Just Squat!

[Tartulho]

Some interesting Squat articles. Mods, if this is just too much (a.k.a. spam ) just say so an I'll put only the links.

Article 1, Part1:

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Some physicians condemn squats citing how destructive they are to the knees despite scientific studies and millions of personal experiences to the contrary. One sports medicine doctor explained to me why squats were considered to be bad for the knee. He was actually telling me this between his sets of squats! Since sports medicine doctors only see people with injuries, one can guess why they may have developed this belief. The individuals they treat certainly do not a constitute a random sample, let alone a representative population, as any scientist knows is essential to even attempt to formulate inferences.

The NSCA position statement notes:

"Some reports of high injury rate may be based on biased samples. Others have attributed injuries to weight training, including the squat, which could have been caused by other factors. Injuries attributed to the squat may result not from the exercise itself, but from improper technique, pre-existing structural abnormalities, other physical activities, fatigue or excessive training."

An early study suggested deep knee bends with weights (squats) were hazardous to the ligamentuous structures of the knee. Later studies conclude squats improve knee stability if the lifting technique does not place rotary stresses on the knee (Fleck and Falkel, 1986). The NSCA state:

"Squats, when performed correctly and with appropriate supervision, are not only safe, but may be a significant deterrent to knee injuries."


Torque Force

Contrary to propaganda to the contrary, prominent weight training authorities demonstrate the squat with the knees flexing forward at the same distance as the hips flex backwards. Fredrick Hatfield, Ph.D., the first man to squat over 800 lbs, recommends the knees to extend over the feet with the back more upright for quadriceps development. "Strength Training for Young Athletes" by Steven J. Fleck, PhD and William J. Kraemer, PhD, illustrate parallel squats with the knees extending beyond the feet (knees moving forward with same magnitude as hip moving backwards).

Torque force is necessary for the muscles and joint structures to adapt to the respected overload. If the knee does not travel forward during the barbell squat, the quadriceps muscles are not significantly exercised. On the other hand, injury may result if the knee or lower back experience greater torque forces than what they are accustom.

[B]Fry et. al. (2003) examined the hip and knee torque forces of variations of parallel barbels squats and concluded appropriate joint loading during this exercise may require the knees to move slightly past the toes.



Try this simplified qualitative method in determining relative torque forces in the knee and hip joints. First take a photograph of the barbell squat in a full decent with a perspective perpendicular to the joints plane. Draw a line of force through the resistance on its center of gravity, straight up and down, parallel to the force of gravity. Gravity acting on both the body mass and added mass (barbell) contribute to the resistance. On the barbell squat, the center of gravity is between the forefoot and heel. If it is not, the individual will fall over, toward the center of gravity. Incidentally, compression forces act upon the joints during the squat stance.

During the execution of a barbell squat, the knees and the hips travel in opposite directions away from the foot, or away from the center of gravity. Draw a second line on the knee joint parallel to the line of force. Draw a third line on the hip joint parallel to the previous lines. A relative comparison can be made on the torque forces of the knee and hip. Typically the torque forces are similar for the knee and hip joints on the barbell squat; the knees travel forward the same magnitude as the hips travel backwards. Generally speaking, during a powerlift type squat (bar lower behind the shoulders and a wider stance) the knee does not travel forward as far as a bodybuilding type squat. The hips typically travel back further with the torso bent forward on a powerlift type squat. This emphasizes the stronger hip extensors and consequently reduces knee extensor involvement. Knee torque is further reduced by a wide stance.


Rotary Force

The practice of adopting foot rotation to selectively strengthen individual muscles of the quadriceps is not supported by the literature (Boyden 2000; Signorile 1995). Knee rotation during the squat can increase the risk of injury (Fleck and Falkel, 1986). Signorile, et. al. states:

"Extreme outward toe point greatly reduces stability, it does not allow the proper drift of the hips as the lifter descends... Extreme inward toe points are equally dangerous, coupling the same problems of stability, base size and lower body drift with the added danger of bringing the knees together...this movement would place high stress on all connective tissue."


