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Chapter 10 Muscle Tissue

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Chapter 10 Muscle Tissue

level

Smooth muscle tissue

Visceral (single unit)

Multiunit

Microscopic anatomy of smooth muscle

Intermediate filaments

Caveolae

Dense bodies

Physiology of smooth muscle

Calmodulin

Smooth muscle tone

Stressrelaxation response

level

Regeneration of muscle tissue

Hypertrophy

Hyperplasia

level

Exercise and skeletal muscle tissue

Effective stretching

Strength training

level

Muscle metabolism

Production of ATP in muscle fibers

Creatine phosphate

Anaerobic glycolysis

Aerobic respiration

Muscle fatigue

Oxygen consumption after

exercise

Oxygen debt

Recovery oxygen uptake

level

Overview of muscle tissue

Types of muscle tissue

Skeletal m.

Cardiac m.

Smooth m.

Functions of muscle tissue

Producing body movements

Stabilizing body positions

Storing and moving substances

within the body

Generating heat

Properties of muscular tissue

Electrical excitability

Contractility

Extensibility

Elasticity

level

Skeletal muscle tissue

Connective tissue components

Fascia

Epimysium

Perimysium

Endomysium

Tendon

Aponeurosis

Nerve and blood supply

Microscopic anatomy of askeletal muscle fiber

Sarcolemma, transverse

tubules, sarcoplasm

Myoglobin

Myofibrils and sarcoplasmic

reticulum

Terminal cisterns

Triad

Filaments and the sarcomere

Z discs

A band

I band

H zone

M line

Muscle proteins

Contractile proteins

Actin

Myosin

Regulatory proteins

Tropomyosin

Troponin

Structural proteins

Titin

Actinin

Myomesin

Nebulin

Dystrophin

level

Control of muscle tension

Motor units

Twitch contraction

Myogram

Latent period

Contraction period

Relaxation period

Refractory period

Frequency of stimulation

Wave summation

Unfused tetanus

Fused tetanus

Motor unit recruitment

Muscle tone

Isotonic and isometric

contractions

Isotonic

Concentric

Eccentric

Isometric

level

Types of skeletal muscle fibers

Slow oxidative fibers

Fast oxidativeglycolytic fibres

Fast glycolytic fibers

Distribution and recruitment of different types of fibers

level

Contraction andrelaxation of skeletal muscle fibers

The sliding filament mechanism

The contraction cycle

Atp hydrolysis

Attachment of myosin to actin

to form crossbridges

Power stroke

Detachment of myosin from

actin

Excitationcontraction

coupling

Calcium release channels

Calcium active transport pumps

Calsequestrin

Lengthtension relationship

The neuromuscular junction

Nervous system review

Muscle action potential

Release of acetylcholine

Activation of Ach receptors

Production of muscle action

potential

Termination of acetylcholine

activity

Acetylcholinesterase

Chapter 10 Muscle Tissue

1

2

325

level

Chapter 10 Muscle Tissue

level

Smooth muscle tissue

Visceral (single unit)

Multiunit

Microscopic anatomy of smooth muscle

Intermediate filaments

Caveolae

Dense bodies

Physiology of smooth muscle

Calmodulin

Smooth muscle tone

Stressrelaxation response

level

Regeneration of muscle tissue

Hypertrophy

Hyperplasia

level

Exercise and skeletal muscle tissue

Effective stretching

Strength training

level

Muscle metabolism

Production of ATP in muscle fibers

Creatine phosphate

Anaerobic glycolysis

Aerobic respiration

Muscle fatigue

Oxygen consumption after

exercise

Oxygen debt

Recovery oxygen uptake

level

Overview of muscle tissue

Types of muscle tissue

Skeletal m.

Cardiac m.

Smooth m.

Functions of muscle tissue

Producing body movements

Stabilizing body positions

Storing and moving substances

within the body

Generating heat

Properties of muscular tissue

Electrical excitability

Contractility

Extensibility

Elasticity

level

Skeletal muscle tissue

Connective tissue components

Fascia

Epimysium

Perimysium

Endomysium

Tendon

Aponeurosis

Nerve and blood supply

Microscopic anatomy of askeletal muscle fiber

Sarcolemma, transverse

tubules, sarcoplasm

Myoglobin

Myofibrils and sarcoplasmic

reticulum

Terminal cisterns

Triad

Filaments and the sarcomere

Z discs

A band

I band

H zone

M line

Muscle proteins

Contractile proteins

Actin

Myosin

Regulatory proteins

Tropomyosin

Troponin

Structural proteins

Titin

Actinin

Myomesin

Nebulin

Dystrophin

level

Control of muscle tension

Motor units

Twitch contraction

Myogram

Latent period

Contraction period

Relaxation period

Refractory period

Frequency of stimulation

Wave summation

Unfused tetanus

Fused tetanus

Motor unit recruitment

Muscle tone

Isotonic and isometric

contractions

Isotonic

Concentric

Eccentric

Isometric

level

Types of skeletal muscle fibers

Slow oxidative fibers

Fast oxidativeglycolytic fibres

Fast glycolytic fibers

Distribution and recruitment of different types of fibers

level

Contraction andrelaxation of skeletal muscle fibers

The sliding filament mechanism

The contraction cycle

Atp hydrolysis

Attachment of myosin to actin

to form crossbridges

Power stroke

Detachment of myosin from

actin

Excitationcontraction

coupling

Calcium release channels

Calcium active transport pumps

Calsequestrin

Lengthtension relationship

The neuromuscular junction

Nervous system review

Muscle action potential

Release of acetylcholine

Activation of Ach receptors

Production of muscle action

potential

Termination of acetylcholine

activity

Acetylcholinesterase

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