ANATOMY & PHYSIOLOGY

The Muscular System

THE MUSCULAR SYSTEM: Muscles are organs They provide tone, move body

fluids & food, provide the heartbeat & distribute heat.

There are 3 types of muscle:1. Skeletal Muscle2. Smooth Muscle3. Cardiac Muscle

http://www.nlm.nih.gov/medlineplus/ency/images/ency/fullsize/19917.jpg

Types of Muscle:

SKELETAL MUSCLE: Attached to bones Voluntary Allow movement Striated (striped) Enclosed in endomysium (connective

tissue) which forms fibers called fascicles.

The fascicles collectively form aponeuroses, tendon-like structures which attach to bones.

http://www.uic.edu/classes/bios/bios100/labs/skeletal_muscle.jpg

Smooth Muscle

Cardiac Muscle

No striations Involuntary Located in hollow

organs (stomach, bladder, etc.)

Striated Involuntary Located only in

the heart (pump blood)

http://www.victoriacollege.edu/dept/bio/Belltutorials/Histology%20Tutorial/Basic%20Tissues/imageFLL.JPG

http://www.mccc.edu/~falkow/images/cardiac_001.jpg

MUSCLE FUNCTIONS: Movement (contraction &

relaxation) Posture Joint stabilization Heat generation

WHAT KIND OF MUSCLE IS THE DIAPHRAGM? SKELETAL ONLY!!!http://chanteur.net/contribu/index.htm#http://chanteur.net/contribu/cJMdiaph.htmMuscle type and innervation of the diaphragm

Type musculaire et innervation du diaphragme© John Messmer 1998[Re: Involuntary Diaphragm???]There are three types of muscle in the body: skeletal, smooth and cardiac. Skeletal contracts in response to a

nerve impulse at the individual muscle cell's neural plate. It is not propogated to other muscles. Smooth muscle also uses a stimulus to contract, though its type of contraction is less forceful than skeletal muscle and can propogate to other smooth muscle cells. Smooth muscle is in intestines, for example. Cardiac muscle contracts spontaneously, but that's a separate topic.

The diaphragm has ONLY skeletal muscle, not smooth muscle - none. It will not contract spontaneously as cardiac muscle. It MUST have an impulse delivered to contract. That impulse can originate in the higher brain centers as when we voluntarily inhale and exhale or in the lower brain as when low oxygen levels or high levels of acid or carbon dioxide are present in the cerebrospinal fluid or blood. There are MANY sites of modulation of breathing in the brain too complicated for this forum.

I will repeat what I have said before: the diaphragm muscle is skeletal and *not considered voluntary or involuntary* - it is the NERVOUS SYSTEM which is either voluntary or involuntary depending on whether we are consciously or unconsciously breathing. The phrenic nerve carries motor fibers that originate in the upper brain - the cortex which serves voluntary actions, and lower brain - brainstem which serves involuntary actions. There are NO SYMPATHETIC OR PARASYMPATHETIC nerves to the diaphragm. (Lungs, yes; diaphragm, no.)

We determine whether our diaphragms are at rest, contracted or forced up into our thoraces by the proprioceptive (position) sensation in our abdominal and chest walls and the nociceptive (bad feeling) fibers in our intestines and lungs. When it is contracted, our abdominal organs are pushed down and our abdominal walls are pushed out. When relaxed, this reverses. To exhale fully, it requires us to contract the abdominal wall muscles and the intercostal muscles (between the ribs) since our diaphragms can not move any higher than fully relaxed.

I hope this clears it up.JohnJohn Messmer, MD, Medical DirectorPenn State Geisinger Health Group, Palmyra, PA

MICROSCOPIC ANATOMY OF SKELETAL MUSCLE:

Sarcolemma is the plasma membrane. The contractile unit in the muscle is

the sarcomere. Myofibrils are the organelles. Myofilaments are the proteins found

within the sarcomeres. These form striations.

Actin are thin filaments.

Myosin are thick filaments.

Skeletal Muscle:

http://www.ivy-rose.co.uk/Topics/Muscles/Muscle_Cell_Close-up_1.jpg

These striations a pattern with 2 parts:1. I bands (light) have actin

attached to Z lines.2. A bands (dark) are myosin

overlapping actin, contain an H zone (central thick region) and a M line.