Full (Deep) Squat

Kreighbaum (1996) illustrate the safe position of a deep squat with the knees extending beyond the toes. Kreighbaum explains how a deep squat can be performed little chance of injury to the knee. The variables of concern:

* speed of descent
* size of calves and thighs
* strength of the controlling muscles

The primary danger to the knee occurs when the tissues of the calf and thigh press together altering the center of rotation back to the contact area creating a dislocation effect. The danger of knee injury in this situation may be prevented if either of the following factor are present:

* center of gravity of the body system is keep forward of the altered center of rotation
* muscles of the thigh are strong enough to prevent the body from resting or bouncing on the calves.

Kreighbaum conclude the deep squat is of little danger to the knees unless these variables and factors are disregarded. Certainly only a limit type of athletes may have a sports specific need to perform a full squat. Olympic weightlifters commonly bounce out of a full front squat with near maximum resistances during both the Clean & Jerk and Snatch. Incidentally, the wide stance during an Olympic style squat further reduces knee torque forces.

During the lower portions of the deep squat the lower back may flex if hip flexibility is inadequate. The risk of injury is increased if the muscles of the lower back are not strong enough to support the flexed spine or the joint structures have not progressively adapted to such a stress. Flexibility exercises can be performed if hip flexibility is insufficient for deep, or full squats. See Full Squat Flexibility.


Customization

If the body has not adapted to a greater torque force, injury can result. It is not necessary to avoid the torque force if the muscles and joint structures can adapt. See adaptation criteria. Of the hip and knee joint, the knee is more vulnerable to injury than the hip due to structural and functional differences. Certainly, if an individual has had a history of knee pain associated with these types of movements, the squat can be modified to to place more torque on the hip and consequently less on the knee joint. Based on the above analysis, this can be accomplished two ways. Simply by not squatting down all the way (e.g. 90°) both the knees and hip do not experience as great of torque forces. Although, this decrease is often off set by the tendency to add more weight to the exercise.

Alternatively, by bending at the hip more than the knee, the knee will travel forward less, as in the powerlifting type squat. Recall, the quadriceps will not be exercises as intensely since there is less torque on the knee joint. In addition, since balance must be maintained over the feet, bending over not only transfers more torque to the hips, the torque forces through the spine (lower back) increase; another vulnerable joint for some. Certainly a compromise must be made to evenly distribute the torque force between the knee and the hip / lower back, particularly when both the knees and lower back are healthy.

If the ankle is not flexible enough to allow the knee to travel forward sufficiently, the back will need to be bent forward more to maintain the center of gravity within the foot base. Consequently the lower back with be subjected to greater torque forces. Squatting with the feet wide apart can alleviate part of the problem, allowing the back to be positioned more upright. This solution does not, however, distribute equal stresses on the quadriceps and glutes as would be possible with adequate ankle flexibility.

[Tartulho]

Article 1, Part 2

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Until flexibility can be restored, a temporary solution is to elevate the ankles on a board or platform. This will allow the knees to travel forward the same distance as the hip travels backwards. Elevating the heels may present a risk to individuals with adequate ankle flexibility who have not adapted to greater torque forces through the knee. In which case, the knees can potentially travel forward more than what they are accustom. Even when elevating the heels with insufficient ankles flexibility, resistance should begin light and progress only 5-10% every workout until a true workout weight is achieved so joint adaption can occur.

Obviously, individuals who are at a higher risk for specific types of knee pain may choose to avoid certain exercises specifically designed to emphasis the quadriceps involvement by increased knee torque (e.g. front squats, sissy squats, safety squats, barbell hack squats, leg extensions). Likewise, individuals who are at a greater risk for particular types of lower back pain may choose to avoid certain exercises specifically designed to lower back involvement by increased lower back torque (e.g. squats, deadlifts) or hip torque (e.g. deep glute exercises).


1. Boyden G, Kingman J, Dyson R, (2000). A comparison of quadriceps electromyographic activity with the position of the foot during the parallel squat. J Strength Cond Res. 14(4): 379-382.
2. Fleck, S.J. and Falkel, J.E. Value of Resistance Training for the Reduction of Sports Injuries. Sports Medicine, 3, 61-68, 1986.
3. Fry AC, Smith JC, Schilling BK. Effect of knee position on hip and knee torques during the barbell squat. J Strength Cond Res. 2003 Nov;17(4):629-33.
4. Hatfield, F.C. (1989). Power: A Scientific Approach, Contemporary Books, pg. 158.
5. Kraemer, W.J., Fleck, S.J. (1993). Strength Training for Young Athletes, Human Kinetics.
6. Kreighbaum, E., Katharine, B.M. (1996). Biomechanics; A Qualitative Approach for Studying Human Movement, Allyn & Bacon, 4, Pgs 203-204.
7. National Strength and Conditioning Association. The Squat Exercise in Athletic Conditioning, NSCA Position Statements.
8. Signorile JF, Kwiatkowksi K, Caruso JF, Robertson B, (1995). Effect of foot position on the electromyographical activity of the superficial quadriceps muscles during the parallel squat and knee extension. J Strength Cond Res. 9:182-187.

