A&P Chapter 9

Question 1

What are the three types of muscles?

Answer 1

Skeletal, Cardiac, Smooth

Question 2

Where are skeletal muscles located?

Answer 2

Attached to bones or skin

Question 3

Which skeletal muscles are attached to skin?

Answer 3

Some facial muscles

Question 4

Where are cardiac muscles located?

Answer 4

Walls of the heart

Question 5

Where are smooth muscles located?

Answer 5

Unitary muscle in the walls of hollow visceral organs (other than the heart) Multiunit muscle in intrinsic eye muscles, airways, and large arteries

Question 6

What is the cell shape and appearance of skeletal muscle?

Answer 6

Single, very long, cylindrical, multinucleate cells with obvious striations

Question 7

What is the cell shape and appearance of cardiac muscle?

Answer 7

Branching chains of cells; uni or binucleate; striations

Question 8

What is the cell shape and appearance of smooth muscle?

Answer 8

Single, spindle shaped, uninucleate, no striations

Question 9

Which of the three muscle types are involuntary?

Answer 9

Cardiac and smooth

Question 10

Which muscle type is under voluntary control?

Answer 10

Skeletal

Question 11

All muscles share four main characteristics, what are they?

Answer 11

Excitability / Responsiveness = ability to receive and respond to stimuli
Contractility = ability to shorten forcibly when stimulated
Extensibility = ability to be stretched
Elasticity = ability to recoil to resting length

Question 12

What are the four important functions of muscles?

Answer 12

Produce movement, maintain posture and body position, stabilize joints, and generate heat as they contract

Question 13

Muscles are responsible for all locomotion and manipulation, what are some examples?

Answer 13

Walking, digesting, body position

Question 14

Where is skeletal muscle tissue?

Answer 14

Packaged into skeletal muscles, which are attached to bones and skin

Question 15

What fibers are the longest of all the muscles?

Answer 15

Skeletal muscle fibers

Question 16

Do skeletal muscle fibers have striations?

Answer 16

Yes

Question 17

Are skeletal muscles voluntary?

Answer 17

Yes, they can be consciously controlled

Question 18

What are characteristics of skeletal muscle?

Answer 18

Contracts rapidly, tires easily, and are powerful

Question 19

What is the hierarchy of muscle?

Answer 19

A whole muscle contains many fascicles, and a fascicle consists of many muscle fibers

Question 20

What is a muscle fiber?

Answer 20

A muscle cell

Question 21

What does skeletal muscle contain?

Answer 21

Nerves, blood vessels, and connective tissue

Question 22

What are the connective tissue sheaths of skeletal muscle?

Answer 22

Epimysium, perimysium, and endomysium

Question 23

What is the epimysium?

Answer 23

Dense irregular connective tissue surrounding the entire muscle

Question 24

What is the perimysium?

Answer 24

Surrounds fascicles (groups of muscle fibers)

Question 25

What is the endomysium?

Answer 25

Areolar connective tissue surrounding each muscle fiber

Question 26

Muscles attach to bone in at least two places, what are they?

Answer 26

Insertion and orgin

Question 27

What is the insertion of a muscle?

Answer 27

Attachment to moveable bone

Question 28

What is the origin of a muscle?

Answer 28

Attachment to immovable or less moveable bone

Question 29

Attachments can be direct or indirect, what is a direct / fleshy attachment?

Answer 29

Epimysium fused to periosteum of bone or perichondrium of cartilage

Question 30

Attachments can be direct or indirect, what is a indirect attachment?

Answer 30

Connective tissue wrappings extend beyond the muscle as ropelike tendons or sheetlike aponeurosis

Question 31

What is the microscopic anatomy of skeletal muscles?

Answer 31

Long multiple nuclei, sarcolemma, sarcoplasm, glycosomes, myoglobin, and myofibrils

Question 32

What is the sacrolemma?

Answer 32

Muscle fiber plasma membrane

Question 33

What is the sacroplasm?

Answer 33

Muscle fiber cytoplasm

Question 34

What the glycosomes?

Answer 34

Glycogen storage

Question 35

What is myoglobin?

Answer 35

O2 storage

Question 36

What are myofibrils?

Answer 36

The contractile units

Question 37

What are the characteristics of myofibrils?

Answer 37

Densely packed, rodlike elements

Question 38

What percentage of muscle cell volume is made up of myofibrils?

Answer 38

~80%

Question 39

A single muscle fiber can contain how much myofibrils?

Answer 39

1000s

Question 40

What are the features of myofibrils?

