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Disa Hatfield's Powerlifting Q&A Articles Database Articles by Writer Articles Written by ISSA Certified Personal Trainers Disa Hatfield's Powerlifting Q&A

"All your powerlifting questions answered by a powerlifting champion!"

Disa Hatfield's Powerlifting Q&A

By: Disa Hatfield, BS, MAP

You asked, I answered! Here are some of the top powerlifting questions that I have received by e-mail and my detailed answers.


Will having sex limit your strength gains?


Sexual activity should not limit your training. One study showed that sex did not affect maximal power or mental concentration in athletes. However, vigorous athletic intercourse may affect the short-term recovery of an athlete, and researchers suggested that you do not engage in sexual activity 2 hours preceding an event.

While most research agrees that sex should not affect your performance, there does seem to be a few discrepancies, especially concerning psychological factors. For instance, heart rate and blood pressure responses are different when sex is with a long-time partner or someone new. The differences in physiological responses are most likely due to the added stress of being with an unfamiliar partner. Also, for some athletes, sexual activity or lack of sexual activity is part of a normal routine, and any changes in the parameters of that routine could cause a certain amount of emotional stress.

Many people speculate that hormonal responses that occur during sex may have an effect on regular training performance. However, it appears that the physiological hormonal response to sex is temporary, and should not negatively affect your training or athletic performance. In fact, if engaging in sex before training or competition is normal and customary, there is every likelihood that your performance would be somewhat diminished if you were to abstain from it.


How tight should a belt be worn during a deadlift?


Recently, I have heard a lot of conjecture on how tight a belt should be worn while deadlifting. Some people say it should be worn loose to allow your abs to push out on the belt. Others say it should be worn tight to enhance intra-abdominal pressure.

Most research agrees that a snug fitting belt is more beneficial. A belt will increase the intra-abdominal pressure, thereby pushing your viscera against the anterior aspect of the lumbar spine. This, of course, helps to stabilize the lower spine and prevent injury. It has been suggested that a weight belt may increase explosive power in the squat, though this effect has yet to be tested on the deadlift.

Wearing a tighter belt while deadlifting does give the appearance that the lifter is "pushing out" on the belt, but it appears that maintaining the tight intra-abdominal pressure is more beneficial than allowing your belly to expand. This notion does warrant more research, however, for two reasons. One, we know that sumo-style and conventional deadlifters produce different loads on the lower lumbar. It may be hypothesized that sumo lifters would not require as tight a belt as conventional lifters, since shear force on the lower lumbar is reduced. Two, depending on the size of the lifter, a tight belt is sometimes not an option. A super heavyweight with a large belly and a tight belt may not be able to comfortably get down and grasp the bar. Furthermore, some larger lifters have perfected the technique of using the size of their belly to bounce off of their legs in both the deadlift and the squat to aid in the concentric part of the movement. But until more research is available, I suggest a tighter fitting belt as long as it does not hinder your range of motion.


My knees pop when I squat, should I be worried?


The clicking noise you hear is called crepitus. While crepitus is often listed as a symptom of osteo-arthritis, it is not always an indicator of it. In this case, creptius is caused by bone grinding on bone as the joint integrity is diminished. Crepitus also sometimes accompanies tendonitis. The cause of pain-free crepitus is unknown, but the leading theory is that the sound comes from the release of gas from small bubbles within the joint structures or tendons. If crepitus is accompanied by decreased range of motion in the joint, stiffness, or pain, a physician should be consulted.


I heard you're supposed to exhale during the sticking point of a lift, but I've also heard that you should exhale through the whole concentric portion of the lift. What's the right way?


Holding your breath while exerting force can result in the Valsalva maneuver (Valsalva was the Intalian anatomist who first explained the phenomenon), a condition in which thoracic pressure from the weight resting on your shoulder girdle restricts blood flow to the brain. For non-competitive lifters and assistance exercises, which are done at submaximum weights, I would recommend exhaling through the concentric part of your lift. When lifting maximum weights, the thoracic pressure will help you to stabilize your chest and shoulders, and you will find it easier to exert more force. However, holding your breath for more than a few seconds while exerting maximum force may cause you to pass out. This will lead to red lights of course, not to mention weight falling on you. So, it is advisable to hold your breath in the start of the concentric portion of the lift, then begin to exhale on the way up.


How much water weight can I safely lose before a competition?


