Neurology

Question 1

Permanent Nerve Cell

Answer 1

Neuron

Question 2

Non-permanent Nerve Cell

Answer 2

Neuroglia/Glial Cells/Supporting Cells

Question 3

More numerous: Neurons or Glial Cells?

Answer 3

Glial Cells (10:1 ratio)

Question 4

Produces CSF

Answer 4

Ependymal Cells

Question 5

Macrophage of the Brain

Answer 5

Microglia

Question 6

Regulate ECF ion levels; Provide mechanical support; Part of BBB

Answer 6

Astrocyte

Question 7

Creates myelin in the CNS

Answer 7

Oligodendrocytes

Question 8

Creates myelin in the PNS

Answer 8

Schwann Cells

Question 9

Brain tumors from non-mature neurons

Answer 9

NeuroblastomaRetinoblastoma

Question 10

Receiving portion of the Neuron

Answer 10

Dendrites, Cell Body

Question 11

Where Action Potential is initiated

Answer 11

Axon Hillock

Question 12

Function of Myelin Sheath

Answer 12

Insulator

Question 13

Unmyelinated portions of the axon

Answer 13

Nodes of Ranvier

Question 14

Branches of the Axons

Answer 14

Neural Fibrils

Question 15

Terminal portion of a neural fibril that contains NT-containing vesicles

Answer 15

Axon Terminal (Boutons/End Feet)

Question 16

Space between two Neurons

Answer 16

Synapse

Question 17

Soma to Axon Terminal; Replenishes synaptic vesicles and enzymes for NT synthesis

Answer 17

Anterograde Axonal Transport

Question 18

Axon Terminal to Soma; Recycles synaptic vesicle membrane for lysosomal degradation

Answer 18

Retrograde Axonal Transport

Question 19

Protein responsible for Anterograde Axonal Transport

Answer 19

Kinesin

Question 20

Protein responsible for Retrograde Axonal Transport

Answer 20

Dynein

Question 21

Diseases utilizing Retrograde Axonal Transport

Answer 21

TetanusBotulism

Question 22

Death of the Axon distal to the site of injury after an axon is transected

Answer 22

Anterograde/Orthograde Degeneration

Question 23

Changes to the soma after an axon is transected

Answer 23

Axonal Reaction/Chromatolysis

Question 24

Axonal regeneration occurs better in the CNS or PNS?

Answer 24

PNS

Question 25

Secreted by: Nucleus Basalis of Meynert (Basal Ganglia); Synthesis: uses Acetyl CoA and Choline with enzyme: Choline Acetyltransferase; Degradation: produces Acetate and Choline with enzyme: Acetylcholinesterase (Choline is recycled)

Answer 25

Acetylcholine

Question 26

Found mainly in the Substantia Nigra Pars Compacta & Ventral Tegmental Area; Removed via reuptake by MAO (in pre-synaptic nerve terminals), COMT (in tissues including liver)

Answer 26

Dopamine

Question 27

Dopamine deficiency

Answer 27

Parkinson’s Disease

Question 28

Dopamine excess

Answer 28

Schizophrenia

Question 29

Secreted by Locus Ceruleus in the pons & post-ganglionic neurons of sympathetic nervous system; Control overall activity and mood of the mind, such as increasing the level of wakefulness; Maybe excitatory or inhibitory

Answer 29

NorepinephrineEpinephrine

Question 30

Phenylalanine derivatives

Answer 30

PhenylalanineTyrosineL-DopaDopamineNorepinephrineEpinephrineThyroxineMelanin

Question 31

Secreted mainly by the Median Raphe of the Brain Stem; Inhibitor of Pain Pathways in the Spinal Cord; “Happy Hormones”; From Tryptophan (W); Converted to Melatonin

Answer 31

Serotonin

Question 32

Secreted in areas of brain responsible for Long-term behavior and Memory; From Arginine; Short-actin neurotransmitter; Not preformed and stored in vesicles

Answer 32

Nitric Oxide

Question 33

From Histidine; Located mainly within the tuberomammillary nucleus of the Hypothalamus

Answer 33

Histamine

Question 34

Inhibitory neurotransmitter usually found in spinal interneurons; Increases Chloride influx

