Nervous system Flashcards

Question 1

Q

The ‘NERVOUS SYSTEM’ is separated into 2 ‘MAJOR SYSTEMS’. What are they?

Answer

A

CENTRAL NERVOUS SYSTEM (CNS)

2. PERIPHERAL NERVOUS SYSTEM (PNS)

Question 2

Q

The ‘CENTRAL NERVOUS SYSTEM’ contains what 2 major organs?

Answer

A

BRAIN

2. SPINAL CORD

Question 3

Q

The ‘BRAIN’ is separated into 2 different types of ‘MATTER’.

What are the they?

Answer

A

GRAY MATTER

2. WHITE MATTER

Question 4

Q

‘GRAY MATTER’ in the ‘CENTRAL NERVOUS SYSTEM’ is defined as what?

Answer

A

GRAY MATTER = NERVE CELL BODIES

Question 5

Q

‘WHITE MATTER’ in the ‘CENTRAL NERVOUS SYSTEM’ is defined as what?

Answer

A

WHITE MATTER = MYELINATED AXONS

Question 6

Q

Where is the ‘NERVE TRACT’ located? In what ‘MAJOR NERVOUS SYSTEM COMPONENT’?

Answer

A

CENTRAL NERVOUS SYSTEM (CNS)

Question 7

Q

The ‘NERVE TRACT’ which is located in the ‘CENTRAL NERVOUS SYSTEM’. Is defined as what?

Answer

A

GROUP OF NERVE FIBERS WITHIN THE ‘CNS’ THAT HAVE A COMMON ORIGIN/DESTINATION.

(ASCENDING/DESCENDING)

Question 8

Q

Where is the ‘NERVE TRACT’ located?

Answer

A

ONLY IN THE ‘CNS’

Question 9

Q

The ‘NUCLEUS’ in regards to the ‘CENTRAL NERVOUS SYSTEM’ is defined as what?

Answer

A

NUCLEUS = CLUSTER OF ‘NERVE CELL BODIES’

*ONLY IN THE ‘CNS’

Question 10

Q

What is the ‘PERIPHERAL NERVOUS SYSTEM’ (PNS) defined as?

*2 Things

Answer

A

NERVOUS TISSUE OUTSIDE THE:

‘BRAIN’
‘SPINAL CORD’

Question 11

Q

How many pairs of ‘CRANIAL NERVES’ are there in the ‘PERIPHERAL NERVOUS SYSTEM’?

Question 12

Q

How many pairs of ‘SPINAL NERVES’ are there in the ‘PERIPHERAL NERVOUS SYSTEM’?

Question 13

Q

In the ‘PERIPHERAL NERVOUS SYSTEM’, what is a ‘NERVE’ defined as?

Answer

A

GROUP OF NERVE FIBERS WITH COMMON ORIGIN/DESTINATION.

AFFERENT (SENSORY)
EFFERENT (MOTOR)

Question 14

Q

‘PERIPHERAL SYSTEM NERVES’ are separated into 2 types. What are they?

Answer

A

AFFERENT (SENSORY)

2. EFFERENT (MOTOR)

Question 15

Q

What is a ‘GANGLION’ defined as? Where is it located?

Answer

A

CLUSTER OF NERVE CELL BODIES

ONLY IN THE ‘PERIPHERAL NERVOUS SYSTEM’

Question 16

Q

What is the ‘AUTONOMIC NERVOUS SYSTEM’ composed of?

What 2 divisions is it separated into?

Answer

A

COMPOSED OF SPECIFIC STRUCTURES IN THE ‘CNS’ and ‘PNS’.

SYMPATHETIC DIVISION
PARASYMPATHETIC DIVISION

Question 17

Q

What are the 2 ‘STRUCTURAL COMPONENTS’ of the ‘NERVOUS SYSTEM’?

Answer

A

CENTRAL NERVOUS SYSTEM (CNS)

2. PERIPHERAL NERVOUS SYSTEM (PNS)

Question 18

Q

What are the 2 ‘FUNCTIONAL COMPONENTS’ of the ‘NERVOUS SYSTEM’?

Answer

A

AUTONOMIC NERVOUS SYSTEM (ANS)

2. SOMATIC NERVOUS SYSTEM (SKELETAL SYSTEM)

Question 19

Q

What are the 4 ‘PRINCIPAL FUNCTIONS’ of the ‘NERVOUS SYSTEM’?