Making weight is a common practice in many sports, and powerlifting is no exception. However, there are definite health risks associated with dehydration, as well as detriments to performance. Fluid loss of even 1% of body weight is associated with decreased thermoregulatory function, such as increased core body temperature. Further loss of up to 5% of body weight can result in potentially dangerous cardiovascular strain and inability to dissipate heat. If your federation requires you to weigh in the morning of the competition, you should plan on losing no more than 2% of your body weight within 48 hours of weigh-in to ensure a high level of performance. For a lifter who wishes to compete as a 181?er, this means that he or she should weigh no more than 185 pounds in the few days prior to the meet. Some research studies suggest that losing up to 4% of your body weight within 5 hours of competition is acceptable; however these results were accompanied by a high carbohydrate diet. In order to make weight, many powerlifters are forced to decrease their carbohydrate and overall caloric intake for up to two weeks before a meet. If your federation has 24-hour weigh in, a larger bodyweight reduction is possible, but you should still expect significant strength decreases, especially if you were following a low-calorie, low-carbohydrate protocol leading up to the competition.

If you cut weight before a competition, be sure to adequately hydrate yourself as soon as possible. A sports drink with a glucose solution of about 6 to 8% will be absorbed most rapidly. Many lifters also consume a large amount of sodium after weigh-ins to avoid muscle cramping. However, there is a tendency to overdo this practice and in doing so many people neglect other electrolytes that are needed, such as potassium and magnesium. Most sports drinks contain the proper electrolyte ratio needed, and ingesting excess sodium is not required.


I have been seeing reports of young children competing in powerlifting. Can?t heavy weight training stunt your growth?


The evidence clearly states that a safe and monitored strength training program is NOT harmful for even very young children. A moderate strength training program can help increase strength, decrease the risks of injury while playing sports, and increase bone density. The American Academy of Pediatrics has put forth a pro-strength training statement.

The American Academy of Pediatrics position on strength training supports the implementation of strength and resistance-training programs, even for prepubescent children, as long as well-trained adults monitor them and that they take into account the child's maturation level. The only limitation the AAP suggests is to avoid repetitive maximal lifts (lifts that are one repetition maximum lifts or are within 2-3 repetitions of a one repetition maximum lift) until they have reached Tanner Stage 5 of developmental maturity. Tanner Stage 5 is the level in which secondary sex characteristics have been developed. Usually, at this stage adolescents will have also passed their period of maximal velocity of height growth.

The AAP's concern that children wait until this stage to perform maximal lifts is that the epiphyses, commonly called growth plates, are still vulnerable to injury. It is repeated injuries to these growth plates that may hinder growth. For this same reason, two of the leading researchers in the field of youth fitness, Doctors Fleck and Kraemer, agree that repetitive maximal lifts should be avoided. However, Fleck and Kraemer and the AAP agree that a strength-training program that doesn?t include often-performed maximal lifting is beneficial for prepubescent and pubescent youth.

As long as the parents and coaches of young powerlifters do not sacrifice form and technique for lifts well beyond the capabilities of their young charges and limit the amount of maximal lifts they do, the inclusion of powerlifting in a well-rounded sports and recreational activity program will actually benefit their physical development.


I have read that the stretch-shortening cycle is important to squatting, but what is it exactly and how is it trained?


The stretch-shortening cycle is defined as an eccentric-concentric coupling phenomenon in which the involved muscles are rapidly and forcibly lengthened, or stretch-loaded, and immediately shortened in a reactive or spring-like manner.

It consists of three phases: (1) the eccentric phase, or the negative portion of a lift, such as the descent in a squat, (2) a short pause between phases 1 and 2 called amortization, and (3) the concentric phase, in which the muscle produces the desired movement (the upward movement in the squat).

In layman's terms, your muscles and tendons can act like a rubber band in certain conditions. During the eccentric phase, elastic energy is increased and stored with a rapid stretch. A very short amortization phase leading to an immediate concentric phase will release this elastic energy, increasing the amount of force produced.

An important point to remember is that the stretch-shortening cycle is only activated in quick, explosive movements. You are losing valuable force potential with a slow descent and a pause at the bottom of the squat. As an example, perform a standing vertical leap and measure the height of the jump. Next, try an approach jump in which you take a few steps before you leap or a double jump in which you jump twice in rapid succession and measure the height of the second jump. Because of the eccentric stretch loading of the approach jump and the double jump, your vertical leap height will have increased from the static jump height.

There are two effective methods to improving your force generating capabilities. Plyometric training is used in many sports to increase starting strength and power. While not often utilized by powerlifters, we still may benefit from complex training, a system in which some plyometric training is incorporated with our training routine at periodized intervals.

A second method, which has become very popular in powerlifting, is the use of bands to increase the eccentric loading of a lift. Bands have actually been used to enhance speed, power, and strength in other sports such as swimming and sprinting. A recent study in the Journal of Strength and Conditioning Research using increased eccentric loading in the bench press shows promise that this method will increase maximal strength. While the methods used in this study may not be easy to duplicate in a normal gym setting and more research is needed to develop an optimal and user friendly training program, this study is also accompanied by anecdotal claims of the efficacy of band training, which cannot be discounted.


Disa Hatfield, BS, MAP

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