Test 3

Question 1

Factors that determine effects of muscle contraction:

Answer 1

1. Anatomical arrangement of muscle fibers

2. The way the muscle attaches to bone

Question 2

One can classify muscles by which 3 factors?

Answer 2

1. Shape
2. Action (movement)
3. Size and range of motion

Question 3

Based on the arrangement of a fascicle:

Answer 3

All muscle fibers are parallel in a single fascicle.

Question 4

List the 4 different shapes of muscles:

Answer 4

1. Parallel
2. Pennate
3. Convergent
4. Circular or Sphincter

Question 5

Muscle shape in which the axes of fascicles run parallel to axes of the muscle:

Answer 5

parallel muscles

Question 6

Muscle shape: spindle shaped or strap-like, will have a central body (belly or gaster)

Answer 6

parallel muscles

Question 7

Muscle shape: contraction–gets smaller and larger in diameter, especially at the belly

Answer 7

parallel muscles

Question 8

Give examples of parallel muscles:

Answer 8

biceps and sartorius

Question 9

Muscle shape: feather-like, fascicles are short and oblique attached to a central tendon–produces more tension

Answer 9

pennate muscles

Question 10

List the 3 different types of pennate muscles:

Answer 10

1. Unipennate
2. Bipennate
3. Multipennate

Question 11

Shape: fascicles insert into only one side of the tendon, also give example

Answer 11

Unipennate muscles; ex. extensor digitorum (extends fingers)

Question 12

Muscle shape: fascicles insert on both sides of tendon, also give example

Answer 12

bipennate muscles; ex. rectus femoris (extends knee)

Question 13

Muscle shape: many fascicles are inserted into a tendon that typically branches, also give example

Answer 13

multipennate muscles; ex. deltoid muscle

Question 14

Muscle shape: fan-shaped, force directed to a point (raphe), can pull in different directions since each section can change direction, also give example

Answer 14

convergent muscles; ex. pectoralis major

Question 15

point where tendon, aponeurosis, and collagen fibers converge

Answer 15

raphe

Question 16

Muscle shape: contraction acts to close; fascicles are arranged in a circular pattern, also give example

Answer 16

circular/sphincter muscle; ex. obicularis oris, obicularis oculi

Question 17

immovable end of muscle to bone

Answer 17

origin

Question 18

moveable end of muscle to bone attachment

Answer 18

insertion

Question 19

Movement can be named for what two factors?

Answer 19

Bone involved or joint involved (ex., flexion of forearm, flexion of elbow)

Question 20

What are the 3 functional groups of muscles based on size and range of motion?

Answer 20

1. Agonist
2. Antagonist
3. Synergists

Question 21

prime mover, muscle is chiefly responsible for movement; give example

Answer 21

agonist; ex. prime mover of elbow is biceps brachii–origin is the humerus and the insertion is the radius

Question 22

oppose or reverse a movement–located on opposite side of joint; give example

Answer 22

antagonist; ex. triceps brachii vs. biceps brachii

Question 23

help prime movers; list 3 different functions

Answer 23

synergists; 1. adds extra force to the movement

2. reduces undesirable or unnecessary movement
3. it is a fixator–immobilises a bone of muscle origin

Question 24

Give an example of the synergist function of adding extra force to a movement:

Answer 24

ex. external intercostals aiding with respiration

Question 25

Give an example of the synergist function of reducing undesirable or unncessary movement:

Answer 25

ex. brachioradialis for forearm flexion

Question 26

Give an example of the synergist function of immobilising a bone of muscle origin

Answer 26

ex. scapula to the axial skeleton, muscle maintaining upright posture

Question 27

A muscle may act as a prime mover in one movement, an antagonist in another movement, and a synergist for a third movement: true or false?

Answer 27

true

Question 28

Give an example of a muscle that may act as a prime mover in one movement, an antagonist in another movement, and a synergist in a third movement:

Answer 28

deltoid muscle

Question 29

List the 3 different example functions of a deltoid muscle performing all three muscle functions in three different movements:

Answer 29

1. prime mover of arm abduction when all fibers contract simultaneously
2. antagonist of pectoralis major and latissimus dorsi which adduct the arm
3. synergist of pectoralis major, which is the prime mover of arm flexion

Question 30

Operation of most skeletal muscles involves the use of levers—these can change what?

Answer 30

1. Direction of applied force
2. Distance and speed of movement
3. Effective in strength of applied force

Question 31

rigid bar that moves on a fixed point; give example

Answer 31

lever; ex. bones

Question 32

fixed point; give example

Answer 32

fulcrum; ex. joints

Question 33

effort used to move a resistance; give example

Answer 33

applied force; ex. muscle contraction

Question 34

the load; give example

Answer 34

resistance; ex. bone, tissue, etc.

Question 35

Mechanical advantage—power lever; give example

Answer 35

1. needs less work
2. effort is farther than the load from the fulcrum
3. resistance is close to the fulcrum
4. applied force is applied far from the fulcrum
5. slower, more stable, strength

small effort over long distance moves a large load over small distance; ex. jacking a car

Question 36

Mechanical disadvantage—speed lever; give example

Answer 36

1. more work
2. effort (resistance) is nearer to the load than to the fulcrum
3. applied force is far from the fulcrum
4. the resistance is applied near the fulcrum
5. good speed and range of motion

force exerted by muscle must be greater than the load moved or supported; ex. shoveling

Question 37

List the 3 classes of levers:

Answer 37

1. First class
2. Second class
3. Third class

Question 38

Resistance – Fulcrum – Applied Force; which lever is this? Also give example.

Answer 38

first class lever; ex. scissors or seesaws

Question 39

What is a mechanical advantage of a first class lever?

Answer 39

lifting a head off of a chest

Question 40

What is a mechanical disadvantage of a first class lever?

Answer 40

triceps extending the forearm

Question 41

Fulcrum – Resistance – Applied Force; which lever is this? Also give an example.

Answer 41

second class lever; ex. wheelbarrow, or standing on toes

Question 42

List the 3 different aspects of second class levers:

Answer 42

1. Lift the greatest weight with the least applied force–moves slowly and covers short distance
2. uncommon in the body
3. sacrifices speed and range of motion

Question 43

Resistance – Applied Force – Fulcrum; which lever is this? Also give example.

Answer 43

third class lever; ex. forceps, tweezers biceps

Question 44

List the 4 different aspects of third class levers:

Answer 44

1. speed and distance increase
2. always at mechanical disadvantage
3. most common in the body
4. these muscles tend to be thicker and more powerful

Question 45

What are the 8 factors for naming skeletal muscles?

Answer 45

1. Location of the muscle
2. Shape of the muscle
3. Position
4. Relative size of the muscle
5. Number of origins
6. Location of attachments
7. Direction of muscle fibers/fascicles
8. Action of the muscle

Question 46

location of the muscle ex.