Answer 40

Striations, sacromeres, and myofilaments

Question 41

What are sacromeres?

Answer 41

Repeating contractile units

Question 42

What are the two types of myofilaments in myofibrils?

Answer 42

Actin and myosin

Question 43

What are myofilaments?

Answer 43

Orderly arrangement of actin and myosin myofilaments within the sarcomere

Question 44

What are actin myofilaments?

Answer 44

Thin, extend across I band and partway in A band. They are anchored to Z discs

Question 45

What are myosin myofilaments?

Answer 45

Thick, extend the length of the A band and are connected at the M line

Question 46

What are A bands?

Answer 46

Myosin, dark regions

Question 47

What is the H zone?

Answer 47

Lighter region in the middle of the dark A band

Question 48

What is the M line?

Answer 48

Line of protein (myomesin) that bisects the H zone vertically

Question 49

What are I bands?

Answer 49

Actin, lighter regions

Question 50

What is the Z disc/line?

Answer 50

Coin-shaped sheet of proteins on the midline of light I band

Question 51

Each thick filament consists of what?

Answer 51

Many myosin molecules whose heads protrude at opposite ends of the filament

Question 52

A thin filament consists of what?

Answer 52

Two strands of actin subunits twisted into a helix plus two types of regulatory proteins

Question 53

What are the two types of regulatory proteins in a thin filament?

Answer 53

Troponin and tropomyosin

Question 54

What is the elastic filament?

Answer 54

Composed of the protein titin, holds thick filaments in place; helps recoil after stretching; resists excessive stretching

Question 55

What is dystrophin?

Answer 55

Links thin filaments to proteins of sacrolemma

Question 56

Other proteins bind what together?

Answer 56

Filaments or sarcomeres

Question 57

Other proteins maintain the alignment of what?

Answer 57

Sarcomeres

Question 58

What is Duchenne Muscular Dystrophy?

Answer 58

Genetic disease caused by a defective gene for dystrophin. The sarcolemma of DMD patients tear easily, allowing the entry of excess calcium which damages contractile fibers, causing inflammation and cell death

Question 59

How often does DMD appear in births?

Answer 59

1 in 3600 births

Question 60

DMD appears almost exclusively in which sex?

Answer 60

Males

Question 61

What age group does DMD appear in?

Answer 61

2-7

Question 62

How does DMD progress?

Answer 62

From extremities upward, affecting the head, chest muscles, and cardiac muscle

Question 63

What is the prognosis of DMD?

Answer 63

With supportive care, people with DMD can live into the 30s and beyond

Question 64

The decision to move is activated by what?

Answer 64

The brain

Question 65

Where does the signal transmit to after the brain makes the decision to move?

Answer 65

Transmitted down the spinal cord to motor neurons which then activate muscle fibers

Question 66

What are the excitable cells capable of action potentials?

Answer 66

Neurons and muscle cells

Question 67

What are excitable cells?

Answer 67

Cells capable of changing resting membrane potential voltages

Question 68

The action potential crosses from neuron to muscle cell via which neurotransmitter?

Answer 68

Acetylcholine (ACh)

Question 69

What is the sarcoplasmic reticulum?

Answer 69

Smooth ER surrounding each myofibril. The terminal cisterns (ends).

Question 70

What does the sarcoplasmic reticulum store and release?

Answer 70

Ca2+

Question 71

What are the T tubules?

Answer 71

Part of the sarcolemma that allows electrical nerve transmissions to reach deep into the interior of each muscle fiber

Question 72

What is the triad?

Answer 72

Terminal cistern, T tubule, and terminal cistern

Question 73

What does the triad mean?

Answer 73

When an electrical impulse passes, T tubule proteins change shape, causing SR proteins to change shape, causing release of calcium into the cytoplasm

Question 74

In the relaxed state, thin and thick filaments overlap ______ at ________

Answer 74

Overlap only slightly at the ends of the A band

Question 75

What is the sliding filament model of contraction?

Answer 75

Thin filaments slide past thick filaments, causing actin and myosin to overlap more

Question 76

How are cross bridges formed, and what process is allowed to begin?

Answer 76

When the nervous system stimulates muscle fibers, myosin heads are allowed to bind to actin, forming cross bridges, which causes the sliding (contraction) process to begin.

Question 77

Cross bridge attachments form and break several time, pulling ____ ______ a little closer toward the center of the sarcomere

Answer 77

Thin filaments

Question 78

The axon terminal (end of axon) and muscle fibers are separated by a gel-filled space called what?

Answer 78

The synaptic cleft

Question 79

Membrane-bound synaptic vesicles are stored within what?

