Flexibility (anatomy)

For other uses of the term, see flexibility (disambiguation).
An oversplit by former Olympic gymnast Irina Tchachina

Flexibility or limberness refers to the absolute range of movement in a joint or series of joints, and length in muscles that cross the joints to induce a bending movement or motion. Flexibility varies between individuals, particularly in terms of differences in muscle length of multi-joint muscles. Flexibility in some joints can be increased to a certain degree by exercise, with stretching a common exercise component to maintain or improve flexibility.

Quality of life is enhanced by improving and maintaining a good range of motion in the joints. Overall flexibility should be developed with specific joint range of motion needs in mind as the individual joints vary from one to another. Loss of flexibility can be a predisposing factor for physical issues such as pain syndromes or balance disorders.

Gender, age, and genetics are important for range of motion. Exercise including stretching and yoga often improves flexibility.

Many factors are taken into account when establishing personal flexibility: joint structure, ligaments, tendons, muscles, skin, tissue injury, fat (or adipose) tissue, body temperature, activity level, age and gender all influence an individual's range of motion about a joint.

Individual body flexibility level is measured and calculated by performing a sit and reach test, where the result is defined as personal flexibility score.

Anatomical Elements of Flexibility

Joints

Man stretching
Main article: Joint

The joints in a human body are surrounded by synovial membranes and articular cartilage which cover, cushion and nourish the joint and surfaces of each .[1] Increasing muscular elasticity of the joint's range of mobility increases flexibility.

Ligaments

Main article: Ligament

Ligaments are composed of two different tissues: white and yellow. The white fibrous tissues are not stretchy, but are extremely strong so that even if the bone were fractured the tissue would remain in place. The white tissue allows subjective freedom of movement. The yellow elastic tissue can be stretched considerably while returning to its original length.

Tendons

Main article: Tendon

Tendons are not elastic and are even less stretchy. Tendons are categorized as a connective tissue. Connective tissue supports, surrounds, and binds the muscle fibres. They contain both elastic and non-elastic tissue.

Areolar Tissue

Stretching lion

The areolar tissue is permeable and is extensively distributed throughout the body. This tissue acts as a general binder for all other tissues.[2]

Muscle Tissue

Main article: Muscle

Muscle tissue is made of a stretchy material. It is arranged in bundles of parallel fibres.[3]

Stretch Receptors

Stretch receptors have two parts: Spindle cells and Golgi tendons. Spindle cells, located in the center of a muscle, send messages for the muscle to contract.[4] On the other hand, Golgi tendon receptors are located near the end of a muscle fiber and send messages for the muscle to relax. As these receptors are trained through continual use, stretching becomes easier. When reflexes that inhibit flexibility are released the splits then become easier to perform. The splits use the body's complete range of motion and provide a complete stretch.

Stretching

A stretching American football player
Main article: Stretching

Flexibility is improved by stretching.[5] Stretching should only be started when muscles are warm and the body temperature is raised. To be effective while stretching, force applied to the body must be held just beyond a feeling of pain and needs to be held for at least ten seconds. If held too long, the muscle will become too loose and stretchy(needs a reference). Increasing the range of motion creates good posture and develops proficient performance in everyday activities increasing the length of life and overall health of the individual.[6]

Dynamic

Dynamic flexibility is classified as the ability to complete a full range of motion of a joint. It also controls movement as the speed increases while stretching parts of the body. This form of stretching prepares the body for physical exertion and sports performance. In the past it was the practice to undertake static stretching before exercise. Dynamic stretching increases range of movement, blood and oxygen flow to soft tissues prior to exertion. Increasingly coaches and sports trainers are aware of the role in dynamic stretching in improving performance and reducing the risk of injury.

Static-Active

Figure skater Caroline Zhang at 2008 Skate Canada

Static-active stretching includes holding an extended position with just the strength of the muscles such as holding the leg in front, side or behind. Static-active flexibility requires a great deal of strength, making it the hardest to develop.

Ballistic

Ballistic stretching is separate from all other forms of stretching. It does not include stretching, but rather a bouncing motion. The actual performance of ballistic movements prevents lengthening of tissues. These movements should only be performed when the body is very warm; otherwise they can lead to injury.

Limits of Flexibility

Each individual is born with a particular range of motion for each joint in their body. In the book Finding Balance by Gigi Berardi, the author mentions three limiting factors: Occupational demands, movement demands and training oversights.[7]

Internal Factors of Flexibility

Male yoga practitioner in an inverted lotus position

Movement demands include strength, endurance and range of motion. Training oversights occurs when the body is overused.[8] Internally, the joints, muscles, tendons, and ligaments can affect one's flexibility. As previously mentioned, each part of the body has its own limitations and combined, the range of motion can be affected. The mental attitude of the performer during the state of motion can also affect their range.

External Factors of Flexibility

Externally, anything from the weather outside to the age of the performer can affect flexibility. General tissues and collagen change with age influencing the individual. Young performers should be aware of over-stretching. Even basic things such as clothing and equipment can affect a performance. Dance surfaces and lack of proper shoes can also affect a performer's ability to perform at his/her best.[9]

Signs of Injury

Stretching for too long or too much can give way to an injury.[10] For most activities, the normal range of motion is more than adequate. Any sudden movements or going too fast can cause a muscle to tighten. This leads to extreme pain and the performer should let the muscle relax by resting.

Risk of Injury

Many people get injuries while doing yoga and aerobics so one needs to be careful while doing it. If a bone, muscle or any other part is stretched more than its capacity it may lead to dislocation, muscle pulls, etc or something even more severe too.

See also

Notes

  1. Blakey, WP. "Stretching without Pain." p. 9
  2. Blakey, WP. "Stretching without Pain." p. 26
  3. Blakey, WP. "Stretching without Pain." p. 30
  4. Blakey, WP. "Stretching without Pain." p. 33
  5. Ashley, Linda. "Essential Guide to Dance." p. 14
  6. Barratt, Marcia. "Foundations For Movement." p. 27.
  7. Berardi, Gigi. "Finding Balance." p. 35.
  8. |Berardi, Gigi. "Finding Balance." p. 37.
  9. Berardi, Gigi. "Finding Balance." p. 34.
  10. Blakey, WP. "Stretching without Pain." p. 20

Bibliography

External links

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