Answer 46

fibularis, tibialis, sternocleidomastoid

Question 47

shape of muscle ex.

Answer 47

deltoid, trapezius

Question 48

position of muscle ex.

Answer 48

extremus or superficialis, interns, extrinsic (stabilise organ), intrinsic (within organ)

Question 49

relative size of muscle ex.

Answer 49

maximus, minimus, longus, brevis

Question 50

number of origins ex.

Answer 50

biceps, triceps, quadriceps

Question 51

location of attachments ex. (origin is listed first and then insertion)

Answer 51

sternocleidomastoid

Question 52

direction of muscle fibers/fascicles ex.

Answer 52

rectus, oblique, transverse

Question 53

action of muscle ex.

Answer 53

flexor, extensor, adductor, abductor, etc.

Question 54

List the 4 different effects of aging on the muscular system:

Answer 54

1. skeletal muscle fibers become smaller in diameter because of a decrease in myofibrils, resulting in decreased function–fatigue rapidly
2. muscles become less elastic as a result of fibrosis (increase of fibrous CT)
3. lower tolerance for exercise resulting in difficulty with fatigue and thermoregulation
4. muscle repair after injury decreases–fewer myoblasts and satellite cells

Question 55

List the 4 disorders of the muscular system:

Answer 55

1. Charley horse
2. Calcaneal tendon rupture
3. Shin splints
4. Hernia

Question 56

tearing of the muscle with bleeding into the tissue; severe, prolonged pain

Answer 56

Charley horse

Question 57

plantar flexion not possible, dorsiflexion is exaggerated

Answer 57

Achilles (calcaneal) tendon rupture

Question 58

irritation of the anterior compartment of the leg caused by irritation of the anterior tibialis muscle; may be used loosely to indicate stress fracture of the tibia, inflammation of fascia or muscle tears

Answer 58

Shin splints

Question 59

organ protrudes through a muscle–more common in obese and elderly

Answer 59

hernia

Question 60

Hernia results more easily in which two types of people?

Answer 60

1. those whose lifestyles result in a lack of the use of the abdominal muscles
2. those whose livelihood requires heavy lifting

Question 61

List the 5 different types of hernias:

Answer 61

1. inguinal hernia
2. femoral hernia
3. umbilical hernia
4. hiatus hernia
5. incisional hernia

Question 62

80% of all hernias are of this type–these individuals have a defect which carries the spermatic cord from the scrotum or the round ligament of the uterus to the labia majora

Answer 62

inguinal hernia

Question 63

this type of hernia occurs when there is an enlargment of the ring that normally passes the blood vessels to and from the thigh

Answer 63

femoral hernia

Question 64

type type of hernia is more common in infants

Answer 64

umbilical hernia

Question 65

in this type of hernia there is a protrusion of the stomach into the thoracic cavity as a reult of a weakness in the opening passing the esophagus through the diaphragm

Answer 65

hiatus hernia

Question 66

this type of hernia is due to surgery–there is a weakness at the cut site and the viscera will protrude—additional surgery will be required

Answer 66

incisional hernia

Question 67

List the 5 functions of neural tissue:

Answer 67

1. Control and communication
2. Control homeostasis
3. Monitor
4. Integration
5. Motor output

Question 68

changes in stimuli and information–sensory input

Answer 68

monitor

Question 69

evaluate sensory input and fashion a response

Answer 69

integration

Question 70

respond to stimuli via an effector organ

Answer 70

motor output

Question 71

What are the two parts of the nervous system?

Answer 71

1. Central nervous system (CNS)

2. Peripheral nervous system (PNS)

Question 72

brain & spinal cord

Answer 72

central nervous system

Question 73

List the two aspects of the central nervous system:

Answer 73

1. Responsible for integration

2. Responses may be based on reflexes, experience, or current conditions

Question 74

spinal and cranial nerves

Answer 74

peripheral nervous system

Question 75

The peripheral nervous system is responsible for what?

Answer 75

monitoring & motor output

Question 76

What are the two different parts of the peripheral nervous system?

Answer 76

1. Afferent system

2. Efferent system

Question 77

sensory information from receptors to the CNS

Answer 77

afferent system

Question 78

motor information from the CNS to effector organs (muscles, glands, etc.)

Answer 78

efferent system

Question 79

What are the two parts of the efferent system?

Answer 79

1. Somatic nervous system

2. Autonomic nervous system

Question 80

supplies voluntary information to skin and skeletal muscles, any automatic action like reflexes

Answer 80

somatic nervous system (somatic motor division)

Question 81

supplies involuntary information to smooth muscles, heart, and glands

Answer 81

autonomic nervous system (visceral motor division)

Question 82

List the 2 parts of the autonomic nervous system (ANS):

Answer 82

1. Sympathetic

2. Parasympathetic

Question 83

causes changes in response to stress

Answer 83

sympathetic

Question 84

maintains normal functions

Answer 84

parasympathetic

Question 85

structural and functional unit of the nervous system

Answer 85

neuron

Question 86

List the 4 aspects of neurons:

Answer 86

1. extreme longevity–100 years
2. high metabolic rate–high oxygen and glucose usage
3. contains no structures associated with cell division, stem cells still active in the nose (olfactory) and hippocampus (memory storage)
4. mitosis ceases between 6 months and 4 years

Question 87

List the 10 parts of the neuron:

Answer 87

1. dendrites
2. axon
3. neurofibrils
4. nissl bodies
5. myelin sheath
6. nodes of ranvier
7. neurolemma (sheath of Schwann)
8. cell body
9. golgi apparatus
10. plasma membrane

Question 88

branch-like extensions of the cytoplasm each with spines forming 80-90% of neuron total surface

Answer 88

dendrites

Question 89

What are the 3 aspects of dendrites?

Answer 89

1. carry impulses toward the cell body
2. their distal ends form receptors
3. dendrite length will vary from micro to over 3 feet

Question 90

single, long process

Answer 90

axon

Question 91

What are the 4 aspects of axons?

Answer 91

1. carries impulse away from the cell
2. terminates with with branches called teliodendria at the synaptic terminal
   3 may have side branches called collaterals
3. axon length will vary from micro to 3 feet

Question 92

cytoplasm of the axon

Answer 92

axoplasm

Question 93

special portion of the axon cell membrane

Answer 93

axolemma

Question 94

provide internal support

Answer 94

neurofibrils

Question 95

List one aspect of neurofibrils:

Answer 95

they spread nutrients and depolarisation waves through the cell

Question 96

most active and well-developed rough endoplasmic reticulum in the body; protein synthesis–gives gray colour to gray matter

Answer 96

nissl bodies

Question 97

a segmented, whitish, phospholipid covering that will act to insulate the fiber and spread the condution of nerve impulses

Answer 97

myelin sheath

Question 98

What is the myelin sheath formed by in the peripheral nervous system (PNS)?

