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How to Make a Bigger Penis Using Osteological Remodeling Method

We hope to explain how penis enlargement (through penis exercises) works by pointing out some of the natural mechanisms the body employs during its lifespan for the human being. By understanding how the “body” protects, changes, alters, and heals itself, can help us better understand how penis “enlargement” can work and make it easier to understand.

The first aspect of understanding the Penile Remodeling (enlargement) Process will have to do with understanding osteological remodeling in the human body. Or to put it more simply, how the body deals with regenerating, repairing, and effecting bones in the body and how these bones can and are altered during added osteological (boney) stresses.

When a bone is broken or fractured, if the fractured portions are properly held in proper alignment, through a cast or splinting device, the fractured portions will heal up fairly normally. What happens is that a calcium bridge is created between the fractured portions. This channel fills with bone and the entire area actually becomes thicker and stronger. This is how previous fractures (that have healed) are usually easily visible on x-rays, and this is because the areas of bone near the fractured portions are more dense with calcium. The area where the fracture occurred has been made stronger by the healing process of the body when it was repaired.

The reason that this area is now stronger, is because the body understands that if this area fractured, then the body realizes that it is compromised for the stresses that we incurred which caused the fracture. The body believes that this area will be prone to refracture, if the same stresses are encountered in this region at a future date. So, the body lays down more calcium in this area to make this area stronger, when it heals, in case such stressful forces are encountered in this region again. This will help prevent a refracturing of the region.

In this way, we can see how the body deals with bones that are under too much strain, broken, and in the repairment cycle, are made naturally stronger to prevent such problems in the future.

Another important aspect (with bones and other tissues) is to look at the “use it or lose it” methodology of the human body. Again, we will apply it to bones. For example, a person who is less active as they get older, especially as is the case with women more than men, get what boney condition? They get osteoporosis. This is a porosity to the bones, meaning that they are less dense and less strong. The reason these bones aren’t as strong is because they haven’t had enough “stress” applied to them through physical activity. In other words, “use it or lose it.” If you want to keep your bones strong and healthy, it is important that they are “stressed” daily to ensure that your body continues to lay down plenty of calcium to make them strong and tough.

Another way of looking at this is to understand something about the size of the head of the femur and body weight. The “head” of the femur is the rounded portion of your leg bone that articulates (moves) with your hip. This is a ball-and-socket type of joint.

It is possible, by measuring this “head,” to fairly accurately determine what the weight of the person is, simply based on the size of this head. This is used in anthropology and archaeology quite a bit to determine what weight someone may have been at the time of their death. It’s also worth noting that overall physical height can also be fairly accurately determined through measuring this (femoral) bone.

The reason we can gauge someone’s weight from the size of this “head” is because that its size will vary depending on the overall body weight of the individual. As the weight of the “upper” body is transformed into the “lower” body, this is done through the spinal column to the pelvis, and then the weight is distributed to either leg via this ball and socket joint (on either side).

This makes this joint very important for overall weight distribution. Because the body is acted on by nearly constantly axial forces (gravity) while we are standing, these two joints must be strong enough to bear this load. So what happens is that the heavier a person is (in overall weight) will have a direct relationship to the size of these femoral “heads.”

Which is to say, that if you put on an extra 100 pounds of weight when you hit forty-years of age, these “heads” are going to remodel themselves to be bigger, in order to compensate for this added amount of weight. By shedding this extra 100 pounds, then, the body will remodel the femoral heads to be smaller and as to what they were (in size) before the extra 100 pounds was applied.

How does all of this relate to penis enlargement? That’s a good question. The bones of our bodies are considered by many people to be (sort of) a static system. Meaning that they don’t really change much in size or shape once we reach the age of our physical maturity. However, this is and isn’t the case. The bones of the body are hardly static and are actually quite dynamic in nature. They help make blood cells, tissues, store materials, and many other properties. However, as to their physical size (at maturity), these measurements are fairly static and constant. In other words, we typically don’t grow taller (in height) once puberty has passed.

But the important thing to understand is that their “physical” size (the bones) can be altered from what the body’s genetic blueprint dictates. In other words, the bones will change in size, density, and strength, depending on what stresses are introduced or failed to be introduced to them. In other words, they will change in size if the correct forces are present. But usually, the actual size of the bone typically remains constant through the life of the person once they have hit skeletal maturity; unless of course they are acted upon by some form of disease, or, again, the external forces we mentioned.

A man’s penis is also genetically blueprinted to be a certain size and shape, not unlike the skeletal bones. And, just like the bones of our bodies, seems to be a fairly static appendage. Yes, we realize it is dynamic in its functionality, but in its structure, we believe it to be fairly static. After all, once a man’s penis reaches its “mature” size, just like the bones of the body, it stays at that relative size, does it not?

Well, yes it does, but it doesn’t have to. And that’s the point of this article. And that is to explain that the body will respond in physical, structural changes if certain stresses are applied to certain areas (tissues, cells, organs) of the body. Even something that seems to never change in size or structure (like bones) will change in shape if certain forces (stresses) are applied. The male penis is the same way. By introducing various forces (again, stresses) to the physical structure of the penis, we can, through penis enlargement, transform the size of a man’s penile size through natural penis remodeling.

We used bones as an example in this article, but, again, ligaments, muscles, issues, organs, cells, tendons, and other structures will respond, in much the same way, if certain forces (stresses) are applied to them.

When making a penis bigger, the key is understanding and introducing the correct forces (stresses) to obtain the results (increased size) we desire. This is done through penis exercises as a method of penis enlargement, to make the penis larger, by exploiting and using the body’s own natural methods of remodeling and repair.