[Tartulho]

Article 2, Part 1:

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WHAT ALL SQUATTERS “KNEED” TO KNOW

Frederick C. Hatfield, Ph.D., MSS
International Sports Science Association
Return to Hatfield Home Page

Editor’s Note: Dr. Fred Hatfield isn’t called “Dr. Squat” for nothing. In 1987, after 30 years of squatting, he performed a competitive squat of 1014 pounds. By his own estimate, over the previous ten years he had exceeded 800 pounds in the squat more than 1500 times. That’s roughly 500 squat workouts averaging three such monster squats per workout. When asked why he’d do such a thing to himself, he replied, “I KNEEded to!” To this day, his knees are fine.


Squats can be bad for your knees. Period. But they’re good for everything else.

So good, in fact, that you MUST do them. I don’t care if you’re a bodybuilder, a powerlifter or a ballerina. Ya gotta do them! Question is, how? The answer is, as safely as possible without losing any of the benefits! Sorta like drugs, no? The art and science of medicine dictates that while using drugs, you must minimize the risks while maximizing the benefits. If there’s one way to take your iron pill, then, it’s in large doses! That means SQUATTING!

In sports, knee problems are nigh unto a way of life, but squatting isn’t the primary culprit. Among bodybuilders who have knee problems, however, squatting is the only culprit. In both cases, squatting properly can reduce, prevent or ameliorate many, many of the common knee problems inherent in sports. That they will make you a better bodybuilder or athlete is an unquestioned fact.

Speaking of the world of medicine and the practitioners thereof, you’ll find precious few who have any real, first-hand knowledge of squatting technique or its effects (good and bad) on the knees. One who does is three-time California powerlifting champion Dr. Sal Arria, my fellow co-founder of the International Sports Sciences Association. He’s the guy right behind me in the photo of me squatting 1014 pounds. Dr. Arria, in the ISSA’s course text, Fitness: Complete Guide for personal fitness trainers, listed many common nee problems and ways to prevent them. I’ve drawn heavily from that text in writing this article. I also drew from several other sources (see references).


KNEE ANATOMY AND ACTION

Keeping your knees healthy and asymptomatic begins with developing a functional understanding of how this unique joint is constructed (anatomy) and how it does and doesn't function (biomechanics).

The knee is a hinge-type joint, roughly equivalent to a door hinge, but with a little “twist” to lock it into full extension. Instead of a fixed axis (such as a door hinge has), however, it’s a complicated movement consisting of gliding and rotation in such a fashion that the articulating surfaces are always changing. Hence, the axis is always changing. That can lead to trouble, particularly during unweighted exercises such as leg extensions.

It’s almost a law that your quads and hammies should be of approximately equal strength in order to provide “balanced” development. Some experts claim that a ham-to-quad strength ratio of 1 to 1 reduces shear and hamstring pulls. At best, this is mere speculation. When I was a powerlifter, my hamstrings were close to twice or three times the strength of my quads. Most sprinters are much stronger in the mammie department too, because that’s what they all use! If you give attention to muscle balance, beware that speculation is rampant.

Seven different types of tissue comprise the knee -- bones, ligaments, tendons, muscles, synovial fluid (bursa), adipose tissue and articular cartilage.

Bone: The bony structures forming the knee joint are the femur, tibia, and the patella.

Ligaments: Fibrous connective tissue which connects bone to bone, providing stability and integrity to the joint. The knee’s ligaments are divided into two groups, eight interior and six external ligaments.

Muscle: We all have a clear idea as to what muscles are. Clearly, there are no muscles in the knee joint itself. The ones which act upon the knee joint are all external to the knee. They are listed below:
- The quadriceps, the muscles of the anterior (front) thigh;
- Next are the hamstrings, or the leg biceps, located on the posterior thigh;
- The other muscles of the knee all contribute to knee flexion and some to inward rotation.