Answer 98

Schwann cell

Question 99

What is the myelin sheath formed by in the central nervous system (CNS)?

Answer 99

oligodendrocytes

Question 100

large areas of axon that are myelinated

Answer 100

internodes

Question 101

unmyelinated gaps in the myelin sheath from which axon collaterals can emerge

Answer 101

nodes of ranvier

Question 102

thin living nucleated membrane around the fiber or its myelin sheath of the PNS

Answer 102

neurolemma (Sheath of Schwann)

Question 103

List the 3 aspects of the neurolemma (Sheath of Schwann):

Answer 103

1. brain and spinal cord do not have a neurolemma
2. essential along with a cell body for regeneration of a nerve fiber
3. is formed by the Schwann cell

Question 104

biosynthetic center

Answer 104

cell body (perikaryon, soma)

Question 105

well developed in the neuron

Answer 105

Golgi apparatus

Question 106

3 structural components of the neuron:

Answer 106

1. dendrite
2. axon
3. axonal terminal

Question 107

receptive or input region of a neuron

Answer 107

dendrite

Question 108

conducting component of a neuron

Answer 108

axon

Question 109

secretory or output component of a neuron

Answer 109

axonal terminal

Question 110

clusters of cell bodies in the CNS are called:

Answer 110

nuclei

Question 111

clusters of cell bodies that lie along the nerves in the PNS are called:

Answer 111

ganglia

Question 112

functional connection between neuron and cell

Answer 112

synapse

Question 113

List 2 aspects of synapses:

Answer 113

1. must have neurotransmitter–acetylcholine, norepinephrine, serotonin, dopamine, etc.
2. if the neurotransmitter substance remains in contact with the postsynaptic neuron, the impulse will continue indefinitely; to stop the impulse an enzyme is necessary

Question 114

neuron conducting impulses toward the synapse; information sender

Answer 114

presynaptic neuron

Question 115

neuron that transmits the electrical signal away from the synapse; information receiver

Answer 115

postsynaptic neuron

Question 116

where neurotransmitters are released

Answer 116

presynaptic membrane

Question 117

these have receptors for the neurotransmitters

Answer 117

postsynaptic membrane

Question 118

Explain neuron functions:

Answer 118

In the body periphery, postsynaptic cells may be either neuron or effector cell (muscle, gland)

Question 119

List 3 aspects of neuron functions:

Answer 119

1. neuromuscular junction
2. neuroglandular junction
3. synaptic knob

Question 120

nerve to muscle junction

Answer 120

neuromuscular junction

Question 121

neuron to gland junction

Answer 121

neuroglandular junction

Question 122

postsynaptic cell is another neuron

Answer 122

synaptic knob

Question 123

movement of materials between synaptic knobs and the cell body

Answer 123

axoplasmic transport

Question 124

movement from cell body to synaptic knobs

Answer 124

anterograde flow

Question 125

movement from synaptic knob to cell body

Answer 125

retrograde flow

Question 126

Give an example of retrograde flow:

Answer 126

rabies enters nerve cells by way of retrograde actions

Question 127

List the 4 structural classifications of neurons:

Answer 127

1. multipolar
2. bipolar
3. unipolar or pseudounipolar
4. anaxonic

Question 128

What are the 3 aspects of multipolar neurons?

Answer 128

1. they consist of one axon and several dendrites
2. they are found in the brain and spinal cord
3. they are the most common type in humans and a major type in the CNS and in skeletal muscle

Question 129

What are the 2 aspects of bipolar neurons?

Answer 129

1. they have one axon, one dendrite, and a cell body between

2. they are rare: found in the retina, inner ear, and olfactory area

Question 130

What are the 3 aspects of unipolar neurons?

Answer 130

1. axon and dendrite are continuous, cell body to one side
2. sensory neurons of the PNS
3. some of the longest are from the toes to the spinal cord

Question 131

What are the 2 aspects of anaxonic neurons?

Answer 131

1. small and no anatomical clues to distinguish dendrites from axons
2. located in the brain and special sense organs

Question 132

List the 3 functional classifications of neurons:

Answer 132

1. Sensory (Afferent)
2. Motor (Efferent)
3. Association Neurons (connector, interneurons)

Question 133

What are the 3 aspects of sensory neurons?

Answer 133

1. carry information from receptors to the spinal cord and brain
2. unipolar with processes called afferent fibers
3. cell bodies in the sensory ganglia outside CNS

Question 134

What are the sensory receptor categories?

Answer 134

1. exteroreceptors
2. proprioceptors
3. interoceptors

Question 135

external environment receptors

Answer 135

exteroceptors

Question 136

body position and movement receptors

Answer 136

proprioceptors

Question 137

internal organ system receptors–taste, deep pressure, pain

Answer 137

interoceptors

Question 138

List the 3 aspects of motor neurons:

Answer 138

1. carry impulses from the brain and spinal cord to effector organs
2. multipolar and axons have efferent fibers
3. most cell bodies are in the CNS

Question 139

What are the 4 aspects of association neurons?

Answer 139

1. conduct impulses from sensory to motor neurons
2. most are multipolar, ex. Purkinje & pyramidal cells
3. found only in the brain and spinal cord–memory, learning, and planning
4. outnumber all other types combined

Question 140

small and more numerous than neurons; branching processes and a cell body

Answer 140

neuroglia (glial cells)

Question 141

List the functions of neuroglia:

Answer 141

1. supports the neurons and anchors them to blood vessels
2. protection or defense through phagocytosis
3. plays a part in the formation of the myelin sheath in the CNS

Question 142

What are the neuroglia of the central nervous system?

Answer 142

1. astrocytes
2. microglia
3. oligodendrocytes
4. ependymal cells

Question 143

List the aspects of astrocytes:

Answer 143

1. most abundant and most versatile
2. star shaped cells; many processes
3. provide structural framework for neurons in the CNS
4. can assist in repair of injury by stabilising the tissue and preventing further injury
5. direct neuron development in the embryonic brain
6. astrocyte end feet provide signals that stimulate endothelial cells of the brain capillaries to form tight junctions to maintain the blood-brain barrier
7. controls chemical environment around neurons–absorb and recycle excess neurotransmitters; regulate concentration of Na+, K+, and CO2.

