This is a very interesting article that I found about how to gain more muscle. The first 2 posts are basically an introduction/anatomy kind of thing. Post 3 and beyond are how to incorporate this incredible method. Have fun reading!
Can You Use The Muscle Memory Phenomenon, Without Ever Having The Muscle?
Researched and Composed by Jacob Wilson
Each of you has heard of the phenomenon known as muscle memory. It is the occurrence of insanely extreme and fast growth in a person who is regaining the lost muscle he has allowed to atrophy. Stories such as 40-50 pound muscle gains( in a short time span ) in regards to this subject are not uncommon. The question however remains, what exactly is muscle memory and what causes it to occur? I not only intend to address this question, but also to answer the title of this article in a very positive manner. You see, I believe that an athlete can literally mimic this tremendous phenomenon! Read on if you want to find out how!!!
Note: The following article discusses muscle memory, as a term to define a recapturing of past growth. The term however should not be used in a motor sense, as that 'memory' is actually in the nervous system.
What Exactly Is it that Occurs During Memory?
Lets say that you busted your behind in the gym and built a huge, massive pair of quads measuring 30 inches in circumference! Then for one reason or another you stopped training your legs. During the time off, your quadriceps atrophied( shrunk ) down to 24 inches. Determined to regain your lost mass you decide to hit the gym again with extreme ferocity! Only this time you are able to gain back those 6 inches in a matter of months, where as originally it took you years to gain that much mass! What happened?
Before I can answer that, I need to ask you a very important question. What surrounds, binds and holds every muscle group in place?
" Essentially all bets are off, due to the amount of room you will have to grow! "
If you answered connective tissue, you would have been exactly right! In order to further explain muscle memory it would behoove us to briefly review what exactly this connective tissue is( for a greater explanation read my article, the anatomy of a muscle fiber. It goes in great depth in what I am about to cover. So if it seems a bit confusing, you definitely need to consult this article. ). Simply put every muscle is made up of 1, 000s of muscle fibers. These muscle fibers are all individually wrapped with a connective tissue wrapping, or a sheath. This is called the endomysium. These individual muscle fibers are then organized in bundles( called fascicles ) which are covered by another connective tissue sheathe called the perimysium. These bundles or fascicles are then placed together in an orderly arrangement( which determines the shape and functionality of the muscle ) and held in place by a layer of connective tissue known as the epimysium. Finally each of these layers is held together by the deep fascia( a courser material ). The connective tissue of every muscle fiber acts like a girdle of sorts. Which means that it binds a muscle group together, and to its neighboring muscle in many cases. It also protects, organizes and allows the force of contraction generated by the thousands of muscle fibers in a particular group, to be harnessed with great efficiency!
The important thing to understand is this: Connective tissue is not only a tuff material but also hugs tight to its surrounding area, almost constricting it! What does this have to do with muscle growth you say? Ahh, that my friend, is where muscle memory comes in! Think about it for a moment. In order for a muscle to hypertrophy, what needs to take place if it is restricted by this tight binding girdle? The tissue must stretch and become more pliable right?! If this did not occur, then muscle growth would be hindered( you cannot grow unless there is enough room to do so)!
When you increased your muscle mass by building 30 inch wheels, you also ended out stretching and expanding the muscles encasing tissue. Therefore the manipulation of these protective sheathes was a major factor in your ability to stimulate hypertrophy! In the scenario painted, we also discussed you taking time off from training. So much so, that your lower body atrophied to a point in which 6 inches were lost off of your legs. However, even with this tremendous setback, you still had stretched the connective tissue to a great extent. When you came back to the gym and trained, you were no longer fighting the restrictions of tight, unpliable fascia, but rather a more elastic and pre-expanded connective tissue! Essentially all bets were off, due to the amount of room you had to grow! More room to grow enables more mass to be accumulated! This is one of the top theories held today for what we coin " muscle memory. "
How Can Muscle Memory Be Mimicked?
Mimicking this process would center around the manipulation of the connective tissue surrounding, organizing and binding a muscle. As mentioned it can literally prevent the expansion of growth. Therefore our goal will be to create an environment similar to one in which a muscle group had previously been larger. In essence you will have to stretch and expand the fascia, epimysium and other tissues. This, can certainly be done and done effectively! However, you need to understand that this is a tuff tissue, and expanding it can be a very complex process.
The question now is what will it take to accomplish such a goal. Perhaps the most recognizable figure in regards to this subject is the great John Parillo. He uses a technique called " fascia stretching. " This is a special procedure used that actually expands the fascia. One of the greatest scientists the sport of bodybuilding has ever known is D.J. Millward. He has made some of the most incredible break throughs Only D J Millward calls this revolutionary technique the bag expansion theory. You see, the connective tissue surrounding a muscle is often referred to as a bag, hence the title of the theory.
" By then you will be begging for mercy! "
Interestingly enough, before any expert or scientists began coining phrases, great athletes such as Tom Platz and Arnold Schwarzenegger were using techniques that would most certainly expand the fascia( discussed in greater detail in a bit )! However, I would credit the field of massaging with the earliest breakthroughs in fascial expansion. I believe their theories paved the way for one of the most extreme growth methods every presented in this brutal sport.
In particular I am referring to a woman named Dr. Ida P. Rolf. She invented a famous technique called rolfing. It is a special, extreme form of massage that as Ida puts it, manipulates deep tissue. She theorized that you could move around, loosen, expand, realign and strengthen this tissue with her great techniques! Interestingly enough, her techniques applied to Parillo and Millwards can not only drastically enhance muscle growth, but also increase separation between muscle groups. How incredible is that!?
From a physiological standpoint John Parillo believes that the deep fascia is the main concern of the bodybuilder to target, and Millwards research leads him to believe that the endomysium and perimysium are chiefly responsible for the restriction of muscle growth. The great news is that the same techniques for expansion of the fascia, work for the expansion of the endomysium and perimysium.
How To Expand The Fascia for Enhanced Muscular Size and Shape!
At this stage I am going to have to issue one of my essential warnings. If you do not have a high pain threshold I would not suggest reading any further. The methods discussed here are extremely painful, and only an athlete with the mentality of a warrior will have the guts it takes to apply the following principles! However, when the smoke clears, you will have a greater capacity for growth, a fuller muscle, and greater separation between body parts!
Again, our goal, as D J Millward puts it is to create a larger bag. In order to accomplish this feet we will need to stretch the connective tissue beyond its previous limits, cause damage and then allow it to heal in such a way that it grows back larger then it was previously. There are four factors involved in fascia stretching.