Documenting THE CURE is a funding project to write a book about patients leaving the US to receive natural healing Stem Cell treatments in Panama. DONATE: www.kickstarter.com The FDA ban on all stem cell treatments forces Americans to seek adult (non-embryonic) stem cell treatments offshore. This new type of stem cell treatment is documented in Dr. Roger Nocera’s new book, Cells That Heal Us From Cradle To Grave: A Quantum Leap in Medical Science. JL Thompson will document the effectiveness of this treatment on an MS patient, and other patients seeking treatment at the Panama clinic.
Animacel ltd. is offering your animal stem cell treatment with newly developed stem cell therapy. At the moment, excellent results are with treatments of different joint problems (arthritis and injury/damage of cartilage, hip dysplasia), tendon problems and supporting/adjuvant stem cell therapy for faster healing of broken bones. We are also developing treatment for heart insufficiency, eye dissease, diabetes, etc. See our webpage www.animacel.com
This lecture, by Dr. Nadia Rosenthal, discusses the role of stem cells in the regeneration and repair of tissues, and their possible medicinal application through the harnessing of their regenerative properties. HHMI description: Human tissues vary in their ability to heal and regenerate. The nervous system has weak powers of regeneration, while the skin is quick to make new cells for repair. Mammalian muscle cells are intermediate in their ability to regenerate. Human muscle can regenerate in response to minor wounds and normal wear and tear, but humans will not grow a new bicep, for example, in response to amputation. The heart is the most important muscle in the body and yet has feeble regenerative capabilities. Research into the wholesale production of new replacement organs and limbs is in its infancy, but research into enhancing normal levels of regeneration is progressing rapidly. Recent discoveries concerning the location and characteristics of adult stem cells and the signals that wounded tissue produces to activate stem cells have increased our understanding of regeneration. Insulin-like growth factor 1 (IGF1) is an example of an important stem cell communication molecule. If the activity of the growth factor is experimentally enhanced, muscle regeneration improves.
This video, is a testimonial of a patient from Colorado, USA that went to Progencell, for a Stem cell treatment for her neurologic problem affecting her eyesight and hearing loss. Talks about her experience, her trip, the procedure, the outcome and some suggestions. Language english with Spanish subtitles, 2:34 min duration
This lecture, by Dr. Nadia Rosenthal, discusses the role of stem cells in the regeneration and repair of tissues, and their possible medicinal application through the harnessing of their regenerative properties. HHMI description: Human tissues vary in their ability to heal and regenerate. The nervous system has weak powers of regeneration, while the skin is quick to make new cells for repair. Mammalian muscle cells are intermediate in their ability to regenerate. Human muscle can regenerate in response to minor wounds and normal wear and tear, but humans will not grow a new bicep, for example, in response to amputation. The heart is the most important muscle in the body and yet has feeble regenerative capabilities. Research into the wholesale production of new replacement organs and limbs is in its infancy, but research into enhancing normal levels of regeneration is progressing rapidly. Recent discoveries concerning the location and characteristics of adult stem cells and the signals that wounded tissue produces to activate stem cells have increased our understanding of regeneration. Insulin-like growth factor 1 (IGF1) is an example of an important stem cell communication molecule. If the activity of the growth factor is experimentally enhanced, muscle regeneration improves.
Betty Helm received umbilical cord blood stem cell transplants three years ago in the southern city of Shenzhen. This interview, shot in September 2010 in the US, catches us up with Betty. Betty was one of the first international patients to receive injections of the immuno-naive adult stem cells. Far from facing a medical disaster, Betty survived the adventure and believes her Multiple Sclerosis was set back several years. Check out her patient experience at StemCellsChina here, stemcellschina.com/index.php/en/ms-ms-helm
This lecture, by Dr. Nadia Rosenthal, discusses the role of stem cells in the regeneration and repair of tissues, and their possible medicinal application through the harnessing of their regenerative properties. HHMI description: Human tissues vary in their ability to heal and regenerate. The nervous system has weak powers of regeneration, while the skin is quick to make new cells for repair. Mammalian muscle cells are intermediate in their ability to regenerate. Human muscle can regenerate in response to minor wounds and normal wear and tear, but humans will not grow a new bicep, for example, in response to amputation. The heart is the most important muscle in the body and yet has feeble regenerative capabilities. Research into the wholesale production of new replacement organs and limbs is in its infancy, but research into enhancing normal levels of regeneration is progressing rapidly. Recent discoveries concerning the location and characteristics of adult stem cells and the signals that wounded tissue produces to activate stem cells have increased our understanding of regeneration. Insulin-like growth factor 1 (IGF1) is an example of an important stem cell communication molecule. If the activity of the growth factor is experimentally enhanced, muscle regeneration improves.
In this video Kaelyn’s mother discusses the origins of her cerebral palsy and the treatments they have given her to improve her condition. Kaelyn recently received adult stem cell therapy in China. The treatments she received are not a cure for any form of cerebral palsy. Treatments can improve patients’ quality of life. Check out her patient experience here: bit.ly Search for more news about Kaelyn at StemCellsChina.com