Question 144

List the aspects of microglia:

Answer 144

1. smallest and least numerous
2. migrate through neural tissue, many fine processes
3. move around and carry on phagocytosis–important because cells of the immune system are denied access to the CNS

Question 145

List the aspects of oligodendrocytes:

Answer 145

1. fewer and shorter processes than astrocytes
2. support and connect neurons to blood vessels
3. function in formation of the myelin sheath around axons of neurons of the CNS (white matter because of lipids)

Question 146

List the aspects of ependymal cells:

Answer 146

1. single layer of epithelial cells, may be ciliated
2. form the continuous lining of the ventricles of the brain and central canal of the spinal cord, filled with CSF
3. cilia may contribute to the circulation of CSF

Question 147

What are the neuroglia cells of the peripheral nervous system?

Answer 147

1. Schwann cells

2. satellite cells

Question 148

List the aspects of Schwann cells:

Answer 148

1. they are also called neurilemmal cells
2. they form a sheath around every peripheral axon, myelinated or not
3. peripheral nerve fibers regeneration

Question 149

List the aspects of satellite cells:

Answer 149

1. also called amphicytes
2. surround cell bodies in ganglia
3. work like astrocytes

Question 150

If damage is severe or near the cell body of a neuron:

Answer 150

the entire neuron may die and other neurons stimulated by that axon may die

Question 151

if cell body of a neuron remains intact, cut, or compressed:

Answer 151

axons on peripheral nerves can regenerate

Question 152

the greater the distance between the severed nerve ending:

Answer 152

the less likely regeneration will occur

Question 153

List the steps of neural repais in the peripheral nervous system:

Answer 153

1. Wallerian degeneration spreads distally from the site until the axon is fragmented
2. Macrophages move to the injury site and phagocytise debris
3. Neurolemma remains intact within the endoneurium
4. Neuron cell body undergoes changes in response to axonal injury by dispersing genetic material to the cell periphery, where it can direct synthesis of proteins to support regeneration
5. Macrophages release chemicals that cause Schwann cells to proliferate and move to injury site
6. Schwann cells then release growth factor to encourage axon growth forming a regeneration tube; then remyelinating the regeneration tube

Question 154

within a few hours of injury, the axon and myelin sheath distal to the injury start to disintegrate from lack of nutrients

Answer 154

Wallerian degeneration

Question 155

Neural changes are produced by:

Answer 155

1. anything that changes membrane permeability to any type of ion
2. anything that alters ion concentration on the two sides of the membrane

Question 156

Two types of signals are produced by change in membrane potential:

Answer 156

1. graded potentials

2. action potentials

Question 157

temporary localised change, decrease in strength over distance

Answer 157

graded potentials

Question 158

signal over long distance and brief reversal of membrane potential: only axons can generate these

Answer 158

action potential

Question 159

electric potential across a nerve fiber membrane resulting from concentration differences of certain ions between the two sides of the membrane (Na+, K+, and protein ions), passive (gradients) and active (sodium-potassium pump) forces act across membrane

Answer 159

transmembrane potential

Question 160

when the membrane is positively charged on the outside and negatively charged on the inside; cell is polarised

Answer 160

resting membrane potential

Question 161

List the 3 aspects of resting membrane potential:

Answer 161

1. Na+ concentration is greater outside the resting fiber than inside
2. K+ concentration is greater inside the resting fiber than outside
3. Sodium-potassium pump transports 3 Na+ out of the cell for every 2 K+ into the cell—ATP driven

Question 162

no energy required to move ions

Answer 162

passive forces

Question 163

concentration gradient; sodium and potassium

Answer 163

chemical gradients

Question 164

results from differences in speed of movement of Na+ and K+ ions and polarity; can reinforce or oppose chemical gradient (positive is attracted to negative so K+ slowly leaves and Na+ wants to come in more)

Answer 164

electrical gradient

Question 165

sum of the chemical and electrical gradients acting on an ion across the cell membrane

Answer 165

electrochemical gradient

Question 166

requires energy

Answer 166

active forces

Question 167

List the 2 aspects of active forces:

Answer 167

1. sodium-potassium pump requires ATP to work
2. DDT and other chlorinated hydrocarbons (pesticides) interfere with the sodium-potassium pump so it can effect nerve impulses, and helps to cause deaths

Question 168

List the 2 membrane channels:

Answer 168

1. (Passive) leak channels

2. (Active) gated channels

Question 169

always open but can change permeability from moment to moment

Answer 169

leak channels

Question 170

open and close in response to a stimuli

Answer 170

gated channels

Question 171

changes relative to resting membrane potential–spreads in a wave or nerve impulse or action potential

Answer 171

depolarisation

Question 172

What are the 3 graded potentials?

Answer 172

1. depolarisation
2. repolarisation
3. hyperpolarisation

Question 173

inside of the membrane becomes less negative resulting in a decrease in membrane potential; influx of Na+; local current, can’t go very far

Answer 173

depolarisation

Question 174

restoration of resting membrane potential, but not in the original ionic distributions (sodium-potassium pump restores original distribution), starts at the same point in the fiber where depolarisation began

Answer 174

repolarisation

Question 175

inside of membrane becomes more negative resulting in an increase in membrane potential

Answer 175

hyperpolarisation

Question 176

A neuron receives info via graded potential at the dendrites and cell body but is unable to transmit info for long distances so:

Answer 176

an action potential links graded potential to the synaptic terminals which in turn causes a graded potential in the presynaptic membrane which may trigger release of a neurotransmitter

Question 177

changes in the membrane potential that affect an entire excitable membrane

Answer 177

action potentials

Question 178

What is an aspect of action potentials?

Answer 178

Not all local depolarisations produce action potentials. The depolarisation must reach threshold values.

Question 179

minimal stimulus strong enough to decrease the receptor potential and initiate an impulse

Answer 179

threshold stimulus

Question 180

any stimulus not capable of initiating an impulse unless a second or several stimuli are applied quickly to a neuron, at which time these additional stimuli are summed

Answer 180

subthreshold stimulus

Question 181

a stimulus is either strong enough to trigger an action potential or does not produce one at all

Answer 181

all-or-none law

Question 182

Period from opening of activation gates of Na+ channels to the closing of the inactivation gates; membrane can’t respond to further stimulus ensuring each action potential is separate; ensures one way propagation of the action potential

Answer 182

absolute refractory period

Question 183

Na+ gates closed and K+ gates open; return to resting state (repolarisation)

Answer 183

relative refractory period

Question 184

What are the 2 aspects of propagation of action potentials?

Answer 184

1. continuous

2. saltatory

Question 185

action potential moves across the membrane in small steps; unmyelinated fiber, always away from the site of generation

Answer 185

continuous

Question 186

myelinated fiber; myelin sheath acts as an insulator and the action potential jumps from node to node, faster and takes less energy

Answer 186

saltatory

Question 187

rate of impulse propagation depends on:

Answer 187

1. axon diameter

2. degree of myelination

Question 188

List the 3 axon diameters:

Answer 188

1. Type A fibers
2. Type B fibers
3. Type C fibers

Question 189

What are the 5 aspects of Type A fibers?

