Neurophysiology

Question 1

Located in or near the effector organs

Answer 1

Parasympathetic Ganglia

Question 2

Located in the paravertebral ganglia

Answer 2

Sympathetic Ganglia

Question 3

Preganglionic neurons of sympathetic nervous system

Answer 3

T1-L3 spinal cord, thoracolumbar region

Question 4

Preganglionic neurons of parasympathetic nervous system

Answer 4

originate in nuclei of cranial nerves and in spinal cord segments S2-4 or craniosacral region

Question 5

Chromaffin cells

Answer 5

80% epinephrine

20% norepinephrine

Question 6

short preganglionic nerve axon

Answer 6

sympathetic

Question 7

long preganglionic nerve axon

Answer 7

parasympathetic

Question 8

long postganglionic nerve axon

Answer 8

sympathetic

Question 9

short postganglionic nerve axon

Answer 9

parasympathetic

Question 10

NT for sympathetics ub effector organs

Answer 10

NE, except in sweat glands, it is ACh

Question 11

Alpha-1 (Gen overview)

Answer 11

sympathetic, smooth muscle, Gq, increases IP3/Ca

Question 12

Alpha-2 (Gen overview)

Answer 12

sympathetic, GI tract, Gi, decreases cAMP

Question 13

Beta-1 (Gen overview)

Answer 13

sympathetic, heart, Gs, increases cAMP

Question 14

Beta-2 (Gen overview)

Answer 14

Sympathetic, smooth muscle (lungs), Gs, increases cAMP

Question 15

Nm (N1) (Gen overview)

Answer 15

Cholinergic, skeletal muscle, opens Na/K channels

Question 16

Nn (N2) (Gen overview)

Answer 16

Cholinergic, autonomic ganglia, opens Na/K channels

Question 17

M1 (Gen overview)

Answer 17

Cholinergic, CNS, Gq, increased IP3/Ca

Question 18

M2 (Gen overview)

Answer 18

Cholinergic, Heart, Gi, decreases cAMP

inhibitory to heart

Question 19

M3 (Gen overview)

Answer 19

Cholinergic, Glands & Sm Muscle, Gq, increase IP3/Ca

excitatory in sm muscle and glands

Question 20

Radial muscle of Iris

Answer 20

alpha-1 receptor

equally sensitive to epinephrine and NE but only NE is released from these neurons

Question 21

platelets and fat cells

Answer 21

Alpha-2 receptor, produce inhibition

Question 22

bronchial smooth muscle

Answer 22

Beta-2 receptors, cause relaxation, more sensitive to epinephrine

Question 23

Relaxation of Bladder Wall

Answer 23

Beta-2 Receptors

Question 24

In autonomic ganglia of sympathetic and parasympathetic NS

Answer 24

N2 receptor (Nn)
also found in adrenal medulla

Question 25

Receptor in NMJ

Answer 25

N1 (Nm)

Question 26

alpha-1 agonist

Answer 26

NE, phenylephrine

Question 27

alpha-1 antagonist

Answer 27

Phenoxybenzamine, Phentolamine, Prazosin

Question 28

alpha-2 agonist

Answer 28

clonidine

Question 29

alpha-2 antagonist

Answer 29

Yohimbe

Question 30

Beta-1 Agonst

Answer 30

NE, Isoproterenol, Dobutamine

Question 31

Beta-1 Antagonist

Answer 31

Propranolol, Metoprolol

Question 32

Beta-2 agonist

Answer 32

isoproterenol and albuterol

Question 33

Beta-2 antagonist

Answer 33

propranolol and butuxamine

Question 34

Nicotinic Agonist

Answer 34

ACh, Nicotine, Carbachol

Question 35

Nictonic Antagonist

Answer 35

Curare and Hexamethonium (ganglion not NMJ)

Question 36

Muscarinic Agonist

Answer 36

ACh, Muscarine, Carbachol

Question 37

Muscarinic Antagonist

Answer 37

Atropine

Question 38

Receptor to increase HR, contractility, and AV node conduction

Answer 38

Beta-1 (sympathetic)

Question 39

Receptor that contricts BV in skin and splanchnic

Answer 39

alpha-1 (sympathetic)

