Public release date: 24-Mar-2012 [ | E-mail | Share ]

Contact: Kristin Wincek kwincek@mhif.org 612-863-0249 Minneapolis Heart Institute Foundation

CHICAGO Cell therapy may present an option for patients with ischemic heart disease to use their own bone marrow cells to repair the damaged areas of their hearts, and may pave the way for future treatment options, according to the FOCUS trial, which will be presented as a late-breaking clinical trial March 24 at the 61st annual American College of Cardiology (ACC) scientific session.

This is the largest study to date to look at stem cell therapy, using a patient's own stem cells, to repair damaged areas of the heart in patients with chronic ischemic heart disease and left ventricular dysfunction. Researchers found that left ventricular ejection fraction (the percentage of blood leaving the heart's main pumping chamber) increased by a small but significant amount (2.7 percent) in patients who received stem cell therapy. The study also revealed that the improvement in ejection fraction correlated with the number of progenitor cells (CD34+ and CD133+) in the bone marrow; and this information will help in evaluating and designing future therapies and trials.

"FOCUS is an incredibly important trial, as it has informed the cell therapy community how to better treat this high-risk patient population, and allows us to enter into an exciting, next generation of stem cell therapy armed with more data," said study investigator Timothy D. Henry, MD, an interventional cardiologist at the Minneapolis Heart Institute (MHI) at Abbott Northwestern Hospital in Minneapolis and director of research with the Minneapolis Heart Institute Foundation.

This multicenter study was conducted by the Cardiovascular Cell Therapy Research Network (CCTRN), which is supported through a research grant from the National Institutes of Health's National, Heart, Lung and Blood Institute (NHLBI), with the goal to evaluate novel stem cell-based treatment strategies for individuals with cardiovascular disease.

FOCUS will be presented at ACC.12 by its lead investigator Emerson C. Perin, MD, PhD, director of clinical research for cardiovascular medicine at the Texas Heart Institute, one of the five sites in the CCTRN. The Minneapolis Heart Institute is another site of the five in the network, and a large number of CCTRN patients were enrolled in Minnesota.

For this study, which took place between April 2009 and April 2011, the five sites randomly selected 92 patients to receive stem cell treatment or placebo. The symptomatic patients, with an average age 63, all had chronic ischemic heart disease and an ejection fraction of less than 45 percent (baseline 34 percent) along with heart failure and/or angina and were no longer candidates for revascularization. "These patients had no other options, as medical management failed to improve their symptoms," explained the study's co-investigator Jay Traverse, MD, an interventionalist cardiologist at the Minneapolis Heart Institute at Abbott Northwestern Hospital and physician researcher with the Minneapolis Heart Institute Foundation.

Bone marrow was aspirated from the patients and processed to obtain just the mononuclear fraction of the marrow. In patients randomly selected to receive stem cell therapy, physicians inserted a catheter into the heart's left ventricle to inject 100 million stem cells in more than 15 sites that showed damage on the electromechanical mapping image of the heart.

"Studies such as these are able to be completed much faster because of the team approach of the network" said Sonia I. Skarlatos, PhD, NHBLI's deputy director of the division of cardiovascular sciences and program director of CCTRN.

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Cell therapy using patient's own bone marrow may present option for heart disease

A nodal public stem-cell bank in India is the need of the hour if blood cancer and thalassaemia patients are to benefit from stem-cell therapy, according to an expert.

"We need an indigenous inventory of 30,000 units of umbilical cord-blood stem-cells, which would enable seven out of 10 patients seeking stem-cell transplant to find a ready match off the shelves," said P. Srinivasan, a pioneer in public cord-blood banking in the country, addressing members of the Ladies Study Group of the Indian Chamber of Commerce on Friday.

Cord blood, also called "placental blood", is the blood remaining in the umbilical cord and placenta following childbirth after the cord is cut, and is routinely discarded with the placenta and umbilical cord as biological waste.

A rich source of stem cells, cord blood can be used to treat over 80 diseases, including certain cancers like leukaemia, breast cancer, blood disorders like thalassaemia major and autoimmune disorders like lupus, multiple sclerosis, Crohn's Disease and rheumatoid arthritis.

Early clinical studies suggest these can even help avert corneal degeneration and restore vision in cases of blindness, help restore proper cardiac function to heart attack sufferers and improve movement in patients with spinal cord injury.

"Since stem-cell matching is highly ethnicity dependent, the chances of an Indian finding a perfect match in a foreign country is a lot less compared to a resource pool of locally-donated units," the former resource person for WHO, now the chairman and managing trustee of Jeevan Blood Bank and Research Centre in Chennai, added.

Even if someone finds a match abroad, the cost of shipping the bag of matching cord blood could be as high as $40,000, as against the Rs 30,000 required for processing and storing one unit indigenously.

Srinivasan felt reaching the critical mass of 30,000 cord-blood units wasn't a big deal, given the fact that 20 million babies are born in India every year.

Purnima Dutta, the president of Ladies Study Group, agreed that raising awareness on the need to donate umbilical cord blood was the key.

"As women and responsible citizens, the onus is on us to spread the word and encourage young couples to come forward and donate cord blood to ensure we can achieve this desired public-bank inventory which can save valuable lives," she said.

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Expert wants central bank for cord blood

ANNAPOLIS, Md. (WJZ)One of the last search and rescue dogs from 9/11 lives here in Maryland. She was suffering from a painful condition until her owner took action with breakthrough technology.

Mary Bubala has the story.

Red is a search and rescue dog from Annapolis, but has traveled across the country. Her missions include Hurricane Katrina, the La Plata tornadoes and the Pentagon after 9/11.

