Postlab quiz 10

Question 1

Skeletal muscle does this

Answer 1

works with the skeletal system (bone) to produce movement

Question 2

Connective tissue surrounding muscle

Answer 2

epimysium

Question 3

A bundle of muscle cells is called this, and is surrounded in this

Answer 3

fasical

perimysium

Question 4

Muscle cell name, and what it is surrrounded by

Answer 4

muscle fiber

endomysium

Question 5

T/F: connective tissue is continuous with the tendon

Answer 5

t

Question 6

Striations in the skeletal muscle reflect this

Answer 6

the arangement of the microfilaments within the muscle

Question 7

T/F: skeletal muscles are multinucliate

Answer 7

T

Question 8

Single muscle cells fuse togeather to form this type of structure

Answer 8

syncytium

Question 9

T/F: muscle fibers are usually short

Answer 9

F, they can be very long (up to feet long)

Question 10

T/F: skeletal muscle is involuntary

Answer 10

F

Question 11

This provides the stimulus for skeletal movement

Answer 11

motor neurons from motor areas of the brain

Question 12

Name for the synapse between motor neurons and muscle fibers

Answer 12

neuromuscular junction

Question 13

The termiinus of the axon attaches to this on the muscle fiber

Answer 13

motor end plate

Question 14

Neurotransmitter present in vesicles at the axon terminus

Answer 14

acetycholine

Question 15

All muscle fibers innervated by a single neuron are called this

Answer 15

motor unit

Question 16

Small motor units have this

Answer 16

very precise contractions

weak strength

Question 17

large motor units have this

Answer 17

imprecise contractions

greater strength of contraction

Question 18

Functional unit of the muscle fiber

Answer 18

sarcomere

Question 19

The ends of the sarcomere are know as this

Answer 19

z lines (discs)

Question 20

Thin filaments are known as

Answer 20

actin

Question 21

thick filaments are known as

Answer 21

myosin

Question 22

This is where only actin is present

Answer 22

I band

Question 23

This is where we have both action and myosin

Answer 23

a band

Question 24

This is where there is only myosin

Answer 24

h zone

Question 25

myosin attaches to eachother at this spot

Answer 25

m line

Question 26

This is known as the sliding filament theory

Answer 26

when the muscle contracts the z disks come closer togeather as a result of the actin and myosin sliding past eachother

Question 27

The name for the connection between actin and myosin

Answer 27

crossbridge

Question 28

During the power stroke this occurs

Answer 28

myosin head bend towards the m line

Question 29

This provides energy for myosin to move from a relaxed state to a contracted state

Answer 29

ATP

Question 30

This occurs when a person dies for this reason

Answer 30

Rigor Mortis

loss of ATP

Question 31

These overlap the G-actin

Answer 31

Tropomyosin

troponin complex

Question 32

The G-actin has this

Answer 32

active sights for attactment to myosin

Question 33

this moves the tropmyosin complex to allow access to the active sights on G-actin to the myosin head and results in this

Answer 33

Ca++

contraction

Question 34

Pathway of a stimulus to a muscle cell

Answer 34

stimulus starts in sarcolema
enter through T-tubules
T-tubules trigger the sarcplasmic reticulum to release Ca++
Ca++ triggers the myosin to bind the new revealed active sites on the actin

Question 35

Summation

Answer 35

closer the stimuli the greater the “piggy backing” effect

Question 36

Incomplete tetanus

Answer 36

Stimuli are summed together to create a contration

Question 37

complete tenanus

Answer 37

The fiber is said to be fuse and there is no relaxation between contractions
Eventually the muscle will fatigue causing relaxation

Question 38

Review videos (pod casts for information over figures)

Answer 38

okay

Question 39

Level of actin/myosin overlap with the strongest contraction capability (most contraction)

Answer 39

intermediate levels of overlap

Question 40

What full is most used in the first 30 min of exercise (mild exercise)

Answer 40

free fatty acids

Question 41

this occurs as exercise intensity is increased

Answer 41

more and more muscle glycogen is used, and less free fatty acids are used

Question 42

If you want to use free fatty acids as a primary source of energy you need to exercise in this manor

Answer 42

mild intensity

Question 43

Three types of muscle fibers

Answer 43

Slow (type 1)
Fast (type IIA)
Fast (type IIX)

