weakness, numbness, vision probs, headaches, balance probs.

Answer 143

A

dystrophin

Answer 144

A

degenerative disorders resulting in muscle weakness and decreased muscle mass due to hereditary disease process

Answer 145

A

creatine kinase (CK)

Answer 146

A

hypotonia, muscle weakness, and atrophy

Answer 147

A

Duchenne’s

Answer 148

A

pseudohypertrophy (enlargement of calf muscles) and at times enlargement of forearm and thigh muscles, giving appearance of healthy;
weakness of proximal joints to where child has signif functional mobility impairments such as ambulating with trendelenburg (waddling) gait and difficulty getting up from floor to standing (uses hands to crawl up thighs to get to standing- called Gower’s sign).
weakness in all voluntary muscles, including heart and diaphragm
behavioral and learning difficulties and delayed speech maybe
rarely survive beyond early 20’s b/c of respiratory problems, infections, or cardiovascular dystrophy

Answer 149

A

(variant of Duchenne’s that is slower progressing)

loss of motor function of hips, thighs, pelvic area, and shoulders.
enlarged calves
cardia system can be involved
survival can be into late adulthood (normal lifespan if min cardiac involvement)

Answer 150

A

(at birth; associated with loss of anterior horn cells)

weakness, deformities, and associated joint contractures.
position of rest of UE tends to internal rotation of shoulders, ext of elbows, and flexion of wrists; LE flexion and internal rotation of hips and clubfeet.
may be stable, mildly progressive, or improve.
related problems= congenital heart defects, spinal defects, torticollis (abnormal head/neck position), and involvement of diaphragm

Answer 151

A

(Onset between 0-20 years)

proximal muscles of pelvis and shoulder are initially affected
typically progresses slowly

Answer 152

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(occurs in early adolescence)

involves face, upper arms, and scapular region, causing masking, weakness, decreased mobility of the face, and inability to lift the arms above shoulder level.
as it progresses, weakness can extend to abdominal muscles and sometimes hip muscles.
progresses slowly; rarely affects the cardiac or respiratory systems (life expectancy can be normal)

Answer 153

A

(caused by decrease of a motor neuron protein called Survival of Motor Neuron, chromosome 5.)

weakness of voluntary muscles of shoulders, hips, thighs, and upper back which can result in spinal curvatures
muscles for breathing and swallowing can be affected.
earlier the age of diagnosis, greater the severity of functional deficits and shorter life expectancy.
4 types (1-4): birth/infancy (Werding-Hoffman), children, older children, adolescent/adult

Answer 154

A

(disorder involving transmission of impulses in the neuromuscular junction). Onset stating near birth and occurring more frequently in males.

Answer 155

A

low muscle tone and weakness contributes to abnormal movement patterns and delayed developmental milestones.
may be difficulty with oral motor feeding
weakness contributes to deformities of extremities and spine
difficulty with breathing may require tracheostomies/ventilators (frequently death occurs)

Answer 156

A

etiology: manifested by loss of voluntary but preservation of reflexive eye movements, bradykinesia, rigidity, axial dystonia, pseudobulbar palsy, and dementia.
onset: occurs in later middle life
death occurs approx 15 years after onset

Answer 157

A

etiology: autosomal dominant disorder
onset: begins in middle age
symptoms: choreiform movements and progressive intellectual deterioration, psychatric distrubance (personality change, manic-depressive symptoms, and schizophreniform illness may occur).

Answer 158

A

Friedrich’s ataxia, cerebellar coritcal degeneration, and multiple systems degeneration

Answer 159

A

etiology: autosomal recessive inheritance
onset: childhood/early adolescence
symptoms: prototype of spinal ataxia… gait unsteadiness, UE ataxia, dysarthria; maybe tremor; areflexia and loss of large fiber sensory modalities; scoliosis and cardiomyopathy common as progresses.

Answer 160

A

etiology: pathological changes seen in cerebellum and inferior olives
onset: between ages 30-50
symptoms: cerebellar symptoms are only detectable signs

Answer 161

A

etiology/symptoms: spasticity, extraphyramidal, sensory, LMN, and autnomic dysfunction
onset: young to mid-life

Answer 162

A

motor neuron disease of unknown etiology characterized by progressive degeneration of corticospinal tracts and anterior horn cells or bulbar efferent neurons

Answer 163

A

average age of onset 57. Slightly more men. Death in 2-5 years.
Symptoms: muscle weakness/atrophy, evidence of anterior horn cell destruction, often begins distally and asymmetrically. Cramps and fasciculations (twitching) precede weakness. Signs usually begin in hands.Then spasticity, hyperactive deep tendon reflexes, and corticospinal tract involvement; dysarthria & dysphagia.