They credit them with finding 70 percent of the human remains so that helped a whole lot of those families actually get closure, said Heather Roche, Reds owner.

Sept. 11 was Reds first search. Today shes one of the last 9/11 search and rescue dogs still alive.

She retired last summer due to severe arthritis.

It would be nice if her arthritis, if she felt better, that she could do those kinds of things that she misses, Reds owner said while fighting back tears. Alright I am going to cry.

Roche did some research and found an animal hospital in northern Virginia that uses breakthrough stem cell therapy to treat arthritis in dogs.

The Burke Animal Clinic is one of just a few across the country that use stem cell therapy.

The vet harvests 1 to 2 ounces of the dogs fatty tissue, activates the stem cells and then injects them back into the troubled areas.

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Stem Cell Therapy Used To Treat 9/11 Search And Rescue Dog

DUBLIN--(BUSINESS WIRE)--

Dublin - Research and Markets (http://www.researchandmarkets.com/research/2fee68d4/progenitor_and_ste) has announced the addition of Woodhead Publishing Ltd's new book "Progenitor and Stem Cell Technologies and Therapies" to their offering.

Progenitor and stem cells have the ability to renew themselves and change into a variety of specialised types, making them ideal materials for therapy and regenerative medicine. "Progenitor and stem cell technologies and therapies" reviews the range of progenitor and stem cells available and their therapeutic application.

Part one reviews basic principles for the culture of stem cells before discussing technologies for particular cell types. These include human embryonic, induced pluripotent, amniotic and placental, cord and multipotent stem cells. Part two discusses wider issues such as intellectual property, regulation and commercialisation of stem cell technologies and therapies. The final part of the book considers the therapeutic use of stem and progenitor cells. Chapters review the use of adipose tissue-derived stem cells, umbilical cord blood (UCB) stem cells, bone marrow, auditory and oral cavity stem cells. Other chapters cover the use of stem cells in therapies in various clinical areas, including lung, cartilage, urologic, nerve and cardiac repair.

With its distinguished editor and international team of contributors, "Progenitor and stem cell technologies and therapies" is a standard reference for both those researching in cell and tissue biology and engineering as well as medical practitioners investigating the therapeutic use of this important technology.

Key Features:

- Reviews the range of progenitor and stem cells available and outlines their therapeutic application

- Examines the basic principles for the culture of stem cells before discussing technologies for particular cell types, including human embryonic, induced pluripotent, amniotic and placental, cord and multipotent stem cells

- Includes a discussion of wider issues such as intellectual property, regulation and commercialisation of stem cell technologies and therapies

For more information visit http://www.researchandmarkets.com/research/2fee68d4/progenitor_and_ste

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Research and Markets: Progenitor and Stem Cell Technologies and Therapies Reviews the Range Of Progenitor and Stem ...

SUNRISE, Fla., March 22, 2012 (GLOBE NEWSWIRE) -- Bioheart, Inc. (OTCBB:BHRT.OB - News), a company focused on developing stem cell therapies for heart disease, previously announced that they entered into an agreement with Stemlogix, LLC, a veterinary regenerative medicine company, to provide additional cellular products and services to the veterinary market. Under this agreement, the companies are offering stem cell banking for veterinary patients (pets). WPLG, channel 10 featured this exciting technology in a news segment which aired in the South Florida area. A small sample of tissue can be obtained from the animals during a routine procedure such as a spay or neuter. The stem cells are isolated and cryopreserved for future use as needed.

"We are excited to bring our expertise in stem cell therapy to the veterinary community," said Mike Tomas, Bioheart's President and CEO. "Stem cell therapies represent new opportunities for various types of patients and the ability to bank a pet's cells when they are young and healthy could be very valuable for future use."

WPLG, Channel 10 in Miami/South Florida featured this new technology in a news segment which aired March 15, 2012. Please see the link below:

http://www.local10.com/thats-life/health/Pet-stem-cells-frozen-banked-for-future-use/-/1717022/9285894/-/apcx9rz/-/index.html

About Bioheart, Inc.

Bioheart is committed to maintaining its leading position within the cardiovascular sector of the cell technology industry delivering cell therapies and biologics that help address congestive heart failure, lower limb ischemia, chronic heart ischemia, acute myocardial infarctions and other issues. Bioheart's goals are to cause damaged tissue to be regenerated, when possible, and to improve a patient's quality of life and reduce health care costs and hospitalizations.

Specific to biotechnology, Bioheart is focused on the discovery, development and, subject to regulatory approval, commercialization of autologous cell therapies for the treatment of chronic and acute heart damage and peripheral vascular disease. Its leading product, MyoCell, is a clinical muscle-derived cell therapy designed to populate regions of scar tissue within a patient's heart with new living cells for the purpose of improving cardiac function in chronic heart failure patients. For more information on Bioheart, visit http://www.bioheartinc.com.

About Stemlogix, LLC

Stemlogix is an innovative veterinary regenerative medicine company committed to providing veterinarians with the ability to deliver the best possible stem cell therapy to dogs, cats and horses at the point-of-care. Stemlogix provides veterinarians with the ability to isolate regenerative stem cells from a patient's own adipose (fat) tissue directly on-site within their own clinic or where a patient is located. Regenerative stem cells isolated from adipose tissue have been shown in studies to be effective in treating animal's suffering from osteoarthritis, joint diseases, tendon injuries, heart disorders, among other conditions. Stemlogix has a highly experienced management team with experience in setting up full scale cGMP stem cell manufacturing facilities, stem cell product development & enhancement, developing point-of-care cell production systems, developing culture expanded stem cell production systems, FDA compliance, directing clinical & preclinical studies with multiple cell types for multiple indications, and more. For more information about veterinary regenerative medicine please visit http://www.stemlogix.com.

