Flat-Earthers number in the hundreds, if not thousands.
By your logic, they must really be on to something.
Flat-Earthers number in the hundreds, if not thousands.
By your logic, they must really be on to something.
hello friends I am 24 years old I have finished my new medicine new doctrine now I have no choice but to have a bad effect on psychology Psychology suicide thoughts I think it is true tsuji is true Do you give me back my pubic hair please tell me something hopeful please
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- 11
Your balding in your nether region?
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- 892
I wish I was only balding in my nether region - luxury problem
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- 11
I know right, I couldnt care less about hair not on my head.
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Wear a hairpiece
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Sometime after this post.
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- 25
如果可能的话,可以 2020 or2021
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I'll turn 25 in 2020, and tsuji may or may not be available to the public. I'm sittin here worrying my *** off over my hairline, meanwhile my friends/guys my age are out there enjoying life and f*****g girls. Life is f*****g unfair.
what are you sure about ?
I hope it'll be like you said
Yes. If you have the donor hair, yes
The biggest issue with hair transplants is not having enough donor hair. You only need about 50% of your original density to not seem like you’re balding. But 50 % is hard to achieve on high Norwood’s. Most individuals do not have the donor supply for that. I always felt that hair transplants are best for Nw3 and lower. Rarely do I see a Norwood 6/7 whose hair transplant looks good. Most of the time it is just a comb over and the doctors use those angles to make it look better. Btw when you see before and after pictures the lightning will always be different. Anytime my doctors took before and after they changed the lightning to make it look worse prior to surgery. If replicel or some type of growth stimulant comes out, a combination of hair transplant and growth stimulant would solve a lot of people’s problem. It would be a bridge until Tsuji solves the problem.
Personally my plan is to Fue most of my hair transplants out once Tsuji works. Basically an inch of the hairline, this is where all the grafts were placed. But I had so much hair, many of the grafts did not work and I just had major shock loss. So I don’t have many grafts to punch out.
Depending on the advancement in skin grafting, I thought about doing a hair line excision and then planting new skin over the excision. If we are able to print new skin, in my opinion, this would be the best option. It would be a lot faster, get more grafts out, and you would have new skin ready for Tsuji grafts to be planted. It would be something I consider doing to my whole head and so I could be done with hair loss forever. I figure to share my plan for anyone who feels they are stuck with their hair transplants, in the future there will be options for all of us.
Here are some interested things they are doing with skin. There are many more than just these companies.
https://3dprint.com/211365/3d-printed-electronics-cells/
“it can also be used to 3D print cells directly onto wounds. McAlpine and his team partnered with University of Minnesota Department of Pediatrics doctor and medical school Dean Jakub Tolar, an expert on treating rare skin diseases. The team successfully used the 3D printer and a bio-ink to print cells directly on the skin wound of a mouse. This could lead to advanced treatments for patients with skin diseases or injuries like burns.”
https://www.livescience.com/62511-skin-printer-heal-deep-wounds.html
“A new device that resembles a glue gun is 3D printing skin, and researchers hope that it can one day be used to heal very deep wounds.”…..”
“This complicated network of cells, blood vessels, nerves and hairs serves to protect us from the world of germs we live in. But some kinds of wounds — such as burns — can wipe out all three layers of skin, creating portals into our body for thirsty pathogens.
“The printed skin that the researchers tested didn't replicate all of these elements, however. Rather, the device deposited only certain cells, including keratinocytes and fibroblasts — but the scientists hope that one day it will be able to leave behind the "perfect skin," complete with stem cells that can grow into hair follicles, blood vessels and various types of cells in the correct configuration, Amini Nik said.
This isn't the first "skin-printing" device out there. For example, a group of Spanish researchers created such a device in 2016. But it is the first device that could potentially allow doctors to immediately deposit skin onto a wound without going through a lab or other donors first: Doctors could potentially take stem cells from the patient (for example, from fat tissue or bone marrow) and feed them into the device at the time of the procedure, Amini Nik told Live Science.”
You also have poietis, the team working with loreal, making progress. Taking from their website….
“The launch of a Bio-impression-produced fabric, the Poieskin ® Human Total Skin Model manufactured by Laser Assisted Bio-Printing, is a first and marks a breakthrough in the emergence of Bio-Printing technologies and tissue engineering …..Pessac, France, January 23, 2018 - Poietis, a leading provider of 4D Bio-Printing solutions, today announced the commercial launch of Poieskin ®, its first bio-printed human skin model.”
“Poietis, a specialist in bio-printing, announces that it has completed a € 5 million series A round of financing to fund technological developments that would allow the first implantations of bio-printed tissue in a patient as early as 2021.”
Poietis is also working on printing follicles and has support from L’oreal and BASF. They started with 25 scientist now have over 50. I believe they are someone to keep an eye out for if Tsuji does not start trials next year.
Also we are able to print Human pluripotent stem cells......
https://www.technologynetworks.com/cell-science/news/human-pluripotent-stem-cells-successfully-3d-printed-290630
“A team of researchers at the University of Wollongong-headquartered ARC Centre of Excellence for Electromaterials Science (ACES) have discovered a way to print human induced pluripotent stem cells (iPSCs) using a custom developed bioink…..The team has already begun preclinical safety studies with the aim of advancing tissues further for use in medical research, regenerative medicine and personalised medicine.”
and we know what those cells can do for hair loss.
