Name: ____________________________________________ Period: ____

HPWChp 8: The Muscular System

Chp 8: THE MUSCULAR SYSTEM

This chapter deals with the physiological characteristics of muscular tissue and the classification of muscular tissue into skeletal, cardiac, and smooth muscle. The blood and nerve supplies of muscle are also considered. Attention is then directed to the ultrastructure of skeletal muscle and the physiology of muscle contraction. Emphasis is placed on the Sliding-Filament Theory, neuromuscular junctions, and the physiology of con traction. There is considerable discussion given to the energy for contraction and the maintenance of muscle homeostasis. The discussion continues with the types of skeletal muscle contractions including muscle twitch, isotonic and isometric contractions.

The relationship between bones and muscles is established. Movement by skeletal muscles is related to their origins, insertions, lever systems and group actions. The chapter concludes with a brief discussion of cardiac and smooth muscle, common muscular disorders, and a list of medical terms.

OBJECTIVES

1. Describe the connective tissue components, blood and nerve supply, and histology of skeletal muscle tissue.

2. Explain the factors involved in the contraction and relaxation of skeletal muscle.3. Discuss the metabolism of skeletal muscle tissue.4. Describe the various kinds of muscle contraction.5. Define muscle tone.6. Describe the structure and function of cardiac muscle tissue.7. Describe the structure and function of smooth muscle tissue.8. Describe how skeletal muscles produce movement.

ASSIGNMENTS1. Read Chapter 8; pages 197- 215 and 245-246.2. Complete this packet as you read and listen to classroom lectures or discussions; it will be

collected for a grade.3. Complete all activities, Checkpoint Questions and Critical Thinking Applications when directed to

do so.

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Chapter 8: THE MUSCULAR SYSTEMI. OVERVIEW OF MUSCULAR TISSUE

OBJ: Describe the types and functions of muscular tissue.A. Types of Muscular Tissue- Read page 198 and complete this section

1. Describe striated. ___________________________________________________________________________

2. Fill in the chart below:

Muscle type Skeletal Cardiac SmoothStriated (yes/ no)Voluntary (yes/ no)Can regenerate(yes/ no)Locations

B. Functions of Muscular Tissue- Read page 198 and complete this section

1. ___________________________________________________________________________

Ex: ________________________________________________________________________

2. ___________________________________________________________________________

Ex: ________________________________________________________________________

3. ___________________________________________________________________________

Ex: ________________________________________________________________________

4. ___________________________________________________________________________

Ex: ________________________________________________________________________

5. ___________________________________________________________________________

Ex: ________________________________________________________________________

6. Store H2O and glycogen (not in textbook).

C. Characteristics of Muscular Tissue—not in textbook

1. Excitability: _________________________________________________________________

2. Contractility: _______________________________________________________________

3. Extensibility: ________________________________________________________________

4. Elasticity: ___________________________________________________________________

II. SKELETAL MUSCLE TISSUEOBJ: Explain the relation of connective tissue components, blood vessels, and nerves to skeletal muscle. Describe the histology of a skeletal muscle cell.

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Color, label and study the diagram of skeletal muscle on the next page of this packet. Page 199, Figure 8.1 of your textbook will help you to complete this task and possibly Figure 8.2, page 201.

Fill in the oval with the colors you used for each structure. Label the following in the blank boxes:

(1) Fascicle (done for you)(2) Sarcomere(3) M line (done for you)(4) H zone

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(5) Z disc(6) A band(7) I band (8) Muscle fiber

M line

Fascicle

Details of several myofibrils in a muscle fiber

Myofibril

Filaments

What are muscle fibers?

__________________________________________________________________________________

__________________________________________________________________________________

A. Connective Tissue Components- pages 198-2001. Muscle tissue is held together by deep fascia; a sheet or broad band of fibrous connective

tissue that surrounds muscles; it holds muscles together and separates them into functional groups.

