Stretching

Information about Stretching

This article is about stretching as a form of physical exercise. For information related to body modification practices, see that article and stretching (body piercing). The term can also refer to the stretching of canvas on a frame.

An actively stretching Siberian tiger

Cat stretching in utterly relaxed position

Stretching, as theorized in literature, is the deliberate act of lengthening of muscles, in order to increase muscle flexibility and/or joint range of motion (Weerapong et al 189-206). Stretching is a natural activity often performed without thinking by most people and many animals, and can simply be pleasurable. It can be accompanied by yawning. Stretching often occurs right after waking from sleep, after long periods of inactivity, or after exiting confined spaces.

Many athletes stretch deliberately before or after exercise in order to increase performance and reduce injury. Whether this is helpful, has no effect, or even has detrimental effects is in dispute. While common, it may not be beneficial for all athletic activities.

Possible Benefits

In the literature described by Yessis, there are many beneficial stretches that can improve Range of Motion (ROM) in athletes, especially runners. In his experience as President of Sports Training Inc., and retired professor at CSU Fullerton, he has helped many runners improve their performance. In his review, he cites benefits of stretching:

may improve ROM
reduce risk of injury
prevent post-exercise muscle soreness
slow delayed-onset muscle soreness (DOMS)

To gain these benefits, Yessis describes different forms of stretching along with their individual benefits. He suggests that one stretching exercise may not be enough to prevent all types of injury. Therefore, multiple stretching exercises should be used to gain the full effects of stretching (Yessis 8-18).

Research by Sharman et al. sought to find what techniques elongate muscles through "proprioceptive neuromuscular facilitation" (PNF) stretching. They used around seventy sources to compile their data. In this review, PNF stretching yielded the greatest change in range of motion (ROM), especially short-term benefits. Ballistic stretching was also beneficial in comparison; however, PNF techniques emphasize active flexibility and therefore get better results. Reasoning behind the biomechanical benefit of PNF stretching points to muscular reflex relaxation found in the musculotendinous unit being stretched. More common findings in literature suggest that PNF benefits are due to influence on the joint where the stretch is felt.

Results of the research find static, ballistic, and PNF stretching techniques to be beneficial in increasing ROM. They say not enough information is given in the literature to support long-term benefits of stretching or the acute effects of ballistic stretching. Despite this claim, however, PNF stretching in their review is the fastest and most effective means of stretching when used properly. More research is needed to find the exact number of repetitions needed, length of hold, and intensity of all groups of stretching (Sharman, Cresswell, and Riek 929-939).

Possible detriments

It has been suggested in some studies that overstretching or stretching to a point where pain is felt is inappropriate and detrimental. Effects on performance, both short and long-term, may include predisposition to injury and possible nerve damage (Yessis 8-18). Other findings in research conclude that active stretching routines will reduce muscle-tendon viscosity and increase muscle compliancy and elasticity. In sports activities where there are little or no short-stretching cycles, (bicycling, jogging, etc.) stretching routines may be detrimental to athletic performance and have no effect on reducing injuries (Witvrouw et al. 443-449).

In J.C. Andersen’s compilation of lower extremity stretching research, the effects of stretching before and after exercise were reviewed for evidence of muscle soreness. The seven articles referenced in his research came from sources such as MEDLINE and CINAHL. All data used came from studies that used static stretching programs and included average healthy participants between ages eighteen and forty. The results of Andersen’s research are somewhat limited, due to the nature of the literature he selected; however, his findings suggest that stretching has no beneficial effects on injury reduction. Two to five percent reductions in injury levels lead Anderson to believe stretching routines will not have impact on injury prevention or post-exercise soreness. Also, the concept that stretching decreases risk of injury in active muscles is negated by claims in the literature reviewed. Stretching as observed in the research found increased complaisance in relaxed muscle groups. This idea, in conjunction with stretch tolerance and stretch variability, does not encourage stretching to prevent injuries. The conclusion claims more research is needed to finalize evidence on the benefits of stretching (Andersen 218-220).

A study constructed by Nelson et al. set out to find the correlation between pre-exercise static stretching and its effects on muscle strength endurance. Two experiments were designed to find the initial links between pre-exercise stretching and muscle endurance.

Results of the study found both stretching experiments to reduce effectiveness of muscle strength endurance by up to thirty percent. They suggest that pre-exercise stretching induces a fatigue-like state in muscles which would clearly inhibit performance if the muscle is not at full potential.

Smaller amounts of research included state that stretching may cause ischemia in muscles, which reduces oxygen levels and the ability to remove metabolic waste. Higher levels of metabolic waste create a catalyst that contracts muscles. This may cause muscle injury in individual performance. Other theories included claim active static stretching increases inflow of Ca²⁺ from extra cellular spaces into the muscles being stretched. The increase of Ca²⁺ reduced the muscle twitch tension by up to sixty percent. Reasoning behind this claims that increased levels of Ca²⁺ in resting muscles predisposes individuals to fatigue quicker than individuals who did not stretch (Nelson, Kokkonen, and Arnall 338-343).

