Pharmicell co-researches stem cell therapy for chronic kidney disease with...
Pharmicell co-researches stem cell therapy for chronic kidney disease with ‘Seoul Asan Medical Center’
-Mass production of allogeneic bone marrow stem cell therapy is expected
-Stage to verify the effectiveness of the therapy and the safety of stem cell under the hypoxia condition
Pharmicell (005690, co-headed by Kim, Hyeon-Soo and Kim, Seong-Rae) announced on 21th that it would start the development of stem cell therapy for chronic kidney disease.
Pharmicell signed an agreement with prof. Kim Chung Soo of Asan Medical Center on co-research led by the Ministry of Health and Welfare as part of 2015 cutting edge technology development project. The study is titled as ‘Non-clinical research on allogeneic MSC therapy under the hypoxia condition to prevent chronic kidney disease caused from ischemia-reperfusion damage’.
“Our aim is to verify the effectiveness of the stem cell therapy for chronic kidney failure in order to carry out clinical tests for commercialization,” said Kim.
He added, “By utilizing Pharmicell’s outstanding stem cell technology, we would like to introduce ‘hypoxic culture’ as an additional procedure to create a process for manufacturing improved allogeneic bone marrow stem cell therapy and set up a quality control system to verify the safety as a secondary target.”
The research on stem cell therapy for commercialization this time is using stem cells from a healthy donor, not using a patient’s own bone marrow-derived stem cells. Notably, it has a benefit of mass production of stem cell therapy with safe and consistent treatment effects by using a new culture method that excludes animal-derived component.
“Chronic kidney failure is an incurable disease with no fundamental treatment other than a kidney transplant. Yet, comprehensive immunosuppressive drugs administered to prevent rejection of the transplanted organ causes secondary infection due to immunosuppression in the long term,” said Pharmicell.
“It is imperative to develop stem cell therapy that can help the transplanted kidney get engrafted with no schemia-reperfusion damage during the transplant process. Previous studies indicate that hypoxic culture of MSCs is the best way to optimize protection of kidney function in response to schemia-reperfusion damage.”
According to the study using National health and nutrition examination survey, patients with stage 3 chronic kidney disease accounts for 5% of the total population and 3% of new patients with end-stage kidney disease every year in the US comes from acute kidney damage and that is mainly caused by schemia-reperfusion damage.
Meanwhile, Pharmicell successfully carried out non-clinical researches on stem cell therapies for critical leg ischemia(CLI) and impotence sponsored by the government and now phase 1 clinical trials for commercialization is underway. In particular, the research on impotence therapy is being carried out by the same research team for kidney research.
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