Question 44

Slow type 1 muscle fibers use this type of respiration

Answer 44

aerobic

Question 45

Fast muscle fiber types are also known as this

Answer 45

white muscle fiber

Question 46

Fast type muscle fibers use this type of respiration

Answer 46

anaerobic

Question 47

Specific types of exercise can do this

Answer 47

create hypertrophy in the desired muscle type

Question 48

What is myasthenia gravis

Answer 48

autoimmune disorder characterized by weakness and rapid fatigue of any of the muscles under voluntary control

Question 49

Myasthenia gravis is caused by

Answer 49

breakdown in the transfer of nerve impulses to muscles

Question 50

With myasthenia gravis this occurs if the muscle is used repeatedly

Answer 50

weakness worsens

Question 51

Direct cause of myasthenia gravis (what causes the breakdown in the transfer of nerve impulses to muscles)

Answer 51

production of antibodies to acetylcholine receptors

production of antibobodies to a muscle specific receptor thyrosine kinase (MuSK)

Question 52

MuSK is responsible for this

Answer 52

the recruitment of acetylcholine receptors to the neuromuscular junction

Question 53

Myasthenia gravis is less commonly caused by this, and is known by this name when caused by the aforementioned problem

Answer 53

antibodies to lipoprotein-related protein 4

antibody negative myasthnia gravis

Question 54

The rarest form of myasthenia gravis is caused by this, and is known by this name

Answer 54

heredity

congenital myasthetic syndrome

Question 55

Signs and symptoms of myasthenia gravis (8)

Answer 55

drooping of one or both eyelids (ptosis)
double vision (diplopia) which improves with one eye closed
altered speech
difficulty swallowing
limited facial expression
trouble holding up your head
waddling while walking
difficulty lifting or raising arms

Question 56

Treatment for myasthenia gravis (5)

Answer 56

cholinesterase inhibitors (Mestinon)
corticosteroids (prednisone)
Immuno-suppressents
plasmapheresis
intravenous immunoglobulin

Question 57

Prognosis for myasthenia gravis (3)

Answer 57

symptoms progress to highest severity within 3 years
after 3 years symptoms usually stabilize
can live a fairly normal life with regular medical treatment

Question 58

What are the essentials of a reflex mechanism

Answer 58

receptor organ
effector organ
some type of communications network connecting the two

Question 59

Reflex action is initiated by this and results in this

Answer 59

input response

output response

Question 60

Reflex activity ranges from this to this

Answer 60

simple axon reflex

complex reflexes in which the cerebrum participates

Question 61

Many reflexes might be regarded as being this (explain)

Answer 61

programmed. Meaning the appropriate response to the stimulus has been built into the nervous system

Question 62

Reflex action often does not require this

Answer 62

action by the central nervous system

Question 63

These reflexes require integration by action centers in the brain

Answer 63

eye reflexes

labyrinthine reflexes

Question 64

Reasons some reflexes are integrated in the brain

Answer 64

appropriate response is determined after several inputs have been evaluated

Question 65

Three spinal reflexes tested in class

Answer 65

Patellar reflex
achilles reflex
biceps and triceps reflex

Question 66

What is the plantar/babinski reflex (explain results also)

Answer 66

a stroking stimulus is applied to the sole of the foot near the inner side using a blunt object.
Normal response is a downwards flexion or curling of toes
If the toes fan out with big toe flexed dorsally the response is a positive babinski reflext

Question 67

What is the babinski response associated with

Answer 67

damage to the pyramidal tract fibers, or children in their first year because the nerves are still undergoing myelination

Question 68

The time required for a person to react to a stimulus depends on several factors, including:

Answer 68

responsiveness of receptor
nerve conduction velocity
synaptic delay
number of neurons and synapses involved
nerve distance traveled
efficiency of neuromuscular transmission
speed of muscle contraction

Question 69

In an automatic reflex this many synapses are traversed over this length of time

Answer 69

few

short

Question 70

In a response that requires though, decision making and choice require this many neural pathways and require this much time

Answer 70

more

longer

Question 71

What did the reaction time apparatus consist of

Answer 71

operator’s initiate console
subject’s response panel
stop clock

Question 72

T/F: the intact skeletal muscles of humans can be stimulated directly through the skin if a fairly strong stimulus is employed

