Fig. 50-30Spinal cord

Motor neuroncell body

Motor neuronaxon

Nerve

Muscle

Muscle fibers

Synaptic terminals

Tendon

Motorunit 1

Motorunit 2

•All motor neurons leading to skeletal muscles have branching axons, each of which terminates in a ________________________with a single muscle fiber.

•Nerve impulses passing down a single motor neuron will thus trigger contraction in ___the muscle fibers at which the branches of that neuron terminate.

__________: minimum unit of contraction

Put it all together…1

ATP

2

3

4

5

7

6

ATP

Botox• Bacteria Clostridium botulinum toxin

– blocks release of _______________– botulism can be fatal muscle

Motor UnitsSize of the motor unit = ______________ • a single motor neuron triggers fewer

than 10 fibers in the muscles controlling eye movements

• the motor units of the muscles controlling the larynx are as small as 2–3 fibers per motor neuron

• In contrast, a single motor unit for a muscle like the gastrocnemius (calf) muscle may include 1000–2000 fibers (scattered uniformly through the muscle).

NS has 2 mechanisms for controlling graded whole muscle contractions

1. ________________: strength is determined by the number of motor units participating and/or by selecting large or small motor units

2. _______ _______ of muscle fiber stimulation

Don’t forget a nerve impulse is ______________!!!

Do Muscles ever REST?

• _____________: skeletal muscles are in a state of partial contraction ,

• The state of activity or tension of a muscle beyond that related to its physical properties, that is, its ______ ____________ to stretch. In skeletal muscle, tonus is dependent upon efferent ________. (Stedman, 25th ed)

• is maintained by the activation of a few motor units at all times even in __________muscle. – As one set of motor units relaxes, another set takes

over.

Tension

• Force (tension) developed by a muscle progressively increases as more and ______________

• ___________________________________________________

__________ ___________

• Posture muscles are always partially contracted

• NS may alternate activation of motor units – Reducing time any one set of fibers is

contracted

Fig. 50-UN2

Sensoryreceptors

More receptorsactivated

Low frequency of action potentials

(b) Multiple receptors activated

Fewer receptorsactivated

(a) Single sensory receptor activated High frequency of action potentials

Gentlepressure

Morepressure

More pressure

Gentle pressure

Sensoryreceptor

Varying rate of muscle fiber stimulation

• 1 action potential (twitch) lasts <100msec • If another ap arrives before fiber is relaxed , the

two twitches add together = ________ _______• Further ___________ occurs as the rate of

stimulation increases• When the rate is high enough and the muscle

fiber cannot relax at all between stimuli the twitches _____ into one smooth sustained contraction called - ____________

__________________________:

Time for Ca2+ to be released from SR to bind to troponin

Why do we need this step?

_____________________________:

Repetitive power strokes

Generating force /tension

_____________________________: power strokes are decreasingLevels of Ca2+ decreasing

How is this happening?

_________: graph of twitch contraction

stimulus

Tetanus

When shocks are given at 1/sec, the muscle responds with a single twitch.

At 5/sec and 10/sec, the individual twitches begin to fuse together, a phenomenon called _________

At 50 shocks per second, the muscle goes into the smooth, sustained contraction of ____________

Clonus and tetanus are possible because the __________________ is much briefer than the time needed to complete a cycle of contraction and relaxation.

Note that the amount of contraction is greater in clonus and tetanus than in a single twitch.

As we normally use our muscles, the individual fibers go into tetanus for brief periods rather than simply undergoing single twitches.

Fig. 50-31

Summation oftwo twitches

Tetanus

Singletwitch

Time

Ten

sio

n

Pair ofaction

potentials

Actionpotential Series of action

potentials athigh frequency

HeartbeatANS does run to the heart = __________• increase or decrease

the _________ _________ • the strength of the heartbeat

Even if the nerves are destroyed (as they are in a transplanted heart), the heart continues to beat.

Gap junctions __________ = _____________

Significance: All the fibers contract in a synchronous wave that sweeps from the atria down through the ventricles and pumps blood out of the heart.

Anything that interferes with this synchronous wave (such as damage to part of the heart muscle from a heart attack) may cause the fibers of the heart to beat at random — called ________________.

Fibrillation is the __________ cause of most deaths and its reversal is the function of defibrillators that are part of the equipment in ambulances, hospital emergency rooms, and — recently — even on U.S. airlines

Does the heart go into tetanus?• The refractory period in heart muscle is ___________ than the period it

takes for the muscle to contract (systole) and relax (diastole). Thus ______________ is not possible (a good thing, too!).

• Cardiac muscle has a much richer supply of ___________ than skeletal muscle. This reflects its greater dependence on _______________ for ATP.

• _____________________________

• Cardiac muscle has little glycogen and gets little benefit from glycolysis when the supply of oxygen is limited.

– Thus anything that interrupts the flow of oxygenated blood to the heart leads quickly to damage — even death — of the affected part. This is what happens in heart attacks.

Isotonic versus Isometric Contractions

• _______________: the muscle is allowed to shorten

• ________________: a stimulated muscle is held so that it cannot shorten, it simply exerts tension.

Fig. 50-25a

Bundle ofmuscle fibers

Muscle

Single muscle fiber(cell)

Nuclei

Z lines

Plasma membrane

Myofibril

Sarcomere

OK now we know how to get a muscle to contract and how to get gradients of strength….

Now how do we get stronger?

__________= size of contractile force (cross section of the muscle’s belly)

__________ : increases in

CP

MB

Glycogen

Lung capacity

RBC count

How muscles grow initiallySkeletal muscle forms by _________ of mononucleated

myoblasts to form ________ _____________.

If it tried to divide, it would have several dozen or hundreds of spindles = _____________

• Some Recent Findings• Satellite cells - Day K, Shefer G, Richardson JB,

Enikolopov G, Yablonka-Reuveni Z. Nestin-GFP reporter expression defines the quiescent state of skeletal muscle satellite cells. Dev Biol. 2006 Dec 15;

• "Repair of adult skeletal muscle depends on satellite cells, quiescent myogenic stem cells located beneath the myofiber basal lamina. ...

The number of fibers is probably fixed early in life. This is regulated by __________, a cytokine that is synthesized in muscle cells (and circulates as a hormone later in life).

• Myostatin ____________ skeletal muscle development..

Cattle and mice with inactivating mutations in their myostatin genes develop much larger muscles.

Some athletes and other remarkably strong people have been found to carry one mutant myostatin gene

•Growing illicit market in drugs supposedly able to suppress myostatin.

Inactive

Oncogene?

Interesting note: In the mouse, at least, fibers increase in size by attracting more myoblasts to fuse with them. The fibers attract more myoblasts by releasing the cytokine interleukin 4 (IL-4). Anything that lowers the level of myostatin also leads to an increase in fiber size.

In adults, increased strength and muscle mass

increase in the thickness of the ________ _______

increase in the amount of ____________ ________

Increase of _______ _______ = bulking up

____________ is the partial or complete wasting away of a part of the body.

Causes :

poor nourishment, poor circulation, loss of hormonal support, loss of nerve supply, disuse or lack of exercise disease intrinsic to the tissue

Atrophy is a general physiological process of reabsorption and breakdown of tissues, involving apoptosis on a cellular level.

Webbed feet due to lack of apoptosis

wikipedia

Diseases of Muscle tissue• ALS

– amyotrophic lateral sclerossi– Lou Gehrig’s disease– motor neurons degenerate

• Myasthenia gravis– auto-immune– antibodies to

acetylcholine receptors

Stephen Hawking