Question 40

receptor that dilates BV in skeletal muscles

Answer 40

Beta-2 (sympathetic)

Question 41

Receptor that decreases GI motility

Answer 41

alpha-2, beta-2 (sympathetic)

Question 42

receptor that contricts sphincters in GI tract

Answer 42

alpha-1 (sympathetic)

Question 43

receptor that dilates bronchiolar smooth muscle

Answer 43

beta-2 (sympathetic)

Question 44

ejaculation receptor

Answer 44

alpha (sympathetic)

Question 45

Receptor that relaxes bladder wall

Answer 45

beta-2 (sympathetic)

Question 46

Receptor that constricts bladder sphincter

Answer 46

alpha-1 (sympathetic)

Question 47

Receptor that increases sweating

Answer 47

M (sympathetic cholinergic)

Question 48

Receptor that increases renin secretion

Answer 48

beta-1 (sympathetic)

Question 49

Receptor that increases lipolysis

Answer 49

beta-1 (sympathetic)

Question 50

Receptor that decreases HR, Contractility and AV node conduction

Answer 50

M2 (parasympathetic)

Question 51

Receptor that increases GI motility and relaxes GI sphincters

Answer 51

M3 (parasympathetic)

Question 52

Receptor that constricts bronchiolar smooth muscle

Answer 52

M3 (parasympathetic)

Question 53

erection receptor

Answer 53

M (parasympathetic)

Question 54

Receptor that contracts bladder wall

Answer 54

M3

Question 55

Receptor that relaxes bladder sphincter

Answer 55

M3

Question 56

Autonomic centers in the medulla

Answer 56

vasomotor, respiratory, swallowing, coughing and vomiting centers

Question 57

Autonomic centers in the pons

Answer 57

pneumotaxic center

Question 58

Autonomic centers in the midbrain

Answer 58

micturition

Question 59

Autonomic centers in the hypothalamus

Answer 59

temperature regulation center, thirst and food intake

Question 60

mechanoreceptors

Answer 60

pacinian corpuscles, joint receptors, stretch receptors in muscle, hair cells in auditory and vestibular systems, baroreceptors in carotid sinus

Question 61

Photoreceptors

Answer 61

rods and cones of the retina

Question 62

Chemoreceptors

Answer 62

Olfactory, taste, osmoreceptors, carotid body with O2 receptors

Question 63

Nociceptors

Answer 63

extreme pain and temperature

Question 64

A fiber - Ia

Answer 64

muscle spindle afferents, largest diameter, fastest, motor neuron

Question 65

A fiber - Ib

Answer 65

golgi tendon organs, largest diameter and fastest

Question 66

A fiber - II

Answer 66

touch and pressure, secondary afferent of muscle spindles, medium diameter and medium velocity

Question 67

intrafusal fibers

Answer 67

gamma-MN, medium diameter and medium velocity

Question 68

III (A-delta)

Answer 68

touch, pressure, fast pain, and temperature - small diameter, medium conduction velocity

Question 69

B fibers

Answer 69

Preganglionic autonomic fibers, small diameter and medium conduction velocity

Question 70

C fibers- IV

Answer 70

Slow pain; postganglionic autonomic fibers, smallest diameter and slowest conduction velocity

Question 71

Onion like structures in the subcutaneous skin surrounding unmyelinated nerve endings

Answer 71

Pacinian Corpuscle, vibration and tapping, rapidly adapting

Question 72

Receptor present in nonhairy skin

Answer 72

Meissner’s corpuscle, senses velocity, rapidly adapting

Question 73

Encapsulated mechanoreceptor that senses pressure

Answer 73

Ruffini’s corpuscle, slowly adapting

Question 74

Transducer is on epithelial cells, senses location

Answer 74

Merkel’s Disk, slowly adapting

Question 75

Substance P

Answer 75

NT for nociceptor, relief from opiods

Question 76

Emmetropia

Answer 76

normal eye sight, light focuses on the retina

Question 77

Hypertropia

Answer 77

far-sighted, light focuses behind the retina, correct with a convex lens

Question 78

Myopia

Answer 78

near-sighted, light focuses in front of the retina, correct with a biconcave lens