Answer 72

T

Question 73

This can be used to diagnose certain neuromuscular disorders and prevent muscle atrophy during temporary paralysis

Answer 73

Simulation of motor points

Question 74

Spots on the muscle that are more sensitive to electrical stimulation than the rest of the muscle are called

Answer 74

motor points

Question 75

The motor points usually lie over the point where the nerve enters this

Answer 75

the muscle

Question 76

Most motor points are located over this

Answer 76

belly of the muscle

Question 77

When stimulating motor points muscle contraction is produced through stimulation of this

Answer 77

the innervating nerve

Question 78

Muscle function in humans can be evaluated by examining contraction strengths using this or by doing this

Answer 78

dynamometer

examining the depolarization of contracting muscles using surface electrodes connected through bioamplifiers

Question 79

Two tools that where used to measure muscle recruitment and fatigue

Answer 79

hand dynamometer

surface electrodes

Question 80

Strength of contraction is correlated with this

Answer 80

the number of motor units being stimulated

Question 81

We could expect to seen an increase in this as contraction strength increases

Answer 81

electrical activity

Question 82

Know the muscle diagram from the podcast

Answer 82

okay

Question 83

Ridges in the epimysium are called this

Answer 83

Fascia

Question 84

Neurotransmitter found in the neuromuscular junction

Answer 84

Acetylcholine

Question 85

Type of receptor found on muscles

Answer 85

Nicotinic Cholnergic receptor

Question 86

Be able to draw and label everything associated with the image of the sarcomere from the podcast

Answer 86

okay

Question 87

Three steps of muscle contraction

Answer 87

1. influx of Ca++ triggers exposure binding sites of actin by binding troponin
2. Myosin binds actin - forms crossbridge
3. Power stroke of crossbridge causes sliding of filaments

Question 88

Three steps of muscle relaxation

Answer 88

1. ATP binds to cross bridge resulting in disconnection of myosin to actin
2. hydrolysis of ATP re-energizes myosin
3. Ca++ ions re-enter the sarcoplasmic reticulum

Question 89

More muscle recruitment = a bigger this

Answer 89

muscle contraction

Question 90

In a large motor unit a single neuron innervates this many muscle fibers for this reason

Answer 90

thousands

stimulate greater muscle contraction

Question 91

Another name for the Right atrium/ventricular valve

Answer 91

Tricuspid valve

Question 92

Another name for the left atrium/ventricular valve

Answer 92

Mitral valve (bicuspid)

Question 93

Review the anatomy of the heart

Answer 93

okay

Question 94

T/F: the right and left sides of the heart operate as separate pumps

Answer 94

T

Question 95

Flow of blood through the heart

Answer 95

Right atrium
Right ventricle
Pulmonary trunk
lungs
Left atrium
left ventricle
aorta

Question 96

Two characteristics of blood in the aorta

Answer 96

O2 rich

nutrient rich

Question 97

4 areas that stethoscopes are placed to listen to particular valves of the heart (clockwise starting at the top left)

Answer 97

Aortic area
pulmonic area
bicuspid (mitral) area
tricuspid area

Question 98

Heart contractions are know as

Answer 98

systole

Question 99

Heart relaxactions are known as

Answer 99

diastole

Question 100

This is ventricular systole

Answer 100

contraction of the ventricle

Question 101

This is atrial systole

Answer 101

contraction of the atrium

Question 102

Systole when used without clarification describes this

Answer 102

ventricular systole

Question 103

Duration of systole and diastole

Answer 103

0. 3

0. 5

Question 104

Cardiac cycle characteristics (3)

Answer 104

less than 1 second normally
contraction faster than relaxation
atrial contraction followed by ventricular contraction

Question 105

Normal heart rate

Answer 105

72 beats per minute

Question 106

Cardiac cycle (start to finish)

Answer 106

Atria contracting
Blood flows into ventricles
Ventricles contract
Blood flows into atria

Question 107

Review how pressure changes in the ventricle correlate to volume changes in the ventricle (podcast, approximately 4 min. in)

Answer 107

okay

Question 108

This is used to measure pressures associated with the heart and is measured at this location on the body

