Regenestem Network Announces Plans to Attend the 23rd Annual World Congress on Anti-Aging Medicine May 7-9, 2015

Miami, FL (PRWEB) April 06, 2015

Regenestem Network, a subsidiary of the Global Stem Cells Group, has announced plans to attend the 23rd Annual World Congress on Anti-Aging Medicine (a4m) at the Diplomat Resort and Spa in Hollywood, Fla. Hosted by the American Academy of Anti-aging Medicine, the conference will be attended by physicians and medical practitioners from around the world.

Regenestem Network plans to showcase its upcoming stem cell training course, Adipose Derived and Bone Marrow Stem Cell course, with classes scheduled to be held May 9-10 and June 15-16, 2015 in Miami. The intensive, two-day course covers the latest technology and procedures in adipose and bone marrow stem cell therapies. Participants learn skills that can be used in their own practice and for career advancement.

A4m Conference Keynote speakers include Daniel G. Amen, MD, David Perlmutter, MD, FACN, ABIHM, and Gary Small, MD. All three will focus on disease prevention and optimized health through a proactive treatment approach. These world-renown speakers are scheduled to deliver insightful presentations, the latest research and breakthrough therapies in anti-aging medicine.

To learn more about the 23rd Annual World Congress on Anti-Aging Medicine, visit the a4m website. For more information on the Regenestem Network, visit the website at regenestemnetwork.com. For more information on the stem cell training classes, visit the http://www.stemcelltraining.net website, email bnovas(at)regenestem(dot)com, or call 849.943.2988.

About Regenestem Network:

Regenestem Network, a division of the Global Stem Cells Group, Inc., is an international medical practice association committed to researching and producing comprehensive stem cell treatments for patients worldwide. Having assembled a highly qualified staff of medical specialistsprofessionals trained in the latest cutting-edge techniques in cellular medicineRegenestem continues to be a leader in delivering the latest protocols in the adult stem cell arena. Global Stem Cells Group and Regenestem Network are expanding the companys clinical presence worldwide by partnering with experienced and qualified regenerative medicine physicians to open new clinics licensed and developed under the Regenestem banner. In 2014, Global Stem Cells Group expanded the Regenestem Networks global presence to 20 countries.

Regenestem offers stem cell treatments to help treat a variety of diseases and conditions including arthritis, autism, chronic obstructive pulmonary disease (COPD), diabetes, and pain due to injuries at various facilities worldwide. Regenestem Oaxaca will have an international staff experienced in administering the latest in cellular therapies.

Regenestem is certified for the medical tourism market, and staff physicians are board-certified or board-eligible. Regenestem clinics provide services in more than 10 specialties, attracting patients from the United States and around the world.

About the Global Stem Cell Group:

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Regenestem Network Announces Plans to Attend the 23rd Annual World Congress on Anti-Aging Medicine May 7-9, 2015

Stem Cell Therapies on Mice Reduce Parkinson Symptoms

Brazilian researchers announced progress toward the use of implanted stem cells as a treatment for Parkinsons disease.

Investigations at the DOR Institute for Research and Education (IDOR) and Federal University of Rio de Janeiro (UFRJ) report that their newly developed therapy reduced symptoms in mice.

Using an FDA approved substance for treating stomach cancer, S.K. Rehen and colleagues were able to grow dopamine-producing neurons derived from embryonic stem cells. The cells remained healthy and functional for as long as 15 months after implantation into mice restoring motor function without forming tumors.

Parkinsons, which affect as many 10 million people in the world, is caused by a depletion of dopamine-producing neurons in the brain.

Current treatments include medications and electrical implants in the brain which causes severe adverse effects over time and fail to prevent disease progression.

In the current study, researchers build upon past investigations that have indicated the transplantation of embryonic stem cells improves motor functions in animal models. However, until now, the procedure has shown to be unsafe, because of the risk of tumors upon transplantation.

To address this issue, the researchers pre-treated undifferentiated mouse embryonic stem cells with mitomycin C a drug already prescribed to treat cancer. The substance blocks the DNA replication and prevents the cells to multiply out of control.

The researchers used mice modeled for Parkinsons. The animals were separated in three groups. The first one, the control group, did not receive the stem cell implant. The second one, received the implant of stem cells which were not treated with mitomycin C and the third one received the mitomycin C treated cells.

After the injection of 50,000 untreated stem cells, the animals of the second group showed improvement in motor functions but all of them died between three and seven weeks later. These animals also developed intracerebral tumors.

