Lab 3 - Muscle

Question 1

What is the SimMuscle program used for?

Answer 1

To examine the contraction properties of skeletal (striated) muscle.

Question 2

When bone is cut and you want to prized the preparation, what do you put the sample into?

Answer 2

Ringer solution

Question 3

What are the equipment of the virtual laboratory?

Answer 3

A stand for the preparation
A simulator
A transducer
Occilloscope

Question 4

What does a Transducer do?

Answer 4

Converts the changes in muscle length and muscle tension into electrical signals.

It should be connected to the oscilloscope through a cable.

Question 5

What is zero adjust

Answer 5

After changing anything in the experimental setup calibration is needed.

Question 6

Expain Isotonic-isometric work

Answer 6

Muscle function can be examined under either isotonic “free” or isometric “lock” conditions

Question 7

Electric stimulations, three types

Answer 7

Single - one stimuli (1 ms)
Twin - Two stimuli
Train - a set number - “counts” of stimuli

Question 8

Electric stimulations, The intensity of the stimulus “amplitude” range

Answer 8

From 0 - 500 mV

Question 9

Electric stimulations, the time interval between stimuli “delay”

Answer 9

Delay: 0-500 ms

Question 10

What is the name of the screen that shows the signals=

Answer 10

Ocilloscope screen

Question 11

What is connected to channel 1

Answer 11

Ocilloscope

Question 12

What is connected to channel 2

Answer 12

Signals from the transducer are received through channel 2

Question 13

What does the timebase button do

Answer 13

Setts the speed of the registration in ms per divisions (ms/Div)

Question 14

What is muscle contraction based on?

Answer 14

Muscle contraction is based on sliding of contractile elements.
Actin and myosin.

Question 15

What is all-or-none law?

Answer 15

A single muscle fibre reacts to adequate stimuli according to the all-or-nothing law by contracting maximally.

Question 16

Threshold potential in different fibers

Answer 16

In the muscle tissue the threshold potential of the different fibers are different.

Question 17

What is spatial (quantal) summation?

Answer 17

When stimulus strength is increasing, more and more fibers contract.
Finally all the fibers are activated and the muscle reaches its maximal contraction level.

Question 18

What are the range of stimuli strength to determine the minimal and maximal stimulus

Answer 18

0-500 mV (in 20 mV steps)

Question 19

What is minimal stimulus

Answer 19

The weakest stimulus strength that just elicits contraction

Question 20

What is maximal stimulus

Answer 20

The weakest stimulus that just causes complete contraction.

Question 21

Measuring contraction time

Upon reaching the muscle…..

Answer 21

The action potential increases myoplasmic calcium concentration.

Calium binds to troponin-C (TnC), shifting the tropomyosin-troponin complex to the groove of the actin filament.

As a result of this:

The myosin binding sites on the actin filament are freed to react with the myosin.

Activated myosin heads (angle of 90 * binding ATP) bind to the active site of the actin.

Binding allows the myosin heads to reach the resting stage.

Question 22

How does the binding allow the myosin head to reach resting stage?

Answer 22

The myosin head first bends 40 *, then- after releasing ATP and P1 - a total of 45 *, result in the sliding filaments.

Question 23

What is the Latency period?

Answer 23

The time period between the stimulation and the start of the contraction.

Question 24

What is the process occurring during the latency period called?

Answer 24

Electro-mechanical coupling

Question 25

What happens if ATP is available?

Answer 25

If ATP is available, it binds to the myosin, which dissociates from the actinm and the myosin head returns to the original activated position (90*, wound up state).

Question 26

What is the name of this cycle (starts with the formation of the actomyosin complex, followed by sliding filaments, and is completed by dissociation - The ATP dependent terminal phase)

Answer 26

Cross- the bridge cycle.

Question 27

What is Superposition

Answer 27

Muscle contraction can not only be increased by increasing the number of fibers that contract at one time (spatial or quantal summation)

But also by increasing the frequency of triggering of the contracting fibers

Question 28

Explane the phenomenon Superposition

Answer 28

If a fiber is stimulated repeatedly before the previous calcium transient has finished, the new stimulus elicits additional calcium release, thus contraction increases.

Question 29

How do we examine superposition?

Answer 29

To examine the superposition, the muscle iw stimulated with TWIN stimuli.
Begin with 200 ms delay, and then decrease the time interval between stimuli in 25 ms steps.

Question 30

Incompleated and completed tetany

Answer 30

New stimuli applied shortly after the end of a twitch may exclit new contractions whit gradually increasing amplitude

Question 31

New stimuli applied shortly after the end of a twitch may exclit new contractions whit gradually increasing amplitude, this is caused by what?

Answer 31

This is caused by intracellular calcium that has no time to be removed between stimuli
(Superposition)

Question 32

What is a complete tetany

Answer 32

Finally after the muscle relax but shows continuous tonic spasm.

The prodromal stage of complete tetany is termed partial or incomplete tetany

Question 33

What does the prodromal stage of complete tenant mean?

Answer 33

When different contractions can still be distinguished.

Question 34

Muscular fatigue

What causes it?

Answer 34

Primarly caused by the increasing contraction of metabolic by-products

Question 35

What inhibits the muscle function

Answer 35

Lack of energy leads to formation of lactic acid, which directly inhibits muscle function

Question 36

What are a reason of muscle fatigue, which can be found predominantly in experiments, but rarely in nature?

Answer 36

Lack of neurotransmitters as a reason for fatigue, but rarely on the nature.