Answer 189

1. largest
2. all myelinated
3. carry sensory information to the CNS concerning position balance, and fine touch and pressure sensations from the skin surface
4. carry commands from motor neurons to skeletal muscles
5. 300 mph

Question 190

What are the 5 aspects of Type B fibers?

Answer 190

1. mid-sized
2. all myelinated
3. carry less urgent information such as pain, temperature, general touch, and pressure sensations to the CNS
4. carry motor commands to smooth muscle, cardiac muscle, glands, and periphery effectors
5. 40 mph

Question 191

What are the 5 aspects of Type C fibers?

Answer 191

1. smallest in diameter
2. unmyelinated
3. carry less urgent information as type B
4. incapable of saltatory propagation
5. 2 mph

Question 192

List the 3 aspects of degree of myelination:

Answer 192

1. myelin sheath decreases time between reception of stimulus and response
2. myelination is not complete until adolescence
3. myelination improves coordination and control

Question 193

The two types of synapses:

Answer 193

1. electrical

2. chemical

Question 194

List the 3 aspects of electrical synapses:

Answer 194

1. rare, in the CNS and PNS
2. presynaptic and postsynaptic membranes held together at gap junctions
3. action potentials move rapidly from cell to cell

Question 195

specialised for release and reception of chemical neurotransmitters

Answer 195

chemical synapses

Question 196

in presynaptic neuron, contains synaptic vesicles containing neurotransmitters

Answer 196

axonal terminal

Question 197

on the membrane of a dendrite or cell body of a postsynaptic neuron that has neurotransmitter receptors

Answer 197

receptor region

Question 198

What are the 2 parts of a chemical synapse and what is between them?

Answer 198

1. axonal terminal
2. receptor region

synaptic cleft

Question 199

these result in depolarisation and propagation of an action potential

Answer 199

excitatory neurotransmitter

Question 200

these result in hyperpolarisation and suppress propagation of action potential

Answer 200

inhibitory neurotransmitter

Question 201

release acetylcholine

Answer 201

cholinergic synapse

Question 202

Other neurotransmitters:

Answer 202

1. norepinephrine
2. dopamine
3. serotonin
4. gammaaminobutyric acid

Question 203

brain and ANS; usually excitatory effects

Answer 203

norepinephrine

Question 204

brain; may be either excitatory or inhibitory; regulates motor function; Parkinson’s

Answer 204

dopamine

Question 205

CNS; role in emotional behaviour; low levels may contribute to chronic depression

Answer 205

serotonin

Question 206

generally inhibitory effect; may reduce anxiety

Answer 206

GABA (gammaaminobutyric acid)

Question 207

regulate the rate of neurotransmitter release by the presynaptic neuron or alter the response by the postsynaptic cells to the neurotransmitter; neuropeptides

Answer 207

neuromodulators

Question 208

natural opiates

Answer 208

endorphins

Question 209

neurotransmitter and neuromodulator functions:

Answer 209

1. direct effect
2. indirect effect
3. lipid-soluble gases

Question 210

gated channels; acetylcholine

Answer 210

direct effect

Question 211

G proteins serve as a link between the first messenger and second messenger

Answer 211

indirect effect

Question 212

CO and NO; bind to enzymes on the inside of the cell which then form second messengers that affect cellular activity

Answer 212

lipid-soluble gases

Question 213

graded potentials in postsynaptic membranes in response to a neurotransmitter; may be excitatory (EPSP) or inhibitory (IPSP)

Answer 213

postsynaptic potentials

Question 214

neurotransmitter binding causes graded depolarisation of the postsynaptic membrane which may trigger an action potential at the axon hillock; opening of chemically regulated gates

Answer 214

excitatory postsynaptic potential (EPSP)

Question 215

neurotransmitter binding causes graded hyperpolarisation of the postsynaptic membrane; reduces ability to propagate an action potential

Answer 215

inhibitory postsynaptic potential (IPSP)

Question 216

a single EPSP or TPSP may not initiate an action potential, combining them may initiate the action potential

Answer 216

summation

Question 217

rapidly reoccurring stimuli at a single synapse

Answer 217

temporal summation

Question 218

simultaneous stimuli at multiple synapses

Answer 218

spatial summation

Question 219

a neuron close to reaching threshold; it will be easier for the next stimulus to initiate the action potential

Answer 219

facilitation

Question 220

Give an example of facilitation:

Answer 220

caffeine and other chemicals cause this; it lowers the threshold so you become jumpy because your reflexes are primed

Question 221

6 neural conditions:

Answer 221

1. demyelination
2. rabies
3. tay-sachs disease
4. hyperkalemia
5. tumors
6. neurotoxins

Question 222

progressive destruction of myelin sheaths in both CNS and PNS, result in loss of sensation and motor control, many diseases may cause this

Answer 222

demyelination

Question 223

retrograde flow carries the virus from bitten/infected tissues to the cell bodies, results in cell death and once many are lost animal dies

Answer 223

rabies

Question 224

genetic abnormality involving metabolism of gangliosides, gradual deterioration of neurons because of by-product build up

Answer 224

tay-sachs disease

Question 225

abnormally high extracellular concentration of K+

Answer 225

hyperkalemia

Question 226

result from division of abnormal neuroglia

Answer 226

tumors

Question 227

compound that disrupts normal nerve functions

Answer 227

neurotoxins

Question 228

Example of neurotoxins:

Answer 228

TTX tetrodotoxin, some snake, spider, scorpion, mammale (rare) venoms

Question 229

Peripheral nervous system terms:

Answer 229

1. ganglia
2. nerves
3. spinal nerves
4. cranial nerves

Question 230

collection of neuron cell bodies in the PNS

Answer 230

ganglia

Question 231

bundles of axons, usually myelinated

Answer 231

nerves

Question 232

connected to the spinal cord

Answer 232

spinal nerves

Question 233

connected to the brain

Answer 233

cranial nerves

Question 234

Central nervous system terms:

Answer 234

1. center
2. nucleus
3. neural cortex
4. higher centers
5. tracts
6. columns
7. sensory (ascending) pathway
8. motor pathway
9. horns
10. gray matter
11. white matter

Question 235

collection of neuron cell bodies in the CNS with common function

Answer 235

center

Question 236

collection of neuron cell bodies in the interior of the CNS

Answer 236

nucleus

Question 237

outer surface of the brain composed of gray matter

Answer 237

neural cortex

Question 238

complex centers of the brain

Answer 238

higher centers

Question 239

bundles of axons in the CNS, usually myelinated

Answer 239

tracts

Question 240

large bundles of axons in the spinal cord that are divided into tracts

Answer 240

columns

Question 241

carry information from peripheral receptors to the brain

Answer 241

sensory (ascending) pathway

Question 242

CNS to effectors

Answer 242

motor pathway

Question 243

masses of neuron cell bodies located in the gray matter of the spinal cord

Answer 243

horns

Question 244

mainly neuron cell bodies and dendrites or bundles of unmyelinated axons and neuroglia