In contrast, animals receiving the treated stem cells showed improvement of Parkinsons symptoms and survived until the end of the observation period of 12 weeks post-transplant with no tumors detected. Four of these mice were monitored for as long as 15 months with no signs of pathology.

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Stem Cell Therapies on Mice Reduce Parkinson Symptoms

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Stem cell implant shows promise for Parkinson's treatment

New York, April 4 (IANS): An implant of stem cells treated with an anti-cancer drug has been found to be effective against Parkinson's symptoms in mice.

The findings published in the journal Frontiers in Cellular Neuroscience could be an important step toward using the implantation of stem cell-generated neurons as a treatment for Parkinson's disease in humans.

Using a US Food and Drug Administration (FDA)-approved anti-cancer drug, the researchers were able to grow dopamine-producing neurons derived from embryonic stem cells that remained healthy and functional for as long as 15 months after implantation into mice, restoring motor function without forming tumours.

"This simple strategy of shortly exposing pluripotent stem cells to an anti-cancer drug turned the transplant safer, by eliminating the risk of tumour formation", said the leader of the study Stevens Rehen, professor at the Federal University of Rio de Janeiro (UFRJ) in Brazil.

Parkinson's, which affects as many as 10 million people in the world, is caused by a depletion of dopamine-producing neurons in the brain.

Several studies have indicated that the transplantation of embryonic stem cells improves motor functions in animal models. However, until now, the procedure was shown to be unsafe because of the risk of tumours upon transplantation.

To address this issue, the researchers for the first time pre-treated undifferentiated mouse embryonic stem cells with mitomycin C, a drug already prescribed to treat cancer.

The substance blocks the DNA replication and prevents the cells from multiplying out of control.

The researchers used mice modelled for Parkinson's. Unlike the control group, animals receiving the treated stem cells showed improvement in Parkinson's symptoms and survived until the end of the observation period of 12 weeks post-transplant with no tumours detected.

Four of these mice were monitored for as long as 15 months with no signs of pathology.

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Stem cell implant shows promise for Parkinson's treatment

Is a loophole in stem cell law helping new therapy to thrive, or allowing dubious science?

Life-changing results: Sandra Sharman is a private stem cell patient. Photo: Meredith O'Shea

Last week, Suzie Palmer, 44, travelled from her home in NSW to the Gold Coast for her second round of stem cell treatments for multiple sclerosis. OnTuesday morning,the wheelchair-bound poet underwent liposuction.

By 2.30pm, stem cells had been partially separated from her abdominal fat, suspended in plasma, and injected intravenously. Her doctor, Soraya Felix, is a cosmetic surgeon and molecular biologist with a sideline in regenerative medicine.

Palmer, a relentlessly upbeat and positive person, says the treatments have helped her cope better with heat, improved her mobility and flexibility and otherwise made her "feel like a normal human being". She has, she says, managed a few steps with a walker, still a long way from "running about, which is my dream".

Poster girl: Suzie Palmer is undergoing stem cell therapy for MS. Photo: Edwina Pickles

The rapidly growing stem cell industry is aglow with similarly positive testimonials, notably on behalf of practitioners who offer little documented scientific evidence of their success.

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Suzie Palmer is literally the poster girl for stem cell tourism within Australia. You can find her smiling sweetly, along with Dr Felix, on the Facebook page of a group called the Adult Stem Cell Foundation. She is one of an unknown number of unwell Australians pinning their hopes on an unregulated industry that is now under review by the Therapeutic Goods Administration.

The TGA public consultation, which closed earlier this month, was prompted by long-standing concerns raised by Stem Cells Australia that a loophole in the regulations has allowed dozens of doctors across Australia to provide experimental treatments without the ethics committee oversight that registered clinical trials are subject to. These treatments invariably cost $10,000 and up. The loophole is this: while the use of donor stem cells in therapies is tightly regulated, the use of a patient's own stem cells is not.

Professor Martin Pera is the program leader of Stem Cells Australia, which is administered by the University of Melbourne and includes scientists from Monash University, the Walter and Eliza Hall Institute for Medical Research, the Florey Institute and the CSIRO, among others. They are engaged in a seven-year Australian Research Council project to answer the big questions about stem cells and the potential for reliable therapies.

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Is a loophole in stem cell law helping new therapy to thrive, or allowing dubious science?