Flexibility And Stretching | Essay

flexibleness And spreading EssayMans interest in flexibleness is by no manner a modern development. The importance of tractability and its practice is evident from Roman generation in the training of Gladiators, and in to a greater extent recent times World War I injuries spurred the theme of orthopedics. Specifi assurey, as injured soldiers legislateed from war m all were compromised in basic daily function because of hurt of tractability that occurred from war injuries. It was observed how this throttleed ones activities and the practice of restoring function began. The interest in flexibleness was heightened again in the 1950s, 60s, and 70s when standardized fitness tests were developed and children were per going poorly on tractableness and authority measures. Fast packaging to today restoration of mental image of move is a first goal of therapists when rehabilitating musculoskeletal injuries and it is oftentimes the close limiting accompanimentor in recoery from a musculoskeletal injury. Beyond that, we now claim scientific discipline to demonst tell the loss of tractableness and heftiness function with age which leads to loss of independence and indeed the primary goal of many do work programs is to maintain muscular strength and tractableness.(Kraus, H., Hirschland, R. P. 1954).But take in you ever wondered wherefore some spate are to a greater extent waxy than others? Is it because they adulterate more, or is it a genetic trace? You probably know someone who is quite flexible but who rarely stretches. Are females more flexible than males? How do you become more flexible? These are all chief(prenominal) questions regarding muscularity flexibleness. We croup accurately answer some of these questions but other answers are less clear. This chapter result provide some insights into the numerous factors that influence flexibleness.Flexibility is basically described as the total set up of consummation ( read- merely storage) around a voice (or multitude of sound outs such(prenominal) as the spine). because the terms flexibility and ROM are often used interchangeably. One problem in the literary productions is the inconsistent use of terms such as flexibility, reach, move of drive, and so on. legion(predicate) other terms are too tintd to overall flexibility and these terms along with definitions are presented be small-scale in Table 8.1. In more scientific term, flexibility is defined as the intrinsic property of body weaves. However, while both intrinsic and extrinsic factors relate to flexibility, the intrinsic component is clearly more important. ROM is highly variable from interchangeable to joint and from someone to person. Flexibility as a term is used by many practitioners, including strength and conditioning coaches, gymnastic trainers, physical therapists, doctors, and chiropractors, etc. For this reason there are often disaccordences in what each practitioner means wh en they refer to flexibility. Thus, we must dole out the setting in which the term flexibility is being used, such as a clinic, running track, or training room.Flexibility is advocated as promoting double healthy outcomes. In general, flexibility declines with age and injury.The benefits of stretching includeDecreased risk of low back ailReduced energy soreness post praxisReduced risk of musculoskeletal injuryIncreased functional range of motionIncreased comfort in activities of daily livingImproved muscular efficiency fast-paced recovery from injuryImproved postural alignmentImproved mobilityImproved self perception with park focal pointAdapted from Mc Hugh Gleim (1998)Alkylosis Pathologically low flexibility (may be whole body or joint particular(prenominal)).Compliance How easy the muscularity leng wherefores or stretches.Deformation The ability of the tendon to change shape (stretch) and then return to normal.Elasticity The ability of a material to resist aberrat ion from force and then return to normal state.Flexibility The intrinsic property of body tissues that determine ROM without injury.Hypermobility Excessive joint (or group of joints) ROM.Stiffness A measure of a materials resilientity, often defined as the ration of force to elongation. elastic Complex mechanical behavior of a material because the resistive force in the material is restricted on elongation (elastic) and the rate (viscous) at which the force is applied.Yield Point the point beyond which deformation becomes permanent (or sinew is torn).Stretch Tip number 1(see illustrations).Your father is interested in improving his range of motion in his shoulders. Can you suggest 3 basic exercises?a. Large arm circles. Stand up tall and swing both arms in large circles forward and backwards for 10 rotations each.b. liberal arm wall press Stand against a wall with your arm straight back and against the wall. withstand your arm against the wall and gently turn your body awa y from the wall slightly and hold fro 20 seconds. Repeat on each side.c. Lie on your back, put your arms out straight, hands overlapping, and office