And what were the physicians being taught at this time?
"…although these studies (by Lemon and others) raise intriguing questions, researchers seem to agree that most people — including athletes — are able to obtain all the protein they need through diet, without resorting to the use of supplements." (8)
Like the use of the word resorting? It gives the perception that the protein supplement user is a desperado taking some kind of addictive substance or risking his health!
And more of the same:
"It does not appear that protein supplements are needed to supply this ‘extra’ protein since athletes in general, consume adequate calories and protein." (12)
And of course there was the use of fear to discourage heretical behavior like breaking out of mainstream values, the old "how long can I make the list of possibilities that rarely if ever have happened" list! Here’s an example:
"Chronic protein overloading can produce undesirable side effects… can worsen dehydration and increase the athletes risk of developing heat-related injuries… contribute to changes in renal function, total renal blood flow and glomerular filtration rate… detrimental to kidney structure and function, and increase the athlete’s risk of developing renal diseases…increase the osmotic load in the intestine and produce severe gastrointestinal disturbances…" (20)
The sky is falling! The sky is falling! Fortunately not everyone went down this grim path in relation to protein!
"There does not appear to be any harm in eating excess protein in the healthy individual." (17)
As the co-author of the above article was Michael Stone, you can see his practical experience as a lifter may have given him better insight than some other non-practitioner researchers.
But as an average "I go to the gym and lift weights to get big and strong" type of person, there was some sense in the trash around this era. One Muscle and Fitness writer asked the question in the title of an article, "How much protein do you really need?", and the subtitle was a sight for sore eyes!
"Scientists argue, but bodybuilders know better!" (1)
No wonder, he had protein-whiz researcher Peter Lemon on his advisory team!
Trends in Drugs
In his classic 1978 book titled Anabolic Steroids and Sport, James E. Wright reviewed the conclusions of early research on the effect of anabolic steroids on various physiological parameters: (22)
1968: Weiss and Mueller — No statistically significant changes in grip strength or bodyweight.
1970: Munson — The steroid group did gain significantly more bodyweight and reduced skin fold.
1971: Casner, et al — Only statistical significant change observed was in bodyweight.
1972: Fahey and Brown — No significant differences between their improvements.
1985: Fowler et al — No significant changes in bodyweight, muscle size or skin fold thickness.
From these early studies came the consensus opinion that steroids just didn’t work. Bill Phillips sums this up well in his early book on steroids with the following statement: (13)
"Most athletes lost all faith in the medical community’s credibility years ago when they persisted that anabolic steroids were not effective for enhancing physical performance in spite of the fact that athletes were proving them wrong everyday."
Even when the researchers concluded that steroids may have a physiological impact, they seem determined to negate the performance benefits!
"Previous studies, as cited in this paper, have found no increased bodyweight due to anabolic steroid therapy in young men… results of this study do demonstrate that an increase in bodyweight was found in normal young men after anabolic steroid therapy. However, of much interest to the physician and to the athlete is the possibility that these weight gains in normal young men are fluid retention and, therefore, represent no advantage to the athlete; indeed, they may represent a hindrance." (2)
So there you have it; during the decades of the 60’s, 70’s, and 80’s you could have been lead to believe that:
• Deep squats should never be done because they’re bad for the knee ligaments.
• You don’t need any more protein than Billy Bob the couch potato, and you definitely don’t need to use (should I say "resort") to the use of supplemental protein.
• Anabolic steroids don’t lead to weight gain, muscle size increases, increased strength, lower body fat, or performance increases in sports.
Sure, you can be wise in hindsight, but what about some of the "trends" or dominant beliefs you’ve been confronted with during the last decade, and that may continue to receive support for another decade or so? Are you going to be able to sift through this information and reach your own conclusions? Or are you going to go with the flock? I hope you can use some objective, plain-old common sense combined with your own intuition. (And yes, it’s okay to respect your intuition!)
Here are some recent trends that seem to be attracting a flock mentality:
The "Evil" Leg Extension
Leg extensions were a bodybuilding favorite, a so-called "finisher" exercise, an isolated exercise for the quads where you could really see the impressive striations of the uni and bi-pennate (fan shape) muscles of the vastus medialias and rectus femoris.
Up until solid biomechanical analysis of the relative joint forces involved in the leg extension and squat, it seemed most lifters were happy to do both. However, once the information contained in articles such as the excellent review of the squat by Chandler (3) and the NSCA Position Paper on the Squat (11), there seemed to be a knee-jerk reaction to the leg extension.