Tendons: Fibrous bands that that connect the muscles listed above to their bony attachments. The knee’s four extensors form a common tendon of insertion called the quadriceps tendon, which connects to the patella, and (below it) the patellar tendon to the tibial tuberosity.

Bursa: A bursa is a pad-like sac or cavity found near areas subject to friction, i.e. joints, particularly those located between bony prominences and muscle or tendon. It is lined with synovial membrane and contains synovia. There are twelve such sacs in the knee.

Adipose Tissue: For padding.

Articular Cartilage: Cartilage is the connective tissue which provides for a smooth articulation between the bones which form the joint. Cartilage also acts as a shock absorber. The two semi-lunar shaped menisci are the knee's only two cartilages. Located on the tibial plateau, they cradle the femoral condyles, or the rounded knobs of the lower femur. Since the tibeal plateau is flat, and the femoral condyle is rounded, these two menisci (along with the bursa sacs) provide a better "fit" between these two bony structures.


THE THREE CONVENTIONAL METHODS OF SQUATTING

Despite the inherent problems with squatting, all of us have for years put up with them. We squat no matter what, because it has always been thought of as best to do so. That we've gotten by and made progress with the three conventional squatting techniques mentioned below is due in no small measure to the fact that squats are a necessary part of our training. It's what we do.

Powerlifting Squats (wide, intermediate or narrow stance): The distinguishing characteristic of this squatting technique is that the hip angle is acute and the knee is kept close to a right angle. The knees remain over the feet. This places the load on the gluteals and hamstrings, enabling greater loads to me moved. The danger is the shear placed on the lumbar spine, so great erector spinae strength must be developed prior to attempting this technique with heavy weights.

Olympic Squats (also called "High Bar Squats" or "Bodybuilding Squats"): Olympic lifters trained this way many years ago, and bodybuilders favor it because the brunt of the load is caried by the quads. Bodybuilders claim that squatting this way “prevents” getting overly-developed gluteals. The hip is at a right angle and the knees are acutely flexed, placing great shear on the knees.

Athlete’s Squats: If you’re going to squat for fitness or sports, and do not have a safety squat bar, this is the safest way to go. Please refer to the sidebar accompanying this article for a detailed description of the proper technique. Bear in mind that shear at both the knees and at the lumbar spine is still present, though far less than in the powerlifting or Olympic styles of squatting.

[Tartulho]

Article 2, Part 2:

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ALTERNATIVE METHODS OF SQUATTING

Here are a few leg exercises (including some techniques I’ve developed over the years). Some may provide both protection from and ways around knee injuries. Others, however, are merely alternatives to squatting, with little justification or with little in the way of added benefit beyond what squatting affords. Still others are downright dangerous and should be avoided.

Safety Squats: The "safety squat bar" (sometimes called the "Hatfield Bar") is, in my opinion, the safest method of squatting because the shear on knees and low back are reduced significantly. The accompanying sidebar compares safety squats with the conventional methods of squatting.

Leg Extensions and Leg Curls: These two exercises are favorites of bodybuilders and fitness enthusiasts. While they may be "OK" for them, they are decidedly useless for otherwise healthy athletes. Eliminate them from your training except during times when, due to injury, they're the only movements you can perform safely and pain-free. Further, most therapists nowadays recognize that unloaded movements such as the leg extension places great shear on the knee joint, and is potentially dangerous, particularly the lower half of the movement.

Lunge Squats: There are many variations to the squat movement. One extremely important one is the "lunge" squat. Lunge squats can be done to the left, right or forward, placing the weight on the lead leg. The quad muscles of the lead leg are targeted with both front and side lunges. Side lunges also target the groin muscles (especially the adductor gracilis of the opposite leg). Careful though! Advancing in a forward direction into the lunge position places tremendous shear on the knee joint! It’s best to lower into the position insterad of “lunging” into it.