Answer 79

Axon terminals

Question 80

What neurotransmitter do synaptic vesicles contain?

Answer 80

Acetylcholine

Question 81

What are the infoldings of sarcolemma called?

Answer 81

Junctional folds

Question 82

What do junctional folds contain?

Answer 82

Millions of ACh receptors

Question 83

What is the junctional fold region called?

Answer 83

Motor end plate

Question 84

What does the neuromuscular junction consists of?

Answer 84

Axon terminals, synaptic cleft, and junctional folds

Question 85

What do muscle fibers exhibit?

Answer 85

Resting membrane potential

Question 86

What is the fluid like in the Resting Membrane Potential

Answer 86

The fluid inside the cell is negative compared to fluid outside the cell.

Question 87

What is the RMP of a muscle cell?

Answer 87

About -90 mV

Question 88

What is the RMP set by?

Answer 88

Leak channels and Na+/K+ pumps (the voltage-gated channels are closed)

Question 89

What are the events at the Neuromuscular Junction in order?

Answer 89

1. Action potential arrives at the axon terminal
2. Voltage-gated calcium channels open, and calcium enters the motor neuron
3. Calcium entry causes release of ACh neurotransmitter into synaptic cleft
4. ACh diffuses across to ACh receptors (Na+ chemical gates) on sarcolemma
5. ACh binding to receptors opens gates, allowing Na+ to enter resulting in end plate potential
6. Acetylcholinesterase degrades ACh

Question 90

Many toxins, drugs, and diseases interfere with events where?

Answer 90

Neuromuscular junction

Question 91

What is Myasthenia Gravis?

Answer 91

Disease characterized by drooping upper eyelids, difficulty swallowing and talking, and generalized muscle weakness

Question 92

What is the physiology of Myasthenia Gravis?

Answer 92

Shortage of ACh receptors because the person’s ACh receptors are attacked by their own antibodies. This suggests that it’s an autoimmune disease

Question 93

What is Tetanus?

Answer 93

Spastic paralysis caused by a toxin from Clostridium Tetani

Question 94

What is the physiology of Tetanus?

Answer 94

The toxin, clostridium tetani, blocks the release of inhibitory neurotransmitter in the spinal cord, resulting in overstimulation of muscles

Question 95

How is Tetanus prevented?

Answer 95

Vaccination

Question 96

What is Botulism?

Answer 96

Muscular paralysis caused by a toxin from Clostridium Botulinum

Question 97

What is the physiology of Botulism?

Answer 97

The toxin, Clostridium Botulinum prevents the release of ACh at synaptic knobs

Question 98

What is the toxin Clostridium Botulism used for?

Answer 98

Toxic ingestion can be life-threatening, but careful injections of it can treat spasticity or can be used for cosmetic purposes (Botox)

Question 99

What is Rigor Mortis?

Answer 99

3-4 hours after death, muscles begin to stiffen. Peak rigidity occurs about 12 hours postmortem

Question 100

What is the physiology of Rigor Mortis?

Answer 100

Intracellular calcium levels increase because ATP is no longer being synthesized, so calcium cannot be pumped back into SR. This results in Cross Bridge formation. ATP is also needed for cross bridge detachment. The lack of ATP results in the myosin head staying bound to actin, causing a constant state of contraction.

Question 101

The muscles stay contracted in Rigor Mortis until when?

Answer 101

Muscle proteins break down, causing myosin to release

Question 102

Contractions may/may not ______ _______

Answer 102

Shorten muscle

Question 103

What is an Isometric Contraction?

Answer 103

No shortening; muscle tension increases but does not exceed load

Question 104

What is an Isotonic Contraction?

Answer 104

Muscle shortens because muscle tension exceeds load

Question 105

Muscles must be ____ to remain healthy

Answer 105

Active

Question 106

What is Disuse Atrophy?

Answer 106

Degeneration and loss of mass, due to immobilization or loss of neural stimulation, can begin almost immediately

Question 107

By what percentage does muscle strength decline by per day?

Answer 107

5%

Question 108

Paralyzed muscles can atrophy to how much of its inital size?

Answer 108

One-Fourth

Question 109

What replaces the lost muscle tissue?

Answer 109

Fibrous connective tissue

Question 110

Once fibrous connective tissue replaces the lost muscle tissue, rehabilitation is _______ at this point

Answer 110

Impossible

Question 111

What does aging result in?

Answer 111

Loss of muscle mass and fibrosis. The muscle mass is replaced by dense regular connective tissue, which decreases flexibility