Topic 5 Muscle Structure and Function PDF

Summary

This document covers the structure and function of muscles in the human body, including different types of muscle tissue (skeletal, cardiac, and smooth). It explores muscle activation, contraction types (isometric and isotonic), and control mechanisms. The document also touches upon the effects of aging and injury on muscles.

Full Transcript

RFD13803

MUSCLES
STRUCTURE &
FUNCTION
LEARNING OBJECTIVES
At the end of the lesson, students should be able to:

1 2 3

Identify the Describe the Explain the
elements of muscle function effect of injury
muscle structure to muscles
 MUSCLES
Muscles are vital tissues in
our bodies that enable
movement by contracting
(shortening) and relaxing
(lengthening). Muscles
allowing us to perform
various activities.
 MUSCLES
When you decide to move,
your brain sends signals to
the skeletal muscles, which
are attached to your bones.
For example, to raise your
arm, the muscles in your arm
contract, pulling on the
bones to lift it.
TYPES OF MUSCLE
TISSUE
 SKELETAL MUSCLE
Skeletal muscles have a striated
appearance because of the way
their fibers are organized.
Voluntary: Contraction can be
controlled.
These muscles attach to bones
throughout the body, enabling
us to move.
Made up of 1/3 of total human
body mass.
 CARDIAC MUSCLE
Cardiac muscles have a
striation, branched and
interconnected.
Cardiac muscles work
involuntarily, continuously
contracting to pump
blood through the heart.
It is autorhytmic fibers
providing stimulation
leading to contraction.
SMOOTH MUSCLE
Smooth muscles do not
have striations.
These muscles operate
involuntarily.
They are found in the
walls of hollow organs
such as the stomach,
intestines, blood vessels,
and bladder.
2 types: visceral (single
unit) and multi unit.
COMPARING THE MUSCLE TISSUE

Type of Muscle Appearance Contraction Location

Striated
Skeletal Voluntary Between bones
Non- branching

Striated
Cardiac Involuntary Heart
Branching

Vessels,
Non striated
Smooth Involuntary Intestine,
Non-branching
Organs
SKELETAL MUSCLE
STRUCTURE
 STRUCTURE
Long, cylindrical, multinucleated cell with various
length and width
Has highly organized structure of muscle fibers
 STRUCTURE

Actin and myosin
myofilaments are stacked
and overlapped to form
sarcomeres
Actin and myosin filaments
slide against each other
and responsible for muscle
contraction.
STRUCTURE
Z disc - separation between
sarcomere
I band – The thin filament
location
H zone – area where only
thick filament is found
A band - length of thick
filament
M line – midline of the
sarcomere
SHAPE
SKELETAL MUSCLE FIBER
SKELETAL MUSCLE FIBER
SKELETAL MUSCLE
FUNCTION
 TERMINOLOGIES
Terminologies related to muscle action:
⚬ Agonist: initiate and execute the
movement.
⚬ Antagonist: muscle or muscle group
that have opposite action of a
particular muscle.
⚬ Synergist: muscle that cooperate
during execution or works with
agonist.
 MUSCLE ACTIVATION
Isometric Contraction
⚬ Change in tension
⚬ Muscle length is constant
 MUSCLE ACTIVATION
Isotonic Contraction
⚬ Tension remains constant
⚬ Change in muscle length.
 MUSCLE ACTIVATION

Concentric Isotonic
Contraction
⚬ Tension increases to
meet resistance as the
muscles shortens.
 MUSCLE ACTIVATION
Eccentric Isotonic
Contraction
⚬ Muscle lengthens as
the resistance
becomes greater than
force of the muscle is
producing.
LENGTH TENSION RELATIONSHIP

Forcefulness of a
muscle contraction
depends on the length
of a sarcomere before
contraction.
CONTROL OF MUSCLE TENSION

A single nerve impulse elicits a single muscular action
potential.
Force of a muscle fiber depends on:
⚬ Frequency of stimulation.
⚬ Amount of stretch before a contraction is elicited.
⚬ Availability of nutrients: glucose, oxygen, and ATP.
LENGTH TENSION RELATIONSHIP
EXPLANATION
 TWITCH CONTRACTION
A brief contraction of all the muscle
fibers in a motor unit.
Latent period
Contraction period
Relaxation period
 MOTOR UNIT
A group of muscle fibers and a motor neuron that work
together to produce a movement.
A basic functional unit of
skeletal muscle
A muscle have several
hundreds of motor
neurons and each motor
neuron may innervates
several thousand muscle
fibers.
 MOTOR UNIT RECRUITMENT

Recruitment is responsible for
producing smooth muscle movements.
Different motor units are activated at
various times.
Weak motor units are recruited first
and stronger ones later as needed.
Recruitment of different motor units
also reduces fatigue.
EFFECT OF AGING AND
INJURY
 EFFECT OF AGING & INJURY

Loss of skeletal muscle mass is replaced by fibrous
connective and adipose tissue.
Muscle decreases in strength, speed and flexibility.
Slow oxidative fibers increase
Aerobics and strength training can slow or reverse
decline in muscular performance
 THANK
YOU!
I hope you learn something
new today!
 REFERENCES

Pamela K.L., Cynthia C.N. Joint Structure and Function;
A Comprehensive Analysis (4th Edition). F.A Davis
Company.
Nigel P., Derek F., Roger S. Anatomy and Human
Movement; Structure and Function (5th Edition). Elsevier
Butterworth Heinemann.