Flexibility

Chicago Cubs players stretching before a game

A study done by LaRoche and Connolly was designed to see whether stretching reduces frequency of sports-related injuries and increases individual performance. The study, conducted over a four-week period, involved male participants between the ages of eighteen and sixty who were not actively training. Participants were randomly assigned to three different stretching groups which included ballistic, static, and control groups. The study used a custom-built device to test the individual’s maximal hamstring resistance.

To see what stretching method worked best, participants first needed to experience Delayed Onset Muscle Soreness (DOMS). This was done by having individuals use a hamstring curl machine, doing three sets of fifteen repetitions with a one-minute break between sets. Stretching was done before and after exercise, only three days a week for a four-week period. Warm ups were a mandatory requirement before stretching. The results of the study found that both ballistic and static stretching yielded a large increase in individual range of motion (ROM). This is thought to be from an increase in stretch tolerance as opposed to actual muscle elongation. The study also found that ballistic stretching seemed to have the same effects as static stretching without any perceived negative effects. Although there was an increased range of motion due to stretching, there was no change in DOMS or muscle soreness (LaRoche and Connolly 1000-1007).

Uncertainty

The idea of stretching for many means injuries become less common and athletic performance is enhanced. Multifactorial claims in literature essentially discredit generally accepted ideas of stretching. In terms of genetic ability, some people are more flexible than others; this includes gender differences where women are generally more flexible than men. In this sense, some people are more predisposed to injuries than others. In addition to genetics, some studies found that stretching does not increase range of motion. Instead it increases individual stretch tolerance and may become detrimental to athletic performance. Still, other studies are nonspecific about what their research really found. Some measure capsular mobility as opposed to the joint-muscle compliance.

Overwhelming research concludes that pre-exercise stretching, especially for those who do not use short bursts of muscular activity, may result in a reduction in performance of up to five percent. At best, literature shows that weeks of regular stretching exercises, in conjunction with warm ups, may help athletes reduce injury by up to five percent. This small percent may help athletes who use short bursts of energy such as sprinters improve their fifty-yard running speed by fractions of a second. Other sports that use continuous movements, such as cycling, should not expect the same benefits. Regardless of research, athletes, especially runners, continue to stretch, attempting to reduce injuries and increase their performance. More detailed studies and research are needed to find all possible neurological effects of stretching (Shrier 22-26).

Research by Weerapong et al. was designed to find the effects of stretching on the body. In their research, they used ninety-nine peer-reviewed and scholarly sources to compile their data. Their sources came from three online databases which included PubMed, SPORT Discuss, and ProQuest 5000 International. The criteria for research looked for average healthy participants where no bias was placed on age, gender or physical abilities. All claims considered in the research were picked if they researched the long and short-term effects of stretching, while suggesting what effects stretching had on events such as injury occurrence, sport performance, and muscle soreness. Results of the study found that it is very common in literature to suggest stretching as a possible mechanism to prevent onset of injury and muscle soreness. This idea, however, while very common, does not specifically explain how stretching affects muscle properties on individual performance. Their findings suggest that common stretching methods, like static and ballistic stretches, decrease muscle performance and have inconclusive evidence to support the notion of injury reduction. Their research questions whether flexibility will reduce incidence of injury. A large number of their sources claim flexibility does not reduce incidence of injury; therefore, increasing range of motion is not needed. Their conclusion states that more research is needed to find the best stretching techniques that improve performance and reduce risk of injury (Weerapong, Hume, and Kolt 189-206).

A study done by Witvrouw et al. was done to find what relationship stretching has with injury prevention. Over forty sources of relevant literature were used in their review. Initially the documentation of stretching claimed to promote better physical performance and reduce risk of injury. The number of suggested ideas in recent literature makes the relationship between stretching and its effects ambiguous. Results of the research were two different findings^[1], each of which has a different consideration based on individual activity:

They claim the reason behind conflicting data is due to the different levels of observed sports activity.
In activities where stretch-shortening cycles (SSC) are more prevalent, such as sprinting and jumping, the muscle-tendon units need to store and use more elastic energy
In activities which do not require as much SSC such as jogging, a more elastic muscle-tendon unit is not needed.

Physiology

Studies have shed light on what has turned out to be a fascinating and huge protein with skeletal muscle—aptly named, titin. A seminal study performed by Magid and Law, demonstrated convincingly that the origin of passive muscle tension (which occurs during stretching) is actually within the myofibrils themselves, not extracellular as had previously been supposed.^[2]

Summary

There are many recent studies and researched literature that have inconclusive evidence or contradict with other sources. More detailed evidence, especially pertaining to time, intensity, and repetition of stretches are needed. Stretching may be able to help athletic performance in some situations, but the most recent literature claims that pre-exercise stretching is detrimental to performance. Not all possible outlets of stretching have been explored; therefore, no specific claim can be made about the benefits of stretching.