Answer 244

gray matter

Question 245

myelinated nerve bundles

Answer 245

white matter

Question 246

Spinal cord continues to grow to enlarge and elongate with the spinal column until:

Answer 246

age 4

Question 247

The quantity of gray matter increases in areas involved with:

Answer 247

sensory and motor control of limbs

Question 248

from C4 to T1 and supplies nerves to the shoulder girdle and upper limbs

Answer 248

cervical enlargement

Question 249

from T9 to T12 and supplies nerves to the pelvis and lower limbs

Answer 249

lumbar enlargement

Question 250

below lumbar enlargement, spinal cord tapers into a conical portion

Answer 250

conus medullaris

Question 251

nerve roots at the inferior end of the vertebral column arising from the conus medullaris

Answer 251

cauda equina

Question 252

fibrous extension of the pia mater that anchors the spinal cord in place

Answer 252

filum terminale

Question 253

deep, wide groove on the anterior surface

Answer 253

anterior median fissure

Question 254

shallower, narrow groove on the posterior surface

Answer 254

posterior median sulcus

Question 255

31 pairs; contain both sensory and motor fibers, mixed nerves

Answer 255

spinal nerves

Question 256

contains cell bodies of sensory neurons

Answer 256

dorsal root ganglia

Question 257

contains axons of sensory neurons

Answer 257

dorsal root

Question 258

axons of motor neurons

Answer 258

ventral root

Question 259

collective term for the 3 membranes that cover the brain and spinal cord

Answer 259

meninges

Question 260

Spinal meninges:

Answer 260

1. pia mater
2. arachnoid mater
3. dura mater
4. epidural space
5. subdural space
6. subarachnoid space
7. denticulate ligaments

Question 261

tender mother, inner vascular, carries blood to brain and spinal cord

Answer 261

pia mater

Question 262

spider form, middle layer, web like and thin enclosing the subarachnoid space

Answer 262

arachnoid mater

Question 263

hard mother, outer, tough layer, major protective layer; anchors spinal cord at the foramen magnum and coccygeal ligament, prevents longitudinal movement of spinal cord

Answer 263

dura mater

Question 264

loose CT, adipose, blood vessels; fuses to periosteum of occipital bone at the foramen magnum and becomes continuous with the cranial dura mater; blends with filum terminale to become coccygeal ligament

Answer 264

epidural space

Question 265

below the dura mater

Answer 265

subdural space

Question 266

filled with CSF

Answer 266

subarachnoid space

Question 267

extends from pia mater through arachnoid mater and attaches at the dura mater; prevent lateral movement of spinal cord

Answer 267

denticulate ligaments

Question 268

unmyelinated nerve fibers, in the inside of the spinal cord

Answer 268

grey matter

Question 269

List the parts of grey matter:

Answer 269

1. posterior gray horn
2. anterior gray horn
3. lateral gray horn
4. gray commissure

Question 270

contain somatic and visceral sensory nuclei

Answer 270

posterior gray horn

Question 271

contain somatic motor nuclei

Answer 271

anterior gray horn

Question 272

contains visceral motor nuclei; located in thoracic and lumbar segments

Answer 272

lateral gray horn

Question 273

contains axons that cross over

Answer 273

gray commissure

Question 274

myelinated nerve fibers, outside of spinal cord

Answer 274

white matter

Question 275

List the parts of white matter:

Answer 275

1. posterior white column
2. anterior white column
3. lateral white column
4. white commissure
5. posterior median sulcus
6. anterior median fissure

Question 276

sensory tracts

Answer 276

ascending tracts

Question 277

motor tracts

Answer 277

descending tracts

Question 278

List the parts of the ascending tracts:

Answer 278

1. lateral spinothalamic tract
2. ventral spinothalamic tract
3. dorsal and ventral spinothalamic tract
4. gracilis and cuneate tracts

Question 279

pain and temperature

Answer 279

lateral spinothalamic tract

Question 280

crude touch

Answer 280

ventral spinothalamic tract

Question 281

unconscious muscle sense for controlling muscle tone and posture

Answer 281

dorsal and ventral spinothalamic tract

Question 282

touch, pressure, two-point discrimination, conscious muscle sense concerned with appreciation of body position. The impulses come from the skin, muscles, tendons, and joints.

Answer 282

gracilis and cuneate tracts

Question 283

List the parts of the descending tracts:

Answer 283

1. lateral and ventral corticospinal tracts
2. rubrospinal tract
3. reticulaspinal tract
4. vestibulospinal tract

Question 284

carry voluntary impulses to the skeletal muscles

Answer 284

lateral and ventral corticospinal tracts

Question 285

carries involuntary impulses to skeletal muscles concerned with tone and posture

Answer 285

rubrospinal tract

Question 286

increases skeletal muscle tone and motor neuron activity

Answer 286

reticulaspinal tract

Question 287

regulates muscle tone to maintain balance and equilibrium

Answer 287

vestibulospinal tract

Question 288

a clear, colourless protective fluid in the subarachnoid space of the brain and spinal cord

Answer 288

cerebrospinal fluid

Question 289

List the aspects of cerebrospinal fluid:

Answer 289

1. the composition is similar to blood plasma–water, proteins, glucose, urea, lactic acid, cations (Na+, K+, Ca+, Mg+), anions (Cl-, HCO3-), and some lymphocytes
2. Volume: 80 to 150 ml
3. pH: 7.35-7.4

Question 290

List the functions of cerebrospinal fluid:

Answer 290

1. Mechanical protection–the fluid serves as a shock-absorbing medium to protect the brain and spinal cord from hitting against the cranial and vertebra cavities
2. Chemical protection–provides an optimal chemical environment for accurate neuronal signaling. Even slight changes in ionic composition of CSF within the brain could disrupt action potentials
3. Circulation–the fluid delivers nutritive substances filtered from the blood to the brain and spinal cord, and removes wastes and toxic substances produced by brain and spinal cells

Question 291

Lumbar puncture or spinal tap:

Answer 291

1. Fluid is removed from between the 3rd and 4th lumbar vertebrae or between the 4th and 5th lumbar vertebrae. A lumbar puncture is made at this point because it is below the spinal cord and thus poses little danger to it. In addition, the subarachnoid space is slightly larger at this point.
2. Lumbar punctures are used to withdraw fluid for diagnostic purposes, to introduce antibiotics and contrast media, or to introduce an anesthetic to create spinal anesthesia, to administer chemotherapy, or to measure CSF pressure
3. A line drawn across the highest points of the iliac crests passes through the spinous process of the 4th lumbar vertebra

Question 292

Spinal nerves terms:

Answer 292

1. epineurium
2. perineurium
3. endoneurium
4. fascicle

Question 293

outer layer, dense CT

Answer 293

epineurium

Question 294

middle layer, encloses a fascicle

Answer 294

perineurium

Question 295

surround an axon

Answer 295

endoneurium

Question 296

bundle of axons, 31 pairs

Answer 296

fascicle

Question 297

How many cervical spinal nerve bundles are there?

