MoreCopeMoreRope
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we will discuss a couple ways you could technically grow after puberty. Ill just say everything in a way that even low iq niggas can understand.
Jfl if u arent in tune with new potential heightmaxxing methods. We will be ascending with scaffolds meanwhile normies cope about “you cant grow after plates close”
Tldr: wait to preorder hyaline cell injections or try mechanical stimulation (mechanical stimulation is much less likely to work though)
1. When you are undergoing growth before your plates close that is called endochondral ossification. This is the natural way you grow where cartilage you had at the end of each bone as a baby gets turned into hard bones. Once you run out of cartilage (aka plates close) you can no longer grow through endochondral ossification
2. There are multiple types of cartilage. The type that causes the most growth is hyaline cartilage. However you have articular cartilage which cannot close (unless you have a rare condition), as well as fibrocartilage which also cannot close
The reason fibrocartilage and articular cartilage never close is because they are what keeps your joints slippery and elastic so if they hardened it would be hard to fluidly move
A) Articular cartilage is approximately 2 mm thick meaning even if you increase it you wouldnt even grow 0.1 of a inch. Fibrocartilage can however go up to 10 mm thick meaning if you could increase it it could result in at least 0.1-0.3 inches (per fibrocartilage). Keep in mind fibrocartilage is highly compressive so more like 0.1 (per fibrocartilage)
B) There is already strong research on something known as fibrocartilage hyalinization. Heres the main thing you need to understand. If you convert fibrocartilage into hyaline cartilage. This will 100% cause permanent height growth (or thickness depending on where the hyaline is)
Heres one of the many studies on hyalinization: https://www.researchgate.net/figure/Schematic-of-fibrocartilage-hyalinization-and-the-role-of-fibrocartilage-in-synovial_fig1_365600160#:~:text=... we proposed a previously,the defect to improve their
Hyaline and fibrocartilage are actually extremely simular the main differences are the fibre concentration as well as the types and concentration of collagen
Here are some potential ways scientists have tested for hylalinization:
Mechanical stimulation) there is evidence that mechanical stimulation can lead to potential fibrocartilage hyalinization by potentially producing type 2 collagen which is what hyaline cartilage is primarily made of PLEASE NOTE THAT TOO MUCH LOADING WILL ACTUALLY DAMAGE HYALINE CARTILAGE AND MAKE YOU SHORTER
Stem cell therapy) mesenchymal stem cells can turn into various types of chondrocytes (cells that produce cartilage) which can potentially create cartilage cellls with the right signals
Growth factors) growth factors can further signal fibrocartilage to mimic hyaline carrilage
Injectible biomaterial scaffolds) what if you could literally inject something to grow taller? Scientists have invented methods to potentially do this by inducing hyaline cells. This combined with some sort of stimulation (mechanical stimulation, electrical stimulation, hgh) can induce bone growth mimicking that of the kind during puberty but at a slower rate
Ongoing research is also continuing for this so new potential methods may arise
2. There are multiple types of cartilage. The type that causes the most growth is hyaline cartilage. However you have articular cartilage which cannot close (unless you have a rare condition), as well as fibrocartilage which also cannot close
The reason fibrocartilage and articular cartilage never close is because they are what keeps your joints slippery and elastic so if they hardened it would be hard to fluidly move
A) Articular cartilage is approximately 2 mm thick meaning even if you increase it you wouldnt even grow 0.1 of a inch. Fibrocartilage can however go up to 10 mm thick meaning if you could increase it it could result in at least 0.1-0.3 inches (per fibrocartilage). Keep in mind fibrocartilage is highly compressive so more like 0.1 (per fibrocartilage)
B) There is already strong research on something known as fibrocartilage hyalinization. Heres the main thing you need to understand. If you convert fibrocartilage into hyaline cartilage. This will 100% cause permanent height growth (or thickness depending on where the hyaline is)
Heres one of the many studies on hyalinization: https://www.researchgate.net/figure/Schematic-of-fibrocartilage-hyalinization-and-the-role-of-fibrocartilage-in-synovial_fig1_365600160#:~:text=... we proposed a previously,the defect to improve their
Hyaline and fibrocartilage are actually extremely simular the main differences are the fibre concentration as well as the types and concentration of collagen
Here are some potential ways scientists have tested for hylalinization:
Mechanical stimulation) there is evidence that mechanical stimulation can lead to potential fibrocartilage hyalinization by potentially producing type 2 collagen which is what hyaline cartilage is primarily made of PLEASE NOTE THAT TOO MUCH LOADING WILL ACTUALLY DAMAGE HYALINE CARTILAGE AND MAKE YOU SHORTER
Stem cell therapy) mesenchymal stem cells can turn into various types of chondrocytes (cells that produce cartilage) which can potentially create cartilage cellls with the right signals
Growth factors) growth factors can further signal fibrocartilage to mimic hyaline carrilage
Injectible biomaterial scaffolds) what if you could literally inject something to grow taller? Scientists have invented methods to potentially do this by inducing hyaline cells. This combined with some sort of stimulation (mechanical stimulation, electrical stimulation, hgh) can induce bone growth mimicking that of the kind during puberty but at a slower rate
Ongoing research is also continuing for this so new potential methods may arise
Next thing you should learn about is osteoblasts and osteoclasts.