Answer

A

ORIENTATION
COORDINATION
ASSIMILATION
PROGRAMMING

Question 20

Q

What is ‘CEREBRAL PALSY’ and what are the 4 symptoms of it?

Answer

A

ABNORMAL PATHOLOGY OF THE BRAIN

PARALYSIS
LACK OF COORDINATION
MOTOR/SENSORY DYSFUNCTIONS

Question 21

Q

What is a ‘COMA’ defined as?

Answer

A

DEGREE OF UNCONSCIOUSNESS

RESULT MAY BE FROM A MANY NUMBER OF DIFFERENT CAUSES.

Question 22

Q

There are 5 steps taking during a ‘NEUROLOGICAL EXAMINATION’. What are they?

Answer

A

MENTAL STATUS/SPEECH
CRANIAL NERVES
THE MOTOR SYSTEM
THE SENSORY SYSTEM
REFLEXES

Question 23

Q

Someone diagnosed with ‘PARAPLEGIA’ has what?

Answer

A

PERMANENT PARALYSIS OF ‘BOTH’ LEGS DUE TO INJURY OR DISEASE OF THE ‘SPINAL CORD’

Question 24

Q

Someone diagnosed with ‘QUADRIPLEGIA’ has what?

Answer

A

PERMANENT PARALYSIS OF ARMS ‘AND’ LEGS DUE TO ‘SPINAL CORD’ INJURY OR DISEASE.

Question 25

Q

What is a ‘NEURON’ also known as in the ‘NERVOUS SYSTEM’ terminology?

(*There are 2 names)

Answer

A

NERVE CELL

2. NERVE FIBER

Question 26

Q

What is a ‘NEURON’ defined as in the ‘NERVOUS SYSTEM’?

Answer

A

STRUCTURAL/FUNCTIONAL UNIT OF THE ‘NERVOUS SYSTEM’

Question 27

Q

What is the main function of a ‘NEURON’?

Answer

A

CONDUCT IMPULSES TOWARD/AWAY FROM THE ‘CELL BODY’

Question 28

Q

What are the 3 components to a ‘NEURON’?

Answer

A

CELL BODY
DENDRITES
AXONS

Question 29

Q

What is the ‘CELL BODY’ of a ‘NEURON’ defined as?

What does it contain? (5 things)

Answer

A

ENLARGED PORTION OF THE NEURON

CONTAINS:

NUCLEUS
NISSL BODIES (ROUGH ER)
NEUROFIBRILS (PROTEIN)
OTHER ORGANELLES

Question 30

Q

What are ‘DENDRITES’ defined as?

What is their main function?

Answer

A

CYTOPLASMIC EXTENSIONS

RECEIVE STIMULI AND CONDUCT ‘IMPULSES’ TO THE ‘CELL BODY’

(*TOWARD NERVE BODY!)

Question 31

Q

What are ‘AXONS’ defined as?

What 2 types are there and where are each of these types generally located?

Answer

A

CYLINDRICAL PROCESSES THAT CONDUCT IMPULSES ‘AWAY’ FROM THE CELL BODY.

SHORT AXONS (CNS)
LONG AXONS (PNS)

Question 32

Q

Which type of ‘AXONS’ are usually ‘MYELINATED’?

Why?

Answer

A

LONG AXONS

MYELIN SHEATH HELPS CONDUCT IMPULSES FASTER

Question 33

Q

What are ‘SCHWANN CELLS’, and in what system are they located?

Answer

A

ANOTHER NAME FOR ‘MYELINATED ‘LONG’ AXONS’

ONLY IN THE ‘PERIPHERAL NERVOUS SYSTEM’ (PNS)

Question 34

Q

What are ‘OLIGODENDROCYTES’, and in what system are they located?

Answer

A

ANOTHER NAME FOR ‘MYELINATED ‘LONG’ AXONS’

ONLY IN THE ‘CENTRAL NERVOUS SYSTEM’ (CNS)

Question 35

Q

What are ‘NODES OF RANVIER’?

Answer

A

SEGMENTS IN THE ‘MYELIN SHEATH’

*LOCATED BETWEEN SCHWANN CELLS/OLIGODENDROCYTES

Question 36

Q

Where do ‘AXONS’ terminate?