Twisting Squats: From a front lunge position, you can "twist" to the opposite side of your lead leg while ascending from the lunge position. This is an exercise which I had originally developed for athletes like down-linemen or shot putters who are required to explode laterally while twisting upwards out of a lunge or squat position. Bodybuilders and all other athletes benefit too, in that fuller leg development is achieved in the sartorius and adductor muscles of the upper leg. "Twisting squats," as they're called, require a special harness to wear on your chest and shoulders to hold the short bar in place. DO NOT attempt to do twisting squats with a long bar, or with the bar placed on your shoulders! Loss of control in this exercise can mean groin, knee and low back injury. Also, remember that torque shear forces within the knee must be held to a minimum through careful, controlled movement.

Hack Squats and Leg Presses: Hack squat machines and leg press machines of all varieties come in handy if:

1) you haven't learned how to do squats properly yet,
2) you don't have a safety squat bar,
3) you don't have a spotter to help you do squats,
4) if your back is tired or injured and you can't do regular squats.

At best, they're poor substitutes for conventional or safety squats, especially due to the fact that destructive shear forces in the knee can be as much as 30 percent higher than with conventional techniques. This caution also applies to Sissy Squats, Front Squats and Overhead Squats (also called snatch grip squats).

Smith Machine Squats: Assuming that the machine is bolted to the floor (most are not) and has a safety device (most do not), it’s a pretty safe alternative to conventional or safety squats since the same technique rules apply to Smith squats as apply to safety squats. The effect is derived from the fact that you’re actually “leaning” against the bar, thereby minimizing shear forces in the lower back. However, shear on the knees is still considerable. Beware!

Partial Squats: Contrary to popular belief, squatting above the parallel position -- knees at approximately 90 degrees flexion -- is actually more dangerous that going to parallel or below. There are two reasons for this:

1) When you look at the structure of the knee, you’ll note that at about 90 degrees flexion, the tibia’s sloped shape allows it to shear upwards and over the femur. This causes a lot of compressive force against the patella, and pulls forcefully against the posterior cruciate ligament. These potentially destructive forces become significantly less as you descend further into the squat postion, largely due to the fact that the tibia’s surface isn’t as sloped posteriorly, where it articulates with the femur.

2) The second reason is that, because of better leverage while doing partials, you’re obliged to use a far heavier weight in order to gain any sort of adaptive overload on the muscles involved -- dangerous to the entire shoulder girdle, neck, low back and knees.

Heel or Block Squats: The practice of putting a block of wood under your heels is widespread among bodybuilders in order to gain better isolation of the quads while squatting. The problem is that your knees go way out over your feet, placing great shear and compression on both the cartialge and ligaments of the knee. This applies to Olympic or Athlete squats, but not to powerlifting squats where a conscious effort is made to keep your knees above your feet. As a powerlifter, I used 2 inch heel inserts in order to reduce the time it took me to get my hips back under the weight during the ascent. This practice gave me at least a 5 percent advantage in weight hoisted.


THE GEAR OF SQUATTERS

Two pieces of standard squatting gear -- your shoes and knee wraps -- should be carefully selected and used, not only to maximize both the short- and long-term health of your knees.

Shoes: Your shoes are literally where the rubber hits the road. Think of your shoes as the foundation of your leg training sessions. Wearing old or broken down fitness shoes for heavy squatting is like putting old, worn-out tires on a race car! There are several reasons to avoid training in your "tennies." First, most general purpose fitness shoes simply lack adequate longitudinal or transverse stability, and have little or no arch support for heavy lifting. As you squat, your feet may develop a tendency to pronate, or "cave in" toward the inner side. When this happens, the knees are also forced inward, leading to a constant strain on the medial collateral ligaments, excessive shear force on the meniscus, and improper patellar tracking, which in turn can lead to chondromalacia. If your feet tend to pronate anyway, or if you're prone to being"knock kneed" (and these two conditions are very often associated with one another), it becomes even more important to select good training shoes.

Another important reason for using specialized shoes for squatting is that they provide a deep and solid heel cup, which prevents the foot from rocking and rolling to the outside, causing great stress on the lateral collateral ligaments of your knees.

Finally, there is a difference between a shoe being worn out and being broken down. Even if your shoes look fine, they still may offer no arch or heel support at all, either because they never had any to start with, or because after months of use, the supports have compressed to the point to where they no longer function as they were intended. Think about it -- a tennis shoe is meant to support a 160 pound tennis player, NOT a 600 pound squat! Loads like these cause the shoe to break down without visual signs of wearing out.

