The medical world is experiencing a revolutionary shift in the understanding and treatment of various medical conditions, including autism. This revolution, known as "Stem Cell Therapy," has generated significant excitement and has been awarded the 2012 Nobel Prize in Medicine. It is causing medical practitioners and scientists to rethink previously held beliefs about "incurable" conditions, especially those involving the brain and spine. Despite the hope surrounding stem cell therapy, it is crucial to distinguish between hype and reality and address misconceptions about stem cells, their ethics, safety, and effectiveness in various conditions and disorders. The purpose of this section is to present the facts about stem cell therapy, enabling parents to make informed decisions about whether to pursue this treatment for their children.

Recent Advances in Treatment of Autism, Cerebral Palsy, and Incurable Neurological Disorders

Cell Therapy is one of the most promising branches of Regenerative Medicine, which has proven to have the potential of radically improving the quality of life in patients with incurable neurological conditions. Dr Sharma, an award winning Neurosurgeon, has contributed academically & clinically to the field of neurosurgery, globally. While specializing in cellular therapy for neurological disorders, he has treated almost 10,000 patients. He’s also a Professor & Head of Department of Neurosurgery at Sion Hospital & Medical College, and a Consultant Neurosurgeon at Fortis Hospital, Mumbai.

Autism | Cerebral palsy | Stem cell therapy in India | Oxygen therapy | Ozone therapy | Dr Anant Bagul

Stem cell therapy in India provides exceptional results for serious ailments like autism, cerebral palsy, down syndrome, etc. Stem cell therapy is a highly result-oriented and advanced treatment that is readily available in India. In this video, Dr Anant Bagul, a renowned stem cell expert talks about stem cell therapy and how it is effectively treating serious neurological disorders like autism, cerebral palsy, etc. Dr Anant Bagul is specialized in treating autism, cerebral palsy and spinal cord injury by employing the use of stem cell therapy.

What are stem cells? - Craig A. Kohn (TED)

The science of stem cells and how these incredible, transforming cells could lead to personalized medicine for individual bodies. Is personalized medicine for individual bodies in our future? Possibly -- with the use of stem cells, undifferentiated cells with the power to become any tissue in our bodies. Craig A. Kohn describes the role of these incredible, transforming cells and how scientists are harnessing their medical potential.

Dr Alok Sharma - Neurosurgeon consultation on Autism

Dr. Alok Sharma answering your questions on Cell Therapy for Autism. He explains in detail about its safety and efficacy. Learn about how cell therapy is a game changer for treating Autism. Understand the process of Cell Therapy and the type of stem cells that are used for the procedure. Dr Alok Sharma also explains the kind of exercises which need to be followed after Cell Therapy & stem cell transplantation.

Dr Alok Sharma is a world-renowned neurosurgeon, who is also the Director at NeuroGen Brain & Spine Institute. At NeuroGen he has treated over 1500 cases of Autism with cell therapy & neuroregenerative rehabilitative therapy.

Exosomes: The Next Frontier in Stem Cell Therapy and Regenerative Medicine

Exosomes have been a buzzword in the field of stem cell therapy and regenerative medicine in recent years, and for good reason. While we often tout the potential of stem cells as the future of medicine, it is becoming increasingly clear that exosomes may be just as important, if not more so.

So, what exactly are exosomes? Put simply, they are small, membrane-bound vesicles that are secreted by cells, including stem cells, as a means of cell-to-cell communication. These tiny packets contain various molecules, such as proteins, lipids, and nucleic acids, that allow cells to exchange information and coordinate their activities. Think of exosomes as the signals that stem cells use to talk to each other and to other cells in the body.

One of the key functions of exosomes is to help activate the body's own stem cells. When we administer stem cells to a patient via IV, for example, the cells can sometimes get "stuck" in certain tissues, such as the lungs or liver. However, this is not necessarily a bad thing. When the stem cells become trapped, they release exosomes that act as signals to trigger the release of stem cells from the bone marrow. This activation process can result in millions of stem cells throughout the body being mobilized to help with tissue repair and regeneration.

Exosomes have several advantages over whole stem cells as a therapeutic agent. For one thing, they are smaller and more easily administered, which can reduce the risk of adverse effects. Additionally, exosomes can be engineered to contain specific molecules, such as growth factors or microRNAs, to enhance their therapeutic potential. Exosome-based therapies also avoid many of the regulatory hurdles that can complicate the use of whole stem cells in clinical settings.

Overall, exosomes are a promising area of research in stem cell therapy and regenerative medicine. As we continue to learn more about these tiny messengers and their many functions in the body, it is likely that they will play an increasingly important role in the development of new treatments for a wide range of diseases and conditions.