Yes, it was revealed that per unit area, relative loads under the knee were greater in the leg extension. Yes, there may be more shearing forces, more anterior tibia translation and so on. But this is relative to the squat, not relative to good or bad! Like any exercise, there are people with conditions where it may not be advisable to perform leg extensions. But there are also people with conditions where it may not be advisable to perform squats!
The overreaction in the early 90’s failed to observe more recent conclusions regarding the relative joint forces in the squat (a closed kinetic chain exercise or CKC) and the leg extension (an open kinetic chain exercise or OKC). Neitzel and Davies (10), in an excellent article regarding the benefits and controversy of the parallel squat in strength training and rehabilitation, concluded:
"When exercising from 30 degrees to 90 degrees ROM, OKC may be a better choice than CKC exercises because there may be less PFJ [patella-femoral joint] stress and more VMO electromyographic activity."
The point I’m making is that the leg extension has something to offer, and should be considered as an option and not ruled out of contention! As the statement above shows, it in fact may bring to the table a unique opportunity and benefit not offered by any other exercise!
Machines and Injuries
There’s been a recent surge in interest about weight training injuries, which is good and bad — good that attention is going into this area, bad that there are injuries in the first place!
There are many factors that contribute to injuries, and in the case of chronic injuries (injuries that form over a long period of time), the contributing factors can be less clear, and in some cases, overtly present only in the past. So it’s understandable that some mis-conclusions may be drawn as to the cause of the injuries.
I don’t know where it came from but it became evident during the last half of the 1990’s that there was a growing and propagated belief that "machines cause injuries, so don’t use them!" It appears the Smith machine and leg extension copped the worst flogging, to the extent that some facilities reacted by removing these devices.
I don’t mean to state the obvious, but how can a lump of steel with a touch of vinyl cause an injury? From a pure, literal interpretation, from a common denominator, or cause-effect analysis, the machine can’t do this! Perhaps a person using the machine can create an injury, but it doesn’t mean it has anything to do with the machine. Don’t blame the machine for human error.
From my perspective, conclusions such as "the machine caused the injury" may be overlooking the contribution of many other factors, including lack of technique, lack of preparation, lack of progression, existence of flexibility and or muscle imbalances, excessive soft-tissue shortening, and so on.
Machines have their place. Give it some clear objective analysis before you reach the conclusion that the machine is bad and has to go. Don’t throw the baby out with the bath water!
The Good Morning and Stiff-Legged Deadlift
In a recent article I recommended doing a good morning or stiff-legged deadlift with a rounded back. I didn’t expect it, but it seems to have had a similar impact that my full-range bench suggestion had at that LA seminar!
If you review any literature on strength training prior to about 1990, there was never or rarely an objection to performing a rounded back good morning or stiff-legged deadlift. But during the last decade there seems to have grown this belief that the rounded back technique is bad and shouldn’t be done.
I’m stunned by the acceptance throughout this industry of this perception. It became really obvious in seminars when I’d ask someone to do a good morning or stiff-legged deadlift. The only one they demonstrate is the flat back version, and it appears they have never seen or contemplated that a rounded back version could be associated with the exercise name!
It may come as a bit of a surprise, but up until the early 1990’s, if I’d asked a seminar participant to show me the good morning or stiff-legged deadlift, they would’ve done the rounded back version! So what’s changed?
My guess is this. The flat back, chest up version of the stiff-legged deadlift was popularized in the US by various former European weightlifting coaches. The style they taught became know as the Romanian deadlift. It has a unique training effect of better stretch and isolation of the hamstrings and it became very popular.
Now about the same time there were writings describing the rounded back stiff-legged deadlift as "wrong" and "dangerous." I’m not sure if these writings coincided with the rising popularity of the Romanian deadlift by accident or fate, or because there was an urge to justify the new, popular version by finding fault in the formerly more popular version.
Two recent NSCA articles reinforce the attitude of discouragement towards rounded back stiff-legged deadlifts :
"The back is flat and should not be allowed to become rounded — especially in the lower depths of the movement." (4)
Now these authors did generously concede that "rounding of the back and shoulder is acceptable when using very light weight to target intervertebral muscles." The following authors didn’t make that concession:
"Round back lifting, known as kyphotic lifting posture during this or other lifts, should be avoided for prevention of injury." (14)
It’s this type of "don’t ever do it" attitude, I suggest, is more likely to lead to injury! I remember when the "only curl up 30 degrees in the sit-up to isolate the abs" movement gained momentum. Most people lost the ability to flex through full range. I suggest this wasn’t good for real life application! So-called attempts to prevent injury in the gym may deny the opportunity to strengthen for real-life movements.
