Neuro/Sp_senses

Question 1

Damage to which cranial nerve causes MEDIAL strabismus?

Answer 1

CN VI

Question 2

What are the 4 physiologic compartments of the cranial space?

Answer 2

Blood, CSF, intracellular fluid, extracellular fluid

Question 3

Where is most CSF formed and where is it drained?

Answer 3

Formed by ultrafiltration from blood vessels of the choroid plexus lining the ventricles
Drains into the subarachnoid space, where it is absorbed

Question 4

What forms the motor unit?

Answer 4

Lower motor neurons, neuromuscular junction, skeletal muscle fibers

Question 5

What is the most common cranial nerve to be affected by a nerve sheath tumor?

Answer 5

The trigeminal nerve

Question 6

What is neuropraxia?

Answer 6

The loss of nerve conduction without structural changes. Can occur from transient loss of blood supply and usually resolves over weeks to months.

Question 7

What is axonotmesis?

Answer 7

Axonal damage without loss of supporting structures. It requires regeneration of the axons toward its specific muscle target before functional recovery.

Question 8

How quickly does axonal regeneration occur?

Answer 8

1 mm per day

Question 9

What is neurotmesis?

Answer 9

The complete severance of the nerve. This is typically seen with severe trauma.

Question 10

How do patients with toxoplasmosis or neospora typically present?

Answer 10

They initially have flaccid paraparesis that may progress to a chronic state of extreme extensor tone. Once hind limb rigidity has developed, clinical improvement no longer occurs.

Question 11

List 3 drugs that may result in neuropathies

Answer 11

Vincristine, thallium, organophosphates

Question 12

How is masticatory myositis confirmed?

Answer 12

Either by muscle biopsy or through serum titers for antibodies against type IIM muscle fibers

Question 13

Which breeds of dogs are over-represented in cases of acquired myasthenia gravis?

Answer 13

German shepherds, Labs, Akitas

Question 14

What is the difference between localized, generalized, and fulminant myasthenia gravis?

Answer 14

Localized: Typically show facial, laryngeal, or pharyngeal dysfunction without appendicular muscle involvement

Generalized: Appendicular muscle weakness with out without signs of facial, pharyngeal, or laryngeal dysfunction

Fulminant: Sudden, rapid, progression of severe appendicular muscle weakness resulting in recumbency, frequent regurgitation, and facial, pharyngeal, and laryngeal dysfunction

Question 15

In what percent of dogs with acquired myasthenia gravis will detectable levels of antibodies to acetylcholine receptors be found?

Answer 15

80-90%

Question 16

In what percentage of dogs with myasthenia gravis will the disease be related to a thymoma?

Answer 16

15%

Question 17

How long will it take to see complete resolution of signs in a dog with botulism?

Answer 17

2 to 3 weeks

Question 18

How long after attachment of a tick will signs of tick paralysis be seen? And how quickly will signs resolve after the tick is removed?

Answer 18

3 to 5 days after attachment, signs will resolve within 24-72 hours after the tick is removed.

Question 19

What nerves can be safely biopsied to diagnose a neuropathy?

Answer 19

Fascicular biopsies of the ulnar or peroneal nerves

Question 20

What makes up a lower motor neuron?

Answer 20

Cell bodies found in the brainstem or spinal cord, and their motor axons within the cranial or spinal nerves respectively. They terminate on skeletal muscle fibers at the neuromuscular junction.

Question 21

Equation for cerebral perfusion pressure?

Answer 21

CPP=MAP-ICP

Question 22

What types of factors affect the volume of the blood in the brain?

Answer 22

Altered vascular tone or blood viscosity, impaired venous outflow (head-down posture, jugular vein compression, increased intrathoracic pressure)

Question 23

What is the normal ICP int he dog?