2. Types of connective tissue coverings extending from deep fascia:

a. Epimysium: ______________________________________________________________

b. Perimysium: _____________________________________________________________

c. Fascicles: ________________________________________________________________

d. Endomysium: ____________________________________________________________

3. Tendons:

___________________________________________________________________________

___________________________________________________________________________

B. Organization of Skeletal Muscle—refer to Figure 8.1; page 1991. Muscle: bundle of fascicles

2. Fascicle: bundle of fibers

3. Muscle fiber: single muscle cell

4. Myofibrils: contractile units of cells

5. Myofilaments: protein strands (thin and thick)

C. Nerve and Blood Supply- Read page 200 and complete this section1. What is the chief characteristic of muscles? _______________________________________2. In order for a skeletal muscle to contract, it must be stimulated by an electrical signal called

a ________________________________________________________________________.3. A great deal of energy is required in the form of ATP for muscle contractions. An indication

of this would be an abundance of __________________________________ in muscle cells (Figure 8.2 might help with this).

4. List two functions of blood supply:

a. ________________________________________________________________________

b. ________________________________________________________________________

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Worksheet: Electricity From the Brain; obtain a copy, complete it, and hand it in.

D. Histology- pages 200- 202

1. Refer to the diagrams above as we discuss the histology of a skeletal muscle and summarize its components below:a. Muscle fibers: ____________________________________________________________

________________________________________________________________________

b. Sarcolemma: _____________________________________________________________

c. Transverse (T) tubules: _____________________________________________________

________________________________________________________________________

d. Sarcoplasm: _____________________________________________________________

________________________________________________________________________

e. Sarcoplasmic reticulum: ____________________________________________________

________________________________________________________________________

f. Myoglobin: ______________________________________________________________

________________________________________________________________________

g. Myofibrils: _______________________________________________________________

________________________________________________________________________

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h. Thin filaments: ___________________________________________________________

________________________________________________________________________

i. Thick filaments: __________________________________________________________

________________________________________________________________________

j. Sarcomeres: _____________________________________________________________

________________________________________________________________________

k. Z lines/ disks: ____________________________________________________________

________________________________________________________________________

l. A band: _________________________________________________________________

________________________________________________________________________

m. H zone: _________________________________________________________________

n. I band: __________________________________________________________________

________________________________________________________________________

o. Myosin: _________________________________________________________________

p. Crossbridges: ____________________________________________________________

q. Actin: ___________________________________________________________________

r. Tropomyosin: ____________________________________________________________

________________________________________________________________________

s. Troponin: _______________________________________________________________

2. Muscle nourishment- Once a person reaches physical maturity; they do not grow new muscles, as a rule. The size of skeletal muscles can change due to the shrinking or enlargement of muscle fibers as myofibrils are lost or created. Fill in the information below, using page 202 of your textbook.

a. Muscular atrophy:

________________________________________________________________________

a. Disuse atrophy:

_________________________________________________________________

_________________________________________________________________

b. Denervation atrophy: _________________________________________________________________

b. Muscular hypertrophy:

________________________________________________________________________

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Quiz on Sarcomere structure on: _____________________

III. CONTRACTION AND RELAXATION OF SKELETAL MUSCLEOBJ: Explain how skeletal muscle fibers contract and relax.A. Neuromuscular Junction- pages 202-204

1. What makes up a neuromuscular junction? __________________________________________________________________________

2. What starts this process? ___________________________________________________________________________

3. Label the drawing below:

4. Motor unit: ___________________________________________________________________________

5. Differences between fine and course motor movement:a. Fine:

________________________________________________________________________b. Course:

________________________________________________________________________6. How it works:

(1) ________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

(2) ________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

(3) ________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

(4) ________________________________________________________________________

________________________________________________________________________

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B. Sliding-Filament Mechanism- page 204

(1) ___________________________________________________________________________

(2) ___________________________________________________________________________

(3) ___________________________________________________________________________

(4) ___________________________________________________________________________

(5) ___________________________________________________________________________

1. Under what circumstances will this mechanism operate to cause a muscle contraction?

___________________________________________________________________________

2. What structure allows the thin filaments to move forward?

___________________________________________________________________________

C. Physiology of Contraction- pages 204-2051. What resources are needed for muscle contractions to occur?

___________________________________________________________________________2. When a muscle fiber is relaxed, Ca2+ concentrations are low, in the sarcoplasm. Why?