Knee wraps: Knee wraps have long been a mainstay for competitive powerlifters, and for good reason. When properly used, wraps can dramatically improve knee safety during heavy squatting. More important, however, is the fact that wraps give you at least a 5-10 percent increase in how much you can lift. But there’s a downside to using wraps also. Wearing them while squatting under 80-85 percent or so is counterproductive to providing adaptive overload to various tissues comprising the knee. Simply, the wrap absorbs the stress instead of the tissues, so they never get stronger. Guidelines for wearing knee wraps during squatting are as follows:

1) Keeping your knees warm (wrapped loosely) improves blood flow and
2) tissue elasticity,
3) If the weight you're using is greater than 80-85 percent of your maximum,
or
4) If you have knee problems that require wearing wraps.

If you STILL insist on using them, go ahead and do so, but with the following points in mind. When buying knee wraps, opt for the ones that:

1) weigh the most (more fabric equals greater protection,
2) that stretch out to at least 19-20 feet in length (more times around the knee equals greater protection).

Do NOT purchase wraps that are bulky, heavily elasticized and stretch out to under fifteen feet. Tightness from elasticity is NOT affording you any real support!

[Tartulho]

Article 2, Part 3:

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Here are the steps to go through when putting your wraps on:

Sit on a chair or bench. Begin with the wrap completely stretched and rolled up (this makes the process much easier than fighting to stretch the wrap as you go). With your leg straight, start applying the wrap below the knees, working upward. Wrapping from "in" to "out," (counterclockwise for the left leg, clockwise for the right -- this helps avoid improper patellar tracking), anchor the wrap by applying 2 layers below the knees, then move upward, overlapping each previous layer by one-half the width of the wrap. Apply the wrap tightly as you move past the knee, stopping somewhere on the lower third of the thigh (powerlifting rules allow 10 centimeters above the patella). Most of the wrap is wound around the leg just above the knee joint in order to “pin” the quadriceps tendon to the femur below -- better leverage). Tuck the end of the wrap under the previous layer to secure it. Repeat for the other leg.

An alternative more suitable for fitness and bodybuilding, perhaps, is to wrap tightly around the upper shin (where the patellar ligament attaches), then more loosely wound over the kneecap itself (this is important to avoid grinding the patella into the femoral condyle, creating a case of chondromalacia for yourself), then tightly wound over the lower quarter of the thigh.

The rationale for wrapping the knees prior to heavy squatting is that it reduced the pulling forces on the lower quadriceps and the quadriceps tendon at it's attachment to the patella. This translates to significantly reduced chances of avulsing (detaching) your quadriceps tendon or tearing your quads during heavy squatting. The chances of your patellar tendon avulsing from your tibia are a bit less, but nonetheless omnipresent.


STANCE VARIABLES AFFECTING KNEE HEALTH

Whenever you squat, hack squat, or leg press, your foot position is an important variable in determining not only the results you'll obtain from the exercise, but also the safety of your knee joints. Although each individual must determine their own best stance exercise per exercise (based on their own anatomical peculiarities such as height and leg length), the following variables must be taken into consideration:

1) The quadriceps muscles can contract more efficiently when the feet are pointing slightly outward. They should NEVER point straight ahead. If you squat with a very wide stance, your adductors tend to assist the quads. This can result in stress to the medial collateral ligament, abnormal cartilage loading, and improper patellar tracking.

2) During the decent phase of any type of squat, do not allow the knees to extend beyond your feet. The further your knees travel over your feet, the greater the shearing forces on the patellar tendon and ligament.

3) Make sure that your knees point in the same direction your feet are pointing during the descent and ascent. Because of weak quads, many lifters inadvertently turn their knees inward during the ascent, placing great stress on the medial ligaments of the knee.

4) Although many top bodybuilders advocate a very close stance for the purpose of isolating the outer quads, this is a myth, and it places you at risk, particularly since you’ll have to use a lot of back to execute the lift, or (if you use heels) place great shear and compression on the knees. The best way to squat is to put your feet in a position where they can generate the greatest opposing force to the weight (“the athletic postition”). Follow the squatting technique pointers presented in the sidebar accompanying this article.

5) Warm up thoroughly before squatting. Your muscles and other tissues of the knee joint LOVE warmth! Remember the analogy, cold taffy breaks, warm taffy doesn’t.