on the floor behind your head. look at for 20 seconds(1)Anatomy and Physiology of Stretching FlexibilityThe anatomy and physiology of stretching involves multiple components the design of the musculoskeletal system, musculus com fix and connecter tissue. Additionally, we must consider other co- huging and synergistic go through groups, the types of tendon actions and the forces produced. Lets look at the role of these components in stretching.Design of the Musculoskeletal System The musclemans and bones of course comprise the musculoskeletal system. The muscles are often viewed as cords attached to levers to facilitate movement and posture. The muscles puff on the bones generating tightness and consequently movement. Bones are connected to bones via ligaments which are non very flexible. The muscles are attached to the bone via tendons which are more flexible than ligaments, as is the muscle itself. Muscles diverge in shape and size depending upon their role. ecumenically longer muscles are more flexible with a greater range of motion.Muscle Compo getion While the body contains several types of muscle, such as skeletal, heart, and digestive, their basic bodily structure is the same. That is, the muscle composition is similar in that they all contain fascicles, fiber, myofibrils, sarcomeres, and contractile proteins. In skeletal muscle, a fibrous connective tissue called the epimysium covers the bodys more than 430 skeletal muscles. Inside the epimysium the muscle fibers are bound in bundles called fascicles which often contain 100-150 fibers. Within fascicles, muscle fibers are separated by the endomysium. Outside of the fascicles lies the perimysium which separates the fascicles wrapped in the epimysium. The muscle fiber itself is made up of proteins called actin and myosin (contractile proteins) and these proteins are arranged longitudinally within the smallest component of the muscle fiber, the sarcomere. It is the sarcomere that actually shortens and lengthens when we discharge a contraction.Fascicles Bundles of muscle fibers.Fiber Cylindrical cells that sometimes run the length of the muscle. sarcostyle The inside of a muscle fiber that contain the contractile proteins, actin and myosin.Sarcomere The smallest contractile unit of skeletal muscle. connection Tissue A main factor affecting ROM is connective tissue. Connective tissue can be found all around muscles. Connective tissue contains two types of fiber called collagenous connective tissue and elastic connective tissue. Collagenous tissue comprises mainly collagen, which are extracellular, related proteins that provide tensile strength. Elastic tissue comprises mostly elastin, a yellow scleroprotein that provides elasticity. In general, the greater the amount of elastic connective tissue surrounding a joint the gre ater the elasticity or ROM will be around that joint.Muscle Groups The way in which a muscle group interacts with the other co-contracting muscles in its group can as well influence ROM. For example, with knee flexion we have hamstring contractions, gastrocnemius lengthiness (or shortening), gluteal shortening, and so on. At the same time the quad relax so as non to impede the flexibility. This is referred to as reciprocal inhibition (more nearly this later). It is also referred to as the agonist/antagonist relationship. Thus the degree of resistance or compliance of an opposing or synergistic muscle can growth or decrease ones ROM.Insert Illustration showing agonist-antagonist relationshipResearch BoxEffects of Stretching on Passive Muscle Tension and Response to Eccentric Exercise. La Roche DA and Connolly DA. 2006 (vol 34, 6, 1000-1007). American diary of Sports Medicine.The purpose of this understand was to assess if 4 weeks of stretching could reduce the risk of muscle injury adjacent eccentric exercise. 29 subjects were assigned to a static stretching, ballistic stretching, or control group. Baseline measurements for active range of motion, sternness, peak torque, and soreness were recorded. Subjects then performed a stretching program for s total of 3600 seconds over 4 weeks in their assigned group. Baseline tested was then repeated with an eccentric task knowing to cause muscle damage added after day 1. Both stretching groups step-upd their range of motion and stretch tolerance pursual the 4 weeks of stretching. After eccentric exercise both stretching groups had greater range of motion and less pain than the control group. The authors concluded that 4 weeks of stretching maintains range of motion pastime eccentric exercise.The Action of StretchingWhen you stretch your muscle the origin of the stretch is in the sarcomere. As the sarcomere contracts, the knowledge domain of overlap amongst thick and thin filaments adds and this facilit ates emergenced forced production. Consequently, as the muscle stretches this area of overlap decreases allowing muscle elongation. This is often referred to as Sarcomeres in series. When the muscle reaches its maximum resting length the stretch tension transfers to the connective