Answer

A

AT THE ‘PRESYNAPTIC TERMINAL’ OF THE ‘NEURON’

Question 37

Q

Because there are many ‘NEURONS’ in the body, how are they classified?

(*3 THINGS)

Answer

A

DIRECTION OF ‘IMPULSE CONDUCTION’
NUMBER OF ‘CYTOPLASMIC PROCESSES’
AREA OF ‘INNERVATION’

Question 38

Q

There are 3 types of ‘NEURONS’ defined by ‘IMPULSE CONDUCTION’. What are they?

Answer

A

SENSORY (AFFERENT)
INTERNEURONS
MOTOR (EFFERENT)

Question 39

Q

What is the function of a ‘SENSORY’ neuron?

Is it ‘AFFERENT’ or ‘EFFERENT’?

Answer

A

TRANSMIT NERVE IMPULSE ‘TO’ THE ‘CNS’ (BRAIN)
(e.g. PAIN RESPONSE)

‘AFFERENT’

(*HINT - (A)FFERENT (A)RRIVES TO THE BRAIN)

Question 40

Q

What is the function of a ‘MOTOR’ neuron?

Is it ‘AFFERENT’ or ‘EFFERENT’?

Answer

A

TRANSMIT NERVE IMPULSE ‘AWAY’ FROM THE ‘CNS’ (BRAIN).
(e.g. MUSCULAR RESPONSE)

‘EFFERENT’

(*HINT - (E)FFERENT (E)XITS THE BRAIN)

Question 41

Q

What is the function of ‘INTERNEURONS’ and what are they also known as?

(*2 other names)

Answer

A

CONDUCT THE ‘IMPULSES’ BETWEEN BOTH SENSORY ‘AND’ MOTOR’ NEURONS.

[*HINT - (INTER)states bridge the gap between states. (INTER)neurons bridge the gap between SENSORY/MOTOR neurons.]

ALSO KNOWN AS:

INTERNUNCIAL NEURONS
ASSOCIATION NEURONS

Question 42

Q

‘NEURONS’ that have only ‘1 AXON’ and ‘2+ DENDRITES’ are known as what kind of neurons?

Answer

A

‘MULTI’POLAR

Question 43

Q

‘NEURONS’ that have only ‘1 AXON’ and ‘1 DENDRITE’ are known as what kind of neurons?

Answer

A

‘BI’POLAR

Question 44

Q

‘NEURONS’ that have only ‘1 SINGLE PROCESS’ (aka - DENDRITE/AXON connected together) are known as what kind of neurons?

Answer

A

‘UNI’POLAR

Question 45

Q

There are 4 specific types of ‘NEURON INNERVATION’. What are they?

Answer

A

SOMATIC (A)FFERENT (SKELETAL)
SOMATIC (E)FFERENT (SKELETAL)
VISCERAL (A)FFERENT (ORGANS)
VISCERAL (E)FFERENT (ORGANS)

[*Hint - (A)fferent (A)rrives to the brain (CNS) and (E)fferent (E)xits)the brain (CNS).]

Question 46

Q

What is the definition of a ‘SOMATIC AFFERENT’ neuron?

What is its functions?

Answer

A

NEURONS WITHIN SKIN, MUSCLES, JOINTS.

(SOMATIC SYSTEM = SKELETAL)

FUNCTION:
RECEIVE STIMULI -> CONVEY IMPULSE (TO) THE BRAIN (CNS).

[*Hint - (A)fferent (A)rrives to the brain (CNS) and (E)fferent (E)xits)the brain (CNS).]

Question 47

Q

What is the definition of a ‘SOMATIC EFFERENT’ neuron?

What is its functions?

Answer

A

NEURONS WITHIN SKIN, MUSCLES, JOINTS.

(SOMATIC SYSTEM = SKELETAL)

FUNCTION:
RECEIVE STIMULI -> CONVEY IMPULSE (FROM) THE BRAIN (CNS) -> SKELETAL MUSCLES

[*Hint - (A)fferent (A)rrives to the brain (CNS) and (E)fferent (E)xits)the brain (CNS).]

Question 48

Q

What is the definition of a ‘VISCERAL AFFERENT’ neuron?

What is its functions?

