Unit2_NTK

Question 1

LA: Topical:

Answer 1

○ tetracaine, lidocaine, cocaine

○ Superficial anesthesia

○ Disadvantage = considerable absorption into circulation

Question 2

LA • Infiltration/Injection into tissue:

Answer 2

lidocaine, procaine, bupivacaine

○ Superficial anesthesia, function of underlying organ unaffected

○ Disadvantage: significant absorption into circulation

Question 3

LA • Nerve block:

Answer 3

injection of high concentration near peripheral nerve/nerve plexus

○ Lidocaine (2-4 hours), bupivacaine (longer duration)

○ Anesthetize larger body regions

Question 4

LA • Intravenous regional anesthesia (Bier’s Block):

Answer 4

tourniquet applied, inject anesthetic via catheter for limb anesthesia.

Question 5

LA • Spinal anesthesia:

Answer 5

inject into CSF

○ Anesthetize large body areas with low plasma level of drug.

Question 6

LA • Epidural anesthesia:

Answer 6

inject just outside dura-enclosed spinal canal

○ Allows repeated/continuous anesthetic application
Higher plasma level of anesthetic

Question 7

How are both types of LA excreted?

Answer 7

Via kidneys

Question 8

Which type of LA is Hydrolyzed in plasma by an esterase (pseudocholinesterase), also hydrolyzed in liver?

Answer 8

ESTERS:

think PLASMA esterases

Question 9

Which LA typically has a longer DOA?

Answer 9

amides typically have longer duration of action

Question 10

wrt, Giant cell arthritis, what are the Sx:

Answer 10

○ Symptoms: jaw claudication, temporal artery region scalp tenderness, joint pain, constitutional symptoms (fever, malaise, weight loss)

○ Elevated ESR and CRP

○ Must biopsy temporal artery to confirm dx

Question 11

how do you Tx Giant cell arthritis?

Answer 11

TX = steroids

Question 12

What Diz has the following:

○ Elevated ICP
○ Normal CSF and Neuro Exam except for:
             ○ Papilledema
             ○ 6th Nerve Palsies
○ Normal neuroimaging and no other Etiology.
○ Obese Women

Answer 12

Pseudotumor Cerebri

Question 13

Complete Cord Transection:

Answer 13

a. Tracts: all ascending and descending

b. Deficit: sensory + motor levels below lesions, may also have root → Spinal shock, followed by UMN signs

Question 14

Central Lesions:

Answer 14

a. EX) syringomyelia (fluid filled cavity in cord)
b. Tracts: initially involve crossing spinothalamic tract
c. Deficit: pain/temp loss at level of lesion with sparing of position sensation → “Cape-like” distribution if in C-spine

Question 15

Posterior Column Syndrome

Answer 15

a. EX) Tabes dorsalis (neurosyphilis)
b. Tracts: Dorsal (posterior column)
c. Deficit: bilateral loss of position and vibration sensation

Question 16

Deficit in Posterior Column Syndrome?

Answer 16

Deficit: bilateral loss of position and vibration sensation

Question 17

Tracts of Posterior Column Syndrome?

Answer 17

Dorsal (posterior column)

Question 18

Tracts in Complete Cord Transection?

Answer 18

Tracts: all ascending and descending

Question 19

Tracts in Central Lesions?

Answer 19

Tracts: initially involve crossing spinothalamic tract

Question 20

Deficit in Complete Cord Transection?

Answer 20

sensory + motor levels below lesions, may also have root

→ Spinal shock, followed by UMN signs

Question 21

Deficit in Central Lesions?

Answer 21

Deficit: pain/temp loss at level of lesion with sparing of position sensation → “Cape-like” distribution if in C-spine

Question 22

Combined anterior horn cell-pyramidal tract syndrome:

Answer 22

a. EX) ALS
b. Tracts: corticospinal and LMN cells in cord
c. Deficit: loss of bilateral strength. Fasciculations, atrophy, decreased or increased deep-tendon reflexes, normal sensation.

Question 23

Tracts in Combined anterior horn cell-pyramidal tract syndrome?

Answer 23

Tracts: corticospinal and LMN cells in cord

Question 24

Deficit in Combined anterior horn cell-pyramidal tract syndrome?

Answer 24

Deficit: loss of bilateral strength. Fasciculations, atrophy, decreased or increased deep-tendon reflexes, normal sensation.