tissue. Because connective tissue is less pliable than muscle tissue, the relative stretch is considerably rock-bottom. When we stretch, non all fibers are stretched and the length of the muscle actually depends upon the number of stretched fibers. As we increase the length of the muscle more fibers are stretched. The ultimate length of the stretch is also influenced by other feedback from proprioceptors, the stretch reflexive and protraction reaction. Lets look at what these are(3)ProprioceptorsAnytime we move our limbs around we receive feedback information about the position and length of our muscles and limbs. This information about the musculoskeletal system is relayed back to the central nervous system via proprioceptors. Proprioception is a spatial awareness of ones body movement and position. Proprioceptors are sometimes referred to as mechanoreceptors and they specifically detect changes in position, force and tension of muscles. When we stretch a muscle the proprioceptors provide feedback about the length of the muscle, especially pain and discomfort when the muscle is stretched too further. The primary proprioceptors involved in stretching are called muscle spindles or stretch receptors. Also involved are golgi tendon organs which are found in the tendon at the end of muscle. They provide information specifically on positional changes and pressure or tension. Golgi tendon organs provide information about the change in muscle tension and also the rate of change in tension (sometimes called rate of force development). Thus, together they provide feedback about when our muscles are lengthening or are experiencing too much force.(3)Stretch ReflexNaturally, when the muscl e lengthens so too do the muscle spindles. The information provided by the spindles triggers what is called the stretch reflex or myotatic reflex. This causes the muscle to try and shorten (it basically resists lengthening). This stretch reflex contains both a static and a participating component that relate to the initial increase in length and the duration of the stretch. These are called the lengthening reaction and the reciprocal inhibition.(3)The extension ReactionWhen we stretch and induce the stretch reflexes ca use the muscle to contract, tension is produced at the musculotendonous junction (this is where the GTO is located). As the tension increases it reaches a threshold which causes a lengthening reaction which prevents the muscle from contracting and actually causes them to relax. (This is often referred to as the reverse myotatic reflex or autogenic inhibition.) This action is part of the reason that exercise prescription for stretching advocates prop a stretch for at least 15-20 seconds.(3)Reciprocal InhibitionA final consideration in this plane section is the action called reciprocal inhibition. In reciprocal inhibition the antagonists are essentially neutralized and prevented from contracting thereby not impeding the stretch of the agonist. Practicing how to voluntarily relax your antagonist can increase your stretch chemical reaction in the agonists.(1)Types of StretchingStretching can take many forms, last for various durations, and have both negative and positive effects on athletic performance. Stretching can be performed statically or dynamically. If a stretch is performed dynamically, it directly affects dynamic flexibility. If it is through statically, it will directly affect static flexibility. there is also some crossover effect amid the types of stretching. There are numerous ways to stretch. The interest is a list of stretching techniques.Static Type StretchingStatic stretching basically involves a form of stretching whereby the muscle is lengthened and then held in that lengthened position for a pre-determined period of time. The following are types of dynamic stretching.Static Holding Stretching involves stretching ones own muscle as far as comfortable and then holding the stretch for 10-30 seconds.Passive Stretching involves someone else stretching your muscle and applying the 10-30 second hold. This rule normally results in a further stretch than individual static stretching. sometimes this technique is used without someone else when you use another body part to stretch a fact muscle group. A simple example is stretching your quadriceps by holding onto your foot and puff up towards your back. Sometimes you will see passive stretching called relaxed stretching or static-passive stretching.Proprioceptive neuromuscular Facilitation Stretching (PNF) is a popular and effective method of rapidly increasing ROM. PNF combines both static and dynamic components by having isometric agonist contraction, re laxation and contraction again. It normally requires a partner and is sometimes call partner assisted stretching. In basic PNF the individual stretches an agonist muscle as far as possible (a partner can help stretch further.) This initial stretch is held for about 10 seconds and then an antagonist contraction follows for 5-10 seconds. Following this the original agonist is then stretched again and the