Answer 23

5-12 mm hg

Question 24

T/F: The upper limit of ICP in which tx for ICH should be instituted has not been defined in dogs, but is 20 mm Hg in humans

Answer 24

True

Question 25

Name the three primary homeostatic mechanisms responsible for maintaining ICP in normal range

Answer 25

1. Volume buffering
2. Autoregulation
3. Cushing’s response

Question 26

Describe volume buffering and how it controls ICP

Answer 26

Monro-Kellie Doctrine: Increase in the volume of one component requires a compensatory decrease in one or more of the others if ICP is to remain unchanged

Question 27

Describe autoregulatory mechanisms that control ICP

Answer 27

Pressure regulation: Prevents underperfusion or overperfusion of the brain; operates at perfusion pressures between 50-150 mm Hg; outside this range the CBF is linear with MAP
Chemical regulation: cerebral vascular resistance is influenced by PaCO2, PaO2, and cerebral metabolic rate of O2 consumption

Question 28

T/F: Decrease in PaO2 causes vasodilation, causing increased CBF

Answer 28

True

Question 29

T/F: Increased PaCO2 causes vasoconstriction

Answer 29

False- CO2 combines with water to form hydrogen ions, which stimulates cerebral vasodilation

Question 30

Two broad categories of causes of ICH?

Answer 30

Vascular (cerebral vasodilation from increased PaCO2, loss of vascular tone, venous outflow obstruction), non-vascular (increased brain water, masses, obstruction of CSF outflow)

Question 31

Name and describe the states of consciousness

Answer 31

Normal- Normal demeanor and interaction with its environment
Obtunded- Decreased responsiveness or alertness, graded as mild/moderate/severe
Stupor/semicoma- Responds only to vigorous or painful stimuli
Coma- Patient does not respond consciously to any stimuli; cranial nerve reflexes may be present

Question 32

Abnormalities in mentation indicate dysfunction in one of two which neuroanatomical locations?

Answer 32

Cerebrum

Reticular activating syndrome

Question 33

What role does the RAS play in mentation?

Answer 33

distinct nuclei in the brainstem that function to activate the cerebral cortex and maintain consciousness; the most important ones are located in the midbrain, rostral pons, and thalamus

Question 34

What are the main functions of the cerebrum?

Answer 34

Integration of sensory information, planning of motor activity, appropriate responses to information, emotion, memory

Question 35

Name some common metabolic diseases that may cause altered mentation

Answer 35

hypoxia, ischemia, hypoglycemia, hepatic disease, renal failure, endocrine dysfunction, sepsis, hyperbilirubinemia, hyperthermia/hypothermia, pain, CNS disease, electrolyte or acid-base disturbances

Question 36

Name some common drugs that may cause altered mentation

Answer 36

anticonvulsants, benzodiazepines, opiates, anesthetic drugs, atropine, abx, steroids, h2 receptor blockers, cardiac glycosides, antihypertensives, illicit drugs

Question 37

Name structural lesions that cause altered mentation

Answer 37

neoplasia, infection, inflammation, trauma, vascular lesions, hydrocephalus, brain herniation

Question 38

What are the 5 variables that evaluated in a patient with an altered mentation?

Answer 38

Level of consciousness
Motor activity
Respiratory patterns
Pupil size and reactivity
Oculocephalic movements

Question 39

Name and describe 4 types of breathing patterns and their associated intracranial lesions

Answer 39

1. Cheyne-Stokes: hyperpnea alternating with periods of apnea; diffuse cerebral or hypothalamic disease, metabolic encephalopathy
2. Central neurogenic hyperventilation: persistent hyperventilation, may result in respiratory alkalosis; midbrain lesions
3. Apneusis: paused breathing at full inspiration; pontine lesion
4. Irregular/ataxic breathing: Irregular frequency and depth that proceeds apnea; lower pons/medulla lesion

Question 40

Name and describe the pupillary abnormalities and lesion localizations

Answer 40

1. Unilateral mydriatic/unresponsive pupil: ipsilateral midbrain or CN III; increased ICP and unilateral cerebral herniation
2. Bilateral miosis: metabolic encephalopathies, diffuse midbrain compression; may precede mydriatic/unresponsive pupils
3. Bilateral/mydriatic/unresponsive: bilateral compression of midbrain or CN III; grave prognosis

Question 41

Loss of oculocephalic reflex may indicate a lesion where?

Answer 41

Pons, midbrain (CN III, IV, VI)

Question 42

If there is a lesion of CN III, IV, or VI innervating the extraocular eye muscles, you will get a loss of the oculocephalic reflex but should also see what?

