Abu Dhabi (Urdu Point / Pakistan Point News / WAM – 05 April 2026 AD) Abu Dhabi The Stem Cell Center (ADSCC) has announced a new scientific breakthrough in the field of regenerative medicine with the development of an advanced technology to generate brain-derived stem cells from The patient’s own cells, mutation in those positions Abu Dhabi As the first center in middle East to join a select group of leading global institutions working to develop this promising approach to treating neurological diseases.
This achievement comes at a time when leading research institutions are striving to… US, Europeand Asia They are exploring similar technologies. However, powerful government Support and strategic investment in scientific research in the United States Arab Emirates Airlines has accelerated the development of these technologies and the possibility of translating them into future medical applications.
The process begins by taking a small sample from The patient’s skin or blood. Using advanced virus-free cellular reprogramming techniques, these cells are returned to an early developmental stage known as pluripotency. At this stage, the cells regain their remarkable ability to develop into many different specialized cell types within the human body.
Through carefully designed scientific protocols, these multipotent cells can then be directed to become neurons, brain stem cells, heart muscle cells, liver cells, or other specialized cell types. Once reprogrammed, the cells are expanded under tightly controlled laboratory conditions and directed to develop into specialized brain stem cells that can eventually be used to repair or replace damaged nerve tissue.
Professor Angelo L. explained: Vescovi, professor of cell biology at the University of Milano-Bicocca and senior scientific researcher at the Abu Dhabi Stem Cell Center, said that reprogramming a patient’s own cells into neural stem cells represents one of the most promising trends in regenerative medicine.
“Using a patient’s own cells to generate neural stem cells provides an exceptional opportunity for regenerative medicine,” he said. “this technology It could open new pathways for developing future treatments aimed at repairing damaged brain and spinal cord tissue.
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This approach can be tolerated Driving To future treatments for a number of complex neurological conditions that continue to pose significant challenges in modern medicine, including Parkinson’s disease, Alzheimer’s disease, amyotrophic lateral sclerosis (ALS), spinal cord injuries, and other neurological disorders.
One of the most important features of this technique is that it creates the cells used for treatment from Patients themselves. This significantly reduces the risk of post-transplant immune rejection maybe Reducing the need for long-term immunosuppressive medications that are often required in tissue culture procedures.
Researcher Fabio Miravina pointed out that developing virus-free cellular reprogramming techniques is a crucial step from Both microbiological safety and clinical perspective.
“Ensuring that reprogramming methods are virus-free allows us to produce stem cells that preserve the patient’s genetic identity while meeting the stringent safety standards required for future medical applications,” he explained.
Looking forward, researcher Lorenzo De Rosa indicated that the next stage will focus on translating this scientific innovation from laboratory to potential therapeutic applications.
“Our priority now is to increase cell production, standardize laboratory protocols, and develop manufacturing processes that comply with international regulatory standards in preparation for future clinical applications,” he said.
This scientific progress reflects the growing role of… United Arab Emirates In regenerative medicine and advanced cell therapies. Through continued investment in scientific research and medical innovation, United Arab Emirates It continues to strengthen its position as an emerging global player center For life sciences.
Through such initiatives Abu Dhabi It aims to develop pioneering therapeutic technologies that in the future can help improve the lives of patients across the region and around the world world.