6) Maintain reasonable flexibility in the joints of your lower extremities and back. Many knee injuries can be traced back to poor position resulting from inflexibility.

7) Finally, be very careful in the exit out of the rack, and getting "set" in the squat stance. After lifting the weight off of the pins, you should take just one step backward and immediately assume your squatting stance. This takes time to master, but eventually all the minute adjustments can be pared down substantially. Once set in the stance, keep your feet "nailed down" for the duration of the set. Many people "fidget" with their feet and toes between reps which can cause a variety of problems ranging from a break in concentration to a loss of balance -- and attendant stress on your knees.


COMPARING SAFETY SQUATS AND CONVENTIONAL SQUATS

CONVENTIONAL SQUATS

1) The chance of leaning forward or rounding your back under heavy loads is always a problem; Falling off balance forward or backward also jeopardizes your safety during heavy squatting;

2) Squatting with a straight bar, you're forced to use a load that you can handle in the weakest position. This results in using an inadequate amount of weight in the strongest position of the squatting motion;

3) Your shoulder girdle, shoulders, wrists and elbows often take a beating holding the straight bar firmly in position; Discomfort to the back of the neck (typically at the 7th cervical vertebra) where the bar sits is a problem we all shrug off as part of the game;

4) Missing a squat attempt is something which happens to all of us from time to time, often with dire consequences; Not being able to squat because of the lack of competent spotters has been one of my personal gripes;

5) Individual anatomical peculiarities often make it difficult to assume the most efficient stance; Conventional squatting places the weight behind your body's midline. That caused you to lean or bend forward for balance.

6) Perhaps the most dangerous part of squatting is the need to take several steps backward to set up, and then return to the rack after squatting. This factor alone accounts for over 75 percent of all squatting-related injuries!

SAFETY SQUATS

1) Your hands are not holding the bar. Rounding, imbalance or leaning is avoided by exerting pressure against the power rack handles and thus maintaining a perfectly straight back throughout the entire squatting motion;

2) Your hands can be used to help you through sticking points. This unique feature allows you to work with heavier weights in the ranges of movement where you are strongest and gives you help when you are weakest. You are exerting closer to your maximum effort through the entire range of motion;

3) The padded yolk that the Safety Squat Bar is equipped with effectively eliminates neck and shoulder girdle discomfort. And the fact that you needn't use your hands to hold the bar on your shoulders eliminates wrist, shoulder and elbow discomfort;

4) You can use your hands to avoid missing a squat attempt;

5) With the Safety Squat Bar, the weight is distributed directly in line with your body's midline, This,together with your hands, you can “tailor” your technique to your body;

6) Finally, because you are holding onto handles build onto the squat rack, you do not back up before squatting, and you are not obliged to walk back into the rack after squatting. This element alone has the potential of eliminating up to three quarters of all squatting-related injuries.

[Tartulho]

Article 2, Part 4:

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PROPER TECHNIQUE FOR THE ATHLETE’S SQUAT

Position the bar on the squat racks at a height approximately three to five inches lower than your shoulders. Check your equipment -- weight even on both sides? Collars in place? Spotter rails adjusted? Is the area free of loose plates and debris?

A recommended way to evenly disperse the weight across your shoulder girdle is through the use of a Manta Ray (TM), a neat little device which clips onto the bar. This recommendation is made because the bar alone can cause discomfort or injury when sitting atop your 7th cervical vertebra.

With at least two spotters standing by (NEVER only one spotter), position your hands evenly on the bar and, with your feet squarely under the bar, lift it from the rack with the legs. Step back just enough to avoid bumping the rack during the exercise, and position your feet at a comfortable width -- this is called the “athletic stance,” where your force output capability is at its maximum -- usually a bit more than shoulder width).

Your weight should remain centered over the back half of your feet throughout the descent and ascent, not on your toes. Descend with control into a position where the tops of your thighs are about parallel with the floor, keeping your torso and back erect so that your hips remain under the bar at all times.

Do NOT allow your hips to drift backward, your knees to drift inward or out beyond your toes, or your torso to incline forward. A check on proper position is to ensure that the angles formed at the knee joint and hip joint are close to being equal. By contrast, powerlifters almost always have more of an angle at the hips, and close to a right angle at the knees.

You should go to a depth necessary to stimulate maximum quadriceps and gluteal contraction, but not so deep that:
1) your knees are traumatized, or
2) hyperflexion of your lumbar spine exposes you to serious back injury.

