I know someone that has been effectively cured from type 1 diabetes from islet-cell transplantation into the liver by injection into arteries in the liver.
This seems to be one step closer to being able to that without the problem of harvesting those islet cells from living human pancreases.
However, the main problem remains, if you are not already on immune-suppression you will have another autoimmune-reaction to your insulin producing cells. I don't know the status of highly specific immune-suppression like that but I know as a type 1 diabetic that I rather keep my diabetes if required to have a functioning immune-system.
I don't know if much has happened with the research since, but the theory was since only beta cells are targeted by the autoimmune response, perhaps these "pseudo Beta cells" might be left to produce insulin without being attacked. Does mean you're potentially left with inhibited glucagon production though. Perhaps gene therapy altered alpha cells could be implanted rather than altering the ones you have.
2. "Safety and feasibility of intradermal injection with tolerogenic dendritic cells pulsed with proinsulin peptide—for type 1 diabetes" https://doi.org/10.1016/S2213-8587(20)30104-2
Unfortunately, you really can't (except as an absolute last resort) suppress the immune system of children. Seems as most Type 1 diabetics are diagnosed in early childhood and the age of onset/diagnosis is creeping forward, an approach involving immunosuppressants is not likely feasible for the majority. By the time you're old enough to take immunosuppressants the beta cells are well and truly destroyed and they don't regenerate.
The new treatment isn't an immuno-suppressant. It de-programs the immune system so it stops attacking the beta cells. It's essentially a highly-effective allergy shot.
Thanks for the clarification. Your links aren't working now (site maintenance).
However, I did view them initially. The study abstracts mentioned immunotherapy, I didn't even realise we were capable of "de-programming", or that that was a considered immunotherapy!
My 3 year old daughter is the Type 1 diabetic in our family. However, I'm immunosuppressed due to a (seemingly) entirely unrelated autoimmune disease, Sarcoidosis. I'll definitely be keeping an eye out for this more targeted approach to immunotherapy.
If you happen to have links to any other papers/articles using similar techniques (even for different diseases) then I'd be quite curious to read up on the topic. Thanks!
This seems to be one step closer to being able to that without the problem of harvesting those islet cells from living human pancreases.
However, the main problem remains, if you are not already on immune-suppression you will have another autoimmune-reaction to your insulin producing cells. I don't know the status of highly specific immune-suppression like that but I know as a type 1 diabetic that I rather keep my diabetes if required to have a functioning immune-system.