Answer 34

Glycine

Question 35

The number #1 Inhibitory Neurotransmitter in the Brain; Comes from Glutamate; Increases Chloride Influx (GABA-A) or Potassium Efflux (GABA-B)

Answer 35

GABA (Gamma Amino Butyric Acid)

Question 36

The number #1 Excitatory Neurotransmitter in the Brain

Answer 36

Glutamate

Question 37

Inhibit neurons in the brain involved in the perception of pain; Enkephalins, Endorphins, Dynorphins

Answer 37

Opioid Peptides

Question 38

Involved in pain transmission; In specific areas of the brain, primary sensory neurons, GI plexus neurons

Answer 38

Substance P

Question 39

Neurotransmitter deficient in Alzheimer’s Disease

Answer 39

Acetylcholine

Question 40

-70mV; Potential difference that exist across the membrane; Exhibited by almost all cells; Refers to Intracellular Charge

Answer 40

Resting Membrane Potential (RMP)

Question 41

Exhibited by Excitable Cells only (Neurons & Muscle Cells); Stereotypical size and shape; Propagating - non-decremental manner; “All-or-none”

Answer 41

Action Potential

Question 42

Basis for Resting Membrane Potential (RMP) & Action Potential (AP)

Answer 42

Ion Channels

Question 43

Making the membrane potential less negative

Answer 43

Depolarization

Question 44

Making the membrane potential more negative

Answer 44

Hyperpolarization

Question 45

Positive charges flowing into the cell

Answer 45

Inward current

Question 46

Positive charges flowing out of the cell

Answer 46

Outward current

Question 47

Membrane potential in which occurrence of Action Potential is inevitable

Answer 47

Threshold

Question 48

Portion of the Action Potential where membrane potential is positive

Answer 48

Overshoot

Question 49

Portion of the Action Potential where membrane potential is more negative than Resting Membrane Potential

Answer 49

Undershoot/Hyperpolarizing afterpotential

Question 50

Period in which Action Potential cannot be elicited

Answer 50

Refractory Period

Question 51

Nernst Potential for Na and K diffusion

Answer 51

+61mV and -94mV

Question 52

Na-K Leak Channels

Answer 52

100x more permeable to K

Question 53

Na-K-ATPase Pump

Answer 53

-4mV

Question 54

Opening of Na-Activation gates

Answer 54

Sodium Influx (Depolarization)

Question 55

Closure of Na-Inactivation gates and Opening of Potassium gates

Answer 55

stop Sodium Influx and Potassium Efflux (Repolarization)

Question 56

Na-Activation Gates Closed; Na-Inactivation Gates Open; K Gates Closed

Answer 56

Resting state

Question 57

Na-Activation Gates Open (Some); Na-Inactivation Gates Open; K Gates Closed

Answer 57

Depolarization

Question 58

Na-Activation Gates Open (All); Na-Inactivation Gates Open; K Gates Closed

Answer 58

Rising phase of Action Potential

Question 59

Na-Activation Gates Open; Na-Inactivation Gates Closed; K Gates Open

Answer 59

Falling phase of Action Potential

Question 60

Na-Activation Gates Closed; Na-Inactivation Gates Closed; K Gates Open

Answer 60

Undershoot

Question 61

Sodium Channel Blockers of Neurons

Answer 61

Tetradotoxin, Saxitoxin

Question 62

Potassium Channel Blocker of Neurons

Answer 62

Tetraethylammonium

Question 63

True or False: Na2+ and K+ gated channels are responsible for all types of Action Potential

Answer 63

False (eg: Ca2+ channels seen in muscles)

Question 64

Stimulates nerve depolarization in the first place

Answer 64

Mechanical disturbance, Chemical, Electricity

Question 65

Time periods after an Action Potential, during which a new stimulus cannot be readily elicited

Answer 65

Refractory Periods

Question 66

Another Action Potential cannot be elicited, no matter how large the stimulus; Coincides with almost the entire duration of the action potential

Answer 66

Absolute Refractory Period

Question 67

No Action Potential can occur until the Inactivation Gates open

Answer 67

Ionic Basis of Absolute Refractory Period

Question 68

Action Potential can be elicited only if a larger than usual inward current is provided

Answer 68

Relative Refractory Period

Question 69

Membrane Potential is closer to the K+ equilibrium potential and farther from threshold; More inward current is required to bring the membrane to threshold