Answer

A

NEURONS LOCATED ON/IN ‘INTERNAL ORGANS’

(VISCERAL SYSTEM = INTERNAL ORGANS)

FUNCTION:
RECEIVE STIMULI -> CONVEY IMPULSE (TO) THE BRAIN (CNS) ‘FROM’ INTERNAL MUSCLES

[*Hint - (A)fferent (A)rrives to the brain (CNS) and (E)fferent (E)xits)the brain (CNS).]

Question 49

Q

What is the definition of a ‘VISCERAL EFFERENT’ neuron?

What is its functions?

Answer

A

NEURONS LOCATED ON/IN ‘INTERNAL ORGANS’

(VISCERAL SYSTEM = INTERNAL ORGANS)

FUNCTION:
RECEIVE STIMULI -> CONVEY IMPULSE (FROM) THE BRAIN (CNS) ‘TO’ INTERNAL MUSCLES

[*Hint - (A)fferent (A)rrives to the brain (CNS) and (E)fferent (E)xits)the brain (CNS).]

Question 50

Q

What is ‘RESTING MEMBRANE POTENTIAL’ defined as?

Answer

A

WHEN A NEURON IS ‘NOT’ CONDUCTING AN ‘IMPULSE’

Question 51

Q

What components of a ‘NEURON’ constitute the ability to create an ‘IMPULSE’?

Answer

A

THE ‘DIFFERENCE’ IN THE ELECTRICAL CHARGE BETWEEN THE INSIDE/OUTSIDE OF THE ‘CELL MEMBRANE’

Question 52

Q

When a ‘NEURON’ is ‘UN-STIMULATED’, how is there a difference in electrical charge inside and outside the cell membrane?

Answer

A

DUE TO THE ‘IMBALANCE’ OF CHARGED PARTICLES (IONS/PROTEINS) BETWEEN THE ‘INTRACELLULAR’ AND ‘EXTRACELLULAR’ FLUIDS.

Question 53

Q

What is the ‘OVERALL’ charge of ‘NEURON’ when it is at ‘REST’ or ‘UN-STIMULATED’?

Why is it like this?

Answer

A

OVERALL NEGATIVE (-) CHARGE

BECAUSE OF ‘LARGE’ NEGATIVELY (-) CHARGED PROTEINS THAT ARE ‘NOT’ PERMEABLE TO THE CELL MEMBRANE

Question 54

Q

When the membrane of the ‘NEURON’ is said to be ‘POLARIZED’, what does this mean?

Answer

A

MORE (+) POSITIVE IONS ‘OUTSIDE’

MORE (-) NEGATIVE IONS ‘INSIDE’

*MEMBRANE IS AT ‘REST’ OR ‘UN-STIMULATED’ AND AT ‘EQUILIBRIUM’

Question 55

Q

What are ‘POSITIVE (+) IONS’ also called?

Answer

A

CATIONS (+)

Question 56

Q

What are ‘NEGATIVE (-) IONS’ also called?

Answer

A

ANIONS (-)

Question 57

Q

There are 3 mechanisms that are responsible for the ‘IMBALANCE’ in particles (charge) across the ‘NEURON CELL MEMBRANE’. What are they?

Answer

A

SODIUM-POTASSIUM PUMP
PERMEABILITY OF K+ TO Na+
PROTEIN IMPERMEABILITY

Question 58

Q

Which ‘IONS’ are more favorable with cell permeability in the ‘CELL MEMBRANE’ of a ‘NEURON’?

Answer

A

MORE PERMEABLE TO ‘K+ IONS’

*K+ IONS MOVE ‘OUTWARD’ AND FASTER THAN Na+ IONS MOVE ‘INWARD’

Question 59

Q

Which ‘IONS’ are ‘LESS’ favorable with cell permeability in the ‘CELL MEMBRANE’ of a ‘NEURON’?

Answer

A

LESS PERMEABLE TO ‘Na+ IONS’

*Na+ IONS MOVE ‘INWARD’ AND SLOWER THAN K+ IONS MOVE ‘OUTWARD’

Question 60

Q

How does the ‘SODIUM POTASSIUM PUMP’ function with respect to ‘NEURONS’?

What type of ‘TRANSPORT’ is this? Why?

Answer

A

MOVES ‘Na+’ IONS TO ‘OUTSIDE’
MOVES ‘K+’ IONS TO ‘INSIDE’

‘ACTIVE TRANSPORT’. REQUIRES ENERGY (ATP) TO FACILITATE TRANSPORT.