References

1. ^ (Witvrouw et al. 443-449)
2. ^ [1]

Weerapong, Pornratshanee, Patria A. Hume, and Gregory S. Kolt. "Stretching: Mechanisms and Benefits for Sports Performance and Injury Prevention." Physical Therapy Reviews 9.4(2004): 189-206.
LaRoche, Dain, and Declan A. J. Connolly. "Effects of Stretching on Passive Muscle Tension and Response to Eccentric Exercise." American Journal of Sports Medicine 34.6(2006): 1000-1007.
Witvrouw, Erik, Nele Mahieu, Lieven Danneels, and Peter McNair. "Stretching and Injury Prevention An Obscure Relationship." Sports Medicine 34.7(2004): 443-449.
Andersen, J. C.. "Stretching Before and After Exercise: Effect on Muscle Soreness and Injury Risk." Journal of Athletic Training 40(2005): 218-220.
Nelson, Arnold G., Joke Kokkonen, and David A. Arnall. "Acute Muscle Stretching Inhibits Muscle Strength Endurance Performance." Journal Of Strength And Conditioning Research / National Strength & Conditioning Association 19.2(2005): 338-343.
Yessis, Michael . "Runners Need Active Stretching." AMAA Journal Winter 18.2(2006): 8-18.
Sharman, Melanie J. , Andrew G. Cresswell, and Stephan Riek. "Proprioceptive Neuromuscular Facilitation Stretching: Mechanisms and Clinical Implications." Sports Medicine 36.11(2006): 929-939.
Shrier, Ian. "When and Whom to Stretch?." Physician & Sportsmedicine 33.3(2005): 22-26.
Cheung, Karoline , Patria A. Hume, and Linda Maxwell. "Delayed Onset Muscle Soreness: Treatment Strategies and Performance Factors." Sports Medicine 33.2(2003): 145-164.

Construction

Picture frames are usually made of soft or hard wood, although other materials are also used, including aluminum or
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Range of motion or (ROM), as used in the biomedical and weightlifting communities, is the measurement of the achievable distance between the flexed position and the extended position of a particular joint or muscle group.
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PNF (proprioceptive neuromuscular facilitation) is often times a combination of passive stretching and isometrics contractions. However, it can also weaken muscles, decrease endurance, slow neuromuscular control and coordination, and decrease joint stability.
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Ballistic stretching is a form of passive stretching or dynamic stretching in a bouncing motion. Ballistic stretches force the limb into an extended range of motion when the muscle has not relaxed enough to enter it.
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Static stretching is used to stretch muscles while the body is at rest. It is composed of various techniques that gradually lengthen a muscle to an elongated position (to the point of discomfort) and hold that position for 10-30 seconds.
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Active stretching eliminates force and its adverse effects from stretching procedures.

Before describing the principles on which active stretching is based, the terms agonist and antagonist must be clarified.
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Delayed Onset Muscle Soreness (DOMS) is the pain or discomfort often felt 24 to 72 hours after exercising and subsides generally within 2 to 3 days. Once thought to be caused by lactic acid buildup, a more recent theory is that it is caused by tiny tears in the muscle fibers caused
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warm up is usually performed before participating in (technical) sports or exercising. A warm up generally consists of a gradual increase in intensity in physical activity.
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Proteins are large organic compounds made of amino acids arranged in a linear chain and joined together by peptide bonds between the carboxyl and amino groups of adjacent amino acid residues.
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Not to be confused with Tintin.

Titin, also known as connectin^[1] (UniProt name: Q10466_HUMAN; accession number: Q10466), is a protein that is important in the contraction of striated muscle tissues.
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Myofibrils (obsolete term: sarcostyles) are cylindrical organelles, found within muscle cells. They are bundles of actomyosin filaments that run from one end of the cell to the other and are attached to the cell surface membrane at each end.
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Passive stretching is a form of static stretching in which an external force exerts upon the limb to move it into the new position. This is in contrast to active stretching.
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Dynamic stretching is a form of stretching beneficial in sports utilizing momentum from form, static-active stretching strength and the momentum from static-active stretching strength, in an effort to propel the muscle into an extended range of motion not exceeding one's
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This article or section is written like an .
Please help [ rewrite this article] from a neutral point of view.
Mark blatant advertising for , using . Resistance Stretching, is a form of stretching in which a muscle simultaneously contracts and elongates.
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Flexibility is the popular term for the ability to easily bend an object or the ability to adapt to different circumstances. However, in various professional fields, more precise terms are used.
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Hatha yoga (Sanskrit हठयोग), also known as Hatha Vidya (हठविद्या), is a particular system of Yoga introduced by Yogi Swatmarama, a sage of 15th century India, and compiler of the Hatha Yoga Pradipika.
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