cycle repeated. This cycle should be repeated about 3-5 times on each muscle, with the muscle being stretched a little further each time.Isometric stretching is somewhat of a combination of PNF and static stretching. This method requires the muscle to contract at the end of the range of motion and so the muscle being stretched is also the agonist. A vernacular example is a calf stretch where one pushes against the wall creating both force and stretch in the calf at the same time. An additional advantage of isometric stretching is that it can also increase strength.Dynamic Type Stretc hingDynamic stretching basically involves a form of stretching whereby the muscle is lengthened and shortened at various speeds without the muscle being held in the lengthened position for any period of time. The following are types of dynamic stretching.Ballistic stretching uses a limbs momentum to push it beyond its normal ROM. Sometimes added weight can be held to increase the stretch. This stretching involves limbs swinging through their ROM back and forth for about 10 repetitions. This stretching has traditionally been viewed as unsafe. However, it is effective if progress is done slowly and a few(prenominal) injuries have actually been reported. One concern with this stretch is that the muscles do not have enough time in the lengthened position to adapt to the stretch and may in fact invoke the stretch reflex causing greater tightness.Dynamic stretching is a progressive stretching technique involving slow increases in ROM and speed. In contrast to ballistic stretching, dynami c stretching is more controlled and progressive. Dynamic stretching does not contain bouncing or ballistic movement. Dynamic stretches are normally used in team sport settings or where speed movements are important.Active stretching is not commonly practiced as it is difficult and uncomfortable to a degree. In this technique a muscle is held only by the antagonist muscle in a certain position at the limit of motion for about 10 seconds. For example, lifting your leg straight up and holding it. Yoga uses many of these types of stretching.Application capitulum Can you alter your flexibility if you are fifty or sixty years old? perform Even elderly men and women over seventy years old can increase their flexibility (Brown et al. 2000 Lazowski et al. 1999). With strength training the elderly, even in their 90s, can increase their strength and muscle mass although not as fast and as much as young people, but they can (Fiatarone et al. 1990 Lexell et al. 1995), and the responsiveness to strength training determines the effectiveness of isometric stretches (the most intense stretches) as long as the structure of the persons joints is not an obstacle.Exercise Prescription for StretchingThe main reason advocated for the development of flexibility and its assessment is the reduction of injury. Interestingly, the literature does not support increased levels of static or dynamic flexibility reducing injury. It actually appears that people at both extremes of static flexibility may be at higher risk for musculoskeletal injuries and we dont have mush information on the relationship between dynamic flexibility and injury. In general, it is concord that flexibility is healthy and although most experts agree on the benefits of flexibility and stretching, precise guidelines for stretching do not clearly exist. There is wide variation in the type of stretching, duration of stretches and intensity. Many individuals stretch for only a few seconds whereas others may stretch for 50 minutes as in a yoga class. General guidelines by the American College of Sports Medicine (ACSM) recommend three days of stretching per week, holding stretches for 10-30 seconds and 3-5 stretches for each major(ip) muscle group. ACSM recommends static stretching for the majority of the population.When is it best to stretch?In general, muscle is more open(a) to stretch when it is warmer. Therefore, it makes more sense to stretch your muscles following exercise. We must be careful and distinguish between stretching to improve ROM and warming up for performance. Human muscle stretches violate at about 38.5 c. which is higher than normal body temperature. For this reason, post exercise is perhaps the best time to stretch.Factors Influencing FlexibilityMany factors contribute to joint flexibility. Sometimes the factors influencing flexibility can be classified as intrinsic or extrinsic factors. Intrinsic factors apply to those musculoskeletal factors within the body such as ligament s and tendons, whereas extrinsic factors broadly apply to factors such as age, gender, body build and so on. Generally, extrinsic factors are those that we cannot change.Intrinsic Factors for FlexibilityWhile factors such as age and gender clearly play a role, the structure of the joint itself plays a major role in its own flexibility. Joints comprise various types of tissue and bone and these components differ in how they contribute to joint flexibility. Table 2 provides information on the relative contributions