Question 25

Brown-Sequard (hemi-section):

Answer 25

a. EX) Compression by herniated discs, tumor, extramedullary abscess, etc.
b. Tracts: crossed spinothalamic, uncrossed dorsal column, crossed corticospinal
c. Deficit: Below lesion, loss of: contralateral pain/temp, ipsilateral, position and strength

Question 26

Tracts in Brown-Sequard (hemi-section)?

Answer 26

Tracts: crossed spinothalamic, uncrossed dorsal column, crossed corticospinal.

Question 27

Deficits in Brown-Sequard (hemi-section)?

Answer 27

Deficit: Below lesion, loss of: contralateral pain/temp, ipsilateral, position and strength.

Question 28

Posterolateral column syndrome: ?

Answer 28

a. EX) B12 deficiency
b. Tracts: dorsal column, corticospinal tract

c Deficit: bilateral loss of position, vibration, strength

Question 29

Tracts in Posterolateral column syndrome?

Answer 29

Tracts: dorsal column, corticospinal tract

Question 30

Deficits in Posterolateral column syndrome?

Answer 30

Deficit: bilateral loss of position, vibration, strength

Question 31

Anterior Horn Cell Syndrome:

Answer 31

a. EX) spinal muscular atrophy, poliovirus
b. Tract: none - lower motor neurons only

c. Deficit: bilateral loss of strength
i. Fasciculations, decreased tone, decreased deep-tendon-reflexes
Spares sensory tracts and bladder functions

Question 32

Tracts in Anterior Horn Cell Syndrome?

Answer 32

Tract: none - lower motor neurons only

Question 33

Deficits in Anterior Horn Cell Syndrome?

Answer 33

Deficit: bilateral loss of strength
i. Fasciculations, decreased tone, decreased deep-tendon-reflexes
Spares sensory tracts and bladder functions

Question 34

Anterior Spinal Artery Occlusion:?

Answer 34

a. EX) Anterior spinal artery occlusion
b. Tracts: spinothalamic and corticospinal tract

c. Deficit: bilateral loss of strength, pain/temp.
Spare position sense

Question 35

Tracts in Anterior Spinal Artery Occlusion?

Answer 35

Tracts: spinothalamic and corticospinal tract

Question 36

Deficits in Anterior Spinal Artery Occlusion?

Answer 36

Deficit: bilateral loss of strength, pain/temp.

Spare position sense

Question 37

Pyramidal Tract Syndrome: ?

Answer 37

a. EX) Primary lateral sclerosis
b. Tract: corticospinal tract

c. Deficit: bilateral UMN weakness with spastic gait
- Increased deep-tendon-reflexes
- Complete sparing of all sensory tracts and bladder function.

Question 38

Tracts in Pyramidal Tract Syndrome?

Answer 38

Tract: corticospinal tract

Question 39

Deficits in Pyramidal Tract Syndrome?

Answer 39

Deficit: bilateral UMN weakness with spastic gait

- Increased deep-tendon-reflexes
    - Complete sparing of all sensory tracts and bladder function.

Question 40

Myelopathy with Radiculopathy: ?

Answer 40

a. Tracts: any or all 3 tracts

b. Deficit: bilateral UMN syndrome with spastic gait
i. Increased DTRs + ipsilateral or contralateral root signs
Possible bladder dysfunction

Question 41

Tracts in Myelopathy with Radiculopathy?

Answer 41

Tracts: any or all 3 tracts

Question 42

Deficits in Myelopathy with Radiculopathy?

Answer 42

Deficit: bilateral UMN syndrome with spastic gait
i. Increased DTRs + ipsilateral or contralateral root signs
Possible bladder dysfunction

Question 43

Detrusor (smooth) muscle: activated by preganglionic parasympathetic outflow from _______

Answer 43

Detrusor (smooth) muscle: activated by preganglionic parasympathetic outflow from S2-S4

Question 44

_________ muscle: activated by preganglionic parasympathetic outflow from S2-S4

Answer 44

Detrusor (smooth) muscle: activated by preganglionic parasympathetic outflow from S2-S4