Question 61

Q

What is the ‘NORMAL’ charge inside of the ‘NEURON’ when it is at ‘REST’ or ‘UN-STIMULATED’?

Answer

A

-65 to -85mV

Question 62

Q

The ‘CELL MEMBRANE’ is ______ permeable to ‘K+ IONS’ and _____ permeable to ‘Na+ IONS’.

This makes it so that ‘____ IONS’ move outward faster than the ‘____ IONS’ move inward.

Answer

A

MORE PERMEABLE TO ‘K+ IONS’
LESS PERMEABLE TO ‘Na+ IONS’
‘K+ IONS’ MOVE OUTWARD FASTER
‘Na+ IONS’ MOVE INWARD SLOWER

Question 63

Q

What characteristic of the ‘CELL MEMBRANE’ holds a ‘NEGATIVE (-) CHARGE’ over a positive charge?

Answer

A

THE ‘IMPERMEABILITY’ OF THE CELL MEMBRANE TO LARGE NEGATIVELY (-) CHARGED ‘PROTEINS’ INSIDE THE ‘NEURON’.

‘FEWER’ (-) CHARGED PARTICLES MOVE OUT

WHEREAS

‘MORE’ (+) CHARGED PARTICLES MOVE OUT

Question 64

Q

TRUE OR FALSE

‘ALL’ CELLS OF THE BODY HAVE ELECTRICAL POTENTIALS ACROSS THEIR CELL MEMBRANES?

Answer

A

TRUE

‘ALL’ CELLS HAVE ELECTRICAL POTENTIALS

Answer 63

A

NERVE CELLS
MUSCLE CELLS

VARYING MEMBRANE PERMEABILITY TO DIFFERENT ‘IONS’.

Answer 64

A

SPIKE
NERVE IMPULSE
DISCHARGE

Answer 65

A

FALSE

THEY ARE ‘SIMILAR’ IN ‘SIZE/DURATION’.

THEY DO ‘NOT’ DIMINISH AS THEY ARE CONDUCTED DOWN AN ‘AXON’

Answer 66

A

FREQUENCY

2. PATTERN

Answer 67

A

TRUE

‘ACTION POTENTIALS’ ARE SIMILAR IN ALL ORGANISMS.

(FROM A SQUID TO A COLLEGE STUDENT)

Answer 68

A

VIA AN ‘OSCILLOSCOPE’ OR ‘VOLTMETER’

Answer 69

A

VERY RAPIDLY

(Every 2 msec) or 1000/second

Answer 70

A

BECOMES POSITIVE (+) INSIDE

STATE OF BEING ‘DEPOLARIZED’

Answer 71

A

RISING PHASE
OVERSHOOT
FALLING PHASE
UNDERSHOOT/HYPERPOLARIZATION
RESTORATION OF RESTING POTENTIAL

Answer 72

A

RAPID ‘DEPOLARIZATION’ OF THE ‘MEMBRANE’ (Na+ IONS MOVE INTO CELL TO MAKE OVERALL CHARGE MORE (+) POSITIVE)

1st PHASE DURING ‘ACTION POTENTIAL’

Answer 73

A

INSIDE OF MEMBRANE BECOMES ‘POSITIVE (+)’ (+40mV)

2nd PHASE DURING ‘ACTION POTENTIAL’

Answer 74

A

MEMBRANE IS RAPIDLY ‘REPOLARIZED’ (K+ IONS MOVE OUT OF CELL TO MAKE OVER ALL CHARGE MORE (-) NEGATIVE)

Answer 75

A

WHERE THE ‘ACTION POTENTIAL’ GOES DOWN TO A MORE (-) NEGATIVE CHARGE THAN ITS NORMAL RESTING POTENTIAL. (UNDERSHOOT)

Answer 76

A

‘STIMULUS’ APPLIED TO A NEURON’S MEMBRANE. CREATES A ‘WAVE OF DEPOLARIZATION’ ALONG THE FIBER.

Answer 77

A

STIMULATION OF MEMBRANE
SODIUM CHANNELS OPEN
SODIUM IONS MOVE ‘INWARD’
THRESHOLD (-55mV) REACHED
DEPOLARIZATION OF MEMBRANE
REVERSE POLARIZATION
*STEP 6 ACTS AS STIMULUS TO ADJACENT REGIONS
POTASSIUM CHANNEL ‘OPEN’
PUMPS TRANSPORT SODIUM BACK OUT OF ‘NEURON’ AND POTASSIUM ‘INTO’ ‘NEURON’.

