Talk:Regeneration in humans

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This article was the subject of an educational assignment that ended on 27 March 2015. Further details are available here.

Willjw123 (talk) 00:40, 13 March 2015 (UTC)Reply

Wiki Education Foundation-supported course assignment

Latest comment: 2 years ago1 comment1 person in discussion

  This article was the subject of a Wiki Education Foundation-supported course assignment, between 7 January 2020 and 14 April 2020. Further details are available on the course page. Student editor(s): GreenPencils.

Above undated message substituted from Template:Dashboard.wikiedu.org assignment by PrimeBOT (talk) 03:02, 18 January 2022 (UTC)Reply

Organ self-repair function

Latest comment: 7 years ago1 comment1 person in discussion

Most organ transplants last only 20 years or so; compared to original organs (of the person itself) which last as long as the person lives (100 years or more). I'm assuming this is due to the inability of the organ to repair itself once transplanted into a new host. This inability is I believe caused by the histocompatibility-mismatch (i.e. the body identifying the organ as foreign tissue). This histocompatibility-mismatch is adressed by various techniques (immunosuppressants, ...) so it doesn't cause any further problems (organ rejection, ...) but is NOT solved, so the organ remains seen by the body as foreign tissue. Once we succeed in actually solving the histocompatibility-mismatch (i.e. using gene therapy) won't this cause a new problem to pop-up, namely the attempting of the body to "repair" the transplanted organ ? The body has the construction DNA of its previous organ in it (the one that has been removed from the body) so will identify the newly transplanted organ as being the same and will try to use the old organ construction DNA to "repair" it. If the person has had the organ removed due to genetic defects on that organ, the body will thus try to re-implement these defects into the new organ, which is definitely not a good thing. With xenotransplants, the problem would be even worse, as organs of other animals differ significantly from their human counterparts, so the changes it would then introduce would be great, and could cause much problems.

• Can the body's self-repair function thus be "deactivated" by altering the patients DNA using gene therapy ?
• If the self-repair function can't be deactivated per organ (which I assume), could the entire old organ construction DNA be removed from the patient's DNA (or overwritten with the construction DNA of the newly transplanted organ) ?
• Just to be certain, is there any data confirming that transplanted organs (where the patient uses immunosuppressants) indeed DON'T regenerate ?

KVDP (talk) 07:25, 13 August 2017 (UTC)Reply

Include new Israeli research in "heart" paragraph?

Latest comment: 5 years ago2 comments1 person in discussion

I am not in any way a medical professional, so I'm not sure whether to edit the paragraph on regenerating human hearts. In Israel, researchers have successfully created an entire functioning (rabbit's) heart from stem cells and a 3D-printed scaffolding. Said scientists claim that within 10 years, this technique may be used to create new hearts for implanting into people.

Here's the link: https://www.livescience.com/65257-3d-printed-heart-human-tissue.html

Does anybody here with more medical expertise believe that one ought to include this in the article? --Thank You.

Pine (talk) 09:15, 18 April 2019 (UTC)Reply

Also, here is a fairly recent article on an American team's generating pig's lungs.

https://www.wired.com/story/four-successful-bel-transplants/

Pine (talk) 09:23, 18 April 2019 (UTC)Reply

1976 Tissue Regeneration Mentioned Three Times

Latest comment: 3 years ago2 comments2 people in discussion

The particular case of a non-diabetic patient regenerating a 3cm scar in 1976 thanks to insulin injections is mentioned three times in the article:

1. History of human tissue regeneration: History of regeneration techniques: Regeneration by instrument
2. History of human tissue regeneration: History of regeneration techniques:Regeneration with drugs
3. Induced regeneration in humans: Fat

Perhaps those separate instances could be combined into one?

mdMcAlister (talk) 19:24, 12 September 2020 (UTC)Reply

Logically, citations can be used many times to cite and validate different premise in any article. IMO, there is nothing logically, or structurally wrong with one citation (something 1976) validating three separate, premise arguments, or structured subjects like that in any article. However, you would clearly have a great point if the same logical premise was mentioned three times in an article, but this is not the case as 'Regeneration by instrument', 'regeneration by drugs' and 'fat' are three different premise arguments.Melvapent (talk) 07:44, 13 November 2020 (UTC)Reply

Regeneration by Recellularization

Latest comment: 3 years ago1 comment1 person in discussion

several of the examples in the 3D printing subsection actually use decellularization and subsequent recellularization of existing tissue. since this only involves washing the tissue and then dripping a cell culture solution on the remaining "ghost" tissue, it's not 3D printing at all. the micro- and macro-structure already exist in the ghost tissue and are not created by any sort of printer. recellularization should get its own subsection. 157.131.95.172 (talk) 01:40, 29 June 2021 (UTC)Reply

Regenerative Medicine in Industry and Media?

Latest comment: 1 month ago1 comment1 person in discussion

Could there be value in adding a section to discuss some of the unique organizations involved in cell therapies and manufactured tissue transplants? I can think of a host of these and I feel it may be valuable to list without discrimination any notable companies and flagship projects in a categorized format as they present themselves to provide a resource for those who may be curious about a given specialization in this industry.

There are aspects of science fiction that have been shifted closer to reality in recent years, and it may be worthwhile to include some more recent developments.

There has even been a procession of different cell sources:

• Embryonic Stem Cell research which had drawbacks regarding cell growth which can become too extensive, even becoming a cancer hazard, in addition to opposition from religious groups
• Adult Adipose derived Stem Cells which have more limited pluripotency and use despite being more stable in terms of growth regulation
• Autologous Cell therapies which require patient biopsy but can deliver therapeutic significance without the requirement of lifelong immunosuppressants as seen with most transplant-based biological therapeutics
• Amniotic stem cells which have better potential for differentiation but may carry less risk of explosive cell growth
• Urogenital stem cells which can be found in urine and induced to become a unique set of cell types that may offer more flexibility than adipose cells
• Biomaterial matrices which induce patient cells to bridge the gap and secrete their own Extra Cellular Matrix before the biomaterial degrades
• Potentially others could be added, including tactics to battle Graft-Versus-Host Disease such as donor thymus transplantation and CAR-T_reg

Regenerative Medicine is a fascinating field, one I have worked in for years and would love to contribute to for the benefit of anyone curious about what has been and is being done. If there is no opposition, I would be happy to do some digging to share more recent corroborated researched information on these topics with the Wikipedia audience.

Additionally, can anybody share some insight as to whether these concepts may be best suited in this page, or on the "Regenerative medicine" page and why? Salient.Masonry (talk) 17:25, 7 October 2024 (UTC)Reply