Stem Cell Clinic

Laboratory Sperm Creation Available Within Two Years: British Online Clinic Uk-Med.co.uk Releases a report that looks …

By adminOctober 13, 2012Stem Cell Clinic

Last year, Kyoto University in Japan, managed to create eggs and sperm in mice that were successfully fertilized through to baby mice being born. Now an American research team are stepping up their attempts to produce human sperm using stem cells.

London, UK (PRWEB UK) 12 October 2012

The inability to conceive a baby can have many reasons which affect either the female or male or both, that are involved in creating an offspring. Where actual fertility is concerned there are stages throughout a woman and a mans life when their ability to conceive easily occurs. The younger you are when you attempt to have children, the better. With a lot of couples establishing their careers and leaving it till later to start a family, there is bound to be more couples that will require investigating, which leads to fertility treatment.

Worry involved with infertility can cause other side effects, such as erectile dysfunction and stress can be a key factor in ED. Viagra or Cialis are good treatments for this possibly temporary problem.

This research is highly controversial as it uses embryonic stem cells because they provide the best start. Stem cells are part of multicellular organisms that via mitosis can form any cell type. This makes them so versatile when used to grow cells for bone marrow, body organs, repairing nerves or actually any cell in the human body.

There has always been objections to this medical research as cells are harvested from embryos. Dr Reijo Pera obtains the stem cells from the extra eggs that are not needed after IVF treatments. IVF clinics in America make 1 to 1.5 million ova a year and of these, 500,000 are disposed of. Seemingly many are concerned over the 500 being used to enhanced medical procedures and the health of the overall population, instead of the yearly disposal of 500,000 eggs that could be used in lifesaving treatment.

With the ground breaking achievements made by Japanese scientists in making baby mice from sperm and eggs that were grow with stem cells, it has given the US team a boost for their studies to go to the next stage and create a human baby in this way. Being able to produce a viable fertilised egg to be implanted by this method would help so many childless couples. Also the implications as to extending the length of childbearing years of women could be of benefit for those postponing parenthood.

All this said there are factors of opposition to stem cells being used and should women be able to have a baby in later years. So who is going to be brave enough to allow general use of stem cells recovered from embryos and decide how old is too old for a woman to give birth.

Written by Frances Cerulean

Article Source : http://www.uk-med.co.uk/Health/Laboratory-Sperm-Creation-Available-Within-Two-Years

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Laboratory Sperm Creation Available Within Two Years: British Online Clinic Uk-Med.co.uk Releases a report that looks ...

Leading Researchers to Unite at Texas State Capitol for Regenerative Medicine and Stem Cell Research

By adminOctober 13, 2012Uncategorized

AUSTIN, Texas, Oct. 12th, 2012 /PRNewswire-USNewswire/ -- Prominent stem cell scientists, physicians, and advocates from leading medical facilities and research institutions across Texas and California will highlight the 3rd Annual Stem Cell Research Symposium: Spotlight on Texas, on October 19, 2012, at the Texas State Capitol.

This free, public symposium, produced and co-hosted by the Austin-based nonprofit Texas Cures Education Foundation (Texas Cures), is designed to educate the public about the exciting stem cell research andclinical trials currently under way in Texas.The event will also include a discussion of recent Texas laws affecting stem cell research, the potential economic impact of stem cell research and highlight the current progress in one of the most promising areas of medicine.

This year, more than a dozen local and national advocacy groups, institutions and foundations showed their support for the efforts of the hosting organizations Texas Cures and Texans for Stem Cell Research including the Genetics Policy Institute, Alliance for Regenerative Medicine and Texans for Advancement of Medical Research.

The symposium begins at 8:30 a.m. in the Capitol Extension Auditorium (E1.004), located at the Texas State Capitol Building. Admission is free and open to the public.Registration is recommended.

This program unites the diverse stem cell research and regenerative medicine community to provide a unified voice for promising science that holds unmatched potential to benefit patients. Leading speakers at the event will include:

For additional details about the program and presentation topics, please visit TexasCures.org.