Answer 78

A

PHYSICAL
CHEMICAL
TEMPERATURE

(DIFFERENT NEURONS = DIFFERENT STIMULI)

Answer 79

A

BECOMES ‘LESS’ NEGATIVE

Answer 80

A

THRESHOLD LEVEL = -55mV

LEVEL THAT MUST BE CROSSED IN ORDER TO TRIGGER AN ‘ACTION POTENTIAL’.

‘ALL or NONE’ = Unless a ‘STIMULUS’ makes cell membrane reach -55 mV, an ‘ACTION POTENTIAL’ will ‘NOT’ be created.

Answer 81

A

FALSE

‘ALL or NONE’ MEANS THAT ONLY THRESHOLD LEVEL HAS TO BE REACHED FOR AN ‘ACTION POTENTIAL’ TO BE CREATED. (-55mV)

Answer 82

A

NO RESPONSE / NO ‘ACTION POTENTIAL’

Answer 83

A

INTERVAL DURING AN ACTIVE ‘ACTION POTENTIAL’ WHERE ANOTHER STIMULUS ‘CANNOT’ CREATE ANOTHER ‘ACTION POTENTIAL’ RESPONSE BECAUSE THE CHANNELS ARE ALREADY OPEN.

(*HINT - ‘ABSOLUTE REFRACTORY PERIOD’ = ‘ABSOLUTELY [NOT] GOING TO HAPPEN’)

Answer 84

A

INTERVAL WHERE NEURON WILL ‘NOT’ RESPOND TO A NORMAL STIMULUS.

A VERY ‘STRONG’ STIMULUS WILL PRODUCE A ‘SECOND’ ‘ACTION POTENTIAL’.

(*HINT - ‘2nd ACTION POTENTIAL CREATION IS ‘RELATIVE’ TO STRENGTH OF STIMULUS’)

Answer 85

A

‘1/3 COMPLETED’

‘ABSOLUTE REFRACTORY PERIOD’

(*HINT - ‘ABSOLUTELY [NOT] GOING TO HAPPEN’)

Answer 86

A

WATER (H2O)

THIS ‘ION-WATER’ COMPLEX ALLOWS ‘Na+’ TO MOVE THROUGH PORES AND EXCLUDE ‘K+ IONS’.

Answer 87

A

FALSE

Na+ CHANNELS OPEN ‘RAPIDLY

Answer 88

A

OPEN VERY RAPIDLY/FIRST
STAY OPEN FOR ~1msec
CANNOT OPEN AGAIN UNTIL ‘AFTER’ ‘ABSOLUTE REFRACTORY PERIOD’ IS OVER.

Answer 89

A

TETRODOTOXIN (TTX)
PHYSICALLY BLOCKS ‘Na+’ PORES

FOUND IN ‘JAPANESE PUFFER FISH’

Answer 90

A

BLOCKS ‘Na+’ PORES

FOUND IN CLAMS, MUSSELS AND OTHER SHELL FISH.

Answer 91

A

CAUSES THE ‘Na+ CHANNELS’ TO OPEN AND STAY OPEN MUCH LONGER

Answer 92

A

DO NOT IMMEDIATELY OPEN UPON ‘DEPOLARIZATION’
OPEN WHEN ‘Na+ CHANNELS’ CLOSE
MOVE OF K+ DURING ‘RE-POLARIZATION’ REFERRED TO AS ‘DELAYER RECTIFIER’

Answer 93

A

BECAUSE THE MEMBRANE POTENTIAL BEHIND IT IS IN ‘ABSOLUTE REFRACTORY’ PHASE THUS NO IMPULSE CAN BE CREATED FROM ANY STIMULUS.