Answer 108

blood pressure

biceps

Question 109

This type of blood flow creates sound

Answer 109

turbulent

Question 110

This type of blood flow does not create sound

Answer 110

Laminar

Question 111

Starting blood pressure cuff pressure

Answer 111

140 mmHg

Question 112

The first korotkoff sound signals this pressure

Answer 112

systolic pressure (maximum pressure the ventricle would produce)

Question 113

The last korotkoff sounds signals this pressure

Answer 113

diastolic pressure

Question 114

Average systolic and diastolic pressures

Answer 114

Systolic 120 mmHg

Diastolic 80 mmHg

Question 115

The pressure of the blood in the veinus portion of circulation is essentially this

Answer 115

0 mmHg

Question 116

The mean pressure of blood is this

Answer 116

100 mmHg

Question 117

The skeletal muscle pump does this

Answer 117

utilizes blood vessels being compressed by the muscles they lie between
as they compress blood is driven towards the heart

Question 118

Veins have these structures within them

Answer 118

valves

Question 119

pulse pressure =

Answer 119

P(systolic) - P(diastolic)

Question 120

Normal pulse pressure

Answer 120

40 mm Hg

Question 121

Exercise pulse pressure may go as high as this

Answer 121

100 mmHg

Question 122

When we exercise this happens to our systolic and diastolic pressures

Answer 122

Increase

decrease

Question 123

Very low pulse pressure can be suggestive of this

Answer 123

congestive heart failure

aortic stenosis

Question 124

Reason for low pulse pressure with congestive heart failure

Answer 124

weak heart contractions

Question 125

reason for low pulse pressure with aortic stenosis

Answer 125

Low blood volume caused by narrowing of aortic semilunar valve

Question 126

The electrodes on the body during an electrocardiogram do this

Answer 126

investigate the change in potential of the heart muscle as it progressively contracts

Question 127

What do the 3 leads compare in an electrocardiogram

Answer 127

I - Right arm to left arm
II - Right arm to left leg
III - Left arm to left leg

Question 128

The typical ECG in lab utilizes this lead

Answer 128

II

Question 129

Each wave of an ECG represents this

Answer 129

changes in polarity in the cardiac musculature

Question 130

The P wave represents this

Answer 130

depolarization of the atria

Question 131

The QRS wave represents thsi

Answer 131

depolarization of the ventricle

Question 132

The T wave represents this

Answer 132

Re polarization of the ventricle

Question 133

Repolarization of the atria takes places here

Answer 133

QRS phase

Question 134

This is associated with ventricular contraction

Answer 134

Right after the QRS

Question 135

This follows depolarization

Answer 135

contraction of the associated portion of the heart

Question 136

The first heart sound is associated with this

Answer 136

the closing of the atrial ventricular valve

Question 137

The Atrial/ventricular valve will close at this time

Answer 137

when the pressure in the ventricle is greater than the pressure in the atria

Question 138

The second heart sound is associated with this

Answer 138

the closing of the semilunar valve

Question 139

The semilunar valve will close at this time

Answer 139

when the pressure in the aorta is greater than the pressure in the ventricle

Question 140

Wiggers diagram (4)

Answer 140

Correlates pressures in aorta, ventrical, atria
idetifies part of the graph where AV and semilunar valves open and close
Correlates with ECG
Identifies when the first and second heart sounds occur

Question 141

Ischemia

Answer 141

Reduced blood flow to the ventricle

Question 142

Bradycardia means

Answer 142

slow heart rate

Question 143

sinus means

Answer 143

origin is in the sinal/atrial node

Question 144

Tachycardia means

Answer 144

fast heart rate

Question 145

ventricular means (ECG)

Answer 145

Everything on the ECG is originated in the ventricles

Question 146

Tachycardia means a heart rate over this

Answer 146

140 beats per minute

Question 147

In sinus tachycardia we see this on the ECG

Answer 147

Normal P, QRS, T waves happening very quickly

Question 148

In ventricular fibrillation we see this on the ECG

Answer 148

The ventricle is not contracting in any sort of coordinated manor

Question 149

How does cholesterol effect us

Answer 149

formation of plaques that can block blood vessels

May also ulcerate and release a piece of tissue that may cause a blockage elsewhere in the body

Question 150

CABG

Answer 150

coronary artery bypass graft

Question 151

Two common areas of blockage in the heart

Answer 151

left anterior descending

right coronary artery