Answer 297

8

Question 298

How many thoracic spinal nerve bundles are there?

Answer 298

12

Question 299

How many lumbar spinal nerve bundles are there?

Answer 299

5

Question 300

How many sacral spinal nerve bundles are there?

Answer 300

5

Question 301

How many coccygeal spinal nerve bundles are there?

Answer 301

1

Question 302

Each spinal nerve connects to the spinal cord by two roots:

Answer 302

1. dorsal root

2. ventral root

Question 303

sensory or afferent; arise from sensory neurons in the spinal ganglia that conduct impulses from peripherally located receptors

Answer 303

dorsal root

Question 304

motor or efferent; arise from anterior horn motor neurons that extend to the skeletal muscles

Answer 304

ventral root

Question 305

The motor and sensory fibers mingle together in the spinal nerve. The spinal nerves are short because:

Answer 305

almost immediately after leaving the foramen they branch into small dorsal rami or larger ventral rami

Question 306

supply the posterior body trunk

Answer 306

dorsal rami

Question 307

supply the rest of the body trunk and limbs

Answer 307

ventral rami

Question 308

Roots:

Answer 308

lie medial to and form the spinal nerves; each root is strictly motor or sensory

Question 309

Rami:

Answer 309

lie distal to and are lateral branches of the spinal nerve and carry both sensory and motor fibers

Question 310

each region of the skin is served by a single pair of spinal nerves, parts that “fall asleep” have nerves that are pinched or compressed and the nerve loses contact with that area. Except for T2-T12, all ventral rami join one another lateral to the vertebral column in nerve plexuses or groups.

Answer 310

dermatomes

Question 311

What are the aspects of the cervical plexus?

Answer 311

1. Cervical nerves (C1-C5) combine to form the cervical plexus lying in the upper part of the neck under the sternocleidomastoid muscle
2. Nerves from the plexus pass to the muscles and skin of the scalp and neck, and to the diaphragm by way of the phrenic nerve, controls breathing and is the most important nerve here.
3. A broken neck may result in respiratory paralysis through injury to the phrenic nerve.
4. Hiccups result from irritation of this nerve and if severed must be put on mechanical respirator.
5. Contains ventral rami only.

Question 312

What are the aspects of the brachial plexus?

Answer 312

1. The anterior roots of spinal nerves from the lower cervical and upper thoracic (C6-T1) combine to form this plexus, which lies in the anterior base of the neck just superior to the clavicle.
2. It sends nerves to the skin and muscles of the upper appendages.
3. The nerves are superficial at the axilla so injury may result in paralysis.
4. There are five major nerves that exit from this plexus.

Question 313

What are the 5 major nerves that exit the brachial plexus?

Answer 313

1. Axillary nerve
2. Musculocutaneous nerve
3. Median nerve
4. Ulnar nerve
5. Radial nerve

Question 314

supplies shoulder joint and deltoid

Answer 314

axillary nerve

Question 315

supplies structures of the anterior upper arm

Answer 315

musculocutaneous nerve

Question 316

supplies anterior forearm, injury makes it hard to use the pincer grasp; wrist slashing

Answer 316

median nerve

Question 317

supplies anterior forearm, injury prevents ability to make a fist or grip; stimulates the “funny bone”

Answer 317

ulnar nerve

Question 318

supplies the posterior upper arm, forearm, and hand; injury causes wrist drop, may be caused by improper use of crutch

Answer 318

radial nerve

Question 319

What are the aspects of the lumbar plexus?

Answer 319

1. Lumbar nerves (L1-L4) combine to form the lumbar plexus lying within the posterior part of the psoas muscle.
2. Three main nerves exit from the plexus.

Question 320

What are the 3 major nerves that exit the lumbar plexus?

Answer 320

1. Femoral nerve
2. Lateral cutaneous nerve
3. Obturator nerve

Question 321

supplies the skin and muscles of the anterior thigh

Answer 321

femoral nerve

Question 322

supplies the skin and muscle of the upper lateral thigh

Answer 322

lateral cutaneous nerve

Question 323

supplies the skin and muscles of the medial thigh

Answer 323

obturator nerve

Question 324

What are the aspects of the sacral plexus?

Answer 324

1. The lower lumbar and upper sacral (L4-S4) combine to form the sacral plexus lying in the middle portion of the greater (false) pelvis.
2. The major nerve of the sacral plexus is the sciatic nerve. There are 3 important branches of the sciatic nerve.

Question 325

What are the 3 important branches of the sciatic nerve in the sacral plexus?

Answer 325

1. hamstring nerve
2. tibial nerve
3. common peroneal nerve

Question 326

rises from the sciatic nerve in the thigh and supplies the skin and muscles of the posterior thigh. This nerve is a part of the tibial nerve.

Answer 326

hamstring nerve

Question 327

rises from the sciatic nerve just above the knee and supplies the skin and muscles of the knee joint and posterior leg

Answer 327

tibial nerve

Question 328

also rises just above the knee. It continues down the leg, giving branches that supply the skin and muscles of the knee, anterior and lateral leg, and foot

Answer 328

common peroneal nerve

Question 329

What are the aspects of intercostal nerves?

Answer 329

1. Not arranged in plexus.
2. Arise from the thorax (T2-T11) and form the intercostal nerves supplying the intercostal muscles and abdominal muscles

Question 330

Nerve fibers crisscross and redistribute so:

Answer 330

1. each branch contains fibers from different spinal nerves
2. each muscle receives nerve supply from more than one spinal nerve

Damage to one spinal segment or limb cannot paralyse an entire limb

Question 331

functional groups of neurons that integrate incoming information received from other sources and then forward the processed information to other destinations–connection neurons

Answer 331

neuronal pools

Question 332

patterns of synaptic connections in neuronal pools, which determine functional capabilities of the pool

Answer 332

neural circuits

Question 333

What are the 5 aspects of neural circuits?

Answer 333

1. Divergence
2. Convergence
3. Reverberation
4. Serial processing
5. Parallel

Question 334

one incoming fiber triggers responses in ever-increasing numbers of neurons farther and farther along the circuit

Answer 334

divergence

Question 335

What are the 2 aspects of divergence and an example?