Question 79

Astigmatism

Answer 79

curvature of lens is not uniform, correct with cylindric lens

Question 80

Presbyopia

Answer 80

loss of accommodation power of lens that occurs with aging.

correct with a convex lens

Question 81

Layers of Retina

Answer 81

Pigment layer, photorecptor layer, external limiting layer, outer nuclear layer, outer plexiform layer, inner nuclear layer, inner plexiform layer, ganglion layer, optic nerve,

Question 82

Layer of retina that converts 11-cis to all-trans retinal

Answer 82

pigment epithelial cells

Question 83

Layer with rods and cones

Answer 83

Receptor cell layer

Question 84

Fovea

Answer 84

highest acuity, ratio of cones to bipolar cells is 1:1

Question 85

high acuity, less sensitivity

Answer 85

Cones - color, adapt first in dark

Question 86

low acuity, high sensitivty

Answer 86

Rods - night vision, adapt later in dark

Question 87

form local circuits with the bipolar cells

Answer 87

horizontal and amacrine cells

Question 88

Cutting Optic nerve

Answer 88

causes blindness is IL eye

Question 89

Cutting the Optic Chiasm

Answer 89

causes heteronymous bitemporal hemianopia

TUNNEL VISION

Question 90

Cutting Optic Tract

Answer 90

causes homonymous CL hemianopia

meaning if you cut the righ toptic tract you can’t see out of the left sides of both eyes

Question 91

Cutting the geniculocalcarine tract

Answer 91

homonymous hemianopia with macular sparing

meaning, cut the left GC tract and will not see out of right side of eye but can see the middle dot of visual field

Question 92

Necessary for regeneration of 11-cis retinal

Answer 92

vitamin A

Question 93

On-center, Off-surround

Answer 93

light striking the center of the receptive field depolarizes (excites)the ganglion cell, light striking surround of receptive field hyperpolarizes(inhibits) the ganglion cell.
reverse for Off-center, On-surround

Question 94

Visual Cx - Simple cells

Answer 94

respond best to bars of light that have the correct position and orientation

Question 95

Visual Cx - Complex Cells

Answer 95

respond best to moving bars or edges of light with correct orientation

Question 96

Visual Cx - Hypercomplex cells

Answer 96

respond best to line with particular length and to curves and angles

Question 97

measurement of frequency

Answer 97

hertz

Question 98

measurement of intensity

Answer 98

decibels

Question 99

air filled part of ear

Answer 99

Middle ear, contains tympanic membrane, auditory ossicles

Question 100

fluid filled part of ear

Answer 100

Inner ear, semicircular canals, cochlea, and vestibule

Question 101

stapes insert on

Answer 101

Oval window, the membrane between middle and inner ear

Question 102

Perilymph

Answer 102

scala vestibuli and scala tympani - high in Sodium

Question 103

Scala media

Answer 103

contains endolymph, which has a high K

Bordered by basilar membrane - site of organ of Corti

Question 104

Hair cells arranged in single rows and are few in number

Answer 104

Inner hair cells on the organ of Corti

Question 105

Hair cells arranged in parallel rows and are greater in number

Answer 105

Outer Hair cells on the organ of Corti

Question 106

Spiral ganglion

Answer 106

Contains the cell bodies of the auditory nerve (CNVIII), which synapse on hair cells

Question 107

Bending of cilia

Answer 107

K+ conductance, in 1 direction will hyperpolarizes, in the opposite will depolarize

Question 108

Base of basilar membrane

Answer 108

High Frequencies

Question 109

Apex of Basilar membrane

Answer 109

Low Frequencies, near the helicotrema

Question 110

Medial Geniculate

Answer 110

Hearing

Question 111

detect angular acceleration and rotation

Answer 111

semicircular canals - filled with endolymph

Question 112

detect linear acceleration

Answer 112

saccule and utricle

Question 113

Kinocilium

Answer 113

single long cilum associated with vestibular system

Question 114

Direction of nystagmus

Answer 114

the direction of the fast (rapid eye) movement - occurs in the same direction as the head rotation