Forward-Looking Statements: Except for historical matters contained herein, statements made in this press release are forward-looking statements. Without limiting the generality of the foregoing, words such as "may," "will," "to," "plan," "expect," "believe," "anticipate," "intend," "could," "would," "estimate," or "continue" or the negative other variations thereof or comparable terminology are intended to identify forward-looking statements.

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Bioheart Labs and Stemlogix Veterinary Products Featured in Media

POWAY, CA--(Marketwire -03/22/12)- Vet-Stem announced today the introduction of StemInsure. The StemInsure service provides banked stem cells that can be grown to supply a lifetime of stem cell therapy for dogs. One fat collection, in conjunction with another anesthetized procedure, gives access to a lifetime of stem cells.

Vet-Stem has trained over 3,500 veterinarians, provided stem cells for over 8,000 animals in the US and Canada and currently banks more than 25,000 doses for future therapeutic use. Many veterinarians and their clients have requested a method to collect and store stem cells when a dog is young, before it needs the regenerative cells for therapy. StemInsure was designed to meet this need.

A Vet-Stem credentialed veterinarian can collect as little as 5 grams of fat (about the size of a grape) from a dog or puppy during an anesthetized procedure. Many veterinarians and owners are electing to do this fat collection in conjunction with a spay or neuter. This small amount of fat is processed and stem cells are cryopreserved in Vet-Stem's state-of-the-art facility. The cells can be cultured in the future to provide enough stem cells to last for the lifetime of the dog. More information can be found at http://www.vet-stem.com/steminsure.php.

"Vet-Stem is pleased to provide StemInsure as a solution to the thousands of veterinarians and dog owners who recognize the value of Vet-Stem cell therapy. The ability to store the cells in conjunction with another procedure is a great way to ensure that the dog will have access to a lifetime of cell therapy while reducing the number of anesthetic events," said Dr. Bob Harman, DVM, MPVM, and CEO of Vet-Stem. Dr. Harman continued, "Currently, Vet-Stem Regenerative Cell Therapy is widely used to treat osteoarthritis, and tendon/ligament injuries. It is our expectation that the therapeutic use of adipose derived stem cells will continue to expand and add to the value of a lifetime supply of stem cells for dogs."

About Vet-Stem:In January of 2004, Vet-Stem introduced the first veterinary stem cell service in the United States. Since that time there has been rapid adoption of this technology for treatment of tendon, ligament, and joint injuries by the veterinary community. Studies have shown that mesenchymal stem cells can dramatically improve the healing of injuries and diseases that have had very few treatment options in the past.

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Vet-Stem Announces StemInsure(R): A Small Fat Sample Now, a Lifetime of Stem Cells Later

SOUTH SAN FRANCISCO, CA--(Marketwire -03/21/12)- VistaGen Therapeutics, Inc. (OTC.BB: VSTA.OB - News) (OTCQB: VSTA.OB - News), a biotechnology company applying stem cell technology for drug rescue and cell therapy, and Vala Sciences, Inc., a biotechnology company developing and selling next-generation cell image-based instruments, reagents and analysis software tools, have entered into a strategic collaboration. Their goal is to advance drug safety screening methodologies in the most clinically relevant human in vitro bioassay systems available to researchers today.

Cardiomyocytes are the muscle cells of the heart that provide the force necessary to pump blood throughout the body, and as such are the targets of most of the drug toxicities that directly affect the heart. Many of these drug toxicities result in either arrhythmia (irregular, often fatal, beating of the heart) or reduced ability of the heart to pump the blood necessary to maintain normal health and vigor.

"Our collaboration with Vala directly supports the core drug rescue applications of our Human Clinical Trials in a Test Tube platform," said Shawn K. Singh, JD, VistaGen's Chief Executive Officer. "Our high quality human cardiomyocytes combined with Vala's high throughput electrophysiological assessment capabilities is yet another example of how we are applying our stem cell technology platform within a strategic ecosystem of complementary leading-edge companies and technologies. We seek to drive our drug rescue programs forward and generate a pipeline of new, cardiosafe drug candidates."

Through the collaboration, Vala will use its Kinetic Image Cytometer platform to demonstrate both the suitability and utility of VistaGen's human pluripotent stem cell derived-cardiomyocytes for screening new drug candidates for potential cardiotoxicity over conventional in vitro screening systems and animal models. VistaGen's validated human cardiomyocyte-based bioassay system, CardioSafe 3D, will permit Vala to demonstrate the quality, resolution, applicability and ease of use of its new instrumentation and analysis software to make information-rich, high throughput measurements and generate fundamentally new insights into heart cell drug responses. Accurate, sensitive and reproducible measurement of electrophysiological responses of stem cell-derived cardiomyocytes to new drug candidates is a key element of VistaGen's CardioSafe 3D drug rescue programs. VistaGen's strategic collaboration with Vala is directed towards this goal.

About VistaGen Therapeutics

VistaGen is a biotechnology company applying human pluripotent stem cell technology for drug rescue and cell therapy. VistaGen's drug rescue activities combine its human pluripotent stem cell technology platform, Human Clinical Trials in a Test Tube, with modern medicinal chemistry to generate new chemical variants (Drug Rescue Variants) of once-promising small-molecule drug candidates. These are drug candidates discontinued due to heart toxicity after substantial development by pharmaceutical companies, the U.S. National Institutes of Health (NIH) or university laboratories. VistaGen uses its pluripotent stem cell technology to generate early indications, or predictions, of how humans will ultimately respond to new drug candidates before they are ever tested in humans, bringing human biology to the front end of the drug development process.

