Muscular System Is a System of Muscles That Work Together with Bones to Help Move the Body

MUSCULAR SYSTEM

MUSCULAR SYSTEM IS A SYSTEM OF MUSCLES THAT WORK TOGETHER WITH BONES TO HELP MOVE THE BODY.

A MUSCLE TISSUE IS TISSUE THAT CAN CONTRACT IN A COORDINATED FASHION AND INCLUDES MUSCLES TISSUE, BLOOD VESSELS, NERVES, AND CONNECTIVE TISSUE.

Approximately 40 to 50 percent of the MASS of the Human Body is composed of Muscle Tissue.

THE MUSCULAR SYSTEM IS COMPOSED OF MUSCLE TISSUE (MUSCLE FIBER) THAT IS HIGHLY SPECIALIZED TO CONTRACT, OR SHORTEN, TO PRODUCE MOVEMENT WHEN STIMULATED.

TYPES OF MUSCLE TISSUE (THREE TYPES)

There are Three Types of Muscle Tissue, or Muscles: SKELETAL, SMOOTH, AND CARDIAC.

SKELETAL MUSCLE

Skeletal Muscle are attached to bones and are responsible for moving body parts.

When viewed under a microscope, Skeletal Muscles appear to have STRIATIONS (BANDS Or STRIPES).

Skeletal muscles are VOLUNTARY (you CAN control) MUSCLES.

SMOOTH MUSCLES

SMOOTH MUSCLES ARE INVOLUNTARY

SMOOTH MUSCLE CELLS ARE

SPINDLE-SHAPED

SMOOTH MUSCLES ARE FOUND IN MANY INTERNAL ORGANS, STOMACH, INTESTINES, AND IN THE WALLS OF BLOOD VESSELS.

Most Smooth Muscle Cells can CONTRACT WITHOUT Nervous Stimulation. Because most of its movements cannot be consciously controlled, Smooth Muscle is referred to as Involuntary Muscle.

The contractions in Smooth Muscles move food through our digestive tract control the way blood flows through the circulatory system, and increase the size of the pupils of our eyes in bright light.

CARDIAC MUSCLE

THE ONLY PLACE IN THE BODY WHERE CARDIAC MUSCLE IS FOUND IS IN THE HEART.

Cardiac Cells are striated and are involuntary.

Cardiac Muscle contract without Direct stimulation by the Nervous System. A bundle of specialized muscle cells in the upper part of the heart sends electrical signals through cardiac muscle tissue, causing the heart to rhythmically contract and pump blood through the body.

MUSCLE STRUCTURE

A Muscle Fiber is a single cell, made be made up of hundreds or even thousands of Muscle Fibers, depending on the muscles Size.

Although Muscle Fiber makes up most of the Muscle Tissue, a large amount of Connective Tissue, Blood Vessels, and Nerves are also present to feed the muscle of important nutrients for the cell to use to live.

Active Muscles use a lot of energy and require a continuous supply of oxygen and nutrients, which are supplied by arteries.

Muscle Fibers consist of Bundles of threadlike structures called MYOFIBRILS.

Each Myofibril is made up of TWO Types of Protein Filaments- Thick ones and Thin ones. The THICK FILAMENTS are made up of a PROTEIN called MYOSIN. The THIN FILAMENTS are made of a PROTEIN called ACTIN.

Myosin and Actin Filaments are arranged to form overlapping patterns, which are responsible for the Light and Dark Bands that can be seen in Skeletal (Striated Appearance) Muscle.

Thin Actin Filaments are Anchored at their Midpoints to a structure called the Z-LINE.

The Region From one Z-line to the next is called a SARCOMERE the Functional Unit of Muscle Contractions.

MUSCLE CONTRACTION

SLIDING FILAMENT THEORY

The Sarcomere is the functional unit of Muscle contractions.

When Muscle Cells Contract, the light and dark bands contained in Muscle Cells get closer together.

This happens because when a Muscle Contracts, Myosin Filaments and Actin filaments interact to shorten the length of a Sarcomere.

When Myosin Filaments and Actin Filaments come near each other, many knob (heads) like projections in each Myosin Filament form CROSS-BRIDGES with an Actin Filament.

When the Muscle is stimulated to Contract, the Cross-bridges move, PULLING the two filaments past each other.

After each Cross-bridge has moved as far as it can, it releases the Actin Filament and returns to its original position. The Cross-bridge then attaches to the Actin Filament at another place and the cycle is repeated. This action shortens the Length of the Sarcomere

WHEN THOUSANDS OF ACTIN AND MYOSIN FILAMENTS INTERACT IN THIS WAY, THE ENTIRE MUSCLE CELL SHORTENS.

Muscle Contractions require Energy, which is supplied by ATP. This Energy is used to detach the Myosin Heads from the Actin Filaments.

Because Myosin Heads must attach and detach a number of times during a Single Muscle Contraction, Muscle Cells must have a Continuous Supply of ATP. Without ATP the Myosin heads would stay attached to the Actin Filaments, keeping muscles permanently contracted.

A muscle contraction, like a nerve impulse, is an All-or-None response- either fibers contract or they remain relaxed. The force of a muscle contraction is determined by the number of muscle fibers that are stimulated. As more fibers are activated, the force of the contraction increases.