A NEW stem cell therapy treatment to develop new bones for patients with bone loss and new skin for recipients of plastic surgery has been developed, doctors from Shanghai No.9 People's Hospital announced yesterday.

In the procedure, medical staff use a special machine to collect stem cells from a patient's blood. The stem cells adhere to a base made of a special biological material.

The stem cells are then transplanted into the patient's body, where they grow into either new bones or skin tissue, while the base is absorbed by the human body.

"So far the practice has been successful in treating patients with bone and skin loss," said Dr Dai Kerong from Shanghai Jiao Tong University's translational medicine institute at Shanghai No.9 hospital. "The stem cell technology will be used to develop corneas for blind people as well as treating heart attack and stroke patients by developing new heart and cerebral tissue."

The technology is patented in China and abroad and will be licensed within one or two years, according to Dai.

China has established 51 translational medicine centers to boost the introduction of laboratory research into clinical use.

The complicated procedures and documentation required often prevent doctors from introducing lab success into clinical practice.

Dai said one reagent developed by No. 9 hospital's doctors for in vitro fertilization received a license in Europe within six months and has been used in clinical practice "while this would take at least five years in China."

Excerpt from:
Eastday-Big stem cell breakthrough

The U.S. Food and Drug Administration has received a complaint alleging the Houston company involved in Gov. Rick Perry's unregulated adult stem-cell operation is a potential danger to patients and not in compliance with federal law.

In an eight-page letter sent last month, University of Minnesota bioethicist Leigh Turner called on the FDA to investigate Celltex Therapeutics Corp., which banks people's stem cells for future reinjection in the event of disease or injury. Perry was the company's first customer last year.

"It appears their business plan involves injecting or infusing on a for-profit, commercial basis non-FDA-approved adult stem cells into paying customers," Turner wrote in the Feb. 21 letter. "This plan conflicts with FDA regulations governing human stem cells."

An FDA spokeswoman declined comment, but Turner said an agency official told him the matter has been assigned to an investigator and is being taken seriously.

Celltex co-founder David Eller said Tuesday night he is confident the company will "meet all FDA specifications." He emphasized that Celltex doesn't administer stem cells, but stores and processes them at the behest of doctors who later reinject them into patients.

Dr. Stanley Jones, a Houston orthopedic surgeon, injected Perry's stem cells during his back surgery in July.

The plan by Celltex and Perry to make Texas a leader in the therapy have been controversial since details about the governor's procedure became known last summer. The therapy, drawing on the ability of adult stem cells to replenish dying cells, is promising but thought by most medical researchers to need much more clinical study before it is commercialized.

Stem cells are a kind of medicine known as biologics, therapy involving living cells rather than chemicals. Most medical experts say that adult stem-cell therapy involves more than the "minimal manipulation" the agency allows without its oversight because the cells are isolated, cultured in a laboratory and stored for some period of time before being reinjected.

The FDA has recently stepped up enforcement of unregulated adult stem cell activity, though legal experts interviewed last fall by the Chronicle said it was unclear whether the agency would look into Perry's procedure because he seemed fully informed and unharmed by it.

The Texas Medical Board is currently considering a policy that would require providers of stem cells and other experimental drugs to use them only with the permission of independent review committees that assess trials for patient safety. The policy comes up for final approval in April.

Continued here:
Gov. Perry's stem-cell firm draws FDA scrutiny

OTTAWA A team of Canadian researchers has been awarded $442,000 to test the world's first experimental stem-cell therapy aimed at patients who suffer from septic shock, a runaway infection of the bloodstream that's notoriously difficult to treat.

The federal grant will allow researchers from the Ottawa Hospital Research Institute to use mesenchymal stem cells, found in the bone marrow of healthy adults, to treat as many as 15 patients with septic shock.

The deadly infection occurs when toxic bacteria spreads rapidly throughout the body and over-activates the immune system, leading to multiple organ failure and death in up to 40 per cent of cases.

One in five patients admitted to intensive-care units suffers from septic shock, making it the most common illness among a hospital's sickest of the sick.

Existing treatments focus on early diagnosis and intervention before organs start to fail. Patients with septic shock require aggressive resuscitation measures, large doses of intravenous antibiotics and, often, ventilators to help them breathe.

Yet because the infection can creep up on patients rapidly and cause unpredictable complications, death from septic shock remains relatively common.

The experimental therapy aims to use donor stem cells, grown and purified at the Ottawa laboratory, to dial down the body's hyperactive immune response and reduce the cascade of inflammation that leads to organ failure.

Early results from animal studies even raise the possibility that mesenchymal cells could eliminate the bacteria that causes septic shock, although the impact on humans is not yet known.

"It's a unique feature of the stem cells," said Dr. Lauralyn McIntyre, the intensive-care physician who is leading the trial. "Certainly no other therapy in the past, other than antibiotics, has impacted the bacterial load in the system."