The 3rd Annual Stem Cell Research Symposium: Spotlight on Texas is an official World Stem Cell Awareness Day Event. Follow @TexasCures and #stemcellday for live Twitter updates and announcements.

Texas Cures Education Foundation (Texas Cures) TexasCures.orgis a non-partisan, nonprofit 501(c)3] organization based in Austin, Texas. It was founded for the purpose of advancing knowledge of the life-saving work that doctors and researchers perform every day on behalf of patients and their families. Texas Cures facilitates stem cell public education for the betterment of healthcare and the growth of companies, research hospitals, and institutions, charities, and volunteer patient group organizations that include a broad range of regenerative medicine stakeholders. Texas Cures advocates for responsible public policy and encourages legislative and regulatory proposals that expand access to stem cell clinical applications.

SOURCE Texas Cures Education Foundation

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Leading Researchers to Unite at Texas State Capitol for Regenerative Medicine and Stem Cell Research

Stem-cell transplant claims debunked

By adminOctober 13, 2012Stem Cell Treatment

Hisashi Moriguchi presented his work at the New York Stem Cell Foundation meeting this week.

AP/Press Association

From the beginning, it seemed too good to be true. Days after Kyoto University biologist Shinya Yamanaka won a Nobel prize for his 2006 discovery of induced pluripotent stem (iPS) cells (see 'Cell rewind wins medicine Nobel'), Hisashi Moriguchi a visiting researcher at the University of Tokyo claimed to have modified that technology to treat a person with terminal heart failure. Eight months after surgical treatment in February, said a front-page splash in the Japanese newspaper Yomiuri Shimbun yesterday, the patient was healthy.

But after being alerted to the story by Nature, Harvard Medical School and Massachusetts General Hospital (MGH), where Moriguchi claimed to have done the work, denied that the procedure had taken place. No clinical trials related to Dr Moriguchi's work have been approved by institutional review boards at either Harvard University or MGH, wrote David Cameron, a spokesman for Harvard Medical School in Boston, Massachusetts. The work he is reporting was not done at MGH, says Ryan Donovan, a public-affairs official at MGH, also in Boston.

A video clip posted online by the Nippon News Network and subsequently removed showed Moriguchi presenting his research at the New York Stem Cell Foundation meeting this week.

If true, Moriguchis feat would have catapulted iPS cells into use in a wide range of clinical situations, years ahead of most specialists' predictions. I hope this therapy is realized in Japan as soon as possible, the head of a Tokyo-based organization devoted to helping children with heart problems told Yomiuri Shimbun.

But there were reasons to be suspicious. Moriguchi said he had invented a method to reprogram cells using just two chemicals: microRNA-145 inhibitor and TGF- ligand1. But Hiromitsu Nakauchi, a stem-cell researcher at the University of Tokyo, says that he has never heard of success with that method. He adds that he had also never heard of Moriguchi before this week.

Moriguchi also said that the cells could be differentiated into cardiac cells using a 'supercooling' method that he had invented. Thats another weird thing, says Nakauchi.

The article in which Moriguchi presented his two-chemical method, published in a book1 describing advances in stem-cell research, includes paragraphs copied almost verbatim from other papers. The section headed 2.3 Western blotting, for example, is identical to a passage from a 2007 paper by Yamanaka2. Section 2.1.1, in which Moriguchi describes human liver biopsies, matches the number of patients and timing of specimen extractions described in an earlier article3, although the name of the institution has been changed.

When contacted by Nature, Moriguchi stood by his publication. We are all doing similar things so it makes sense that wed use similar words, he says. He did admit to using other papers as reference.

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Bay Area stem cell researchers see encouraging results

By adminOctober 13, 2012Stem Cell Treatment

SAN FRANCISCO (KGO) -- Bay Area stem cell researchers are reporting early, encouraging results from two clinical trials. The first, involves patients, paralyzed with spinal cord injuries and a treatment that could offer new hope for their future.