Additionally, VistaGen's small molecule drug candidate, AV-101, is in Phase 1b development for treatment of neuropathic pain. Neuropathic pain, a serious and chronic condition causing pain after an injury or disease of the peripheral or central nervous system, affects approximately 1.8 million people in the U.S. alone. VistaGen is also exploring opportunities to leverage its current Phase 1 clinical program to enable additional Phase 2 clinical studies of AV-101 for epilepsy, Parkinson's disease and depression. To date, VistaGen has been awarded over $8.5 million from the NIH for development of AV-101.

About Vala Sciences

Vala Sciences is a San Diego-based biotechnology company that develops and sells cell-image-based instrumentation, reagents and analysis software tools to academic, pharmaceutical and biotechnology scientists. Vala's IC 200 class of instrumentation, and CyteSeer Automated Image Cytometry software convert labor-intensive qualitative observations of biological changes that can take from days to months, into accurate measurements delivered automatically in minutes.

Cautionary Statement Regarding Forward Looking Statements

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VistaGen Therapeutics Enters Strategic Drug Screening Collaboration With Vala Sciences

2nd Lee Co. doctor's license restricted in stem cell case

FORT MYERS, Fla.- Another Lee County doctor is caught in the center of a stem cell controversy. The State Department of Health has issued an emergency license restriction to Dr. Konstantine Yankopolus, a general practitioner.

Dr. Yankopolus is still allowed to practice general medicine and is treating patients. The license restriction mandates he can't do anything involving stem cell treatment.

It's business as usual at his office on Colonial Blvd.

The doctor is still treating patients, but an emergency order issued from the Florida Department of Health, Monday prevents him from doing anything with stem cells.

The order says Dr. Yankopolus' license "is hereby immediately restricted from providing, collaborating, facilitating, procuring, referring or advising on any stem cell treatment."

The action comes after the state suspended the license of his colleague, Dr. Zannos Grekos' earlier this month.

The emergency order says Dr. Yankopolus helped Dr. Grekos perform stem cell therapy on the late Richard Polling despite knowing the Bonita Springs cardiologist was not allowed to do such a procedure.

The state Surgeon General alleges, Dr. Yankopolus falsified Polling's records.

He writes, "Subsequent to the death of patient R.P., Dr. Yankopolus entered a false medical progress note in R.P.'s chart falsely indicating that no stem cell preparation was infused."

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2nd Lee Co. doctor's license restricted in stem cell case

SAN DIEGO, CA--(Marketwire -03/21/12)- Entest BioMedical Inc. (OTCQB: ENTB.PK - News) (Pinksheets: ENTB.PK - News)

Entest BioMedical Inc. (OTCQB: ENTB.PK - News) (Pinksheets: ENTB.PK - News) and RenovoCyte LLC announced they have treated 8 canine patients of a 10 dog pilot study utilizing Canine Endometrial Regenerative Cells (CERC) licensed from Medistem Inc. (Pinksheets: MEDS.PK - News) in the treatment of canine osteoarthritis.

Previously, Entest announced the treatment of the first canine patient on November 18, 2011. Since that time Entest's McDonald Animal Hospital has treated 8 dogs in its 10 Dog Pilot Study with RenovoCyte. To date, all of the dogs participating in this study have shown dramatic improvement in their mobility and apparent reduction of pain.

Dr. Greg McDonald, Chief Veterinarian at McDonald Animal Hospital, said, "50 million CERC stem cells have been injected intravenously into eight dogs. Each dog selected for this study showed signs of arthritis. Follow-up blood tests, urinalysis and physical exams are now being scheduled for the patients that have already been treated. So far, all these canine patients have shown improvement."

Entest BioMedical Chairman David Koos stated, "Osteoarthritis is considered one of the most common causes of lameness in dogs, occurring in up to 30% of all dogs. It is caused by a deterioration of joint cartilage, followed by pain and loss of range of motion of the joint. We expect this treatment to relieve these animals from the pain associated with arthritis. This has extraordinary possibilities for dogs and may lead the way for human treatment of arthritic pain."

The CERC is a "universal donor" stem cell product that does not require matching with the recipient allowing for the generation of standardized products that can be delivered to the office of the veterinarian ready for injection. This is in stark contrast to current stem cell therapies utilized in veterinary applications which require the extraction, manipulation, and subsequent implantation of tissue from the animal being treated. CERC is the canine equivalent of Medistem's Endometrial Regenerative Cell (ERC). Medistem was recently granted approval from the FDA to initiate a clinical trial in human patients using its ERCs.

"We are extremely pleased with our research relationship with Entest BioMedical. This study of canine pets suffering from naturally occurring osteoarthritis is a better test model than laboratory induced disease because it will give us the opportunity for long term follow up of these patients. RenovoCyte sees this study as part of the supporting documentation that will be needed to obtain FDA approval for widespread usage of this therapy," said Shelly Zacharias, DVM, Director of Veterinary Operations, RenovoCyte, LLC.

A spokesperson for Entest noted the Company is also currently conducting a 10 dog safety study on its immune-therapeutic cancer vaccine for dogs, having treated 3 dogs so far.

