If you are applying the Max-OT principles to the letter, you know you should take a full week off from training every 8 weeks.
“2 months or about 8 weeks is a Max-OT Training Cycle. You will take a full week off from training every 8 weeks. This is the Max-OT Cyclical Recuperation period, and it is essential to maximizing Max-OT’s effect on muscle recovery and growth.”
In most literature, this “Cyclical Recuperation Period” is called a “deload” or training taper. That being said, most folks hate deloads and only begrudgingly do them. Others don’t deload at all because they either feel they don’t need them or that they will lose their “gains” if they do. I think this is mostly because people don’t know what deloads do, why they need to be incorporated, and how they actually aid in being able to train with maximal loads continuously. My intent in this article is to set the record straight on how deloads work, outline what the evidence shows, and the physiological reasons they are helpful.
First, let’s talk simple arithmetic and discuss what’s commonly known as the Fitness-Fatigue model. In fact, for us weightlifters and bodybuilders, let’s call it the Strength-Fatigue model. You see, when you show up to the gym, you are showing up as one of two versions of yourself on any given day. One of these versions of you is the person that knows what they can do, based on what they have done. For example, the person that has benched 225 for reps before on a good day, or the person that has been able to squat 315 for a beautiful, deep 1RM. This version of you is your potential strength. However, that version of you isn’t the one necessarily stepping into the gym.
The version of you that more often shows up to the gym on any given day isn’t this person. Training is a physical performance, and you have to realize that your performance on any given day may not be representative of your full potential. In fact, for most intermediate and advanced lifters, your performance on MOST days will most likely not be to your full potential.
So, let’s return to the Fitness-Fatigue or Strength-Fatigue model. Again, the output – your actual gym performance – is a result of your potential strength minus your fatigue. However, we don’t want to think of fatigue as the tiredness experienced through training in the short-term. That’s inherent and is part of the process; you exercise, you are immediately tired in the short-term, right after and while doing it. Conceptually, think of fatigue as a shadow following you around. Often, it’s not noticeable, but it is an ongoing, building factor that becomes more noticeable over time as you train. It’s the reason you could not get that 225lb bench press for 5 reps that you have done before. Fatigue takes away from your potential strength and is what you are left with on any given training day: your performance in the gym.
Now the simple math. Let’s assign a random value of 10 to your potential strength of benching 225lbs x 5. If your fatigue levels are low, let’s say at an arbitrary value of 2, then your performance for your training on that particular day would be at 8. Potential strength 10 minus fatigue level 2 equals your performance level of 8. This is, of course, an oversimplification of what performance is like in a vacuum where only fatigue and fitness exist so you can learn this conceptually, but bear with me! Getting back to it, with an 8 out of a potential 10, your ability to bench press 225lbs on that day is pretty high, and you might get 4 or maybe 5 reps with a spot. However, let’s say the opposite is true and your fatigue levels are high, at an arbitrary value of 8. Now you only have a performance level of 2. In this case, 225lbs for 5 reps is almost certainly not going to happen. In fact, it could feel impossible on that day. This might be a good day to start your “Cyclical Recuperation Period” as outlined in the Max-OT principles.
If you have trained long enough, you’ve felt days like I described above. If you haven’t yet, you will. Fatigue sneaks up on you. You can feel fine and not even know you are fatigued at all until it comes time to perform and the reps or the loads just aren’t there. So the question begs, what causes this sneaky fatigue? Obviously, training causes fatigue as we demand more and more from our bodies. However, the ebb and flow of life, in general, has just as much of an effect on fatigue (positively or negatively) as well. A restless night of sleep can drive fatigue levels up. Stress in life, regardless of its origin, will drive fatigue levels up. Illness, dietary discomfort, dehydration, the list goes on and on. These factors can all exacerbate fatigue levels and impact performance on any given day. So, if training fatigue is low and you have a stressful day or poor sleep, your performance may or may not be affected. However, if training fatigue is high AND you experience any of the issues I mentioned before, performance will most likely be low and you might not know it until you are in the thick of the battle.
Now that you know why we need to deload, I’m sure the question is begging to be asked. “What about my gains!?” Well not to worry. If you think about it logically, you have trained for an 8-week Max-OT training cycle. 1 of many to come. So in the grand scheme, is this 1 week off from training really long enough for your body to catabolize all the muscle you have built. Heck NO! That would be the equivalent of the Marathon runner being fat and out of shape after taking 1 week off from running after a year of training. Impossible. Fatigue drops at a much faster rate than fitness does.  Therefore it’s safe to say that reducing volume for short periods will aid in maintaining maximal strength . Furthermore, continuously forcing your training during this state of poor performance levels may hamper your ability to recover. Nothing will stop your gains like not being able to train at all. We’ll save that subject for another time though.
- Morton, R., J. Fitz-Clarke, and E. Banister, Modeling human performance in running. Journal of applied physiology, 1990. 69(3): p. 1171-1177.
- Pritchard, H., et al., Effects and Mechanisms of Tapering in Maximizing Muscular Strength. Strength & Conditioning Journal, 2015. 37(2): p. 72-83.
- Monitoring training in athletes with reference to overtraining syndrome. Foster C., Milwaukee Heart Institute, WI, USA. Med Sci Sports Exerc. 1998 Jul;30(7):1164-8