Within the sarcoplasm is the sarcoplasmic reticulum (just like the ER of other cells). These are membranous channels.

Skeletal Muscle Fiber:

http://www.cartage.org.lb/en/themes/sciences/LifeScience/GeneralBiology/Physiology/Muscular/SkeletalMuscle/muscle2.gif

http://www.ks.uiuc.edu/Research/telethonin/MuscleL1-t.jpg

http://www.easttroy.k12.wi.us/hs/dept/science/bottum/Adv%20Biology/muscular/manatomy/images/muscle2.gif

SKELETAL MUSCLE ACTIVITY: Motor neurons (nervous system) connect

to each & every skeletal muscle fiber. The connection between these two forms a

neuromuscular junction. This is the reason skeletal muscles

contract. Motor neurons branch; their ends

contain a lot of mitochondria & synaptic vesicles (responsible for synapses).

They store neurotransmitters.

http://www.shelfieldpeonline.co.uk/assets/images/neuromuscular_junction.jpg

The basic movement of skeletal muscle is a result of a stimulus (via a neuro-transmitter).

The actin & myosin filaments slide past each other, shortening the muscle fiber (contraction).

Acetylcholine is the neurotransmitter responsible for skeletal muscle contraction.

This needs ATP and high [Ca++] This is called the Sliding Filament

Theory.

http://www.dwm.ks.edu.tw/bio/activelearner/38/images/ch38summary.gif

ENERGY FOR MUSCLE CONTRACTION: Aerobic respiration: requires

oxygen and produces ATP, which is used by muscles.

Creatine phosphate: provides phosphate to ADP to make ATP, which is then used by muscles.

Lactic acid fermentation: this is anaerobic respiration (no oxygen used). Lactic acid is produced (and a small

amount of ATP).

Energy to do workEnergy goes into cycle (to make ATP)

http://library.thinkquest.org/C006669/media/Biol/img/atp_cycle.gif

OXYGEN DEBT & MUSCLE TONE: Active muscles tend to become O2

deficient. An accumulation of lactic acid in

muscles causes fatigue, cramping and pain.

Repaying an oxygen debt (after strenuous exercise) may take several hours.

Even at rest, muscle tone exists. This is the sustained contraction of muscles. This is important in maintaining posture.

MUSCLE MOVEMENTS, TYPES & NAMES: Muscles move according to their

location & position. The immovable end of a muscle is

called the origin (head) while the movable end is called its insertion.

Insertion is pulled towards its origin.

Some muscles have more than 1 origin or insertion.

Ex: biceps brachii (in arm) has 2 origins (biceps=2 heads)

http://www.google.com/imgres?

Flexion means decreasing an angle Extension means increasing an

angle Muscle name usually indicates info

about it: its location, size, # of attachments, shape or action.

Examples:deltoid (shaped like a delta or

triangle) biceps brachii (2 heads in the

brachium, or arm) pectoralis major (large in size,

located in pectoral, or chest, region)

MAJOR SUPERFICIAL MUSCLES OF THE

BODY

Look up labeled diagram of muscle system in text or online. Know this diagram!

HEAD & NECK MUSCLES:

Facial muscles

Chewing Muscles Frontalis Occipitalis Orbicularis Oculi Orbicularis Oris Buccinator Zygomaticus

Masseter Temporalis

Platysma Sternocleidomast

oid

Neck Muscles

http://www.google.com/imgres?

TRUNK MUSCLES: ANTERIOR MUSCLES: Pectoralis Major:

covers chest Intercostal Muscles:

between ribs Rectus Abdominis:

from pubis to rib cage

External oblique

Internal oblique

Transversus abdominus

http://www.google.com/imgres?

TRUNK MUSCLES: POSTERIOR MUSCLES:

Trapezius: kite-shaped muscle over neck & shoulder

Latissimus Dorsi

Erector Spinae (deep back)

Quadratus Lumborum

Deltoid (triangular-shaped muscle of shoulder)

http://www.google.com/imgres?