Answer 42

persistent, nonpositional strabismus in the affected eye

Question 43

T/F decerebrate rigidity occurs with lesions of the rostral pons and midbrain

Answer 43

True

Question 44

T/F decerebellate rigidity may manifest as extensor rigidity of all four limbs?

Answer 44

False- that describes decerebrate rigidity

Question 45

T/F decerebellate rigidity may manifest as extensor rigidity of the thoracic limbs and extension or flexion of the pelvic limbs

Answer 45

True

Question 46

What are the three categories of the Modified Glasgow Coma Scale?

Answer 46

1. Level of consciousness
2. Motor activity
3. Brainstem reflexes

Question 47

True or False: The level of consciousness is the most reliable empiric measure of impaired cerebral function after head injury

Answer 47

True

Question 48

True or False: Pupils that respond to light, even if miotic, indicate adequate function of the rostral brainstem, optic chiasm, optic nerves, and retinas.

Answer 48

True

Question 49

Injury to the cervical sympathetic pathway results in what findings in the ipsilateral pupil?

Answer 49

Constricted and fixed or sluggish to direct and contralateral light but normal consensual constriction in contralateral pupil.

May also see ptosis.

Question 50

Injury to the oculomotor nerve results in what findings in the ipsilateral pupil?

Answer 50

Dilated and fixed to direct light
No consensual constriction from contralateral light but normal consensual constriction in contralateral pupil.
May also see ptosis and ventrolateral strabismus

Question 51

Injury to the optic nerve results in what findings in the ipsilateral pupil?

Answer 51

Fixed to direct light
Absent consensual constriction in contralateral pupil
Normal consensual constriction from contralateral light
May also see spontaneous fluctuations in pupil size

Question 52

Injury to the oculomotor and optic nerve results in what findings in the ipsilateral pupil?

Answer 52

Dilated and fixed to direct light
No consensual constriction from contralateral light and no consensual constriction in contralateral pupil
May also see ptosis and ventrolateral strabismus

Question 53

Injury to the iris or ciliary body results in what findings in the ipsilateral pupil?

Answer 53

Dilated and fixed to direct light
No consensual constriction from contralateral light but normal consensual constriction in contralateral pupil
May also see signs of orbital injury, no strabisumus

Question 54

What is the oculovestibular reflex?

Answer 54

It is eye movement with irrigation of external auditory ear canal with ice cold water.
When it is absent it is indicative of profound brain-stem failure and is an accepted criterion of brain death in humans.

Question 55

What is the FOUR score?

Answer 55

It is the Full Outline of Unresponsiveness. It is a new coma scale in human medicine based on the bare minimum of tests necessary for assessing a patient with altered consciousness. It has four components: eye responses, motor responses, brainstem reflexes, and respiratory pattern.

Question 56

Hepatic encephalopathy occurs most commonly because of what disease in dogs?

Answer 56

PSS

Question 57

What are less common diseases (other than PSS) that can cause hepatic encephalopathy?

Answer 57

microvascular dysplasia, congenital urea cycle deficiencies, portal hypertension from chronic liver disease, hepatic lipidosis (most common in cats)

Question 58

Which of the following is associated with HE?
A. CSF amino acid alterations
B. glutamate neurotoxicity
C. generation of reactive oxygen species
D. mitochondrial permeability transition
E. All of the above

Answer 58

E

Question 59

Where is ammonia produced?

Answer 59

In the intestines as the end product of amino acid, purine and amine breakdown by bacteria, metabolism of glutamine by enterocytes, and breakdown of urea by bacterial urease

Question 60

In the normal liver, what is ammonia converted into?

Answer 60

urea or glutamine

Question 61

T/F: The permeability of the BBB increases during hepatic encephalopathy

Answer 61

T

Question 62

What are the proposed mechanisms of decreased excitatory neurotransmission in HE?

Answer 62

down-regulation of NMDA receptors, blockage of Cl extrusion from the postsynaptic neuron

Question 63

T/F the brain has a urea cycle

Answer 63

False- ammonia in the CNS is removed by transamination of glutamate into glutamine in astrocytes

Question 64

How do glutamate and ammonia potentially cause neurotoxicity and seizures in HE?

Answer 64

Partly because of free radical formation secondary to overstimulation of NMDA receptors by ammonia and glutamate

Question 65

What is the most important inhibitory neurotransmitter in the CNS?

