Chapter 10- Muscles Flashcards

Question

Sarcomere lines

Answer 1

divide and flank the sarcomere - Z line: - -end of sarcomere - -made of actin protein - -anchor thin filaments - M line: - -middle of the sarcomere - -stabilize thick filaments

Answer 2

titin: anchors a thick filament to a Z line - accounts for elasticity and extensibility nebulin: holds F actin together on thin filaments (runs through center) actinin: makes up Z line

Answer 3

actin slides over myosin - zone of overlap enlarges - h band shrinks - I band shrinks - A band remains the same - Z line moves closer to A band

Answer 4

- motor unit - neuromuscular junction - synaptic termical - motor end plate - synaptic cleft - neurotransmitter

Answer 5

neuron and all the muscle cells stimulated by the neuron

Answer 6

point of contact between the neuron and the muscle

Answer 7

end of axon that contacts motor end plate

Answer 8

chemical released into synaptic cleft | -acetylcholine

Answer 9

Ach stored in synaptic vesicles - impulse reaches end of neuron-Ach released - Ach crosses gap and binds to receptors - impulse tracels through motor end plate down T-tubules to SR - Ca2+ ions diffuse out of SR into sarcoplasm - Ca2+ exposes the active site - myosin binds to active site - ATP is used and contraction occurs - contraction continues as long as Ca2+ concentration is high - Ach decomposed by acetylcholinesterase - Ca ions transported back to SR - actin and myosin links broken - cross bridges moved back - active site is blocked again

Answer 10

breaks down acetylcholine

Answer 11

determined by -frequency of stimulation -number of motor units stimulated brain tells muscle how much tension to apply

Answer 12

all fibers in a motor unit full contract if stimulated

Answer 13

steady increase in tension by increasing the number of contracting motor units

Answer 14

muscle never begins to relax, continuous fused contraction

Answer 15

- motor units contract randomly - tension, but no movement - can stabilize joints, hold objects in place, maintain posture

Answer 16

``` -constant, exhaustive stimulation increases the number of organelles/proteins in a fiber increases: -mitochondria -glycolytic enzyme reserves -myofibrils (more and thicker) -filaments within myofibrils Muscle fibers DO NOT reproduce ```

Answer 17

-lack of constant motor neuron stimulation reduces organelles and proteins -due to: age hormones lack of use nerve damage -reversible if fiber is not dead

Answer 18

- origin: attachment site that does not move - insertion: attachment site that moves - force= tension - fascicle arrangement varies based on position of muscle

Answer 19

-fascicles parallel to long axis -unidirectional force ex= biceps brachii

Answer 20

- fan shaped - multi-directional force - versatility - generates least amount of force - not all parts pulling in same direction at same time ex. pectoralis major

Answer 21

``` feather shaped -fascicles oblique to long axis -tendon passes THROUGH the muscle -greatest force ex=deltoid, quadricep con=distance. cannot pull as far because of angle ```

Answer 22

-concentric fascicles around opening -contraction decreases lumen diameter ex= orbicularis oculi (eye) mouth

Answer 23

rotation around one axis movements: rotation (atlantoaxial); pivot joints Angular: knee, IP joints

Answer 24

``` movement occurs along 2 axes angular motions: -flexion/extension -abduction/adduction -ex: ellipsoidal joint, radiocarpal, metacarpal phelange, carpometacarpal (2-5) ```

Answer 25

-movement on all axes -angular motion: same as biaxial -rotation -circumduction ex=ball-and-socket

Answer 26

main muscle causing directional force | -this can be any muscle of interest

Answer 27

muscle that contracts to oppose the agonist | ex=bicep brachii vs tricep brachii

Answer 28

muscle that assits/modifies movement | ex=brachialis and pronator teres

Answer 29

muscle that stabilizes elements associated with agonists | -deltoid stabilizes glenohumeral joint

Answer 30

lever systems modify movements - can change: - magnitude of force - speed - direction - distance of limb movement

Answer 31

- lever(L): skeletal element - effort (E): applied force (muscle pulling) - fulcrum (F): joint - resistance (R): body part or object moved

Answer 32

``` teeter totter/see saw -R opposite of E with central F ex= neck extension -E=neck extensors F=atlanto-occipital joint -R=skull ```

Answer 33

-wheel barrow -E opposite of R to move R Ex=plantar flexion -E=calf -F=MP joint -R=weight of body

Answer 34

-shovel, broom -E in between F and R Ex= elbow flexion -E= biceps brachii -F=elbow joint -R=weight distal to joint

Answer 35

-fast acting; high energy requirements -anaerobic -large diameter -densely packed myofibrils -large glycogen reserves -few mitochondria -rapid, powerful, brief contractions LIGHTER, less myoglobin

Answer 36

-more myoglbin; slower sustained contraction -aerobic -smaller diameter -longer to contract -contract for longer time DARKER b/c myoglobin

Answer 37

- attributes of both - similar to fast fibers - greater resistance to fatigue - exercise (or lack of) can change one muscle type to another

Answer 38

-attached to hair follicles in skin -in walls of hollow organs and blood vessels -nonstriated -involuntary control -contractions are slow and sustained -spindle shaped -very elastic do not fuse like muscle cells do

Answer 39

characteristics: - contract slowly - resistant to fatigue - stimulated by: - nervous system - hormones - ions - stretching

Answer 40

- many gap junctions - sheets of spindle shaped cells - contract together ex: BV's, digestive tract, resp. tract, urinary tract. - either closed or open, no precision

Answer 41

- no or few gap junctions - separate fibers; contract independently - only contract when stimulated by motor nerve - ex: walls of large BV's, uterus, iris of the eye - lots of precision, degree of refinement/contraction

Answer 42

-striated in appearance -involuntary control -autorhythmic network of fibers with intercalated disks at ends -found only in heart

Chapter 10- Muscles Flashcards

(66 cards)