Question 115

Postrotatory nystagmus

Answer 115

occur opposite direction of head rotation

Question 116

Olfactory epithelium is innervated by what to detect noxious or painful stimuli

Answer 116

CNV

Question 117

Olfactory nerve

Answer 117

unmyelinated C fibers, smallest and slowest

Question 118

mitral cells in olfactory bulb

Answer 118

out forms the olfactory tract which project to prepiriform Cx

Question 119

G-olf for olfactory receptors

Answer 119

activate AC to increase cAMP and open sodium channels

Question 120

Fungiform papillae

Answer 120

salty and sweet, anterior 2/3 of tongue, innervated by CN VII (chorda tympani)

Question 121

Circumvallate and Foliate Papillae

Answer 121

Sour and Bitter, posterior 1/3 tongue, innervated by CN IX

Question 122

Back of throat and epiglottis

Answer 122

CNX

Question 123

Detect muscle tension

Answer 123

Golgi tendon organ, group Ib fibers arranged in series with extrafusal muscle fibers

Question 124

detects static and dynamic changes in muscle length

Answer 124

Muscle Spindles, group Ia and II, parallel with extrafusal fibers

Question 125

Provide force for muscle contraction

Answer 125

Extrafusal fibers, innervated by alpha-MN

Question 126

innervated by gamma-MN

Answer 126

intrafusal fibers
are encapsulated in sheaths to form muscle spindles
Include: nuclear bag & nuclear chain

Question 127

detect rate of change in muscle length

Answer 127

Nuclear bag fibers (nuclei collect in bag region)

innervated by Ia fibers

Question 128

detect static changes in muscle length

Answer 128

Nuclear chain fibers (nuclei are in rows)

innervated by II fibers

Question 129

Knee Jerk

Answer 129

Stretch (myotactic) reflex

monosynaptic - response is contraction of muscle after it is stretched

Question 130

Golgi Tendon Reflex

Answer 130

Disynaptic, relaxation of muscle after stimuli contracts muscles (Ib fibers)

Question 131

After Touching a hot stove

Answer 131

Flexor-withdrawal reflex - polysynaptic, stimulus is pain

causes IL flexion and CL extension

Question 132

Clasp Knife Reflex

Answer 132

exaggerated golgi tendon reflex, dx of corticospinal tracts

Question 133

Renshaw Cells

Answer 133

Inhibitory cells in the ventral horn of the spinal cord

Question 134

Stimulation of flexors and inhibition of extensors

Answer 134

Rubrospinal tract, stimulation of red nucleus

Question 135

Stimulatory effect on both extensors and flexors but primarily extensors

Answer 135

Pontine reticulospinal tract

Question 136

Inhibitory effect on both extensors and flexors, predominant effect on extensors

Answer 136

Medullary Reticulospinal tract

Question 137

Originates on Dieter’s nucleus

Answer 137

Lateral Vestibulospinal tract - stimulates extensors and inhibits flexors

Question 138

tectospinal tract

Answer 138

originates in superior colliculus - controls neck muscles

Question 139

Transection at C7

Answer 139

loss of sympathetic tone to the heart. HR and arterial pressure will decrease

Question 140

Transection at C3

Answer 140

Stops breathing

Question 141

Transection at C1

Answer 141

Hanging - death

Question 142

Lesion above Lateral Vestibular Nucleus

Answer 142

Decerebrate rigidity because removal of inhibition from higher centers

Question 143

Lesion above pontine reticular formation but below midbrain

Answer 143

Decerebrate rigidity

Question 144

Lesions above the red nucleus

Answer 144

Decorticate posture and intact tonic neck reflexes

Question 145

Vestibulocerebellum

Answer 145

control of balance and eye movement

Question 146

Pontocerebellum

Answer 146

planning and initiation of movement

Question 147

Spinocerebellum

Answer 147

synergy, control of rate, force, range, and direction of movement

Question 148

Granular Layer of cerebellar Cx

Answer 148

innermost layer, contains granule cells, golgi type II cells, and glomeruli (axons of mossy fibers)

Question 149

Purkinje Cell Layer of Cerebellar Cx

Answer 149

middle layer, output is always inhibitory

Question 150

Molecular Layer of Cerebellar Cx

Answer 150

outermost layer, contains stellate and basket cells, dendrites of Purkinje and Golgi type II cells, and parallel fibers

