Objective 8: Describe the following types of muscle responses to stimulation: twitch, graded muscle contraction (wave summation, incomplete tetanus, complete tetanus, multiple motor unit summation), treppe, isotonic contraction and isometric contraction
wave (temporal) summation
a second stimulus is applied to muscle before it finishes relaxing. 2nd contraction is greater because muscle has already been stimulated
size principle of recruitment
motor units fire in order from small to large. largest motor units are controlled by largest and least excitable neurons only when powerful contraction is necessary - allows gradual increase in strength through small steps. ex: hand can slap lightly or hit a volleyball hard
isometric contraction
muscle attached to weight that exceeds muscle's peak tension-developing capabilities. when stimulated, increases to peak but does not shorten - muscle does not shorten or lengthen because load is too heavy, but its internal tension increases - L > T - ex: trying to lift a piano
eccentric contraction
muscle lengthens, generates force; isotonic - ex: lowering a weight during bicep curl
concentric contractions
muscle shortens; isotonic - ex: bicep curl pick up, kicking a ball
latent (lag) period
short period of time after stimulation when excitation/coupling is happening. cross bridges begin to cycle but tension is not measurable and myogram shows no response - Time between stimulus application and measurable tension
unfused (incomplete) tetanus
some relaxation between contractions, stimuli delivered more frequently. sustained but quivering
increased contractile force due to recruitment results from
stimulation of a muscle by increasing numbers of activated somatic motor neurons
muscle tone
the state of balanced muscle tension, low levels of contractility, that makes normal posture, coordination, and movement possible
what happens physiologically during latent phase
- AP causes Ach release, binds to receptors, initiates AP in sarcolemma. AP propagated by T tubules, causes release of Ca2+ from SR. Ca2+ binds to troponin, troponin/tropomyosin blockade is removed, cross bridge binding sites on G actin exposed
changes in rate of muscle stimulation
1. wave summation 2. unfused (incomplete) tetanus 3. fused (complete) tetanus
what occurs during relaxation phase of muscle twitch to Ca2+?
Ca2+ is actively transported back into SR
what happens physiologically during relaxation phase
Ca2+ transported into SR and cross bridge attachment is prevented. muscle fibers lengthen
graded muscle contractions
Contractions that vary in strength. Variations in degree of muscle contraction by changing the frequency or strength of the stimulus
myogram
a graph of a muscles mechanical contractile activity (tension or shortening versus time) - latent period, contraction, relaxation
period of contraction
active cross bridges, myogram peaks. cross bridge activity leads to tension; amount of tension depends on number of motor units activated. myogram raises to peak
load (resistance)
any force that opposes the tension (effort) generated by muscle contraction - force exerted on muscle by weight of object
relaxation period
cross bridge activity stops as Calcium is pumped back into SR; muscle tension falls
what happens physiologically during contraction phase
cross bridges between actin and myosin cross bridge heads form, move, release, reform causing sarcomeres to shorten
isotonic contraction
on stimulation, muscle develops enough tension (force) to lift the load (weight). when resistance is overcome, muscle shortens and tension remains constant through contraction - muscle tension stays constant at a given load, muscle shortens. tension remains constant through contraction - tension > load - concentric and eccentric contractions - ex: pick up 5 lbs
fused (complete) tetanus
prolonged, smooth contraction from rapid stimulation. no relaxation, strongest contraction. smooth and sustained - rare IRL
to increase strength (tension) of contraction, _ rate of stimulation, and strength
rate, strength - rate of stimulation: go from twitch contraction to complete tetanus - strength of stimulus: more and larger motor units
muscle twitch contraction
response of muscle to a single, brief, threshold stimulus - 3 phases: latent, contraction, relaxation periods
multiple motor unit summation
strength of contraction depends upon recruitment of motor units - increasing voltage/strength of stimulation to motor units increases recruitment, stronger muscle contractions - subthreshold stimuli: no contractions. first contraction is threshold. then maximal. in laboratory, done by increasing voltage therefore calling more motor units into play
Treppe (staircase effect)
strength of muscle contraction increases with repeated stimulation. first few contractions cause muscle to warm up, temperature rises, blood flow increases, etc.
rapid, strong stimuli lead to _ contractions
strong
faster rate of stimulation, _ the contraction
stronger (single fiber)
stronger stimulus, _ contraction
stronger; more motor units recruited
increase in frequency of stimulation causes; increase in strength causes
temporal/wave summation (higher frequency, greater strength); recruitment (stronger stimulation, more motor units)
tension (effort)
the force exerted by a contracting muscle on a load (object)
Contraction
the process of generating force in a muscle as a result of cross-bridge activity. May or may not lead to shortening
low frequency, weak stimuli lead to _ contractions
weak