Answer 69

Ionic Basis of Relative Refractory Period

Question 70

When a cell is depolarized so SLOWLY such that the threshold potential is passed without firing an action potential

Answer 70

Accommodation

Question 71

Effect of Hyperkalemia to heart muscle

Answer 71

Depolarizes the Heart

Question 72

Effect of Hypokalemia to heart muscle

Answer 72

Hyperpolarizes the Heart (K+ leakage)

Question 73

Synaptic inputs that depolarize the post-synaptic cell

Answer 73

Excitatory Post-synaptic Potential (EPSP)

Question 74

Synaptic inputs that hyperpolarize the post-synaptic cell

Answer 74

Inhibitory Post-synaptic Potential (IPSP)

Question 75

2 or more presynaptic inputs arrive at post-synaptic cell simultaneously

Answer 75

Spatial Summation

Question 76

2 or more presynaptic inputs arrive at post-synaptic cell in rapid succession

Answer 76

Temporal Summation

Question 77

Repeated stimulation causes response of post-synaptic cell to be greater than expected

Answer 77

Nerve Facilitation

Question 78

Increased released of NT and increased sensitivity to the NT

Answer 78

Long-Term Potentiation (Involved in Memory)

Question 79

Repeated stimulation causes decreased response of postsynaptic cell

Answer 79

Synaptic Fatigue (Due to depletion of NT stores)

Question 80

Myelinated fiber; For Proprioception and Somatic Motor; Thickest (12-30um) and Fastest (70-120m/s)

Answer 80

Nerve Fiber Type A-alpha

Question 81

Myelinated fiber; For Touch and Pressure; 5-12um and 30-70m/s

Answer 81

Nerve Fiber Type A-beta

Question 82

Myelinated fiber; For Motor to Muscle spindles; 3-6um and 15-30m/s

Answer 82

Nerve Fiber Type A-gamma

Question 83

Myelinated fiber; For Pain, Cold, Touch; 2-5um and 12-30m/s

Answer 83

Nerve Fiber Type A-delta

Question 84

Myelinated fiber; For Preganglionic autonomic; <3um and 3-15m/s

Answer 84

Nerve Fiber Type B

Question 85

Non-Myelinated fiber; For Pain, Temperature, some Mechanoreception; 0.4-1.2um and 0.5-2m/s

Answer 85

Nerve Fiber Type C-Dorsal root

Question 86

Non-Myelinated fiber; For Postganglionic sympathetic; 0.3-1.3um and 0.7-2.3m/s

Answer 86

Nerve Fiber Type C-sympathetic

Question 87

Vasomotor Center, Resoiratory Center (DRG, VRG), Swallowing, Coughing and Vomiting Centers

Answer 87

Medulla

Question 88

Micturition Center, Pneumotaxic, Apneustic Centers

Answer 88

Pons

Question 89

Relay Center for almost all sensations

Answer 89

Thalamus

Question 90

Contributes to Balance

Answer 90

Cerebellum

Question 91

Connects the two brain hemispheres

Answer 91

Corpus Callosum, Anterior Commissure

Question 92

Motor, Personality, Calculation

Answer 92

Frontal Lobe

Question 93

Somatosensory Cortex

Answer 93

Parietal Lobe

Question 94

Vision

Answer 94

Occipital Lobe

Question 95

Hearing, Vestibular processing, recognition of faces, Optic Pathway, (Meyer’s Loop)

Answer 95

Temporal Lobe

Question 96

Elaboration of thoughts; Plan complex motor movements

Answer 96

Prefrontal Association Area of Cerebral Cortex

Question 97

Plans and creates motor pattern for speech

Answer 97

Broca’s Area of Cerebral Cortex

Question 98

Behavior, Emotions, Motivation

Answer 98

Limbic Association Area of Cerebral Cortex

Question 99

Storage mechanism for learning; A result of previous neural activity

Answer 99

Memory

Question 100

Seconds-to-minutes memory

Answer 100

Short-term Memory

Question 101

Days-to-weeks memory

Answer 101

Intermediate-term Memory

Question 102

Years-to-lifetime memory

Answer 102

Long-term Memory

Question 103

Conversion of short-term memory to long-term memory; Accelerated an potentiated by Rehearsal

Answer 103

Consolidation

Question 104

Does NOT store memory; An important output pathway from reward & punishment centers