Answer 65

GABA (gamma-aminobutyric acid)

Question 66

Why are benzodiazepines contraindicated in patients with PSS?

Answer 66

there are increased levels of endogenous benzodiazepine receptor ligands in the portal blood and systemic circulation of some dogs with PSS

Question 67

What two drugs experimentally have been shown to ameliorate CNS inflammation and brain edema in dogs with HE?

Answer 67

N-acetylcysteine and minocycline

Question 68

What is often the only clinical signs associated with HE In cats?

Answer 68

ptyalism

Question 69

What things can precipitate or worsen HE?

Answer 69

high protein meal, GI bleeding, systemic infection, medications (narcostics, anesthetics), electrolyte imbalances (hypokalemia), hypoglycemia, acidosis/alkalosis, constipation

Question 70

T/F: samples for blood ammonia concentrations are effective when stored frozen if only for a short time?

Answer 70

false- must be run immediately

Question 71

What are the general treatment goals for animals with HE?

Answer 71

reduce ammonia levels, decrease GABA, decrease endogenous benzodiazepines

Question 72

T/F: a large meta-analysis of human trials showed probiotics reduce plasma ammonia levels but do not make a clinically relevant difference in outcome

Answer 72

true

Question 73

T/F: animals with liver insufficiency commonly experience clinical or subclinical GI hemorrhage

Answer 73

true

Question 74

What are the 3 primary homeostatic mechanisms responsible for maintaining ICP within a functional range for the brain?

Answer 74

Volume buffering, autoregulation, and the Cushing response

Question 75

List 6 causes of added IC volume

Answer 75

Tumor, hemorrhage, CSF accumulation, vascular congestion, cerebral edema, decreased venous outflow

Question 76

What are the 3 factors controlling chemical autoregulation of the brain?

Answer 76

PaCO2, PaO2, and the cerebral metabolic rate of oxygen consumption

Question 77

List 3 mechanisms of vascular ICH

Answer 77

Cerebral vasodilation secondary to increased PaCO2, distention of cerebral vessels resulting from loss of vascular tone, or venous outflow obstruction

Question 78

List 3 nonvascular mechanisms of ICH

Answer 78

Increased brain water (interstitial edema or intracellular swelling), masses, or obstruction of CSF outflow

Question 79

What ophthalmic exam finding is a reliable sign of ICH?

Answer 79

Papilledema

Question 80

Where are the mechanisms responsible for consciousness located?

Answer 80

Rostral brainstem, ascending reticular activation system, and diffusely throughout the cerebrum

Question 81

What neurologically is responsible for pupillary constriction?

Answer 81

Midbrain and efferent parasympathetic fibers of CN III

Question 82

Mydriasis indicates a lesion where?

Answer 82

Midbrain or CN III

Question 83

Conjugate oculovestibular movements require integrity of what pathways?

Answer 83

Cranial cervical spinal cord and medulla oblongata rostrally to the nuclei of CN III, IV, and VI, via the medial longitudinal fasiculus

Question 84

Absent corneal reflex indicates damage to what part of the CNS?

Answer 84

Afferent trigeminal nerve (CN V), efferent facial nerve (CN VII) or their reflex connections within the pons and medulla oblongata are damaged

Question 85

What is Cheyne-Stokes respiration and it’s presence implies a lesion where?

Answer 85

Hyperpnea regularly alternating with apnea; lesion is deep in the cerebral hemispheres or in the Rostral brainstem

Question 86

List 4 viral causes of central vestibular disease

Answer 86

FIP, FIV, FeLV, rabies, pseudorabies, borna disease virus, distemper

Question 87

What are 3 protozoal causes of central vestibular disease?

Answer 87

Toxo, neospora, and encephalitozoonosis

Question 88

What are 3 parasitic causes of peripheral vestibular disease?