Question 151

Climbing Fibers

Answer 151

Comes from inferior olive of medulla, high frequency bursts or complex spikes, role in cerebellar motion learning

Question 152

Only output of cerebellar cortex

Answer 152

Purkinje cells - they are always inhibitory (NT is GABA)

Question 153

Dysdiadochokinesia

Answer 153

inability to perform rapid alternating movements - cerebellar injury

Question 154

Lesions of globus pallidus

Answer 154

inability to maintain postural support

Question 155

Lesions of Subthalamic Nucleus

Answer 155

result in wild, flinging movements (hemiballismus) on CL side

Question 156

Lesions of the striatum

Answer 156

quick, continuous, and uncontrollable movements

huntington

Question 157

Lesions of Substantia Nigra

Answer 157

destruction of dopaminergic neurons, Parkinsons

lead-pipe rigidity, tremor, and reduced voluntary movement

Question 158

Responsible for generating a plan for movement

Answer 158

premotor cortex and supplementary Cx (area 6)

Question 159

Responsible for the execution of movement

Answer 159

Primary motor cortex (area 4)

Question 160

Jacksonian seizures

Answer 160

epileptic events in the primary motor cortex

Question 161

Awake adults with open eyes

Answer 161

beta waves

Question 162

Awake adults with closed eyes

Answer 162

alpha waves

Question 163

suprachiasmic nucleus

Answer 163

associated with circadian rhythm, receives input from the retina

Question 164

what decreases duration of REM sleep?

Answer 164

benzodiazepines and increasing age

Question 165

Facial expression, intonation, body language and spatial tasks

Answer 165

Right Hemisphere

Question 166

language, lesions here cause aphasia

Answer 166

Left hemisphere

Question 167

Damage to wernicke’s area

Answer 167

causes sensory aphasia, difficult to understand written or spoken language

Question 168

Damage to Broca’s area

Answer 168

causes motor aphasia, speech and writing are affected but understanding is intact

Question 169

Short term memory

Answer 169

Synaptic Changes

Question 170

Long term memory

Answer 170

involve structural changes and is more stable

Question 171

BL lesion of hippocampus

Answer 171

block the ability to form new LT memories

Question 172

Heat generating mechanisms in response to cold

Answer 172

Thyroid hormone, Shivering, cold temps activate the sympathetic nervous system and activate beta receptors in brown fat to increase metabolic rate and heat production

Question 173

Shivering response to Cold

Answer 173

Posterior hypothalamus (this is to make people warm)

Question 174

Heat loss in response to Heat

Answer 174

Anterior hypothalamus (this is to cool people off)

Question 175

If the core temperature is below the set point

Answer 175

Posterior Hypothalamus is activated (increased metabolism, shivering, vasoconstriction of cutaneous BV)

Question 176

If core temperature is above the set point

Answer 176

Anterior hypothalamus is activated (vasodilation of cutaneous BV, increased sympathetic outflow to sweat glands)

Question 177

Pyrogens

Answer 177

increase IL-1 and act on anterior hypothalamus to increase prostaglandins which increase the set point temperature

Question 178

Aspirin

Answer 178

reduces fever by inhibiting cyclooxygenase thereby inhibiting the production of prostaglandins, decreases the set point temperature

Question 179

Steroids

Answer 179

reduce fever by blocking the release of arachidonic acid from brain phospholipids, prevents production of prostaglandins

Question 180

Heat Exhaustion

Answer 180

caused by excessive sweating. blood volume and arterial blood pressure decrease and syncope (fainting) occurs

Question 181

Heat Stroke

Answer 181

occurs when body temperature increases to the point of tissue damage. The normal response to increased ambient temperature (sweating) is impaired, the core temperature increases further

Question 182

Hypothermia

Answer 182

ambient temperature is so low that heat-generating mechanisms cannot adequately maintain core temperature near the set point

Question 183

Malignant Hyperthermia

Answer 183

massive increase in oxygen consumption and heat production by skeletal muscle, which causes a rapid rise in body temperature

Question 184

What time is it?

Answer 184

Drinkin’ Time