Nearly 20 years after the football injury that left him paralyzed, Roman Reed still holds onto the hope that he will someday walk again.

"One hundred percent, without a doubt. I've been wrong about the date, but not the fact I will walk again," said Reed.

Reed now runs a foundation to promote stem cell research and has been closely watching a clinical trial being conducted by Bay Area based Stem Cells Inc. Its goal is to use stem cell therapy to restore motor function in patients with spinal cord injuries.

"We're on the road on to being able to cure paralysis, it's so important, and stem cells are the way to do it," said Reed.

Stephen Huhn, M.D., Ph.D., from Stem Cells Inc., says the test procedure began a two hour surgery to clear a path to the spinal cord. Researchers then injected the cells directly into the damaged area.

"So the first three patients in the trial were designed to enroll patients who had the worst of the worst injuries. In other words, complete loss of sensory function and complete loss of motor function below the level of injury," said Huhn.

The phase one trials are all about establishing safety, but six months out, the researchers began measuring some intriguing improvements in two of those three patients. Both reported feeling in areas below the areas of their injuries.

The company cautions that the data is very preliminary, but they say researchers were able to measure the improved sensory response using several testing methods, including electrical stimulation, and response to heat -- which are considered more accurate than the patient's own self-reporting.

"You can't fake that. When we saw that data, that's when we became very excited," said Martin McGlynn, the CEO of Stems Cells Inc.

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Doubt cast on clinical stem cell tests

By adminOctober 12, 2012Stem Cell Treatment

Friday, Oct. 12, 2012

Harvard University said neither it nor Massachusetts General Hospital have ever authorized any iPS-related clinical studies by Hisashi Moriguchi, who claims to have achieved the first clinical application using the revolutionary stem cell technology.

"No clinical trials related to Moriguchi's work have been approved by institutional review boards at either Harvard University or Massachusetts General Hospital," a statement issued by Harvard and related institutes said Thursday.

The statement confirmed that Moriguchi "was a visiting fellow at Massachusetts General Hospital from 1999-2000," but added that he "has not been associated with (the institution) or Harvard since that time."

Moriguchi, a researcher at University of Tokyo Hospital, claimed to be a visiting lecturer at Harvard and to have conducted clinical trials at Massachusetts General Hospital with other researchers to transplant artificial cardiac muscle cells developed from iPS cells into six patients with heart disease.

The claim came just after Shinya Yamanaka of Kyoto University and a British scholar were jointly awarded this year's Nobel Prize in physiology or medicine for their research on iPS cells. Yamanaka and John Gurdon were credited with the discovery that mature human cells can be reprogrammed as immature cells capable of developing into all types of body parts.

"Research has been conducted after going through due procedures, such as consultations with a university ethics committee," Moriguchi claimed. "I have been told my method of creating iPS cells is different from the one used by Yamanaka (and Gurdon), but I have been doing it my way and no problems have been identified after transplants."

Moriguchi, who is thought to have asked a heart surgeon to carry out cell transplants, unveiled details about the treatment at a meeting of annual stem-cell research conference at Rockefeller University in New York held Wednesday and Thursday.

But the event's organizer, the nonprofit New York Stem Cell Foundation, subsequently said it "has received information from Harvard University that raises legitimate questions concerning a poster presentation" by Moriguchi, and has withdrawn it from the conference.

Moriguchi graduated from Tokyo Medical and Dental University with a degree in nursing science and does not have a license to practice medicine, according to a professor who taught him as an undergraduate.

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Regenevéda Opens Flagship Stem Cell Therapy Clinic in Beverly Hills

By adminOctober 12, 2012Stem Cell Treatment

Beverly Hills, CA (PRWEB) October 12, 2012

Regenevda (http://www.regeneveda.com) recently opened its brand new flagship facility in Beverly Hills. Founded by world renowned surgeon Dr. Thom Lobe, Regenevda specializes in cutting edge anti-aging treatments such as Stem Cell Therapy, IV Vitamin Therapy, and HGH Therapy.