Descend to a depth where your thighs are approximately parallel to the floor. Vigorously rise out of the squat position following the same path that you descended -- the torso and back remain erect and the hips remain under the bar throughout the ascent.

As your leverage improves throughout your ascent, accelerate the bar, always bearing upwards against the weight with maximum force. Slow down just short of lockout in order to eliminate unnecessary ballistics. Repeat the squat movement for the required number of reps.

The use of supportive devices such as power, suits, wraps and belts is not advised except in cases where the weight is extremely heavy.This is so your body receives adaptive stress instead of your gear. Your gear will rob you of this elemental benefit of squatting.

When returning the bar to the rack, have the two spotters carefully guide you in, being sure that your hands are not in the way of the racks. Your fatigued state has diminished your control over the heavy weight, so exercise caution in the return to the racks.


A LISTING OF SQUATTING TECHNIQUES

- Powerlifter’s Squats
- Olympic Squats
- Athlete’s Squats
- Safety Squats
- Twisting Squats
- Lunge Squats
- Side Lunge Squats
- Partial Squats (above parallel position -- knees at approximately 90 degrees flexion)
- Box Squats
- Jefferson Squats
- Hack Squats (with barbell or machine)
- Leg Presses (angle of weight ascent ranging from 0 degrees (perpendicular to floor) to 90 degrees (parallel to floor)
- Overhead Squats (also called snatch grip squats)
- Magic Circle Squats (also called Rader squats)
- Sissy Squats
- Front Squats
- Platform Squats (Also called Parillo squats)
- Zane Squats
- Platz Squats (Olympic squats done with a bent bar)
- Bear Squats
- Front Harness Squats
- True Squats

[Tartulho]

Article 2, Part 5:

Quote

COMMON PROBLEMS OF THE KNEE

Chondromalacia patellae: Softening of the articular cartilage of the patella that is produced by osteoarthritic degeneration. Such cartilage is unsuited for the high compressive loads and frictional forces involved in squatting, and roughening of the underside of the kneecap is common. Tight quads are responsible for 80% of chondromalacia. Other causes include aging, repetitive overuse, and faulty biomechanics due to genetics.

Patellofemoral Pain Syndrome (PFPS): Exemplified by pain in front of patella, which intensifies during activity. Also, pain during extended sitting, and/or walking up stairs. PFPS is further characterized by crepitus (noise), without instability. PFPS is considered to be a tracking problem ofthe patella, caused by an imbalance between the medial and lateral quadriceps. The damage to the underside of the patella is not unlike uneven tread wear in a car that needs the tires rotated.

Unstable Knee Joint: Knee suddenly gives out. This is often caused by old injuries which have overstretched the knee ligaments.

Locked Knee: The usual cause of locked knees is a torn meniscus or a loose body within the joint capsule.

Swelling/Tightness: Nearly always indicates an internal injury. See physician immediately.

Crepitus: Noisy knees are no reason for concern, UNLESS accompanied by pain and/or swelling.

[Aren_Tyr]

Terrific post, looks like a lot of very interesting information.

I haven't got the time to read it all now, but will do when I get the chance (probably at weekend).

I really want to work on doing full-range squats, because I think they obviously have huge benefits. I need to work on developing a flawless technique first, then start progressing with heavy weight.

Aren.

[hailtotheking]

I personally find front squats are better than back squats for athletic developmend and bodybuilding, for a number of reasons:

a) they hit the quads more than back squats, giving you good even development of the glutes and thighs, whereas, in my experience, the main thing back squats are good for is giving you a big ****

b) they are safer, becuase the bar is in front of you, as opposed to on your back, which means you can just drop it if you need to, and they hammer the lower back alot less

c) they force better form than back squats. To do front squats without dropping the bar, you MUST stay almost completely upright, whereas in back squats you can lean forward ALOT and do a kind of squat / good morning hybrid movement to get the bar up, placing much of the load on your glutes and lower back, instead of the legs. I have seen many a powerlifter humbled by the front squat because of this fact.

d) front squats offer you alot more progressions to work off of them, such as push presses, jerk presses, cleans, and snatches, and any other forms of overhead lifting.

[Tartulho]

I've highlighted some of the main points for those of you who want just a quick read. HTH.