Whenever I see someone stretching before cycling, I worry that the person doesn’t know much about training. You shouldn’t stretch before a competition because stretching weakens muscles. You shouldn’t stretch after hard exercise because stretching muscles that are already damaged by intense exercise delays recovery and increases risk for injury. You waste your time stretching because you cannot lengthen muscles or tendons by stretching anyway. Stretching:
• does not lengthen muscles (Clinical Biomechanics, June 2014;29(6):636-642),
• does not prevent sports injuries (Clinical Journal of Sports Medicine, March 2005),
• does not prevent muscle soreness that follows vigorous exercise (Cochrane Database of Systematic Reviews 2007, Issue 4),
• decreases muscle strength when done before competition (Journal of Bodywork and Movement Therapies, April 2006),
• limits how fast you can run (The Scandinavian Journal of Medicine and Science in Sports, April 2013, and Sports Science, May 2005), and
• limits how high you can jump (The Journal of Strength and Conditioning Research, April 2013).
Stretching Does Not Lengthen Muscles You can make a muscle longer while you are stretching, but after you finish stretching, the muscle returns to its former length. People who stretch regularly, such as gymnasts and people who do yoga, can stretch further than non-stretchers because they can tolerate more pain or they have less pain while they stretch. Stretching a muscle pulls on nerve fibers in the muscle to cause pain, so you stop stretching when it hurts. When a person is given an anesthetic, he can stretch much further because he feels less pain. Regular stretchers stretch so often that they feel pain later than non-stretchers do and they learn to tolerate more pain when they stretch.
If muscles did remain stretched, stretching would harm you because the overstretched muscle would lose its elasticity and be much weaker. Placing animals in muscle-stretching casts for several weeks can cause the muscles to grow extra units called sarcomeres, but muscles return to their original length soon after the cast is removed.
How Muscles Move Your Body Every muscle in your body is made up of thousands of individual fibers. Each muscle fiber is composed of sarcomeres; repeated similar blocks, lined end-to-end to form the rope-like fibers. Each sarcomere touches the sarcomere next to it at the Z line. Muscles move your body by contracting which shortens each muscle fiber. Muscles do not shorten (contract) equally throughout their lengths. Muscles contract only at each of thousands of sarcomeres. It is the cumulative shortening of thousands of sarcomeres that shorten fibers to make muscles contract and move your body.
The Chemistry of Muscle Contraction A sarcomere contains two chemicals: actin and myosin. The actin chemicals line up between myosin chemicals above and below them. The actins slide toward each other to shorten the sarcomere. When thousands of sarcomeres shorten together at the same time, the entire muscle contracts.
Stretching Does Not Prevent Sports Injuries Muscles and tendons tear when the force applied to them is greater than their inherent strength, so anything that makes a muscle stronger helps to prevent injuries. Stretching does not strengthen muscles so it does not prevent prevent injuries such as shin splints, bone stress fractures, sprains or strains.
Stretching Does Not Prevent Next-Day Muscle Soreness A review of 12 studies published over the last 25 years shows that stretching does not prevent muscle soreness that occurs eight to 24 hours after you exercise vigorously (The British Journal of Sports Medicine, December 2011; 45:15 1249-1250). Researchers in Australia reviewed five studies, involving 77 subjects, to show that stretching does not prevent next-day muscle soreness (British Medical Journal, December 2007; 325:468-70 and 451-2).
To enlarge a muscle and make it stronger, you have to put enough force on it to feel a "burn" during exercise and damage that muscle. That is why proper training requires some degree of muscle soreness on the day after an intense workout. Athletes train by taking a hard workout, feeling sore the next day, and then taking easy workouts for as many days as it takes for the soreness to go away. Since stretching does not reduce muscle soreness, it will not help you to recover faster from hard exercise. The best way to recover from exhausting competition is to move with little pressure on muscles, such as cycling on a stationary bicycle (American Journal of Physical Medicine & Rehabilitation, June 2007).
Stretching Before Exercising Weakens Muscles Elite college sprinters were timed in 20 meter sprints, with and without prior multiple 30-second stretches of their leg muscles. Both active and passive stretching slowed them down (Journal of Sports Science, May 2005). Stretching before competition and training weakens muscles. Stretching prevents you from lifting your heaviest weights or running your fastest miles. It limits how high you can jump, and how fast you can run (Scand J Med Sci Sports, 2013 Mar;23(2):131-48 and J Strength Cond Res, 2013, Apr;27(4):973-7).
Stretching weakens muscles temporarily by almost 5.5 percent. The longer you hold the stretch, the more strength you lose. Holding a stretch for more than 90 seconds markedly reduces strength in that muscle. Stretching reduces power: how hard you can hit a baseball or tennis ball, or how fast you can swim, run or pedal. When you stretch a muscle, you pull on the muscle fibers and stretch apart each fiber at the thousands of Z lines. This damage occurs only at the Z lines throughout the length of the muscle fiber, to weaken the entire muscle. On the other hand, warming up makes muscles more pliable helps you to run faster and lift heavier, and helps to prevent injuries.
Stretching Does Not “Warm Up” Muscles Stretching can never be considered “warming up”. Holding a muscle contraction does not generate much heat and therefore does not warm up muscles. Warm up by starting out your exercise slowly and gradually increasing the intensity. This raises muscle temperature to make muscles more pliable and resistant to injury. Since almost 80 percent of the energy used to power muscles is lost as heat, you must contract and relax muscles continuously to generate the heat necessary to raise muscle temperature.
Warming up before you exercise helps to prevent injuries and lets you jump higher, run faster, lift heavier or throw further. Your warm-up should involve the same muscles and motions you plan to use in your sport. For example, before you start to run very fast, do a series of runs of gradually-increasing intensity to increase the circulation of blood to the muscles you will be using. If you decide to continue stretching even after you have read all of my reasons not to, be sure to warm up first; do not stretch cold muscles. More on warming up
Prolonged Stretching Limits the Ability of Muscles to Store Energy Muscles are like rubber bands. They stretch and contract with each muscle movement. This constant stretching and contracting stores energy. For example, when you run, you land on your foot and the muscle stops contracting suddenly. The force of your foot striking the ground is stored in your muscles and tendons and this energy is released immediately to drive you forward. Your foot hits the ground with a force equal to three times your body weight when you run at a pace of six minutes per mile. Up to 70 percent of the force of your foot strike is stored in your Achilles tendon and other tendons. This energy is released by your muscles and tendons to drive you forward for your next step. Stretching decreases the amount of energy you can store in muscles and tendons and therefore weakens you and you have less stored energy to drive you forward, so you have to slow down.
Contracting Stretched Muscles Can Make Them Stronger Athletes can become stronger by lengthening their tendons before they contract. The longer a tendon, the greater the torque the muscle can put on a joint and the more force it can generate to make you faster and stronger. Passive stretches do not do this. It is more effective to try proprioceptive neuromuscular facilitation (PNF), in which the athlete stretches his tendons and then tries to contract the muscles from the lengthened position. Gymnasts have been shown to increase their flexibility more after PNF stretching than after static stretching (Journal of Sports Medicine and Fitness, December 2014). In fact many athletes incorporate plyometrics into their training programs. For example, they jump off a series of steps consecutively. Their leg tendons are stretched when they land and they contract their muscles to do their next jump. However, this has been shown to increase their chances of injuring themselves.
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