KNOWN AS ‘ORTHODROMIC CONDUCTION’

Answer 94

A

‘ONE-WAY’ CONDUCTION OF ‘NERVE IMPULSES’

*MOST COMMON UNDER NORMAL CONDITIONS

Answer 95

A

‘TWO-WAY’ (BACKWARD PROPAGATION) CONDUCTION OF ‘NERVE IMPULSES’

*VERY UNCOMMON - UNDER ‘EXPERIMENTAL’ CONDITIONS

Answer 96

A

IMPULSE TRAVELS ALONG THE ‘ENTIRE’ SURFCE OF THE MEMBRANE SURFCAE

OCCURS IN ‘UNMYELINATED NEURONS’

Answer 97

A

1m/sec

‘CONTINUOUS CONDUCTION’

Answer 98

A

100m/sec

‘SALTATORY CONDUCTION’

Answer 99

A

‘MYELIN SHEATH’ CREATES INSULATION TO THE ‘AXON’

2. ‘NODES OF RANVIER’ ALLOW ACTION POTENTIALS TO ‘LEAP’ WHERE ‘MYELIN SHEATH’ COVERS AXON.

Answer 100

A

INCREASE VELOCITY OF IMPULSE CONDUCTION
CONSERVES ENERGY
(BECAUSE Na+ AND K+ PUMPS ONLY HAVE TO RE-ESTABLISH CONCENTRATION DIFFERENCES AT
‘NODES OF RANVIER’.

Answer 101

A

2nd MOST COMMON ‘CNS DISEASE’

AUTOIMMUNE DISEASE WHERE BODY ATTACKS THE ‘MYELIN SHEATH’ (OLIGODENDROGLIA) IN THE CENTRAL NERVOUS SYSTEM WHICH CAUSES NERVE CONDUCTION INTERRUPTED.

Answer 102

A

ACTH (ADRENOCORTICOTROPIC HORMONE) TREATMENT
EXERCISE
PHYSICAL THERAPY

Answer 103

A

INHERITED DISEASE IN WHICH THE ‘MYELIN SHEATHS’ ARE DESTROYED.

EXCESSIVE LIPID ACCUMULATION OCCURS IN THE MEMBRANE LAYERS.

Answer 104

A

BLOCK THE INITIATION OF ‘ACTION POTENTIALS’ IN NEURONS.

PHYSICALLY BLOCK SODIUM CHANNELS

LIDOCAINE AND COCAINE ARE ARE EXAMPLES OF DRUGS THAT ARE LOCAL ANESTHETICS.

Answer 105

A

JUNCTION BETWEEN ‘2 NEURONS’

WHERE THE ELECTRICAL IMPULSE OF ONE NEURON INITIATES A SERIES OF EVENTS

Answer 106

A

AXONS TERMINALS
SYNAPTIC CLEFT
POSTSYNAPTIC MEMBRANE

Answer 107

A

SMALL ROUNDED/OVAL KNOBS, BOUTONS, END FEET OR ‘PRESYNAPTIC TERMINALS’.

SITE WHERE ‘SYNAPTIC VESICLES’ CONTAINING ‘NEUROTRANSMITTERS’ ARE LOCATED.

Answer 108

A

ACETYL CHOLINE (ACh)
NOREPINEPHRINE (NorEPI)
EPINEPHRINE (EPI)

*STIMULATE MUSCLES

Answer 109

A

MICROSCOPIC SPACE BETWEEN THE ‘2 NEURONS’

Answer 110

A

CELL MEMBRANE THAT CONTAINS ‘SPECIFIC RECEPTORS’ FOR THE ‘NEUROTRANSMITTER’

Answer 111

A

IMPULSE TO AXON TERMINAL (PRESYNAPTIC NEURON)
Ca+ CAUSES RELEASE OF NEUROTRANSMITTER INTO SYNAPTIC CLEFT
NEUROTRANSMITTER DIFFUSES ACROSS SYNAPTIC CLEFT/DETECTED BY RECEPTORS ON POSTSYNAPTIC NEURON
POSTSYNAPTIC MEMBRANE = STIMULATED/INHIBITED DEPENDING ON NEUROTRANSMITTER
NEUROTRANSMITTER IS DIFFUSED OUT OF CLEFT OR METABOLIZED

Answer 112

A

CHOLINESTERASE (ACh)

2. MONOAMINE OXIDASE (NorEPI)

Answer 113

A

CHOLINESTERASE

Answer 114

A

MONOAMINE OXIDASE

Answer 115

A

SYNAPTIC DELAY
SYNAPTIC FATIGUE (DEPLETION OF THE NEUROTRANSMITTER)
ONE-WAY CONDUCTION

Answer 116

A

‘SYNTHESIS’ OF NEUROTRANSMITTER
‘RELEASE’ OF THE NEUROTRANSMITTER
‘BINDING’ OF THE NEUROTRANSMITTER WITH THE RECEPTOR
‘DESTRUCTION’ OF THE NEUROTRANSMITTER

Answer 117

A

PARKINSON’S DISEASE
MYASTHENIA GRAVIS
BOTULISM

Answer 118

A

LACK OF THE NEUROTRANSMITTER ‘DOPAMINE’

Answer 119

A

BLOCKS ‘ACETYLCHOLINE’ (ACh) NEUROTRANSMITTER RECEPTORS.