Answer 88

Angiostrongylus vasorum, cuterebra larval myiasis, dirofilaria immitis

Question 89

List 5 fungal causes of central vestibular disease

Answer 89

Cryptococcus, blasto, histo, coccidiomycosis, aspergillosis, phaeohyphomycosis

Question 90

T/F An intact tympanum rules out otitis media

Answer 90

FALSE

Question 91

T/F Otitis media cannot be reliably diagnosed on the basis of a ruptured tympanum

Answer 91

True

Question 92

List 3 drugs that can cause peripheral vestibular disease

Answer 92

Aminoglycosides, furosemide, chlorhexidine, or aural administration of 10% fipronil solution

Question 93

List 2 toxic causes of central vestibular disease

Answer 93

Lead, metronidazole

Question 94

List 2 neoplasticism causes of peripheral vestibular disease

Answer 94

SCC, fibrosarcoma, osteosarcoma, ceruminous gland or sebaceous gland adenocarcinoma

Question 95

List 3 neoplastic causes of central vestibular disease

Answer 95

Meningioma, lymphoma, oligodendroglioma, medulloblastoma, extension of middle ear neoplasia, metastasis

Question 96

What are 3 disease processes that can cause either peripheral or central vestibular disease?

Answer 96

Hypothyroidism, cuterebral larval migrans, cryptococcosis, bacterial infection

Question 97

What cranial nerve deficit (other than VIII) can be associated with peripheral vestibular disease?

Answer 97

VII - can result in facial paresis, paralysis, or more rarely, spasm

Question 98

With horizontal nystagmus in peripheral vestibular disease, the fast phase is towards or away from the lesion?

Answer 98

Away from the side of the lesion

Question 99

Are paresis and/or proprioceptive deficits commonly ipsilateral or contralateral to the side of the lesion with central disease?

Answer 99

Commonly ipsilateral

Question 100

T/F spinal cord segments C1, C2, T12, and L3 are the only spinal cord segments located within the vertebral body with the same vertebral number in the dog

Answer 100

F, C1, C2, T12, T13, L1, and L2 are the only segments to which this applies

Question 101

What spinal cord segments might one expect to find in the 5 lumbar vertebral body?

Answer 101

L7, S1-3, Cd 1

Question 102

Define spinal ataxia

Answer 102

Incoordination, a wobbly gait with increased stride length, dragging or scuffing of toes, walking on the dorsum of the paw, or crossing over of limbs

Question 103

What are the segmental reflexes?

Answer 103

Extensor Carpi radialis, triceps, biceps, quadriceps, cranial tibial and gastrocnemius

Question 104

What is the definition of a neurological grade 3?

Answer 104

Non ambulatory paresis

Question 105

List 6 biochemical events that occur when the cellular membrane is disrupted in spinal cord injury

Answer 105

Release of excitotoxic amino acids, free fatty acids, oxygen free radicals, and vasoactive agents. NMDA receptors are activated and voltage sensitive Ca and Na channels open.

Question 106

List 6 consequences of spinal cord ischemia

Answer 106

Cytotoxic edema, axonal degeneration, demyelination, abnormal impulse transmission, conduction block, and cellular death.

Question 107

What is the neurological description of a grade 4 spinal lesion?

Answer 107

Paralysis, deep pain positive

Question 108

The sacral spinal cord segments give rise to the LMNs and sensory fibers of what nerves?

Answer 108

Sciatic, pelvic, pudendal, and perineal nerves

Question 109

What deficits are expected with sciatic nerve dysfunction?

Answer 109

Shuffling in pelvic limbs, plantigrade posture, failure to replace a knuckled paw, and cranial tibial, gastroc, and withdrawal reflexes may be decreased

Question 110

Where would you expect sensory deficits with damage to the spinal segments of S1-S3?

Answer 110

Perineum, tail, lateral and caudal skin of the distal pelvic limbs

Question 111

Spinal cord segments contribute to what 5 peripheral nerves?

Answer 111

Femoral, obturator, sciatic, pelvic, and pudendal nerves

Question 112

What pelvic limb nerve is responsible for weight bearing?

Answer 112

Femoral

Question 113

What is responsible for the increased thoracic tone noted with Schiff-Sherrington posture?

Answer 113

Lack of ascending inhibitory input to the thoracic limbs originating from the border cells located in the lower thoracic and lumbar spinal cord

Question 114

What are the border cells of the spinal cord responsible for?

Answer 114

Tonic inhibition of extensor muscle alpha motor neurons in the cervical intumescence

Question 115

T/F Schiff-Sherrington posture is associated with a poor prognosis for regain of pelvic limb function

Answer 115

False- no effect

Question 116

The cervical intumescence gives rise to what 7 peripheral nerves?