Question 45

Involuntary (smooth) sphincter: controlled by sympathetic outflow, in _________

Answer 45

Involuntary (smooth) sphincter: controlled by sympathetic outflow, T10-L2

Question 46

____________________ : controlled by sympathetic outflow, T10-L2

Answer 46

Involuntary (smooth) sphincter

Question 47

Involuntary (smooth) sphincter: controlled by _____________ outflow, T10-L2

Answer 47

sympathetic outflow

Question 48

___________ of pelvic floor: innervated by alpha motor neurons, S2-S4

Answer 48

Skeletal muscle

Question 49

Skeletal muscle of pelvic floor: innervated by ______ ______ neurons, S2-S4

Answer 49

Skeletal muscle of pelvic floor: innervated by alpha motor neurons, S2-S4

Question 50

Skeletal muscle of pelvic floor: innervated by alpha motor neurons, __-__?

Answer 50

Skeletal muscle of pelvic floor: innervated by alpha motor neurons, S2-S4

Question 51

• ____________Bladder: bladder does not contract → overflow incontinence.
Parasympathetic lower motor neuron injury, axon compression/disruption

Answer 51

Flaccid

Question 52

Flaccid Bladder: ?

Answer 52

bladder does not contract → overflow incontinence

Parasympathetic lower motor neuron injury, axon compression/disruption

Question 53

• Spastic Bladder: “

Answer 53

Spastic Bladder:

○ Descending pathways cut or injured (BILATERALLY) → UMN injury = initial flaccidity of bladder, then spasticity

○ Problems with coordination between sympathetic outflow (inhibited during voiding) and parasympathetic outflow (activated during voiding)

○ Urinary frequency and urgency

Question 54

Injury above S2-S4 (PNS of detrusor m.) –> what Sx?

Answer 54

UMN Sx

Question 55

○ Spurling’s sign: ?

Answer 55

foraminal compression test.

Turn head towards a narrowed neural foramen → tight foramen can cause acute pinching of nerve root → pain radiates out with nerve root into arms

Question 56

Lasegue’s sign: ?

Answer 56

○ Lasegue’s sign: straight leg raising test

Sciatic nerve test - if sciatic nerve roots are under compression → shooting shock like sensation down legs

Question 57

straight leg raising test = __________ sign?

Answer 57

Lasegue’s sign

Question 58

Sciatic nerve test = _________ sign?

Answer 58

Lasegue’s sign

Question 59

foraminal compression test = ____________ sign?

Answer 59

Spurling’s sign

Question 60

Turn head towards a narrowed neural foramen → is a test for what sign?

Answer 60

Spurling’s sign

Question 61

Lhermitte’s symptom: ?

Answer 61

pain syndrome arising due to disease of spinal cord

Neck flexion results in “electric shock” sensation down back and/or arms

Question 62

pain syndrome arising due to disease of spinal cord.

Neck flexion results in “electric shock” sensation down back and/or arms

IS CALLED WHAT?

Answer 62

Lhermitte’s symptom:

Question 63

Neck flexion results in “electric shock” sensation down back and/or arms is a sign of what syndrome.

Answer 63

Lhermitte’s symptom

Question 64

__________ reflex indicates when spinal shock has resolved.

Answer 64

Bulbocavernosus reflex

If BC reflex is present and patient still is not moving/no sensation → anatomic transection of fibers

Question 65

What are the UMN signs?

Answer 65

Plantar response: normal = flexion of toes
□ Babinski sign = extension of big toe, fanning of other toes → HYPERREFLEXIA

Hoffman’s sign = hyperreflexia in upper extremity.

Crossed adductor response: tapping medial aspect of adductor tendons near knee elicits scissoring of both legs

Question 66

hyperreflexia ~ with _____ motor neuron

Answer 66

Upper motor neuron

Question 67

hyperreflexia in upper extremity = ____________sign?

Answer 67

Hoffman’s sign = hyperreflexia in upper extremity.

Question 68

tapping medial aspect of adductor tendons near knee elicits scissoring of both legs = _____________ sign.

Answer 68

Crossed adductor response: tapping medial aspect of adductor tendons near knee elicits scissoring of both legs

Question 69

C-fibers: ?

Answer 69

small, unmyelinated axons, 1 um in diameter, slow conduction velocity. Warm temperature, burning pain, itch, crude touch

Question 70

C-Fiber detect ?

Answer 70

warm temperature, burning pain, itch, crude touch

Question 71

Alpha, Alpha → most rapidly conducting, largest diameter.