Answer 164

A

etiology: secondary to traction during birth, invasion of metastatic cancer, after radiation tx secondary to fibrosis, or traction injury.
symptoms: mixed motor and sensory disorders of corresponding limb; rostral injuries produce shoulder dysfunction while caudal injuries produce dysfunction in the hand.

Answer 165

A

a paralysis of the upper brachial plexus including the 5th and 6th cervical nerves, and sometimes 7th. Muscles most often paralyzed: supraspinatus, infraspinatus, deltoid, biceps, brachialis, and subscapularis. Arm cannot be raised, elbow flexion weak, and maybe weakness in retraction and protraction of scapula. Arm straight and wrist fully bent (“waiter’s tip”). After age 6 contractures develop.

Answer 166

A

a paralysis of the lower brachial plexus including the 7th and 8th cervical and 1st thoracic nerves. Relatively rare compared to Erb’s palsy. Results in paralysis of hand and wrist, often with ipsilateral Horner’s syndrome (miosis, ptosis, and facial anhidrosis). Hand is limp and fingers do not move.

Answer 167

A

inability to sweat

Answer 168

A

single nerve may be result of trauma, pressure paralysis, forcible overextension of joint, hemorrhage into a nerve, exposure to cold or radiation, or ischemic paralysis. Multiple nerves may be affected in cases of collagen vascular disease, metabolic diseases (diabetes mellitus), or infectious agents (Lyme disease). Other causes: nutritional deficiency, malignancy, microorganisms, exposure to toxic agents, and chronic ETOH.

Answer 169

A

sensory, motor, reflex, and vasomotor symptoms

- pain, weakness, paresthesias in the distribution of affected nerve

Answer 170

A

not guided by symptoms, but rather by underlying disease process. Tx of systemic disorder may slow progression, but recovery is slow.

Answer 171

A

etiology- unknown. may occur after infectious disorder, surgery, or immunization.
onset- affects both sexes at any age.
Recovery time is 2-4 weeks after first symptoms. 80% are ambulatory in 6 months; 5% die of complications; 50% exhibit mild neurological deficits; 15% exhibit residual functional deficits.

Answer 172

A

acute, rapidly progressive form of polyneuropathy characterized by symmetric muscular weakness and mild distal sensory loss/parestheisas. Weakness always more apparent than sensory findings and is at first more distal. Patient may complain of painful extremities; sensory disturbances common initially. Sometimes respiratory failure and dysphagia.

Answer 173

A

etiology: caused by autoimmune attack on acetylcholine receptor of postsynaptic neuromuscular junction. Considered a disorder of neuromuscular transmission.
Onset- any age but more younger women and older men. Usually progressive disabling process.

Answer 174

A

ptosis, diplopia, muscle fatigue after exercise, dysarthria, dysphagia, and proximal limb weakness.
sensation and deep tendon reflexes are intact
symptoms fluctuate over course of the day
quadriparesis maybe during relapsing period
sometimes life threatening respiratory muscle involvement

Answer 175

A

etiology: some motor neurons infected with the polio virus die (leaving paralyzed muscle cells), others survive. Recovered motor neurons develop new terminal axon sprouts that reinnervate muscle cells. After years of stability, these motor units break down, causing new muscle weakness.
Onset: typically 15 years after recovery from polio; progress is slow with good prognosis unless breathing/swallowing difficulties occur.

Answer 176

A

new onset of weakness
easily fatigued
muscle pain
join pain
cold intolerance
atrophy
loss of functional skills

Answer 177

A

bracing with orthoses and pacing daily activity
stretching programs
exercise program
low doses tricyclic antidepressants to relieve muscle pain
pyridostigmine to reduce fatigue and improve strength

Answer 178

A

etiology: unknown. Myelin damage probably mediated by immune system. Perhaps disease or enviro causes. Slowly progressive CNS disease characterized by patches of demyelination in the brain and spinal cord. Multiple CNS lesions and evidence of at least 2 episodes of neurological disturbance.
onset: 20-50 years old; variable prognosis.

Answer 179

A

multiple and varied neurologic symptoms and signs, usually with remissions and exacerbations.
weakness/clumsiness in leg or hand
visual disturbance (diplopia, partial blindness, nystagmus, eye pain, etc)
emotional disturbances (lability, euphoria, reactive depression
balance loss and/or vertigo
bladder dysfunction
cognitive features may include apathy, memory loss, lack of judgment, and inattention
sensorimotor may include spasticity, increased reflexes, ataxia, weakness, gait instability, easy fatigue, hemiplegia or quadriplegia.