Answer 116

Subscapular, suprascapular, musculocutaneous, axillary, radial, median, and ulnar nerves

Question 117

Why can Horners be seen with damage at C6-T2?

Answer 117

Damage to the sympathetic fibers that leave the spinal cord at this level

Question 118

What is meant by a neuro scale of 2?

Answer 118

Ambulatory paresis

Question 119

A 2 engine gait is associated with dysfunction of what spinal cord segments?

Answer 119

C6-T2

Question 120

What are 2 potential lesions that may be missed if an imaging modality other than MRI is used to image the spine?

Answer 120

Intramedullary lesions or non compressive nuclear pulposus extrusions

Question 121

Why are IV fluids indicated for all acute spinal cord injuries?

Answer 121

Presumed compromise of spinal cord vasculature that inhibits normal autoregulation of arteriolar blood flow so blood flow to damaged spinal cord is dependent on MAP so CV stability should be optimized

Question 122

What are commonly seen complications associated with long term cervical splint treatment?

Answer 122

Soiled bandage with eating/drinking, frequent pyoderma, and pressure necrosis along the ventral mandible

Question 123

What landmarks should be used for bandage material to hold a cervical splint in place?

Answer 123

Just caudal to the ears and extending beyond the caudal aspect of both scapulae

Question 124

Internal spinal fracture fixation should be attempted when?

Answer 124

If the fracture incorporates the articular facets, the vertebral body, or both

Question 125

What comprises the ventral buttress?

Answer 125

Vertebral body, dorsal and ventral longitudinal ligaments, and intervertebral disks

Question 126

What mortality rate has been reported with surgical cervical fracture repair?

Answer 126

40%

Question 127

Small dogs with cervical spinal fractures should be splinted where?

Answer 127

Along the ventral cervical region; large dogs often need dorsal, ventral, or even circumfrential splinting

Question 128

What are 3 indications for surgical decompression of IVDD?

Answer 128

Grade 3 or greater deficits, recurrent episodes, or episodes unresponsive to medical treatment

Question 129

T/F In animals with cervical spinal fracture that are not deteriorating, external support and rest are the treatments of choice vs in similar fractures of the thoracic and lumbar vertebrae surgery is recommended

Answer 129

TRUE

Question 130

What is the expected success rate with A-A subluxations for medical vs surgical management?

Answer 130

Splint 62.5% have good outcome (but 25% relapse) vs 61-91% good outcomes with surgery

Question 131

T/F There is significant variability in expected prognosis with surgical decompression of a cranial cervical vs caudal cervical disk compression?

Answer 131

True- long term resolution of 66% with C2-3, C3-4 with surgery vs only 21% of patients with lower cervical IVDH had long term resolution of signs with surgery

Question 132

List Ddx for a young, painful dog with acute onset of spinal signs

Answer 132

Trauma, IVDD type 1, +/- neoplasia, anomalous, or infectious/inflammatory disease

Question 133

What is the equation for cerebral perfusion pressure?

Answer 133

CPP= MAP-ICP

Question 134

What is the definition of intracranial pressure?

Answer 134

The pressure exerted by the tissues and fluids against the cranial vault

Question 135

What are the components of ICP?

Answer 135

Atmospheric pressure- weight of the atmosphere on the brain
Hydrostatic pressure- orientation of the neuraxis relative to gravity
Filling pressure- volume of fluid within cranial vault

Question 136

Name benefits of intracranial pressure monitoring

Answer 136

1. Allows assessment of actual ICP and trends in ICP
2. Optimization of cerebral perfusion pressure guided therapy
3. Earlier interventions are possible
4. Reduces indiscriminate tx of ICH
5. Assessment of the effects of ICH tx
6. Allows assessment in anesthetized or comatose animals
7. Provides assessment of brain death

Question 137

What is the equation for cerebral perfusion pressure?

Answer 137

CPP= MAP-ICP

Question 138

What is the definition of intracranial pressure?

Answer 138

The pressure exerted by the tissues and fluids against the cranial vault

Question 139

What are the components of ICP?