What is: □ Ia → ____________
□ Ib → ____________

Answer 71

Ia → muscle spindle afferent

Ib → tendon organ afferent

Question 72

What is common to all Alpha Fibers?

Answer 72

All Alpha FIbers are myelinated.

Question 73

Alpha-Beta → slower and smaller diameter than Aa, but still fast detect what?

Answer 73

Mechanoreceptors of skin, secondary muscle spindle afferents

Question 74

Alpha-Delta → slower and smaller diameter than AB.

Detect what?

Answer 74

Sharp pain, cool temp, EXTREME hot Temps.

Question 75

___________ System: ascending pathway for pain and temperature information, axons of dorsal horn second order neurons that cross midline and ascend anterolaterally

Answer 75

Anterolateral

Question 76

_____________ tract: pain pathway to thalamus

Answer 76

Spinothalamic Tract.

□ Projects to nuclei of ventrobasal thalamus (includes VPL)

□ Processes information related to localization of pain

□ Projects to somatosensory cortex

Question 77

___________ tract: pain pathway that leads to forebrain arousal and elicits emotional/behavioral responses

Answer 77

Spinoreticular Tract.

Connects to limbic system
Terminates in pons and medulla

Question 78

______________ tract: projects to midbrain periaqueductal gray region (PAG).

Answer 78

Spinomesencephalic tract:

descending control of pain.

Question 79

First pain: __ fibers → detect tolerable, localized, “pricking pain”

Answer 79

Ad fibers.

Faster conduction velocity than C fibers

Smaller receptive field = better localized spatial discrimination

Question 80

Second pain: __ fibers → intolerable, diffusely localized, “burning” pain

Answer 80

C-fibers.

Slower conduction velocity than Ad fibers

Larger receptive field = dull, aching, poorly localized pain

Question 81

First pain: Ad fibers → detect tolerable, localized, “_________ pain”

Answer 81

“pricking pain”

Question 82

Second pain: C fibers → intolerable, diffusely localized, “______” pain

Answer 82

burning

Question 83

____?____: decrease threshold for activation of nociceptors

Answer 83

• Sensitizers: decrease threshold for activation of nociceptors
	○ Prostaglandin
	○ Substance P
	○ ATP
	○ Acetylcholine
        ○ Serotonin (5-HT)

Question 84

___?___: lead to direct activation of nociceptors

Answer 84

Activators: lead to direct activation of nociceptors
○ Bradykinin → Ad and C fiber activator; Also increases synthesis of prostaglandins (Sensitizer).
○ Potassium
○ Acid
○ Serotonin (5-HT)

Question 85

Burning pain = _fiber?

Answer 85

C-Fiber

Question 86

• __1__ receptor → rapid synaptic response

* __2__ receptor → slower excitatory potential

Answer 86

1. AMPA

2. NMDA

Question 87

Substance P: Released by C fibers in response to Neurokinin 1 receptor (NK-1)repetitive stimulation in CNS at site of first synapse → binds _________ receptor → close K+ channel, depolarization.

Answer 87

Neurokinin 1 receptor (NK-1)

Question 88

__________: Released by C fibers in response to repetitive stimulation in CNS at site of first synapse → binds Neurokinin 1 receptor (NK-1) → close K+ channel, depolarization.

Answer 88

Substance P (sensitizer)

Question 89

Substance P: Released by __1__ fibers in response to repetitive stimulation in CNS at site of first synapse → binds Neurokinin 1 receptor (NK-1) → __2__ K+ channel, depolarization.

Answer 89

1. C-Fibers

3. closes K+ ch.

Question 90

_____?______ in midbrain → analgesia (pain sensation attenuated) while touch, pressure and temperature sensation persists

Answer 90

PAG stimulation

Question 91

PAG stimulation in midbrain → ___?___ (pain sensation attenuated) while touch, pressure and temperature sensation persists

Answer 91

analgesia

Question 92

What inhibits secondary neurons in the spinal cord to by exciting INTERNEURONS to secrete enkephalin and results in PRE-synaptic Inhibition?

Answer 92

Serotonin

Question 93

Describe mechanisms underlying neuropathic pain.

• Peripheral mechanism: ?
• Central Mechanism: ?

Answer 93

• Peripheral mechanism = sodium channels

* Central Mechanism = GABA content and receptors, sprouting and rewiring, glia and immune system