Answer 104

Hippocampus

Question 105

Loss of short-term memory; Impairment of the ability to form new memories through memorization

Answer 105

Anterograde Amnesia (Hippocampal Lesion)

Question 106

Loss of pre-existing memories to conscious recollection; Person may be able to memorize new things but is unable to recall events or identity prior to the onset

Answer 106

Retrograde Amnesia (Thalamic Lesion)

Question 107

Might play a role in helping a person “search” the memory storehouses and “read-out” the memories

Answer 107

Thalamus

Question 108

Production of Oxytocin

Answer 108

Paraventricular Nuclei

Question 109

Production of Vasopressin

Answer 109

Supraoptic Nuclei

Question 110

Satiety Center

Answer 110

Ventromedial Nuclei

Question 111

Hunger Center

Answer 111

Lateral Nuclei

Question 112

Sweating (Heat release)

Answer 112

Anterior Hypothalamic Area

Question 113

Shivering (Heat conversion)

Answer 113

Posterior Hypothalamus

Question 114

Reward Center

Answer 114

Medial Forebrain Bundle

Question 115

Punishment Center

Answer 115

Central Gray Area around the Aqueduct of Sylvius

Question 116

Social inhibition

Answer 116

Amygdala

Question 117

Which takes precedence over the other: punishment & fear or pleasure & reward?

Answer 117

Punishment & Fear

Question 118

Regulate activity of many physiological processes including heart rte, blood pressure, body core, temperature and blood levels of hormones

Answer 118

Biological Clock

Question 119

Cycles of Periodicity shorter than 24 hours (eg: heart beat, respiratory rhythm)

Answer 119

Ultradian Rhythms

Question 120

Cycles of Periodicity longer than 24 hours (eg: menstrual cycle, gestation)

Answer 120

Infradian Rhythms

Question 121

Cycles of Periodicity that approximate Earth’s rotational period (eg: sleep-wake cycle, hormone levels)

Answer 121

Circadian Rhythms

Question 122

Master clock of all biological clocks in the human body; Destruction causes loss of circadian functions

Answer 122

Suprachiasmatic Nucleus

Question 123

Implicated in regulation of circadian rhythms; Secretes a hormone called Melatonin that is synthesized from Serotonin

Answer 123

Pineal Gland

Question 124

Controlled by sympathetic nerve activity which is regulated by light signals from the retina; Increased during darkness; Inhibited by daylight

Answer 124

Melatonin

Question 125

Also known as Jet-lag; Out of synchronization of body clocks with the destination time; Treated with Melatonin or sunlight exposure

Answer 125

Desynchronosis

Question 126

Recording of neuronal electrical activity; Important diagnostic tool in Clinical Neurology

Answer 126

EEG

Question 127

Awake; Eyes Closed (8-13Hz)

Answer 127

Alpha waves

Question 128

Awake; Eyes Open (13-30Hz)

Answer 128

Beta waves

Question 129

Brain disorders and degenerative brain states (4-7Hz)

Answer 129

Theta waves

Question 130

Deep sleep, Organic Brain Disease, Infants (0.5-4Hz)

Answer 130

Delta waves

Question 131

Clinical assessment of brainstem functions in comatose patients use which evoked potential?

Answer 131

Auditory Evoked Potential

Question 132

Endogenous periodicity of 25 hours

Answer 132

Sleep-wake cycle

Question 133

Due to an active inhibitory process; NOT merely due to fatigue of Reticular Activating System (RAS); Secretion of Muramyl Peptide may be involved

Answer 133

Sleep

Question 134

Usually dreamless or unremembered dreams; 10-30% decrease in blood pressure, heart rate and BMR; Increased in GI motility; Difficult to arouse by sensory stimuli; Alpha, Theta, & Delta waves

Answer 134

Slow-wave Sleep

Question 135

With Active Dreaming; occurs every 90 minutes of slow-wave sleep; Increased brain metabolism; Decreased muscle tone, pupillary constriction, active body movements, irregular BP, HR, RR; penile erection, rapid eye movements; More difficult to arouse by sensory stimuli; Beta waves

Answer 135

REM Sleep

Question 136

Who among the following dream the most: newborns, young adults, elderly?