We are advancing faster in medicine each year. 5 years ago they use to struggle to get cells to survive the printing process, now they can print them onto people’s hands. In 2006 was the first time they learned about reprogramming ips cells. 12 years later we can now print them. Which is crazy when you think about it, since it took from the 1950s when they started question if differentiated cells still had the ability to be pluripotent, until 2006 for another major breakthrough. Now we had many more breakthroughs since 2006 with ips cells. And don’t always knock mouse studies, the 2006 ips study came from a mouse model. Now they are conducting the first heart treatment with ips cells in Japan this year. All of these advancements and use of stem cells will just help a cure come to the market faster. If we can ensure the safety of stem cells and other printing organs, doubt clinical trials will take 10 years in the US.
I don’t know when it will be solved, but I do not believe it will be 15- 20 years. I believe we are in that 5 year range where we will see it solved. And 1 to 3 years for something significantly better than the options we have now to help with hair loss.
Personally my plan is to Fue most of my hair transplants out once Tsuji works. Basically an inch of the hairline, this is where all the grafts were placed. But I had so much hair, many of the grafts did not work and I just had major shock loss. So I don’t have many grafts to punch out.
Depending on the advancement in skin grafting, I thought about doing a hair line excision and then planting new skin over the excision. If we are able to print new skin, in my opinion, this would be the best option. It would be a lot faster, get more grafts out, and you would have new skin ready for Tsuji grafts to be planted. It would be something I consider doing to my whole head and so I could be done with hair loss forever. I figure to share my plan for anyone who feels they are stuck with their hair transplants, in the future there will be options for all of us.
Here are some interested things they are doing with skin. There are many more than just these companies.
https://3dprint.com/211365/3d-printed-electronics-cells/
“it can also be used to 3D print cells directly onto wounds. McAlpine and his team partnered with University of Minnesota Department of Pediatrics doctor and medical school Dean Jakub Tolar, an expert on treating rare skin diseases. The team successfully used the 3D printer and a bio-ink to print cells directly on the skin wound of a mouse. This could lead to advanced treatments for patients with skin diseases or injuries like burns.”
https://www.livescience.com/62511-skin-printer-heal-deep-wounds.html
“A new device that resembles a glue gun is 3D printing skin, and researchers hope that it can one day be used to heal very deep wounds.”…..”
“This complicated network of cells, blood vessels, nerves and hairs serves to protect us from the world of germs we live in. But some kinds of wounds — such as burns — can wipe out all three layers of skin, creating portals into our body for thirsty pathogens.
“The printed skin that the researchers tested didn't replicate all of these elements, however. Rather, the device deposited only certain cells, including keratinocytes and fibroblasts — but the scientists hope that one day it will be able to leave behind the "perfect skin," complete with stem cells that can grow into hair follicles, blood vessels and various types of cells in the correct configuration, Amini Nik said.
This isn't the first "skin-printing" device out there. For example, a group of Spanish researchers created such a device in 2016. But it is the first device that could potentially allow doctors to immediately deposit skin onto a wound without going through a lab or other donors first: Doctors could potentially take stem cells from the patient (for example, from fat tissue or bone marrow) and feed them into the device at the time of the procedure, Amini Nik told Live Science.”
You also have poietis, the team working with loreal, making progress. Taking from their website….
“The launch of a Bio-impression-produced fabric, the Poieskin ® Human Total Skin Model manufactured by Laser Assisted Bio-Printing, is a first and marks a breakthrough in the emergence of Bio-Printing technologies and tissue engineering …..Pessac, France, January 23, 2018 - Poietis, a leading provider of 4D Bio-Printing solutions, today announced the commercial launch of Poieskin ®, its first bio-printed human skin model.”
“Poietis, a specialist in bio-printing, announces that it has completed a € 5 million series A round of financing to fund technological developments that would allow the first implantations of bio-printed tissue in a patient as early as 2021.”
Poietis is also working on printing follicles and has support from L’oreal and BASF. They started with 25 scientist now have over 50. I believe they are someone to keep an eye out for if Tsuji does not start trials next year.
Also we are able to print Human pluripotent stem cells......
https://www.technologynetworks.com/cell-science/news/human-pluripotent-stem-cells-successfully-3d-printed-290630
“A team of researchers at the University of Wollongong-headquartered ARC Centre of Excellence for Electromaterials Science (ACES) have discovered a way to print human induced pluripotent stem cells (iPSCs) using a custom developed bioink…..The team has already begun preclinical safety studies with the aim of advancing tissues further for use in medical research, regenerative medicine and personalised medicine.”
and we know what those cells can do for hair loss.
We are advancing faster in medicine each year. 5 years ago they use to struggle to get cells to survive the printing process, now they can print them onto people’s hands. In 2006 was the first time they learned about reprogramming ips cells. 12 years later we can now print them. Which is crazy when you think about it, since it took from the 1950s when they started question if differentiated cells still had the ability to be pluripotent, until 2006 for another major breakthrough. Now we had many more breakthroughs since 2006 with ips cells. And don’t always knock mouse studies, the 2006 ips study came from a mouse model. Now they are conducting the first heart treatment with ips cells in Japan this year. All of these advancements and use of stem cells will just help a cure come to the market faster. If we can ensure the safety of stem cells and other printing organs, doubt clinical trials will take 10 years in the US.
I don’t know when it will be solved, but I do not believe it will be 15- 20 years. I believe we are in that 5 year range where we will see it solved. And 1 to 3 years for something significantly better than the options we have now to help with hair loss.
The average density varies between 60 to 120 follicles per cm2. They will definitely obtain 70 or 80. Which I wouldn't mind tbh