About Entest BioMedical Inc.:Entest BioMedical Inc. (http://www.entestbio.com) is a veterinary biotechnology company focused on developing therapies that harness the animal's own reparative / immunological mechanisms. The Company's products include an immuno-therapeutic cancer vaccine for canines (ImenVax). ImenVax is less invasive and less traumatic in treating cancer. Additionally, the Company serves as the contract research organization conducting a pilot study on a stem cell based canine osteoarthritis treatment (developed by RenovoCyte LLC) utilizing a 'universal donor' stem cell. Entest is also building a network of veterinary hospitals (with its initial location in Santa Barbara, CA and anticipates acquiring other veterinary hospitals in California) -- which serve as distribution channels for its products.

DisclaimerThis news release may contain forward-looking statements. Forward-looking statements are inherently subject to risks and uncertainties, some of which cannot be predicted or quantified. Future events and actual results could differ materially from those set forth in, contemplated by, or underlying the forward-looking statements. The risks and uncertainties to which forward-looking statements are subject include, but are not limited to, the effect of government regulation, competition and other material risks.

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Entest BioMedical Excited With Progress on 10 Dog Pilot Study of "Universal Donor" Stem Cell Treatment for Canine ...

TUESDAY, March 20 (HealthDay News) -- A novel technique that uses a kidney transplant recipient's own stem cells may someday replace or reduce the initial use of anti-rejection medications, new research suggests.

Six months after receiving a kidney transplant, only about 8 percent of people given their own mesenchymal stem cells experienced rejection compared with almost 22 percent of people on the standard anti-rejection drugs, according to the study.

"Mesenchymal stem cells are stem cells that can be differentiated into a variety of cells," explained Dr. Camillo Ricordi, study senior author and director of the Cell Transplant Center and Diabetes Research Institute at the University of Miami Miller School of Medicine.

"If you infuse mesenchymal stem cells at the time of the transplant, you could replace the use of powerful anti-rejection drugs, and maybe replace immunosuppressants altogether," he said. This technique could be used in the transplantation of islet cells (in the pancreas) for people with type 1 diabetes, and for other organ transplants, such as the liver, he added.

The people given their own stem cells also had improved kidney function earlier after transplant, Ricordi said.

Results of the study appear in the March 21 issue of the Journal of the American Medical Association.

One of the biggest remaining hurdles in organ transplantation remains the need for powerful anti-rejection and immune-suppressing medications after the transplant.

"Basically, the way we prevent kidney rejections is by putting you on very powerful anti-rejection drugs and immunosuppressive agents to prevent your cells from attacking the foreign organ," said Dr. Robert Provenzano, chair of the department of nephrology, hypertension and transplantation at St. John Providence Health System in Detroit. "But, the current standard has some problems, like an increased risk of infections and the possibility of creating a cancer."

The body's immune system sends out surveillance cells to protect the body against foreign invaders, such as a bacteria, virus or, in this case, a new organ, Provenzano said. The current method of preventing these cells from attacking the new organ is essentially to destroy the surveillance cells. But mesenchymal cells can naturally suppress those surveillance cells so they don't attack, he said.

To see if this suppression would be enough to prevent rejection, Ricordi and his colleagues, including researchers from Xiamen University in China, recruited 159 people with serious kidney disease who were on dialysis. They ranged in age from 18 to 61.

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Stem Cell Therapy Could Boost Kidney Transplant Success: Study

MOUNTAIN VIEW, Calif., March 20, 2012 /PRNewswire/ -- SanBio Inc. today announced the successful enrollment of the first dose cohort of patients in its Phase 1/2a clinical trial testing the safety and efficacy of a novel allogeneic stem cell therapy product, SB623, in patients suffering from chronic deficits resulting from previous stroke injuries. The first 6 patients, of a total of 18, have been successfully administered SB623. The trial is being conducted at Stanford University and the University of Pittsburgh. No safety concerns have been reported. For details regarding this clinical trial, please refer to http://www.strokeclinicaltrial.org.

SB623 is derived from adult bone marrow and has shown safety and efficacy in rodent models of chronic stroke. "This represents a major milestone in the human clinical testing of this important new approach for regenerative medicine", said Keita Mori, SanBio CEO. "We are pleased to learn that the initial dose level was well tolerated."

SB623 is being delivered to the damaged region of the brains of patients who have suffered an ischemic stroke. Product safety is the primary focus of the study but various measurements of efficacy are also being tested.

"The successful completion of the initial dose cohort is a major step in any first-in-human study", said Dr. Ernest Yankee, SanBio's Vice President of Development. "We are looking forward to initiating the next two dose cohorts and wrapping up the study. The safety findings thus far are very encouraging"

About SB623: SB623 is a proprietary cell therapy product consisting of cells derived from genetically engineered bone marrow stromal cells obtained from healthy adult donors. SB623 is administered adjacent to the area damaged by stroke and functions by producing proteins that aid the regenerative process.

About SanBio: SanBio is a privately held San Francisco Bay Area biotechnology company focused on the discovery and development of new regenerative cell therapy products.

For more information: http://www.san-bio.com

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SanBio Announces Enrollment of First Cohort of Patients in Its Clinical Trial of Stem Cell Therapy for Chronic Stroke

A special dog used to help people is getting some much-needed help of her own at a Virginia clinic, myFOXdc.com reported.

Red, a 12-year-old black Labrador, is one of the last surviving search and rescue dogs deployed during the 9/11 attacks.

Her handler, Heather Roche, told WTTG-TV that Red was recently certified when Sept. 11, 2001, occurred, and the devastating terror attacks were her first big mission.

Red's job was to find DNA evidence at The Pentagon's north parking lot with 26 other dogs, and according to Roche, she did a "fantastic job."

"I got her as a puppy ... You have to convince [her] everything that she does, whether it's climbing ladders or any kind of search, that it's her idea," Roche told WTTG-TV. "No matter what I've asked her to do, she's done it and she's done it flawlessly."

