Iguana: I think your math is correct. Either way, I believe the pressure reported would be way too much for a healthy penis to withstand. It would probably cause some damage.

I think I know where you're going with this, Iguana. . . The big question: Where does this leave a guy who wants to enlarge his tunica?

Yea, you're right they were exploding penises for the sake of science. I just found this information to be intriguing. If this could be successfully translated into a general guide for weights and pressures it might be useful. If nothing more, you would know what limits NOT to exceed.

One thing I've always found intriguing about the tunica - and this is actually what lead me to searching for answers outside traditional thinking - is that all the scientific journals report that the tunica is one hell of a tissue to stretch.

The tunica is tough, strong, and takes a lot of pressure to stretch. But from what we know with ancedotal reports on forums, it doesn't always take a lot of pressure to gain inches. In fact, some men (such as Wadzilla's friend) report gaining several inches with light intensity.

Herein lies the predicament.

That is so true and I have read nothing to the contrary. It's like trying to stretch a piece of gristle from a steak. Different structure, basically the same material. I have to agree with you that it is a bear to stretch and deform the tunica. That is why I whole-heartedly believe something else is responsible for the big and especially quick gains.

Yea, this is very perplexing. This is why I think some men have a greater elasticity potential built in. I don't think most of even the really good gainers ever get very far in actually deforming the tunica. I read somewhere that there is 3 phases to stretching tissue with an elastic component. 1. Toe 2. Creep and 3. Plastic Deformation. Toe describes the natural slack that is available from the presence of elastin fibers. Creep is the tissue stretch strain after the slack is taken out. And of course, plastic deformation is when the fibers start to break. I think most of these guys get their gains in phases 1 and 2 and the hit a brick wall in phase 3. Some will go on to gain a little, while others throw in the towel. Something for thought, even if the gains are coming from maximizing the elasticity of the tunica, something keeps it that way. Meaning the gain is "permanent." It could be there is a small amount of plastic deformation taking place or something prevents the elastin from completely retracting as before. I'm not really sure on this one. More research is needed on what actually takes place during stretch on a tissue level.

Also, if the tunica layer theory (https://www.pegym.com/forums/pe-theo...fferences.html) proves to be a factor this could easily explain this.

I don't know if there is a way to test this without dissecting your tunica.

Volunteers???

Speaking of volunteers: Is it possible that the tunica of the dead cadeavours are require more tensile strength than the tunica of live men?

I haven't found a study that tested the tensile strength of live human beings--have you? I wonder if they considered this variable when they were cutting the poor dead guys up.

This is a great old thread!

Remek and Iguana, do you think then that guys (such as Wadzilla's friend) who gained inches with seemingly little intensity would have been deforming his tunica, or somehow causing enlargement from another mechanism/source?

Incidentally, I found this thread on google by typing "deforming the tunica"...it was the VERY FIRST LINK Go pegym!!

Or somebody who is not a cadaver.

I think logically, the cadaver tissues must be a fair representation of living tissue or else these studies would be pointless.
Surely, the scientist doing these studies realize this.

I believe there is evidence to support at least 2 tissue "growth" models.

1. Deformation due to light to moderate tissue connecetive tissue/elastin damage. I beleive this equates to "newbie gains" and occurs with heavier forces.
2. Actual cell mitosis. Studies show that tissues placed under low force traction for extended periods of time will ilicit growth. Granted the data does not involve penile tissues but the component tissues are very likely to respond similarly. In other words, penile veins will not vary greatly from leg veins. The same should hold true for connective tissues and other components.