Latest:
https://www.youtube.com/live/DayFPZYwNeU?si=2qmpIpe0KcfbV5Z-
I tried not to information dump as much this time but I did last. So I didn’t press him enough on the Kleinburg paper. I also haven’t really explained fluid flow theory so I will have to do a video on that.
Previous:
https://youtube.com/live/7Uu3UO6n8zY?feature=shares
I touched on everything I wanted to touch(obviously not in as much detail) in but I wanted to add that one advantage that an exercise based routine would have over the surgery is that it would provide potentially daily stimulation to bones and could have anti-aging effect as bones are reservoir of stem cells for other tissues.
Good podcast, I hope it will allow you to be in touch with some scientists that could help you. I didn’t exactly understood at first the torsional force. As the anecdotal example of growth were tennis and armwrestling, I thought you were talking about an important force perpendicular to the bone, but that wouldn’t work ?
For torsional force you mentionned weighted kicking, do you think about an explosive kick which create some kind of an impact are on the opposite a slow and controlled kick ?
Thank you again for your work.
Dynamic Lateral load applied to the bone has potential and has the joint loading studies by Yokota/Zhang and anecdotal evidence. Torsion is an alternative method.
With explosive kicking, there is dynamic lateral loading applied when the kick is landed but I don’t know if it’s as strong as direct loading(tapping). For torsion it’s the process and twist of the kick that matters so you want some way to make it weighted. Actually landing the kick is not important as doing the kick. IF the kick is not weighted than there won’t be strong enough elastic(possibly plastic) deforming force on the bone. I actually think the better forces will be on the stabilizing leg than the leg doing the kick as the bone is being twisted when you move along with the kick.