But in her old age Red developed crippling arthritis, and underwent stem cell regenerative therapy Monday to help ease her pain so she can get back out on the job.

Dr. John Herrity of Burke Animal Clinic in Burke, Va., told WTTG-TV, "Red has a back issue that, after a fall from a ladder has not really been right, and has been living in pain, so we're going to give those stem cells IV [intravenously] and then also inject them along the back to try to help Red's comfort."

"She's had a great career and has made a difference to a lot of families by bringing their loved ones home," Roche said.

Click here to read more.

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9/11 search and rescue dog receives stem cell therapy

A special dog used to help people is getting some much-needed help of her own at a Virginia clinic.

Red, a 12-year-old black Labrador, is one of the last surviving search-and-rescue dogs deployed during the 9/11 attacks, Fox affiliate WTTG-TV reported.

Her handler, Heather Roche, told the station that Red was recently certified when the terror attacks of Sept. 11, 2001, occurred, saying the search-and-rescue operation that followed was her first big mission.

Red's job was to find DNA evidence at the Pentagon's north parking lot with 26 other dogs, according to Roche, who said she did a "fantastic job."

"I got her as a puppy ... You have to convince [her] everything that she does, whether it's climbing ladders or any kind of search, that it's her idea," Roche told WTTG. "No matter what I've asked her to do, she's done it and she's done it flawlessly."

But in her old age, Red developed crippling arthritis and underwent stem cell regenerative therapy Monday to help ease her pain so she can get back out on the job.

Dr. John Herrity of Burke Animal Clinic in Burke, Va., told the station that "Red has a back issue that, after a fall from a ladder, has not really been right, and has been living in pain, so we're going to give those stem cells IV [intravenously] and then also inject them along the back to try to help Red's comfort."

"She's had a great career and has made a difference to a lot of families by bringing their loved ones home," Roche said.

Click for more on this story from MyFoxDC.com

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A Chance to Ease the Pain Of a Rescue Hero of 9/11

SILVER SPRING, Md.--(BUSINESS WIRE)--

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions through its acquisition of the SG Austria assets, today discussed the value of encapsulation, freezing, storage, survivability and localization of human stem cells once implanted using the proprietary Cell-in-a-Box technology.

The encapsulation of human stem cells is enabled by the Cell-in-a-Box technology, which can then be frozen, stored and later implanted into target tissues. The benefits of encapsulation are several: first, the process allows for freezing of stem cells for long-term storage without appreciably affecting viability. Second, encapsulation protects the stem cells from stress factors caused by direct aeration and sheer forces associated with bioreactors. Third, Cell-in-a-Box encapsulated stem cells are held in place at the site of implantation, maximizing their potential efficacy as they have the potential to stimulate growth of surrounding new, healthy tissue. Finally, encapsulated cells may prevent any potential side effects associated with direct injection since they remain localized to the area of treatment when encapsulated.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, commented, For many years it was assumed stem cells existed only to replace cells that had died or were damaged. Recent studies suggest factors stem cells secrete provide signals to surrounding tissue that can stimulate regeneration. The potential therefore, is that if stem cells can be maintained at a particular site where damaged, removed or non-functional tissue was through some sort of holding mechanism, this may aid in a positive growth response in that tissue. In addition, the stem cells themselves have the potential to undergo development into the appropriate cell type at that location, potentially creating miniature organs. The Cell-in-a-Box technology is designed specifically for those purposes. Thus, encapsulated stem cells would be implanted and remain in place, ultimately being able to serve a broad number of medical applications entirely dependent on where in the body they are placed.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of live clinically useful, therapeutically valuable, encapsulated cells, as well as services for encapsulating live cells for the research and medical communities. Through substantial effort, the aspects of our corporate activities alone and in concert with SG Austria continue to move toward agreement completion and ultimately a strong future together. Our companys ultimate clinical offerings will include cancer, diabetes and other treatments using the companys industry-leading cell and gene therapy expertise and cutting edge, live-cell encapsulation technology.

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Cell-in-a-Box® Encapsulation Technology Creates Extensive Applications within the Stem Cell Arena

Stem Cell Therapy Helping Heroic Dogs Recover

News4's Darcy Spencer explains how a breakthrough treatment is helping search and rescue dogs like Red recover after years of working in disaster zones.

A breakthrough treatment is helping area search-and-rescue dogs that played key roles on Sept. 11, 2001, and during other disasters.

Red's first assignment as a search, rescue and recovery dog was at the Pentagon following the 9/11 attacks. Years of rescue work and a 12-foot fall from a ladder have taken a toll. Arthritis forced Red into retirement in July and turned her into a couch potato.

The 12-year-old black lab received a breakthrough stem cell treatment today that will ease her pain and give her more mobility.

Her veterinarian, Dr. John Herrity, of the Burke Animal Clinic, has done more than two dozen of the stem cell operations developed by Medivet America, which also donated the cost of the procedure.

The treatment won't bring Red back out of retirement, but it is expected to put spring back in her step within a couple of months.

Two other 9/11 search-and-rescued dogs have been treated with stem cell therapy and are back to their normal activities.

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Hero Dog Receives Stem Cell Therapy

BURKE, Va. (WUSA) -- Red, a black lab from Annapolis, has spent the last ten years as a search and rescue dog. Her missions have included Hurricane Katrina, the La Plata tornadoes, and the Pentagon after 9/11.

"The search and rescue dogs at the Pentagon are credited with finding 70% of the human remains," said Heather Roche, Red's owner and handler. "That helped a whole lot of those families actually get closure."