___________________________________________________________________________3. What happens when a muscle action potential travels along the sarcolemma and into

transverse tubules? ______________________________________________________________________________________________________________________________________________________

4. Ca2+ binds to _________________________ in thin filaments, causing it to change shape.5. What is released when this shape change occurs?

___________________________________________________________________________6. When do contraction cycles begin?

___________________________________________________________________________7. The Contraction Cycle: (1) ________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

(2) ________________________________________________________________________

________________________________________________________________________

(3) ________________________________________________________________________

________________________________________________________________________

(4) ________________________________________________________________________

________________________________________________________________________

(5) ________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

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8. What cause rigor mortis?

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

D. Relaxation- page 205 1. Two changes that permit a muscle fiber to relax after contraction:

a. acetylcholine (ACh): ________________________________________________________________________

b. Ca2+ levels:

________________________________________________________________________

________________________________________________________________________

E. Contraction and Relaxation: Summary of Events

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F. Muscle Tone- pages 205- 2071. Definition:

___________________________________________________________________________

___________________________________________________________________________

2. How is muscle tone maintained?

___________________________________________________________________________

___________________________________________________________________________

3. Define flaccid:

___________________________________________________________________________

___________________________________________________________________________

IV. METABOLISM OF SKELETAL MUSCLE TISSUEOBJ: Describe the sources of ATP and oxygen for muscle contraction. Define muscle fatigue and list its possible causes. List the reasons that oxygen consumption is higher after exercise than at rest. A. Energy for Contraction- pages 207-208

1. General Information (not all in textbook) a. Muscle cells may use _______ to _______ times ATP as other cells during endurance exercise

b. Amount of ATP stored in a muscle cell lasts about ____ to ____ seconds during intenseactivity (ex: 50 m dash)

2. What are the three sources that muscles have for ATP production? (1) _________________________________________________

An energy-rich molecule unique to muscle fibers; created excess ATP

(2) _________________________________________________

(3) _________________________________________________

3. Creatine Phosphate System a. While muscles are at rest:

Muscle fibers produce more ATP than needed, creating an excess.One of ATP’s high-energy phosphate groups is transferred to _____________________, forming _______________________________ and ______.

b. While muscles are contracting:High-energy phosphate group transferred from _________________________________ back to ______, quickly forming new ______.

c. Energy created during this process while muscle contracting lasts about _____ seconds (ex: 100 m dash)

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4. Glycolysis-Lactic Acid System (for activity that lasts beyond 15-second mark)a. Anaerobic (no oxygen needed) production of _______ molecules of ATP; occurs in the

_____________________________ b. Resources: __________________ or ____________________ (from liver or muscles)

broken down to glucosec. ______________________________ passing from blood into contracting muscle and is

broken down into _____________________________. d. Provides enough energy to last about _____ to _____ seconds of maximal muscle

activity (ex: 400 m race)e. Next lactic acid fermentation if insufficient oxygen available. Hydrogen is stripped off

glucose which are normally bound to O2 to form H2O and are taken up by pyruvate to form _____________________________.

f. For each ATP produced this way, a molecule of lactic acid is formed; build-up of lactic acid produces ________________________________.

5. Cellular Respiration System a. Aerobic (requires oxygen) and occurs in the ___________________________ of muscle

fibers.b. Where does the oxygen come from?

(1) ____________________________________________________________________

(2) ____________________________________________________________________

Oxygen-binding protein found only in muscle fibers

c. Yields _____ ATP molecules, lasts about ____ minutes6. When these reserves depleted fat is burned for energy.