Dr. Thom Lobe is an internationally respected surgeon and has been in practice for over 30 years. Consistently pioneering advances in medicine, Dr. Lobe was one of the first doctors to ever separate conjoined twins. Consistently working to help make advances in medicine, Dr. Lobe also has over 200 publications to his credit.

Overseeing the business aspect of Regenevda is Lindsey Combs. She is responsible for sales, staff, accounting, facility management, and business development. A graduate of the University of California, Los Angeles, Ms. Combs has been working in the anti-aging field for over 10 years and has been a California Licensed Esthetician since 2003.

Being one of the very few physicians in the country to hold the most advanced board certification (FAARM), Dr. Lobe is able to offer Stem Cell Therapy at the Regenevda clinic. Inside each persons own body, there are special cells in nearly every organ and tissue that have the ability to help heal damage. These special cells are called Stem Cells and this therapy works by harvesting these cells from a persons own blood, bone marrow, or fat and can help with different conditions. Some examples of procedures that use Stem Cell Therapy are: Stem Cell Facelifts, Stem Cell Breast Augmentation, and Stem Cell Joint Therapy. Stem Cell treatments are safe, non-invasive, and are done under local anesthesia.

Intravenous Nutrition Therapy (or IV Vitamin Therapy) is another anti-aging and rejuvenation treatment that can also help patients prevent migraines, lose weight, fight chronic infections like hepatitis, candida, lyme disease, as well as fight acute infections like the flu and mono. IV Therapy works by using intravenous solutions to deliver vitamins and minerals directly to the body cells. This bypasses the digestive system and provides a more direct method of delivery, which ensures that all of the nutrients required are delivered, allowing the patient to feel an improvement in condition almost immediately.

Human Growth Hormone (HGH) Therapy is another advanced treatment offered at Regenevda. HGH is secreted by the Pituitary gland and fuels cell growth and reproduction. This production peaks at adolescence. Over time, due to the effect of aging, the production of HGH slows down dramatically. As production declines, it makes it more difficult for the body to recover from physical and mental exertion. HGH Therapy acts as a supplement for HGH deficient adults to lessen body fat, boost lipid lineament, improve memory, promote bone density, as well as decrease risk factors that involve cardio-vascular conditions. If used at the onset of the decrease in HGH production, HGH Therapy can help curtail early aging and even be used as preventive measure against osteoporosis. A complete analysis of the patients sex hormones, evaluation of glucose regulation and functions of the adrenal gland, thyroid gland, and pancreas are performed before the treatment is administered for optimal results.

Combining decades of medical experience with the most cutting edge advances in medical technology, the Regenevda clinic looks to pave the way for the future of anti-aging treatments. The Regenevda Beverly Hills Institute of Cellular Therapy is located at 50 North La Cienega Boulevard. For any inquiries, they can be reached at 855-734-3638, or visit http://www.regeneveda.com.

About Regenevda :

Regeneveda, home of The Beverly Hills Institute of Cellular Therapy, provides state-of-the-art Stem Cell Therapy. Stem Cell Therapy is an effective treatment for chronic conditions such as Arthritis, Diabetes, Chronic Sports Injuries, and Chronic Pain, but is also revolutionizing anti-aging treatments such as Breast Enhancement, Erectile Dysfunction, and Facial Aging.

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Regenevéda Opens Flagship Stem Cell Therapy Clinic in Beverly Hills

Stem Cell Transplants May Show Promise for Multiple Sclerosis

By adminOctober 12, 2012Stem Cell Treatment

By Denise Mann WebMD Health News

Reviewed by Louise Chang, MD

Oct. 10, 2012 -- New research suggests that stem cell transplants to treat certain brain and nervous system diseases such as multiple sclerosis may be moving closer to reality.