Answer 335

1. amplifying circuit
2. common in sensory and motor systems

ex. eye sense–goes to conscious to process, also balance and posture sites

Question 336

a motor neuron can be controlled by both conscious and subconscious, breathing

Answer 336

convergence

Question 337

oscillating circuits; works like positive feedback mechanisms; maintains consciousness, coordination, and normal breathing

Answer 337

reverberation

Question 338

relay system passing on info

Answer 338

serial processing

Question 339

multiple neurons or pools process information at the same time allowing many responses to occur simultaneously; in response to pain–feel it, pull away, make response

Answer 339

parallel

Question 340

Reflex arcs:

Answer 340

1. simplest functional unit of the nervous system
2. reflex–quick involuntary response to a stimulus transmitted over a reflex arc
3. negative feedback
4. ex. respiration, urination, defecation, heart rate, digestion

Question 341

Parts of a reflex arc:

Answer 341

1. receptor
2. sensory (afferent) neuron
3. center
4. motor (efferent) neuron
5. effector

Question 342

to detect a change

Answer 342

receptor

Question 343

to conduct the impulse from stimulation of the receptor to the CNS

Answer 343

sensory (afferent) neuron

Question 344

where a synapse is made between neurons. This will be within the CNS and may contain a connector neuron.

Answer 344

center

Question 345

to conduct an impulse to the organ of the body that will respond

Answer 345

motor (efferent) neuron

Question 346

an organ, either a muscle or gland, that does something to maintain homeostasis

Answer 346

effector

Question 347

Classification of reflexes:

Answer 347

1. Development
2. Processing site
3. Response
4. Complexity of circuit
5. Control

Question 348

Development:

Answer 348

1. Innate

2. Acquired

Question 349

Processing site:

Answer 349

1. spinal

2. cranial

Question 350

Response:

Answer 350

1. Somatic

2. Visceral

Question 351

voluntary control of muscle system, skin, tendons

Answer 351

somatic

Question 352

other systems autonomic reflexes

Answer 352

visceral

Question 353

Complexity of circuit:

Answer 353

1. monsynaptic

2. polysynaptic

Question 354

sensory neuron synapses directly on a motor neuron

Answer 354

monsynaptic

Question 355

at least 1 interneuron between the sensory and motor, more delay

Answer 355

polysynaptic

Question 356

Control:

Answer 356

1. ipsilateral

2. contralateral

Question 357

same side affected–left hand moves when left is stimulated

Answer 357

ipsilateral

Question 358

opposing sides–right hand moves when left is stimulated

Answer 358

contralateral

Question 359

Monosynaptic reflexes:

Answer 359

Intrafusal muscle fibers; stretch reflex

Question 360

What are the aspects of intrafusal muscle fibers?

Answer 360

1. lack myofilaments
2. noncontractile
3. receptor surface of the spindle
4. primary sensory endings
5. secondary sensory endings
6. innervated by gamma efferent fibers which maintain sensitivity of the spindle at the distal ends of intrafusal fibers

Question 361

stimulated by rate and amount of stretch

Answer 361

primary sensory endings

Question 362

monitor degree of stretch

Answer 362

secondary sensory endings

Question 363

Stretch reflex example:

Answer 363

knee jerk reflex (patellar reflex), some postural reflexes

Question 364

What are the aspects of stretch reflex?

Answer 364

1. external stretch
2. internal stretch
3. stretch –> action potential down afferent –> spinal cord, stimulate interneurons –> afferent pathway down motor neuron to muscle fiber, ESPS, contraction
4. the opposite muscle = interneurons send afferent pathway down motor neurons to antagonistic muscle, causes an ISPS on that muscle to lead to relaxation
5. ipsilateral and monosynaptic (all stretch reflexes single synapse); reflex arcs that inhibit the antagonistic muscles are polysynaptic
6. stretch reflex is necessary for normal muscle tone and activity but never acts alone; accompanied by gamma motor neuron reflex arc
7. as muscle shortens, the spindle’s rate of firing declines –> reduces impulse generation by alpha motor neurons

Question 365

lengthening entire muscle–give example

Answer 365

external stretch; ex. carry heavy weight or antagonistic muscle contract

Question 366

stretching the middle of the muscle by activating gamma motor neurons

Answer 366

internal stretch

Question 367

List the polysynaptic reflexes:

Answer 367

1. tendon reflex
2. withdrawal reflex
3. crossed extension reflex
4. superficial reflex

Question 368

What are the aspects of the tendon reflex?

Answer 368

1. has the opposite effect of the stretch reflex, muscle relaxes in response to stretching; protects the muscle from over-stretching and tearing tendons
2. golgi tendon organs ensure smooth onset and termination of muscle contractions

Question 369

What are the aspects of withdrawal reflex?

Answer 369

1. flexor reflex
2. ex. moving hand off hot stove; pricking your finger
3. response to painful stimuli, where stimulus causes automatic withdrawal
4. polysynaptic and ipsilateral

Question 370

What are the aspects of crossed extension reflex?

Answer 370

1. important in maintaining balance

2. combination of ipsilateral withdrawal and contralateral (opposite) extensor reflexes

Question 371

What are the aspects of superficial reflex?

Answer 371

1. cutaneous stimulation
2. plantar reflex
3. plantar reflex is replaced by Babinski sign if the primary motor cortex or coricospinal tract is damaged
4. abdominal reflex

Question 372

downward flexion of toes when sole is stroked

Answer 372

plantar reflex

Question 373

found in infants and abnormal in adults; with the same stimulation, the toes flare and move laterally; normal for infants because the nervous system is incompletely myelinated

Answer 373

Babinski’s sign

Question 374

light stroking of the abs will cause twitch

Answer 374

abdominal reflex

Question 375

Clinical conditions of the spine:

Answer 375

1. ALS (amyotropic lateral sclerosis)
2. Poliomyelitis
3. Shingles/chicken pox/herpes
4. Meningitis
5. Epidural block

Question 376

Lou Gehrig’s Disease; progressive destruction of anterior horn and pyramidal tracts; results in loss of speech, swallowing, and breathing

Answer 376

amyotropic lateral sclerosis

Question 377

destruction of anterior horn motor neurons by virus, produces paralysis

Answer 377

poliomyelitis

Question 378

invades dorsal root of the spinal nerves, forming blister-like lesions on the skin along the dermatome; reactivated virus migrates along sensory nerve associated with the infected dorsal root ganglion

Answer 378

shingles/chicken pox/herpes

Question 379

inflammation of the meninges

Answer 379

meningitis

Question 380

meningitis affecting only the dura mater

Answer 380

pachymeningitis

Question 381

meningitis affecting the arachnoid and pia mater. This form is most common.

Answer 381

leptomeningitis

Question 382

affects the area immediately around the site of injection

Answer 382

epidural block