B. Muscle Fatigue- page 2081. Definition:

___________________________________________________________________________

___________________________________________________________________________

2. What role does calcium play in muscle fatigue?

___________________________________________________________________________

___________________________________________________________________________

3. What other factors contribute to muscle fatigue?

__________________________________ __________________________________

__________________________________ __________________________________

__________________________________

C. Oxygen Consumption After Exercise-Read on pages 208- 209 and complete the section below1. Define oxygen debt:

___________________________________________________________________________

___________________________________________________________________________

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Quiz on Energy for Muscle Contractions on: ______________

2. Define recovery oxygen uptake:

___________________________________________________________________________

___________________________________________________________________________

3. Look at the graph below and briefly explain what it shows…

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

V. CONTROL OF MUSCLE TENSIONOBJ: Explain the three phases of a twitch contraction. Describe how frequency of stimulation and motor unit recruitment affect muscle tension. Compare the three types of skeletal muscle fiber. Distinguish between isotonic and isometric contractions.

A twitch is a single muscle action potential, which produces very little force. How strong a twitch is depends upon its frequency of stimulation (number of impulses per second).Total tension produced is dependent upon number of muscle fibers contracting in unison.

A. Twitch Contraction-page 2091. Define twitch contraction:

___________________________________________________________________________

___________________________________________________________________________

2. What is a myogram?

___________________________________________________________________________

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3. Label the periods of a twitch contraction on the myogram below:

4. Latent period:

___________________________________________________________________________

___________________________________________________________________________

Duration: ________________________________________ Events of latent period:

________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

5. Contraction period:

___________________________________________________________________________

___________________________________________________________________________

Duration: _______________________________________

Events of contraction period:

_______________________________________________________________________

_______________________________________________________________________

6. Relaxation period:

___________________________________________________________________________

___________________________________________________________________________

Duration: ________________________________________

Events of relaxation period:

________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

7. During which of these periods do the sarcomeres shorten? ___________________________

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B. Frequency of Simulation- Read pages 209-210 1. If a second stimulus occurs before a muscle fiber has completely relaxed, the second

contraction will be __________________________________________________________.

2. Wave summation:

___

___________________________________________________________________________

________________________________________________________________________

3. Unfused tetanus:

___________________________________________________________________________

___________________________________________________________________________

4. Cause of wave summation and unfused tetanus: ________________________________________________________________________

________________________________________________________________________

5. Fused tetanus:

___________________________________________________________________________

___________________________________________________________________________

6. Fatigue:

________________________________________________________________________

________________________________________________________________________

________________________________________________________________________

7. Fill in the graph below to depict a myogram showing the effects of different frequencies of stimulation. Your graph should show (1) a single twitch, (2) a second stimulus before the muscle has relaxed (wave summation), and a second contraction stronger than the first, (3) an unfused tetanus, and (4) a fused tetanus.

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C. Motor Unit Recruitment- page 2101. Motor unit recruitment:

___________________________________________________________________________

___________________________________________________________________________

2. Responsible for: _______________________________________

_______________________________________

_______________________________________

D. Types of Skeletal Muscle Fibers- Read pages 210-2111. Three types:

(1) ________________________________________________________________________

________________________________________________________________________

(2) ________________________________________________________________________

________________________________________________________________________

(3) ________________________________________________________________________

________________________________________________________________________

2. Fill in the comparison chart below:

CHARACTERISTICS SLOW OXIDATIVE (SO) FIBERS

FAST OXIDATIVE-GLYCOLYTIC (FOG) FIBERS

FAST GLYCOLYTIC (FG) FIBERS

Color

MyoglobinSpeed of Twitch (contraction cycle)

MitochondriaMany

Type of ATP production

Resistance to fatigue

Diameter of fiber

Found in

E. Isometric and Isotonic Contractions1. Isometric contraction:

a. ________________________________________________________________________

Example: ________________________________________________________________

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b. ________________________________________________________________________