At just under two years old, 9/11 was Red's first search. Today, she's one of the last 9/11 search and rescue dogs still alive. She retired last July due to severe arthritis.

"The last few months, she would like to be a couch potato but she can't even get on the couch any more," said Roche. "It would be nice if she could do those kinds of things that she misses."

Roche brought Red to the Burke Animal Clinic for stem cell regenerative therapy compliments of MediVet America, the company that developed the in-clinic stem cell technology.

"This is a small something that we can give back as a way of saying thanks for what you guys have done for us," said Dr. John Herrity at the Burke Animal Clinic. "We are just taking fat from Red's side and then we are going to spin it down, process it, extract the stem cells from there."

Red received her first injection just a few hours after she woke up from surgery. The rest of her extracted stem cells will be stored free of charge for use in follow-up treatments.

"We've done about 28 dogs and of those dogs we've had about 75-80% of them doing very well," said Dr. Herrity.

Two other 9/11 dogs that recently received the same stem cell therapy are able to run, climb, and play again. Dr. Herrity's own dog, Bradley, is living proof that the treatment works. Bradley received the same stem cell treatment about one year ago and he's made great progress.

"Hopefully in about 2-3 months, she will be more comfortable, moving around, wanting to play more," said Dr. Herrity.

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9/11 Search And Rescue Dog Gets Stem Cell Treatment

Editor's Choice Academic Journal Main Category: Huntingtons Disease Also Included In: Stem Cell Research Article Date: 19 Mar 2012 - 10:00 PDT

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However, according to a study published March 15 in the journal Cell Stem Cell, a special type of brain cell created from stem cells could help restore the muscle coordination deficits that are responsible for uncontrollable spasms, a characteristic of the disease. The researchers demonstrated that movement in mice with a Huntington's-like condition could be restored.

Su-Chun Zhang, a University of Wisconsin-Madison neuroscientist and the senior author of the study, said:

In the study Zhang, who is an expert in creating various types of brain cells from human embryonic or induce pluripotent stem cells, and his team focused on GABA neurons. The degradation of GABA cells causes the breakdown of a vital neural circuit and loss of motor function in individuals suffering from Huntington's disease.

According to Zhang, GABA neurons generate a vital neurotransmitter, a chemical that helps support the communication network in the brain that coordinates movement.

Zhang and his team at the UW-Madison Waisman Center, discovered how to generate large quantities of GABA neurons from human embryonic stem cells. The team's goal was to determine whether these cells would safely integrate into the brain of a mouse model of Huntington's disease.

The researchers discovered that not only did the cells integrate, they were projected to the right target and were able to effectively restore the damaged communication network and restore motor function.

Zhang says that the results were astonishing, as GABA neurons reside in the basal ganglia, a part of the brain which plays a vital role in voluntary motor coordination. However, the GABA neurons exert their influence at a distance on cells in the midbrain via the circuit powered by the GABA neuron chemical neurotransmitter.

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Huntington's Disease - Stem Cell Therapy Potential

CLEARWATER, FL--(Marketwire -03/19/12)- Biostem U.S., Corporation (OTCQB: BOSM.PK - News) (Pinksheets: BOSM.PK - News) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, announced today the addition of Perinatologist Sanford M. Lederman, MD to its Scientific and Medical Board of Advisors (SAMBA).

As Chairman of the Department of Obstetrics and Gynecology at New York Methodist Hospital in Brooklyn, Dr. Lederman is consistently recognized by New Yorker Magazine's list of "Top Doctors" in New York. A specialist in high-risk pregnancy issues, Dr. Lederman has authored a number of scientific papers and is a highly regarded public speaker. He adds a very important dimension to the Biostem Scientific and Medical Board of Advisors by bringing specialized knowledge regarding the potential use of stem cell applications for the health of women and children.

Biostem President Dwight Brunoehler said, "Dr. Lederman is one of the most highly respected Obstetric and Gynecological physicians in the country. Sandy and I have worked together very actively on stem cell projects for over 18 years, including setting up a cord blood stem cell national donation system where all expectant moms have a chance to donate their baby's cord blood to benefit others."

Dr. Lederman stated, "Biostem's expansion plans mesh well with my personal interest in developing and advancing the use of non-controversial stem cells to improve the health of women and children. I have a particular interest in increasing the use of cord blood stem cells for in-utero transplant procedures, where stem cells are used to cure a potential life threatening disease such as sickle cell or thalassemia and other selective genetic disorders in a baby before it is even born."

Prior to accepting his current position with New York Methodist Hospital, Dr. Lederman was Residency Program Director and Vice Chairman of the Department of Obstetrics and gynecology at Long Island College Hospital in Brooklyn. At various times, he has served as a partner at Brooklyn Women's Health Care, President at Genetics East and Clinical Associate Professor at the State University of New York. He has served on the medical advisory board of several companies. He previously was Medical Director of Women's Health USA and was a founding member of the Roger Freeman Perinatal Society.

A graduate of Hunter College in New York, he received his initial medical training at Universidad Autonoma de Guadalajara School of Medicine. His initial internship was at New York Medical College in the Bronx. During the course of his career, Dr. Lederman has served and studied in various capacities at Long Island College Hospital in the Bronx, North Shore University Hospital in New York, Kings County Medical Center in Brooklyn, Long Beach Memorial Medical Center in California and the University of California at Irvine.