UPPER LIMB MUSCLES: Biceps brachii

Brachialis

Brachioradialis

Triceps Brachii

http://www.google.com/imgres?

MUSCLES OF LOWER LIMB:Hip Joint Muscles: Knee Joint Muscles:

Gluteus Maximus (buttocks)

Gluteus Medius

Iliopsoas (p is silent; iliac crest to vertebrate)

Adductor Muscles

Hamstrings (includes biceps femoris)

Sartorius

Quadriceps (includes rectus femoris): intramuscular injections usually occur here.

http://www.google.com/imgres?

MUSCLES OF LOWER LIMB:

Ankle & Foot: Extensor Digitorum

Longus

Fibularis Muscles (fibula to metatarsals)

Gastrocnemius (calf)

Soleus

http://www.google.com/imgres?

MUSCLE MOVEMENTS:

https://www.google.com/search?q=muscle+movements&biw=1280&bih=891&tbm=isch&imgil=U4L2lBW3OyOKgM%253A%253BMvE4OtsTvZ9tRM%253Bhttps%25253A%25252F%25252Fwww.studyblue.com%25252Fnotes%25252Fnote%25252Fn%25252Fchapter-22-musculoskeletal%25252Fdeck%25252F9470025&source=iu&pf=m&fir=U4L2lBW3OyOKgM%253A%252CMvE4OtsTvZ9tRM%252C_&usg=__dE7IhzVheZIDED3Em2Snz6XhqDc%3D&ved=0ahUKEwjw_raA0tnKAhWHmx4KHd2fA8YQyjcIMQ&ei=MeywVrCiPIe3et2_jrAM#imgrc=U4L2lBW3OyOKgM%3A&usg=__dE7IhzVheZIDED3Em2Snz6XhqDc%3D

https://www.google.com/search?q=muscle+movements&biw=1280&bih=891&tbm=isch&imgil=U4L2lBW3OyOKgM%253A%253BMvE4OtsTvZ9tRM%253Bhttps%25253A%25252F%25252Fwww.studyblue.com%25252Fnotes%25252Fnote%25252Fn%25252Fchapter-22-musculoskeletal%25252Fdeck%25252F9470025&source=iu&pf=m&fir=U4L2lBW3OyOKgM%253A%252CMvE4OtsTvZ9tRM%252C_&usg=__dE7IhzVheZIDED3Em2Snz6XhqDc%3D&ved=0ahUKEwjw_raA0tnKAhWHmx4KHd2fA8YQyjcIMQ&ei=MeywVrCiPIe3et2_jrAM#tbm=isch&q=muscle+movements+anatomy&imgdii=6G210TXx7_WGuM%3A%3B6G210TXx7_WGuM%3A%3BkQM3r4Zo3x_-2M%3A&imgrc=6G210TXx7_WGuM%3A

https://www.google.com/search?q=muscle+movements&biw=1280&bih=891&tbm=isch&imgil=U4L2lBW3OyOKgM%253A%253BMvE4OtsTvZ9tRM%253Bhttps%25253A%25252F%25252Fwww.studyblue.com%25252Fnotes%25252Fnote%25252Fn%25252Fchapter-22-musculoskeletal%25252Fdeck%25252F9470025&source=iu&pf=m&fir=U4L2lBW3OyOKgM%253A%252CMvE4OtsTvZ9tRM%252C_&usg=__dE7IhzVheZIDED3Em2Snz6XhqDc%3D&ved=0ahUKEwjw_raA0tnKAhWHmx4KHd2fA8YQyjcIMQ&ei=MeywVrCiPIe3et2_jrAM#tbm=isch&q=muscle+movements+anatomy&imgrc=3ZUDb0rrZffw5M%3A

Look up in text or online! Know the following:

Atrophy, rotation, abduction, adduction, circumduction,

dorsiflexion, plantar flexion, inversion, eversion, supination,

pronation, opposition, prime mover, antagonists, synergists, fixators, muscular dystrophy, Duchene’s

muscular dystrophy, and mysthenia gravis

This slide show was developed by Dana Halloran, Cardinal Mooney High School, Sarasota, FL.

Used with her personal permission, adapted and amended by Rosa Whiting, Manatee School for the Arts, Palmetto, FL.