Answer 136

Newborns (50% REM Sleep)

Question 137

Most metabolic organ

Answer 137

Brain

Question 138

Source of energy of Brain

Answer 138

Glucose and Ketone bodies only

Question 139

True or False: Brain requires Insulin

Answer 139

False

Question 140

Total amount of CSF in the Brain

Answer 140

150ml

Question 141

Amount of CSF produced per day

Answer 141

500ml

Question 142

Function of CSF

Answer 142

Cushioning

Question 143

Consist of Endothelial cells of Cerebral Capillaries, Astrocyte foot processes and Choroid plexus epithelium

Answer 143

Blood-Brain Barrier

Question 144

BBB exists in all parts of the brain EXCEPT:

Answer 144

Some Areas of HypothalamusPineal GlandArea Postrema

Question 145

Aka “Visceral Motor System” or “Vegetative Nervous System”; Assists in maintaining Homeostasis (eg: Baroreceptors and Blood pressure)

Answer 145

Autonomic Nervous System

Question 146

Sympathetic tract: Cell Body of Thoracic and Lumbar segment of Spinal CordParasympathetic tract: Cell Body of Brainstem, Sacral segment of Spinal Cord

Answer 146

Preganglionic Neuron

Question 147

Sympathetic tract: Cell Body of Paravertebral or Prevertebral GangliaParasympathetic tract: Cell Body in the Ganglia at the walls of target organs

Answer 147

Postganglionic Neuron

Question 148

Adrenoreceptors on Vascular smooth muscle, skin, renal, & splanchnic, gastrointestinal tract sphincters, bladder sphincter, radial muscle of iris; IP3, increase intracellular Ca2+

Answer 148

Alpha-1 Receptors

Question 149

Adrenoreceptors on Gastrointestinal tract wall, Presynaptic adrenergic neurons; Inhibition of adenylyl cyclase, decrease cAMP

Answer 149

Alpha-2 Receptors

Question 150

Adrenoreceptors on Heart, Salivary Glands, Adipose Tissue, Kidney; Stimulation of adenylyl cyclase, increase in cAMP

Answer 150

Beta-1 Receptors

Question 151

Adrenoreceptors on Vascular smooth muscle of skeletal muscle, gastrointestinal tract wall, bladder wall, Bronchioles; stimulation of adenylyl cyclase, increase in cAMP

Answer 151

Beta-2 Receptors

Question 152

Cholinoreceptors on skeletal muscle, motor end plate (N1), Postganglionic neurons, SNS and PNS (N2), Adrenal medulla (N2); Opening Na+ and K+ channels (depolarization)

Answer 152

Nicotinic Receptors

Question 153

Cholinoreceptors on All effector organs, PNS, Sweat glands, SNS; IP3, increase intracellular Ca2+ (M1, M2, M3), decrease adenylyl cyclase, decrease cAMP (M2, M3)

Answer 153

Muscarinic Receptors

Question 154

Mydriasis

Answer 154

Sympathetic (Alpha-1)

Question 155

Accommodation (CN III)

Answer 155

Parasympathetic

Question 156

Sweating

Answer 156

Sympathetic

Question 157

Mucoid Salivation

Answer 157

Sympathetic

Question 158

Watery Salivation

Answer 158

Parasympathetic

Question 159

Glandular Secretion

Answer 159

Parasympathetic

Question 160

Increased Heart Rate & Cardiac Contractility

Answer 160

Sympathetic (Beta-1)

Question 161

Bronchoconstriction

Answer 161

Parasympathetic

Question 162

GI Motility/Peristalsis

Answer 162

Parasympathetic (Rest & Digest)

Question 163

Increased Blood Glucose, Lipids

Answer 163

Sympathetic

Question 164

GU & GI sphincter contraction

Answer 164

Sympathetic

Question 165

Uterine Contraction

Answer 165

Sympathetic (Alpha-1)

Question 166

Urination and Defecation

Answer 166

Parasympathetic

Question 167

Vasodilation - Skeletal Muscles

Answer 167

Sympathetic (Beta-2)

Question 168

Vasoconstriction - Skin, Splanchnic, Renal, Venous

Answer 168

Sympathetic

Question 169

Piloerection

Answer 169

Sympathetic

Question 170

Erection

Answer 170

Parasympathetic

Question 171

Ejaculation

Answer 171

Sympathetic (shoot) & Parasympathetic (point)