Osteoblasts work sort of like stem cells however stem cells create cartilage which either turns into bone or remains cartilage. Meanwhile osteoblasts directly create bone.
Before you get too hype though the grim reaper is something known as osteoclasts. Osteoclasts break down old bone. If you didnt have osteoclasts theoretically you could grow infinitely tall and have massive bone thickness. But obviously you still need osteoclasts otherwise you would be deformed as fuck
Now how osteoblasts typically dont contribute to height directly cause although they create new bone they typically work on the periosteum (surface of your bones rather than the interior (endosteum) part of the bones if we could make them go interior then it could potentially cause slight longitudinal growth since osteoblasts work omnidirectional and you would also typically want it near the end of bones
Some possible methods is
Biomechanical scaffolding) the holy grail of height growth after 21?
Exosomes) protein and rna that can signal interior osteoblasts to develop. Also would be. Injectible
also bone smashing and wolfs law is cope for height growth via osteoblasts since osteoblasts again only work in the exterior part of bones not interior unless receiving the proper signaling
But please know that osteoblast activity is irrelevant if your osteoclasts are breaking down too much old bone
Heres how to reduce osteoclast activity:
Get plenty of vitamin D, take biosophonates (lower osteoclast activity directly), denosumab, estrogen receptor modulators such as ralaxin (dont recommend this shit though or ull turn gay most likely), stop smoking nigga, weight bearing excersize like jogging.
Osteoblasts work sort of like stem cells however stem cells create cartilage which either turns into bone or remains cartilage. Meanwhile osteoblasts directly create bone.
Before you get too hype though the grim reaper is something known as osteoclasts. Osteoclasts break down old bone. If you didnt have osteoclasts theoretically you could grow infinitely tall and have massive bone thickness. But obviously you still need osteoclasts otherwise you would be deformed as fuck
Now how osteoblasts typically dont contribute to height directly cause although they create new bone they typically work on the periosteum (surface of your bones rather than the interior (endosteum) part of the bones if we could make them go interior then it could potentially cause slight longitudinal growth since osteoblasts work omnidirectional and you would also typically want it near the end of bones
Some possible methods is
Biomechanical scaffolding) the holy grail of height growth after 21?
Exosomes) protein and rna that can signal interior osteoblasts to develop. Also would be. Injectible
also bone smashing and wolfs law is cope for height growth via osteoblasts since osteoblasts again only work in the exterior part of bones not interior unless receiving the proper signaling
But please know that osteoblast activity is irrelevant if your osteoclasts are breaking down too much old bone
Heres how to reduce osteoclast activity:
Get plenty of vitamin D, take biosophonates (lower osteoclast activity directly), denosumab, estrogen receptor modulators such as ralaxin (dont recommend this shit though or ull turn gay most likely), stop smoking nigga, weight bearing excersize like jogging.
Jfl if u arent in tune with new potential heightmaxxing methods. We will be ascending with scaffolds meanwhile normies cope about “you cant grow after plates close”
Tldr: wait to preorder hyaline cell injections or try mechanical stimulation (mechanical stimulation is much less likely to work though)
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