Answer 180

A

during acute exacerbation, anti-inflammatory drugs
antispasmodics
Management f bowel and bladder dysfunction (catheterization)
drugs to slow progression (Avonex, Betaseron, Copaxone, and Rebif)

Answer 181

A

pain as a result of lesions in some part of the nervous system (central or peripheral); usually accompanied by some degree of sensory deficit.

Answer 182

A

continuous, intense pain occurring on the contralateral hemiplegic side; the result of a stroke involving the ventral posterolateral thalmus; poor rehab potential.

Answer 183

A

pain maintained by efferent activity of sympathetic nervous system. Abnormal burning pain (causalgia), hypersensitivity to light touch, and sympathetic hyperfunction (coldness, sweating). Usually associated with traumatic injury. (Some nerve damage noted)

Answer 184

A

pain occurring along the branches of a nerve; frequently paroxysmal (aka sudden and intense). No known physiological problem.

Answer 185

A

pain due to stimulus that doesn’t normally cause pain

Answer 186

A

tingling, tickling, pricking, or burning of a person’s skin with no apparent long-term physical effect.

Answer 187

A

shingles! An acute, painful mononeuropathy caused by the varicella-zoster virus. Vesicular eruption and marked inflammation of the posterior root ganglion of affected spinal nerve or sensory ganglion of the cranial nerve; ventral root involvement (motor weakness) in 5-10% of cases.

Answer 188

A

Poor registration= high threshold and passive behavioral response.
Sensory seeking= low thresholds and active behavioral response.
Sensory sensitivity= low neurological thresholds and passive behavioral response.
Sensory avoiding= low thresholds and active behavioral response.

Answer 189

A

difficulty with planning movements, particularly those that are complex or new.

Answer 190

A

oxygen deprivation, severe head injuries or brain hemorrhage, CP, stroke, brain tumors, other neurologic disorders (Alzheimer’s), hydrocephalus, metabolic disorders, infections, meningitis, rubella.

Answer 191

A

primary generalized seizures- begin with widespread involvement of both sides of the brain.
partial seizures- begin with involvement of a smaller, localized area. Can still spread within seconds/minutes to widespread areas of brain (known as secondary generalized seizure).

Answer 192

A

aka grand mal seizures. Most common type in children. Brief aura (numbness, taste, other sensation), then tonic phase (loss of consciousness, stiffening of body, heavy/irregular breathing, drooling, skin pallor, sometimes incontinence), then clonic phase (alternating rigidity and relaxation of muscles). Then postictal state (period of drowsiness disorientation, or fatigue).

Answer 193

A

brief, involuntary jerking of the extremities, with or without loss of consciousness. Loss of tone. Difficult to control.

Answer 194

A

typically occur b/w ages of 4-12. Loss of consciousness without loss of msucle tone. Rapid blinking or staring into space. Child does not fall down, but does not recall the episode or any lapse in time.

Answer 195

A

abnormal electrical impulses occur in a localized area of brain, often in motor strip of frontal lobe. Involuntary repetitive jerking of left hand and arm occurs, but person can maintain interaction with environment. Focal seizures may become generalized and result in loss of consciousness.

Answer 196

A

Symptoms vary. Alterations in consciousness and unresponsiveness. May appear confused/dazed, unable to respond to questions/directions. Automatic motions (lip smacking, chewing/swallowing, and nervous mvmnt of hands/fingers) and repetitive mvmnts occur. Visual or auditory sensations occur just before seizure.

Answer 197

A

Begins at 3-9 months of age. Dropping of head and flexion of arms; seizures may occur hundreds of times per day; poor prognosis; spasms sometimes decrease after several years. Often indicate an underlying disorder such as tuberous sclerosis.

Answer 198

A

children with severe seizures, mental retardation, and a specific EEG pattern. Seizures of different types begin during first 3 years of life and difficult to control. Associated with various brain disorders from structural abnormalities to birth asphyxia. Sometimes regression of developmental status can occur.

Answer 199

A

aka acquired epileptic aphasia. progressive encephalopathy; loss of language skills; auditory agnosia; behavior disturbances such as inattention.

Answer 200

A

Most common type of seizure, precipitated by a fever. lasts less than 10 minutes and includes a loss of consciousness and involuntary, generalized jerking of grand mal seizure; usually do not cause damage and do not lead to epilepsy. .

Answer 201

A

prolonged seizures or seizures in rapid succession. Can be life threatening; sometimes triggered when medication is stopped abruptly. Rarely does sudden death occur; however it is possible due to resulting erratic heart rhythm. Typically occurs with tonic-clonic seizures that are not well controlled.

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Neurological system disorders (ch 7) Flashcards

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