About Biostem U.S., CorporationBiostem U.S., Corporation (OTCQB: BOSM.PK - News) is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered around providing hair re-growth using human stem cells. The company also intends to train and license selected physicians to provide Regenerative Cellular Therapy treatments to assist the body's natural approach to healing tendons, ligaments, joints and muscle injuries by using the patient's own stem cells. Biostem U.S. is seeking to expand its operations worldwide through licensing of its proprietary technology and acquisition of existing stem cell related facilities. The company's goal is to operate in the international biotech market, focusing on the rapidly growing regenerative medicine field, using ethically sourced adult stem cells to improve the quality and longevity of life for all mankind.

More information on Biostem U.S., Corporation can be obtained through http://www.biostemus.com, or by calling Kerry D'Amato, Marketing Director at 727-446-5000.

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Biostem U.S., Corporation Continues Building Its Scientific and Medical Board of Advisors With Appointment of Leading ...

-- Allure Image Enhancement Among First to Offer the Stem Cell Facelift and PRP Therapy in the Inland Empire --

UPLAND, CA (PRWEB) March 19, 2012

Stem Cell Facelift with PRP Therapy provides an amazing full facial restoration and can simulate the effects of a face lift, brow lift, and total facial rejuvenation in one sitting. In addition, the benefits of the PRP Therapy with growth factors enhance stem cell survival, giving long lasting and potentially permanent results, says John Grasso MD, Medical Director at Allure Image Enhancement. I find these procedures to be an exciting new approach to the world of dermal fillers. Rather than using lab derived products, patients can enjoy the benefits of volume and longevity from their own cells.

Stem Cells often thought of as controversial and futuristic, are the latest beauty secret now available. Although injectable wrinkle treatments are very popular, there are many who shy away from putting anything foreign into their face. The two most common requests my patients ask me when it comes to anti-aging rejuvenation are: 1. Is there something natural I can use? and 2. Is there anything that lasts longer? Autologous fat transfer enhanced with stem cells and platelet rich plasma is going to change the world of Anti-Aging skin care, says Mina Grasso NP, owner of Allure Image Enhancement. For those who do not have adequate fat deposits or choose not to have autologous fat transfer can still benefit from the healing and repair response of various growth factors and cytokines with PRP alone or combined with manufactured fillers.

Fat transfer has been around for many years and may yield inconsistent results: 50% of the transferred fat usually breaks down within 2 years. Fat is an abundant source of mesenchymal stem cells. The difficulty is that in obtaining fat using Liposuction, up to half of the natural stem cells may be damaged. By adding additional autologous stem cells to the suctioned fat, it closer approximates the original concentration of stem cells in fat in the body and may aid the transplanted fat cells in surviving longer. Platelet Rich Plasma (PRP), which contains growth factors and cytokines, stimulates a repair response in soft tissue when added to the stem cell enhanced fat cells. The grafted fat and stem cells as well as surrounding local cells are activated by these growth factors to generate new growth that plumps up sagging areas. The growth factors enhance the quality of skin on the surface and repair sun damage and skin color irregularities.

Using this revolutionary new method, stem cells show promise in regenerating collagenproducing fibroblasts, cartilage, muscle and even bone cells. Research trials are under way using stem cells to repair other damaged tissue such as lungs, knees, and hearts and reverse neurological degenerative diseases. Stem Cell Facelift with PRP results in long-lasting volume in the treated area, and patients can start to see improvement in skin texture a healthy glow as soon as three weeks following treatment, with dramatic results occurring over a period of two to four months and lasting for years..

About Allure Image Enhancement, Inc.

Founded by Mina Grasso, RN, MSN, FNP-C, and her husband John Grasso MD. Allure Image Enhancement, Inc., for 15 years has served the Inland Empire with the latest in medical esthetics, providing services such as Botox Cosmetic, Restylane, Dysport, Juvderm, Latisse, Laser Hair Removal, Tattoo Removal, Laser Skin Rejuvenation, Vein Treatment, Body Shaping, and many more services.

Contact:

Nicholas Rodgers, CAC

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Breakthrough Beauty Procedure Using Your Own Stem Cells Offered in the Inland Empire

(MENAFN - Arab Times) Ministry of Health (MoH) employees holding PhD degrees announced that they will participate in the sit-in demonstration carried out by the Labor Union of Health Ministry, reports Al-Seyassah daily.

In the press release, they said they are protesting against the fact that they are receiving the same salary scale and benefits as any other ministry employee with lower qualifications and if necessary, they are ready to even burn their PhD certificates at the sit-in to get the benefits they deserve according to their qualifications.

The sit-in will be carried out in front of Health Ministry headquarters in Sulaibikhat at 10 am on Tuesday, March 20, 2012.

The number of PhD holders has exceeded 100 considering the participation of PhD holders from other ministries as well.

Meanwhile, the MoH has banned stem cell therapy in the country until the committee tasked to set the standards for the treatment completes its work, reports Al-Anba daily quoting Director of Health License Department Dr Marzouq Al-Bader.

Al-Bader disclosed the ministry had earlier formed the committee to ensure the stem cell procedures are carried out in an appropriate manner to protect the patients. He added the ministry will also issue a decision soon to regulate the use of antibiotics in the private health sector.

Meanwhile, Al-Bader confirmed the ministry has endorsed around 51,000 female doctors in private hospitals and health centers. He said the ministry closely monitors the performance of female doctors and those found to have violated the law will be referred to the Medical Council for the necessary action.

On the issuance of licenses through the Internet, Al-Bader revealed his department has asked the ministry to activate the e-link system for this purpose.

He said the ministry has asked the Kuwait Municipality to issue permit for the construction of a building fit for the department's operations.

Meanwhile, the Medical Emergency Department at the Ministry of Health has affirmed its readiness to deal with emergency cases that may arise due to a series of dust storms engulfing the country.

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Stem cell therapy banned in Kuwait