of soft tissue to joint ROM. Intrinsic factors specifically relate to the mechanical properties of the musculoskeletal variable. This varies between individuals and is affected by injury, race, muscle types and amount and others. In general, when we practice stretching we are seeking to make change to these intrinsic factors. external Factors for FlexibilityWe can assume the intrinsic factors to be fairly consistent within individuals leaving a lot of room for the many ext rinsic factors to influence joint flexibility. However, extrinsic factors usually explain variability between joints within individuals and overall flexibility between individuals and not all of them are changeable.Gender In general, females are more flexible than males across the lifespan. Several factors contribute to this increased flexibility such as lower muscle mass, different hormone concentration and anatomical variations in joint structure.Age flexibility tends to decrease with age usually beginning in the teenage years. With increasing age there is a decrease in elasticity of connective tissue surrounding both joints and muscles. For the most part this is attributed to decreased activity levels.Temperature Muscle and connective tissue are like most other materials, i.e. they are more pliable/flexible at warmer temperatures. Increasing body temperature through an appropriate warm-up increases the flexibility of the muscle and joint. Consequently, a decrease in body or musc le temperature decreases flexibility and may increase the risk of injury.Habitual/Exercise Activity Individuals normally preserve the required flexibility to perform tasks they perform on a daily or regular basis. Some scientists refer to this as form follows function. Therefore, individuals who exercise regularly and exercise their limbs through a full ROM tend to preserve flexibility better with age. A sedentary lifestyle is associated with decreased flexibility.Injury Injury is a common cause of loss of flexibility especially in the upper extremities. Joint injuries typically result in the deposition of collagen or scar tissue. Scar tissue in particular restricts the mobility of the joint. Joint injuries also result in punk that also restricts mobility. Following injury rehabilitation to specifically restore and increase ROM is extremely important to allow the joint to return to normal function.Joint Structure/Type of Joint Flexibility is specific to each joint and to the way in which the joint is designed. Ball and socket joints (triaxial) are much more wide awake than glinglymus joints (uni-axial). Joints fall into one of four categories based on ROM, no movement (non-axial), uni-axial, bi-axial or triaxial. The structure of the joint is therefore a major determinant in a joint ROM.Muscle Mass/ organic structure Build The role of muscle mass in flexibility while important is often over-emphasized. In general, well magnified muscles of the upper body, e.g. chest and arms, can restrict movement. However, if muscles are developed through the faultless ROM of the muscle, flexibility is often preserved. Male gymnasts are a good example of well hypertrophied muscle and high flexibility. Therefore, while muscle mass can play a role in diminishing flexibility, the negative effects can be minimized by ensuring full ROM during muscle contraction.Pregnancy Women generally increase their flexibility during motherliness. The basic reason for this is to prepare fo r childbirth but also to allow greater ROM in the hip region. Specifically, the pelvic and hip joints increase in flexibility due to increased production levels of the hormone relaxin. This can also help alleviate discomfort with pregnancy associated Lordosis. Relaxin levels decrease following pregnancy.Stretch tip number 2 (see illustrations)Your friend complains of tight calf muscles following running, what can you recommend?Stand with feet together, legs straight, on a step and let the heels hang over the edge. Hold this position for 20 seconds. Repeat several times.Stand with feet together about 3 feet away from a wall. Place your hands on the wall and slowly bring your chest into the wall. Keep both heels on the floor. Hold this position for 20 seconds.Stand with feet together about 3 feet away from the wall. With hands on the wall, bring one leg forward and push with the back leg keeping the heel on the ground. Repeat on each leg.Flexibility and Athletic PerformanceIt is a wid ely held conception that flexibility improves athletic performance. However, the scientific literature does not consistently support this belief. There is great variation in the amount of flexibility required for successful performance between activities and even within activities, such as team sports, there is wide individual variation. Furthermore, decreased flexibility has been shown to improve running economy and thus decreased flexibility can in some cases improve performance. Some studies have shown that less stiff muscles are more effective in using the stored elastic energy that is developed during a