One study found that experimental stem cell transplants are safe and possibly effective in children with a rare genetic brain disease. Another study in mice showed that these cells are capable of transforming into, and functioning as, the healthy cell type. The stem cells used in the two studies were developed by study sponsor StemCells, Inc.

Both papers appear online in Science Translational Research.

The work, while still in its infancy, may have far-reaching implications for the treatment of many more common diseases that affect the brain and nervous system.

Researchers out of the University of California, San Francisco (UCSF), looked at the how neural stem cells behaved when transplanted into the brains of four young children with an early-onset, fatal form of Pelizaeus-Merzbacher disease (PMD).

PMD is a very rare genetic disorder in which brain cells called oligodendrocytes can't make myelin. Myelin is a fatty substance that insulates the nerve fibers of the brain, spinal cord, and optic nerves (central nervous system), and is essential for transmission of nerve signals so that the nervous system can function properly.

In multiple sclerosis, the myelin surrounding the nerve is targeted and damaged by the body's immune system.

The new study found that the neural stem cell transplants were safe. What's more, brain scans showed that the implanted cells seem to be doing what is expected of them -- i.e. making myelin.

RBCC: Nobel Prize Could Bring Big Investments in Stem Cell Research

By adminOctober 11, 2012Stem Cell Medicine

NOKOMIS, Fla.--(BUSINESS WIRE)--

The awarding of the Nobel Prize this week to two scientists who have revolutionized stem cell research could lead to an influx of investment capital into the industry, said Rainbow Coral Corp. (RBCC) CEO Patrick Brown on Wednesday.

Japans Shinya Yamanaka and Britain's John Gurdon were jointly awarded the medicine prize for proving that adult cells can be regressed back into stem cells, creating cells known as induced pluripotent stem cells (iPS) that allow for stem-cell research that doesnt necessitate the destruction of a fetus.

The tremendous recognition of this groundbreaking research that the Nobel Prize brings could spark a host of medical breakthroughs, investment interest and business developments in the stem cell field, Brown said. Its a very exciting time to be part of a young company striving to grow alongside this explosive industry.

Wire service AFP reported this week that Yamanaka will likely get up to 30 billion yen ($383 million) for his stem cell research over the next decade. RBCC is currently working to help speed up the research of Yamanaka and others into potential cures for deadly diseases by commercializing the use of a groundbreaking new technology in select markets around the world. The company has engaged Regenetech in discussions regarding the potential acquisition of a license to perform cell expansion using that companys Rotary Cell Culture SystemTM.

RBCC plans to offer the new technology to help kickstart billions of dollars worth of research in an industry currently dominated by Amgen, Inc. (AMGN), Celgene Corporation (CELG), Genzyme Corp. (NASDAQ:GENZ) and Gilead Sciences Inc. (GILD).

For more information on Rainbow BioSciences, please visit http://www.rainbowbiosciences.com/investors.html.

About Rainbow BioSciences

Rainbow BioSciences, LLC, is a wholly owned subsidiary of Rainbow Coral Corp. (OTCBB:RBCC). The company continually seeks out new partnerships with biotechnology developers to deliver profitable new medical technologies and innovations. For more information on our growth-oriented business initiatives, please visit our website at [http://www.RainbowBioSciences.com]. For investment information and performance data on the company, please visit http://www.RainbowBioSciences.com/investors.html.

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Early Results Show Promise for Stem Cells in Treating Chronic Liver Failure

By adminOctober 11, 2012Stem Cell Treatment

Stem cell transfusions may someday replace the need for transplants in patients who suffer from liver failure caused by hepatitis B, according to a new study coming out of Beijing. . The results are published in the October issue of STEM CELLS Translational Medicine. Worldwide more than 500,000 people die each year from this condition.

Durham, NC (PRWEB) October 11, 2012

In China, hepatitis B virus (HBV) infection accounts for the highest proportion of liver failure cases. While liver transplantation is considered the standard treatment, it has several drawbacks including a limited number of donors, long waiting lists, high cost and multiple complications. Our study shows that mesenchymal stem cell (MSCs) transfusions might be a good, safe alternative, said Fu-Sheng Wang, Ph.D., M.D., the studys lead author and director of the Research Center for Biological Therapy (RCBT) in Beijing.