Answer 120

A

‘INHIBITION’ OF ‘ACETYL CHOLINE’ (ACh) RELEASE

Answer 121

A

EXCITATORY

2. INHIBITORY

Answer 122

A

ABILITY FOR A SINGLE ‘NEURON’ TO BY STIMULATED BY:

EXCITATORY TRANSMISSIONS
INHIBITORY TRANSMISSIONS

FROM ‘DIFFERENT’ ‘PRESYNAPTIC NEURONS’

Answer 123

A

‘EXCITATORY NEUROTRANSMITTERS’ INCREASE THE POSTSYNAPTIC MEMBRANE’S PERMEABILITY TO SODIUM (Na+) IONS

KNOWN AS ‘EXCITATORY POSTSYNAPTIC POTENTIAL’ (EPSP)

Answer 124

A

‘EXCITATORY POSTSYNAPTIC POTENTIAL’

‘EXCITATORY NEUROTRANSMITTERS’ INCREASE MEMBRANE PERMEABILITY TO Na+ IONS.

MEMBRANE IS SAID TO BE ‘HYPOPOLARIZED’

Answer 125

A

HYPOPOLARIZED

Answer 126

A

SPATIAL SUMMATION

2. TEMPORAL SUMMATION

Answer 127

A

‘SEVERAL’ PRESYNAPTIC NEURONS SIMULTANEOUSLY RELEASE NEUROTRANSMITTERS TO A SINGLE POSTSYNAPTIC NEURON.

(*HINT - (S)PATIAL AND (S)EVERAL)

Answer 128

A

‘EXCITATORY POSTSYNAPTIC POTENTIAL’ (EPSP) result of the ‘RAPID’ discharge from the ‘SAME’ presynaptic terminal.

Answer 129

A

‘INHIBITORY NEUROTRANSMITTERS’ INCREASE THE POSTSYNAPTIC MEMBRANE’S PERMEABILITY TO CHLORIDE (Cl-) AND POTASSIUM (K+) IONS.

KNOWN AS ‘INHIBITORY POSTSYNAPTIC POTENTIAL’ (IPSP)

Answer 130

A

‘INHIBITORY POSTSYNAPTIC POTENTIAL’

‘INHIBITORY NEUROTRANSMITTERS’ INCREASE MEMBRANE PERMEABILITY TO (CHLORINE) Cl- AND (POTASSIUM) K+ IONS.

MEMBRANE IS SAID TO BE ‘HYPERPOLARIZED’

Answer 131

A

‘HYPERPOLARIZED’

Answer 132

A

THE ‘SUM’ TOTAL OF BOTH ‘EXCITATORY’ AND ‘INHIBITORY’ POSTSYNAPTIC POTENTIALS THAT ARE BEING STIMULATED.

Answer 133

A

ACETYLCHOLINE
AMINO ACIDS
AMINES
POLYPEPTIDES
PURINES
GASES

Answer 134

A

GABA (Gamma-aminobutyric acid)
GLYCINE

Both inhibitory

Answer 135

A

‘AMINO ACID’

‘INHIBITORY’

Answer 136

A

‘AMINO ACID’

‘MAINLY INHIBITORY’

Answer 137

A

NOREPINEPHRINE
EPINEPHRINE

*All made from the ‘SAME’ ‘AMINO ACID’

Answer 138

A

‘AMINE’

Answer 139

A

‘AMINE’

Answer 140

A

SUBSTANCE P
ENDORPHINS/ENKEPHALINS

FUNCTION: TRANSMISSION/INHIBITION OF PAIN

Answer 141

A

‘NITRIC OXIDE’

Answer 142

A

TRUE

‘NEURONS’ ARE BEING ‘INHIBITED/STIMULATED’ ON OPPOSITE ENDS EACH TIME YOU STEP.

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