stretch. However, we must be careful about when these stretches are initiated as recent evidence suggests that static stretching introductory to activities requiring maximal contraction tends to cause a decrease in performance. Overall, the ability of increased flexibility to improve athletic performance is most likely restricted to those activities that actually require extrem e ranges of flexibility such as gymnastics, figure skating etc. and a universal approach of requiring infinite flexibility in all athletes is not warranted.Research BoxDynamic versus Static Stretching Warm-up The Effect on Power and Agility Performance. Mc Millian et al. 2006 (vol20, 3, 492-499). Journal of Strength and Conditioning Research.30 subjects participated in a study to determine the effects of a dynamic warm-up (DWU), a static stretch warm-up (SWU), or no warm-up (NWU) on a T-shuttle agility test, an underhand medicine ball throw, and a 5-step jump. interrogation took place over three consecutive days and the order of all tests and warm-ups was randomized. Each warm-up lasted for 10 minutes. The DWU comprised a series of exercise such as bend and reach, push-ups, squats, and skipping. The SWU comprised of exercises such as the overhead pull, quadriceps stretch, trunk flexion and extension. All stretches were performed once and held for 20-30 seconds. The NWU group did no exercises. Results showed significantly greater performances for all tests following a DWU. The performances did not differ between the SWU and NWU. The authors conclude that the use of SWU should be reassessed when preceding athletic performance. beat of FlexibilitySeveral basic flexibility tests exist such as sit and reach for hamstrings and low back and shoulder rotation test for shoulders. Since flexibility varies between joints, comprehensive flexibility assessment would have to assess many joints. This is not really possible and so one typically selects a few major joints and muscles such as low back and hamstrings, calf and Achilles, and shoulders. Simple tests for these assessments as well as more detailed laboratory practices are described at the end of the chapter. Any measurement of flexibility should be based on sound and accepted testing procedures. For the most part static flexibility tests are the most widely used and these are based on linear and angular measurement s of the motion of the joint. All flexibility assessments should follow a standardized procedure whereby warm-up, and practice trials are all controlled. abbreviationAfter you read this chapter, you should be able to do the followingDefine flexibility and other relevant terms related to flexibilityFlexibility is basically the range of motion around a joint. It is influenced by many factors.Flexibility is an important for overall health. It is important for basic daily function and comfort.Flexibility varies between joints within individuals and between individuals.List the factors affecting flexibilityFactors that influence flexibility are numerous and vary and can be classified as intrinsic or extrinsic.Intrinsic factors include variables such as the tendon and muscle, whereas extrinsic factors include variables such as age, gender and activity levels.Explain the techniques for improving and measuring flexibility.There are many ways to stretch and improve flexibility. The most co mmonly prescribed method is static stretching for 10-30 seconds per muscle group.Including safe and full ROM exercises into our daily routine is an excellent way to improve and preserve flexibility.Flexibility should be measured at multiple sites and can be assessed using basic goniometry or a more simple test such as a sit and reach teat.SummaryFlexibility is an important component in overall health and generally declines with age. There are many benefits including reduced risk of low back pain and increased functional range of motion. Flexibility varies between people and is affected by many variables. These factors are usually classified as intrinsic or extrinsic. When we stretch we are usually trying to change intrinsic factors. Flexibility usually takes two forms, static and dynamic, and we can stretch a muscle using either form. Most exercise prescription for flexibility advocates static stretching and involves holding a stretch for 10-30 seconds per muscle group. When we stre tch or measure flexibility, it should be performed at multiple sites as flexibility tends to be site specific. The major joints to consider are the lower back, shoulders, and hamstrings.Chapter ReviewFlexibility Discussion QuestionsIdentify and describe 5 extrinsic factors that are known to influence flexibilityWhat are the best approaches to improve flexibility?What are the various musculoskeletal components that provide regulatory feedback to muscle stretch?Can you differentiate between the roles of golgi tendon organs and muscle spindles?Provide a short description for each of the following termsSarcomeres in series.Stretch reflex.Lengthening reaction.Proprioceptors.Autogenic inhibition.Reciprocal inhibition.