Question 37

What happens during muscle fatigue?

Answer 37

The amplitude of contraction decreases and the contraction time increases

Question 38

What happens during muscle fatigue?

Answer 38

The amplitude of contraction decreases and the contraction time increases

Question 39

Why does muscle fatigue happen?

Answer 39

White (glycolytic) muscles that contain fast-twich fibers exhaust faster, while red (oxidative) muscles with slow-twich fibers exhaust slower.

Question 40

How do you measure muscle fatigue

Answer 40

1. Stimulate the muscle with a single supra maximal stimulus
2. Elicit tetany (in order to exhaust the muscle)
3. Stimulate the muscle the same way as the first time.

The observations shown at the oscilloscope screen shall be drawn. There will be two obvious sign of muscle fatigue.

Question 41

What does the length-tension diagram consist of?

Answer 41

Passive strength curve
Isotonic maximum curve
Isometric maximum curve

*Remmember zero adjust

Question 42

To make the length-tension diagram, you will first need to?

Answer 42

First register the passive strength curve.
For each different load applied to the relative length of the muscle should be plotted in as a function of CORRESPONDING passive strength.

Question 43

When making the length-tension diagram - You need to determine?

Answer 43

Relative length of the muscle at rest (L0) and the passive strength in compensation to the L0 by applying 50g weights repeatedly until reaching 300 g.

*remember zero adjust

Question 44

During isotonic contraction, how does the muscle tone/length change

Answer 44

During isotonic contraction the muscle tone does not change, but the muscle length decreases as a result of muscle contraction elicited by the stimulation.

Question 45

What is Isometric maximumcurve

Answer 45

In case of the muscle is passively stretched with different loads, providing isometric conditions and stimulating it with supra maximal single stimuli.

Question 46

How do you obtain the isometric maximum curve for the muscle?

Answer 46

By plotting data on a length-tension diagram

Question 47

What is the optimal work range for each muscle?

Answer 47

Stiaded muscle - require medium tension (preload)

Question 48

What is Electromyography

Answer 48

Action potentials that elicits muscle contraction can be detected on the surface of the skin as a potential differences. The method for measuring those differences is called electromyography.

Question 49

What is called when the potential difference are measured in a function of time

Answer 49

Electromyogram (EMG)

Question 50

Why does the skeletal muscle show many curves with a EMG?

Answer 50

Because skeletal muscles are isolated and are often large units, the EMG is not a single curve but is a average picture of overlapping action potentials.

Question 51

What can you determine based on a EMG recording?

Answer 51

Neural or muscular origin of a disease

Question 52

Is there normally a measurable potential difference from a resting muscle.

Answer 52

No, but during a contraction electrical signals can be recorded.

As a contraction gets stronger , more and more muscle fibers are activated. It results in more frequent and larger potential differences.

Question 53

How do you attach the electrodes for the EMG?

Answer 53

1. Small amount of electrode cream on the concave side of each disc electrode.
2. Place the Black and Yellow electrodes with their concave side onto the skin overlying the belly of the m.biceps brachii.
   (Electrodes should be 2-5 cm apart and aligned with the long axis of the arm.)
3. Fasten electrodes with a piece of adhesive tape.
4. In similar way, the blue and red electrodes should be placed over m. triceps brachii.
5. Atache the dry earth strap around the wrist of the volunteer. (fuzzy side in contact with skin)
6. The volunteer should sit in a relaxed position , with his/ or her elbow bend 90 degrees with the palm facing upwards.
   START BUTTON, record eating EMG for 30 sec.
7. Next the volunteer should to is to perform a contraction of biceps muscle, and then the triceps muscle.

To be repeated with dif weights

Question 54

Minimal and maximal stimulus strength in humans

Electrical signals from the hand dynamometer, chanel 1?

Answer 54

Electrical signals dispalyed in channel 1 is Force

Question 55

Minimal and maximal stimulus strength in humans

Electrical signals from the hand dynamometer, chanel 2?

Answer 55

Electrical signals dispalyed in channel 1 is Stimulus

Question 56

Witch risks/procaution has to be taken during measuring of min/max stimulus in humans

Answer 56

Not people with cardiac or neurological disorder
Remove jewlery, watches etc.
Small amount of electrode cream before you place the electrode on the ulnar nerve.
During the experiment the hand dynamometer should be held loosely.

Question 57

How do you determine the threshold potential?

Answer 57

By applying single stimuli (Number of pulses) by clicking the stimulate button.

Increase the stimuli strength (pulse current (mA)) gradually and determine the min stimuli strength which just elicits contraction.

By increasing the stimulus strength further, determine the weakest stimuli needed that just elicits a maximal contraction.

Question 58

What do we measure when measuring contraction time in humans?

Answer 58

• zoom view to determine the duration of dif parts of a complete cycle.

Latency perion
Contraction time
Relaxation time
Compleete system

Question 59

Super positions in humans

Answer 59

Stimulate the ulnar nerve with supra maximal stimuli. (pulse current: 15 mA, Number of pulses: 2)

By changing “frequency” determine the time interval needed to elicit superposition

Question 60

Incompleete tetany in humans

Answer 60

Apply supramaximal (pulse current: 15 mA) Trainstimulation. (Number of pulses: 8) over the ulnar nerve. Frequenzy should be equal to that needed for eliciting superposition.

Question 61

Muscle fatigue in humans

When determine the muscle power as a percentage of maximal contraction?

Answer 61

After the fifth cycle