Wang along with RCBT colleague, Drs. Ming Shi and Zheng Zhang of the Research Center for Biological Therapy, The Institute of Translational Hepatology led the group of physician-scientists from the centers and Beijing 302 Hospital who conducted the study.

MSC transfusions had already been shown to improve liver function in patients with end-stage liver diseases. This time, the researchers wanted to gauge the safety and initial efficacy of treating acute-on-chronic liver failure (ACLF) with MSCs. The American Association for the Study of Liver Diseases and the European Association for the Study of the Liver define ACLF as an acute deterioration of pre-existing chronic liver disease usually related to a precipitating event and associated with increased mortality at three months due to multisystem organ failure. The short-term mortality rate for this condition is more than 50 percent.

MSCs have self-renewing abilities and the potential to differentiate into various types of cells. More importantly, they can interact with immune cells and cause the immune system to adjust to the desired level.

Of the 43 patients in this pilot study each of whom had liver failure resulting from chronic HBV infection 24 were treated with MSCs taken from donated umbilical cords and 19 were treated with saline as the control group. All received conventional therapy as well. The liver function, adverse events and survival rates were then evaluated during the 48-week or 72-week follow-up period.

Along with increased survival rates, the patients liver function improved and platelet count increased. No significant side effects were observed throughout the treatment and follow-up period.

While the results are preliminary and this pilot study includes a small number of patients, MSC transfusions appear to be safe and may serve as a novel therapeutic approach for HBV-associated ACLF patients, Dr. Shi said.

The study also highlights several key issues that will need to be considered in the design of future clinical studies, such as the optimal type of stem cells that will be infused, the minimum effective number of the cells and the best route of administration, Dr. Wang added.

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Safety results of intra-arterial stem cell clinical trial for stroke presented

By adminOctober 11, 2012Stem Cell Treatment

ScienceDaily (Oct. 11, 2012) Early results of a Phase II intra-arterial stem cell trial for ischemic stroke showed no adverse events associated with the first 10 patients, allowing investigators to expand the study to a targeted total of 100 patients.

The results were presented October 11 by Sean Savitz, M.D., professor of neurology and director of the Stroke Program at The University of Texas Health Science Center at Houston (UTHealth), at the 8th World Stroke Congress in Brasilia, Brazil.

The trial is the only randomized, double-blind, placebo-controlled intra-arterial clinical trial in the world for ischemic stroke. It is studying the safety and efficacy of a regenerative therapy developed by Aldagen Inc., a wholly-owned subsidiary of Cytomedix, Inc., that uses a patient's own bone marrow stem cells, which can be administered between 13 and 19 days post-stroke.

The therapy, called ALD-401, consists of stem cells that are identified using Aldagen's proprietary technology to isolate cells that express high levels of an enzyme that serves as a marker of stem cells. Pre-clinical studies found that these cells enhance recovery after stroke in mice. The cells are administered into the carotid artery. Patients are followed for 12 months to monitor safety and to assess mental and physical function.

"We have been approved by the Data Safety Monitoring Board (DSMB) to move the study into the next phase, which will allow us to expand the number of sites in order to complete enrollment," said Savitz, senior investigator for the multi-center study. As per the protocol for the trial, the Food and Drug Administration required a review by the DSMB prior to advancing to the next phase.

Preclinical research, including research at the UTHealth Medical School, has suggested that stem cells can promote the repair of the brain after an ischemic stroke, which is caused by a blood clot in the brain. Stroke is a leading cause of disability and the fourth-leading cause of death in the United States, according to 2008 statistics reported by the Centers for Disease Control and Prevention.

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The above story is reprinted from materials provided by University of Texas Health Science Center at Houston.

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Safety results of intra-arterial stem cell clinical trial for stroke presented