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The Muscular SystemDay 1
Muscular System Overview
• Muscles pump blood through our bodies, move food through our digestive system, and control the movement or air in and out of our lungs
• Exercise is the key to health of the muscular system• In mass, muscle is the most abundant tissue in the body
• Our muscles consist of 75% water• Muscles work by means of two complementary or
opposing actions (contraction and extension)• A muscles is composed of bundles of fibers
Types of Muscle
• Smooth Muscle (Involuntary Muscle) – Movement of internal organs (eg. Intestines, bladder, etc.). Smooth muscle is not under conscious control
• Skeletal Muscle (Voluntary Muscle) – Muscles attached to bones that aid in body movements. An average adult male is made up of 40–50% of skeletal muscle and an average adult female is made up of 30–40%
• Cardiac Muscle – Striated tissue that forms the walls of the heart. Striated means Marked by narrow lines or grooves, usually parallel.
Skeletal MuscleType I – Slow Twitch
• Type I – “slow oxidative” or “slow twitch” muscle is dense with capillaries and is rich in mitochondria and myoglobin, giving the muscle tissue its characteristic Red color.
• The slow muscles are more efficient at using oxygen to generate more fuel (known as ATP) for continuous, extended muscle contractions over a long time.
• They fire more slowly than fast twitch fibers and can go for a long time before they fatigue. Therefore, slow twitch fibers are great at helping athletes run marathons and bicycle for hours.
Skeletal MuscleType II – Fast Twitch
• Because fast twitch fibers use anaerobic metabolism to create fuel, they are much better at generating short bursts of strength or speed than slow muscles. However, they fatigue more quickly.
• Fast twitch fibers generally produce the same amount of force per contraction as slow muscles, but they get their name because they are able to fire more rapidly.
• Having more fast twitch fibers can be an asset to a sprinter since he/she needs to quickly generate a lot of force.
Sport Fiber Type Used
Baseball Type I & II
Basketball Type II
Cross Country Skiing Type I
Football Type II
Gymnastics Type II
Golf Type II
Ice Hockey Type II & I
Lacrosse Type II & I
Softball Type I
Soccer Type I
Swimming - Sprint Type II
Synchonized Swimming Type I
Tennis Type II & I
Track & Field Type II
Volleyball Type II & I
Weight Training Type I
Fiber Type and Performance
• Our muscle fiber type may influence what sports we are naturally good at or whether we are fast or strong. Olympic athletes tend to fall into sports that match their genetic makeup. Olympic sprinters have been shown to possess about 80 percent fast twitch fibers, while those who excel in marathons tend to have 80 percent slow twitch fibers.
Can Training Change Fiber Type?
• This is not entirely understood, and research is still looking at that question. There is some evidence showing that human skeletal muscle may switch fiber types from "fast" to "slow" due to training but not the other way around.
• Fiber type is part of a great athlete's success, but it alone is a poor predictor of performance. There are many other factors that go into determining athleticism, including mental preparedness, proper nutrition and hydration, getting enough rest, and having appropriate equipment and conditioning.
Muscle Group Actions
• Agonist Prime Mover - A muscle that causes some specific movement to occur. It creates the normal range of movement in a joint by contracting. Agonists are also referred to as "prime movers" since they are the muscles that are primarily responsible for generating movement
• Antagonist - A muscle that acts in opposition to the specific movement generated by the agonist which is responsible for returning a limb to its initial position
Muscle Group Actions Cont’d
• Synergists – Smaller muscles which assist Prime Movers• Coordinated movement requires muscles primarily
responsible for movement agonists/prime movers, muscles that assist prime movers
synergists, and muscles that oppose prime movers
antagonist. Agonists produce most of the force needed for a movement. Synergists assist the action and fine tune the movement. The antagonist protects.
• Example: quadriceps and hamstrings. When your hamstrings (agonists) contract, your quadriceps (antagonists) oppose the motion preventing overstretching.
Agonist vs. AntagonistStep 1: Match the Agonist from Column 1 with the proper Antagonist from Column 2.
Step 2: In the Column called "Letter", match the muscle group with the proper Agonist/Antagonist pair.
Col 1 Agonist Col 2 Antagonist Letter Muscle Pair
A Anterior Deltoids Deltoids Abdomen and Lower Back
B Biceps Gastrocnemius Chest and Back
C Left External Oblique
Hamstring Front and Rear Shoulder
D Pectorals Latissimus Dorsi Front and Rear Thigh
E Quadriceps Posterior Deltoids Front and Rear Upper Arm
F Rectus Abdominus Right External Oblique
Left and Right side of Abdomen
G Tibialis Anterior Spinal Erectors Shin and Calf
H Trapezius Triceps Upper and Rear Shoulder
Homework…
• Major muscles Quiz
• ALL GROUPS must be ready to present, and have their Information Sheet prepared to be handed in
• Please attach your assignment sheet/rubric if you would like to receive a mark