2. Isotonic contraction:a. ________________________________________________________________________

Concentric motion: _______________________________________

Eccentric motion: ________________________________________

VI. EXERCISING AND SKELETAL MUSCLE TISSUE- page 211OBJ: Describe the effects of exercise on skeletal muscle tissue.1. Aerobic activity (swimming, running)

a. Increase in __________________________________________________________________

b. Improves ___________________________________________________________________

c. High percentage of SO fibers: ___________________________________________________

d. Conversion of FG to FOG fibers2. Weight lifting

a. ___________________________________________________________________________

b. Increase in size and strength of ________________fibers

3. Hypertrophy: ___________________________________________________________________

4. Anabolic steroidsa. Taken to:

__________________________________________________________

__________________________________________________________

b. Side effects:____________________________________________________

___________________________________________________________________________

___________________________________________________________________________

___________________________________________________________________________

_______________________

VII. CARDIAC MUSCLE TISSUE- pages 211-212OBJ: Describe the structure and function of cardiac muscle tissue.1. Interconnectivity between cardiac muscle fibers established by irregularly transverse thickening

of sarcolemma (see picture below) called: ____________________________________________

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2. Autorhythmicity:

______________________________________________________________________________

3. Under normal resting conditions cardiac muscle tissue contracts _______times per minute.

4. Mitochondria are ___________________________; more energy needs.

5. Resources for ATP production: a. ___________________________________________

b. ___________________________________________

VIII. SMOOTH MUSCLE TISSUE- pages 212- 213OBJ: Describe the structure and function of smooth muscle tissue1. Three types of filaments:

_______________________

_______________________

_______________________

2. Dense bodies:

______________________________________________________________________________

______________________________________________________________________________

______________________________________________________________________________

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3. Types of smooth muscle tissue:

a. Visceral (single-unit):

___________________________________________________________________________

___________________________________________________________________________

b. Multiunit:

___________________________________________________________________________

___________________________________________________________________________

4. Smooth muscle can ______________________ and ____________________ more than other muscle types.

5. Comparing types of muscles: fill in the comparison chart below; page 214 Table 8.1 and pages 211-213 might help….

CHARACTERISTICS SKELETAL MUSCLE CARDIAC MUSCLE SMOOTH MUSCLEAPPEARANCE/ SHAPE (INCLUDE DESCRIPTION)

NERVOUS CONTROL (VOLUNTARY/ INVOLUNTARY)LOCATION

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NUMBER OF NUCLEI

SPPED OF CONTRACTIONCAPACITY FOR REGENERATION

SARCOMERES (YES/NO)

IX. AGING AND MUSCULAR TISSUE- pages 213- 214OBJ: Explain how aging affects skeletal muscle.1. After birth

______________________________________________________________________________

2. During childhood

______________________________________________________________________________

3. Hyperplasia

______________________________________________________________________________

4. After age 30

______________________________________________________________________________

______________________________________________________________________________

5. Endurance and strength training ___________________________________________________

X. HOW SKELTAL MUSCLES PRODUCE MOVEMENT- pages 214- 215OBJ: Describe how skeletal muscles cooperate to produce movement.A. Origin and Insertion

1. _________________________ organ composed of several different types of tissue.

Includes: ___________________________________________________________________

___________________________________________________________________________

2. Movement produced by: ______________________________________________________

3. Attachment of a muscle (by tendon) to stationary bone called _______________________.

4. Movable bone called ______________________________.

5. Fleshy portion of muscle between tendons and the origin and insertion called __________.

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B. Group Actions1. Movement motion caused by ___________________________________________________

__________________________________________________________________________.

2. Muscles arranged in opposing groups to joints, as ________________________to

______________________________ or _____________________________ to

________________________.

3. Muscle that causes desired action: ______________________________________________.

4. Other muscle, __________________________ relaxes.

5. Muscles called _____________________________ help prime mover function more

efficiently.

6. ___________________________ stabilize the origin of the prime mover.

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