Answer 139

Atmospheric pressure- weight of the atmosphere on the brain
Hydrostatic pressure- orientation of the neuraxis relative to gravity
Filling pressure- volume of fluid within cranial vault

Question 140

Name benefits of intracranial pressure monitoring

Answer 140

1. Allows assessment of actual ICP and trends in ICP
2. Optimization of cerebral perfusion pressure guided therapy
3. Earlier interventions are possible
4. Reduces indiscriminate tx of ICH
5. Assessment of the effects of ICH tx
6. Allows assessment in anesthetized or comatose animals
7. Provides assessment of brain death

Question 141

What is the equation for cerebral perfusion pressure?

Answer 141

CPP= MAP-ICP

Question 142

What is the definition of intracranial pressure?

Answer 142

The pressure exerted by the tissues and fluids against the cranial vault

Question 143

What are the components of ICP?

Answer 143

Atmospheric pressure- weight of the atmosphere on the brain
Hydrostatic pressure- orientation of the neuraxis relative to gravity
Filling pressure- volume of fluid within cranial vault

Question 144

What type of catheter has been used in small animals for ICP monitoring during brain surgery?

Answer 144

fiberoptic ICP monitoring systems (transducer tipped catheters)

Question 145

What are the downsides to ICP in the classic location of the cisterna magna in animals?

Answer 145

Patient needs general anesthesia, ICP may not accurately reflect more compartmentalized elevations in ICP, risk of brain herniation, doesn’t allow for ongoing measurements

Question 146

What are some pros to using external pressure transducers to measure ICP?

Answer 146

Accurate, can be recalibrated after insertion, minimal zero drift, cheaper

Question 147

T/F: The fluctuations seen with placement of an epidural or subdural placement of a fluid filled catheter are generally reliable for measurement of ICP?

Answer 147

true

Question 148

What is normal ICP in the dog and cat?

Answer 148

5-12 mm Hg above atmospheric pressure

Question 149

Cons to using internal pressure transducer?

Answer 149

Cannot be rezeroed after insertion, some zero drift, expensive

Question 150

What is the gold standard for ICP monitoring in people?

Answer 150

Ventriculostomy catheters- most accurate, can be used to withdraw CSF for tx of ICH, easy and reliable to palpate

Question 151

Why are ventriculostomy catheters more difficult to place in dogs and cats than in people?

Answer 151

Marked variation in skull size, variation in size/shape/location of lateral ventricles of the brain, more musculature overlying cranial vault

Question 152

Which type of ICP monitoring systems can be used in awake dogs for 2-5 days post op?

Answer 152

Catheter tip ICP sensors

Question 153

Describe a subarachnoid bolt monitoring system for ICP

Answer 153

Screw secured to calvaria through a burr hold over a cerebral convexity

Question 154

What is normal ICP in the dog and cat?

Answer 154

5-12 mm Hg above atmospheric pressure

Question 155

What is responsible for the CSF fluid pulse pressure wave?

Answer 155

contraction of the LV of the heart causing distension of the arterioles

Question 156

What are the ICP respiratory waves?

Answer 156

slower pressure oscillations that fall with inspiration and rise with expiration

Question 157

What are some physiologic phenomena that can increase ICP?

Answer 157

Coughing, sneezing, straining, low head position, jugular compression, suctioning back of throat, regurgitation

Question 158

What is responsible for the CSF fluid pulse pressure wave?

Answer 158

contraction of the LV of the heart causing distension of the arterioles

Question 159

What are the ICP respiratory waves?

Answer 159

slower pressure oscillations that fall with inspiration and rise with expiration

Question 160

What are some physiologic phenomena that can increase ICP?

Answer 160

Coughing, sneezing, straining, low head position, jugular compression, suctioning back of throat, regurgitation

Question 161

At what ICP is treatment generally recommended?

Answer 161

15-20 mm Hg

Question 162

What are some other guidelines for instituting tx for ICH?

Answer 162

ICP 15-20 mm Hg that are slowly increasing, ICP

Question 163

Name complications of ICP monitoring

Answer 163

infection, hemorrhage, device malfunction, obstruction, malpositioning

Question 164

In what groups of animals is ICP monitoring likely to be more useful?

Answer 164

1. Research animals
2. Anesthetized, comatose, or post op brain surgery
3. Severe, progressive neurologic deficits that may respond to treatment with time
4. Severe TBI