Is rounding the back during trunk flexion a real-life movement? I believe so. Further to that, have you ever seen an athlete, say, playing basketball, pick the ball up off the ground using the flat-back technique? Or a parent picking up their child with a flat back? Or a senior citizen with arthritic knees picking something up off the ground with minimal knee flexion (which is what they tend to do) but with a flat back?
There, I’ve covered sport, daily life, and specific age groups. If you don’t use it, you lose it. This is a concern I have with adopting this "never do it" philosophy towards any exercise!
Conclusion
I’ve taken a trip down memory lane, a brief historical flight back to a time when just about everyone believed that squats were bad, protein was naughty, and steroids didn’t work. Hard to imagine now, isn’t it?
Well, before you blindly accept every dominant trend that you come upon, think about the day when you may look back and laugh at the times when people were scared to do leg extensions, believed machines were inherently evil, and lost the ability to trunk flex with a rounded back.
What I’m suggesting is to run at least a short analysis of any new paradigm you encounter. Ask yourself questions like: Does it make sense? Could it be possible that no one should ever do it? Have I ever been injured by it? Have I ever seen anyone else injured by it? What does my intuition tell me? If you’re still not sure, ask yourself, did it hurt when I did it?
Then, as the wise willow tree said to Pocahontas (you can see how I spend my spare nights now, reading children’s books!), "You must follow your heart." To which I add, follow your heart and not necessarily the flock, and have the balls to make up your own mind! But of course I won’t be adlibbing this last line when I read my daughter her bedtime book.
References
1. Branium, 1990, How much protein do you really need?, Muscle and Fitness, 51(5):105-110.
2. Casner, S.W., Early, R.G., and Carlson, B.R., 1971, Anabolic steroid effect on body composition in normal young men, J. Sports Med., 11:98-103.
3. Chandler, T.J. and Stone, M.H., 1991, The squat exercise in athletic conditioning : A review of the literature, NSCA J, 13(5):52_58.
4. Gardner, P.J., and Cole, D., 1999, The stiff-legged deadlift, NSCA J., 21(5):7-14.
5. Kilworth, L., 1990, Protein and sports performance, Sportsmed News, Oct 1990, p. 11-12.
6. Klein, K., 1961, The deep squat exercise as utilized in weight training for athletics and its effect on the ligaments of the knee, Journal of the Association of Physical and Mental Retardation, 15(1):10.
7. Lemon, P.W, Yarasheski, K.E., and Dolny, D.G., 1984, The importance of protein for athletes, Sports Medicine, 1:474-484.
8. McCarthy, P., 1989, How much protein do athletes really need?, Physician and Sportsmedicine, 17(5):170-175.
9. Myers, E.J., 1971, Effect of selected exercise variables on ligament stability and flexibility of the knee, The Research Quarterly, 42(2):411-422.
10. Neitzel, J.A., and Davies, G.J., 2000, The benefits and controversy of the parallel squat in strength training and rehabilitation, NSCA J., 22(3):30-37.
11. NSCA Position Paper : The Squat Exercise in Athletic Conditioning : A Position statement and review of the literature, NSCA J, 13(5):51.
12. Paul, G.L., 1989, Dietary protein requirements of physically active individual, Sports Medicine, 8(3):154-176.
13. Phillips, W.N., 1991, Anabolic Reference Guide, 6th Edition, Mile High Publishing, Golden, CO, USA.
14. Piper, T., J, and Waller, M.A., 2001, Variations of the deadlift, NSCA J., 23(3):66-73.
15. Poe, R., 1999, Wave 4, Prima Publishing, CA, USA.
16. Rasch, P.J. 1966, Weight Training, Wm C Brown Co Publishers, Iowa.
17. Rozenek, R., and Stone, M.H., 1984, Protein metabolism related to athletes, NSCA J., Apr-May, 42-45.
18. Sargent, R.G., 1988, Protein needs for the athlete, NSCA J, 10(4):53-55.
19. Todd, T., 1984, Karl Klein and the squat, National Strength and Conditioning Association, June-July, 26-31, 67.
20. Wheeler, K., 1988, Proteins and amino acids, NSCA J, 10(6):22-29.
21. Williams, M.H., 1983, Nutrition for Sport and Fitness, WCB, Iowa, USA.
22. Wright, J.E., 1978, Anabolic Steroids and Sports, Sports Science Consultants, MA, USA.
Original article available at
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Article: Have the balls to make up your own mind!