As with other stem cells, mesenchymal cells can turn into a variety of more specialized cells and tissues that help repair and regenerate damaged organs. And because mesenchymal cells are derived from adults, they sidestep the ethical issues arising from the destruction of human embryos needed to make embryonic stem cells.

Continue reading here:
Canadian researchers receive grant to test stem-cell therapy for septic shock

Public release date: 15-Mar-2012 [ | E-mail | Share ]

Contact: Jennifer Ganton jganton@ohri.ca 613-798-5555 x73325 Ottawa Hospital Research Institute

A team of researchers from the Ottawa Hospital Research Institute (OHRI) and the University of Ottawa (uOttawa) has been awarded $367,000 from the Canadian Institutes of Health Research (CIHR) and $75,000 from the Stem Cell Network to lead the first clinical trial in the world of a stem cell therapy for septic shock. This deadly condition occurs when an infection spreads throughout the body and over-activates the immune system, resulting in severe organ damage and death in 30 to 40 per cent of cases. Septic shock accounts for 20 per cent of all Intensive Care Unit (ICU) admissions in Canada and costs $4 billion annually. Under the leadership of Dr. Lauralyn McIntyre, this new "Phase I" trial will test the experimental therapy in up to 15 patients with septic shock at The Ottawa Hospital's ICU.

The treatment involves mesenchymal stem cells, also called mesenchymal stromal cells or MSCs. Like other stem cells, they can give rise to a variety of more specialized cells and tissues and can help repair and regenerate damaged organs. They also have a unique ability to modify the body's immune response and enhance the clearance of infectious organisms. They can be found in adult bone marrow and other tissues, as well as umbilical cord blood, and they seem to be easily transplantable between people, because they are more able to avoid immune rejection.

There has been a great deal of interest in using MSCs to treat disease, with most research so far focused on heart disease, stroke, inflammatory bowel disease and blood cancers. Hundreds of patients with these diseases have already been treated with MSCs through clinical trials, with results suggesting that these cells are safe in these patients, and have promising signs of effectiveness. MSCs are still considered experimental however, and have not been approved by Health Canada as a standard therapy for any disease.

In recent years, a number of animal studies have suggested that MSCs may also be able to help treat septic shock. For example, a recent study by Dr. Duncan Stewart, CEO and Scientific Director of OHRI (and also a co-investigator on the new clinical trial) showed that treatment with these cells can triple survival in a mouse model of this condition.

"Mesenchymal stem cell therapy appears promising in animal studies, but it will require many years of clinical trials involving hundreds of patients to know if it is safe and effective," said Dr. Lauralyn McIntyre, a Scientist at the OHRI, ICU Physician at The Ottawa Hospital, Assistant Professor of Medicine at uOttawa and a New Investigator with CIHR and Canadian Blood Services. "This trial is a first step, but it is a very exciting first step."

As with all "Phase I" trials, the main goal of this study is to evaluate the safety of the therapy and determine the best dose for future studies. The 15 patients in the treatment group will receive standard treatments (such as fluids, antibiotics and blood pressure control), plus a planned intravenous dose of 0.3 to 3 million MSCs per kg of body weight. The MSCs will be obtained from the bone marrow of healthy donors and purified in the OHRI's Good Manufacturing Practice Laboratory in the Sprott Centre for Stem Cell Research. The researchers also plan to evaluate 24 similar septic shock patients who will receive standard treatments only (no MSCs). All patients will be rigorously monitored for side effects, and blood samples will be taken at specific time points to monitor the cells and their activity. This trial will not be randomized or blinded and it will not include enough patients to reliably determine if the therapy is effective. It will be conducted under the supervision of Health Canada and the Ottawa Hospital Research Ethics Board, and will have to be approved by both of these organizations before commencing.

"The OHRI is rapidly becoming known as a leader in conducting world-first clinical trials with innovative therapies such as stem cells," said Dr. Duncan Stewart, CEO and Scientific Director of OHRI, Vice-President of Research at The Ottawa Hospital and Professor of Medicine at uOttawa. "This research is truly pushing the boundaries of medical science forward, and is providing the citizens of Ottawa with access to promising new therapies."

"The Canadian Institutes of Health Research (CIHR) is very pleased to support this clinical trial," said Dr. Jean Rouleau, Scientific Director of the CIHR Institute of Circulatory and Respiratory Health. "The work of Dr. McIntyre and her colleagues will not only add to our growing knowledge of the benefits of stem-cell therapies, but will hopefully lead to treatments that can help save the lives of patients where currently, our treatment options are less than optimal."

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Ottawa researchers to lead world-first clinical trial of stem cell therapy for septic shock

SUNRISE, Fla., March 15, 2012 (GLOBE NEWSWIRE) -- Bioheart, Inc. (BHRT.OB) announced today that it has successfully conducted a laboratory training course in partnership with the Ageless Regenerative Institute, an organization dedicated to the standardization of cell regenerative medicine. The attendees participated in hands on, in depth training in laboratory practices in stem cell science.

"We had students from all over the world attend this first course including physicians, laboratory technicians and students," said Mike Tomas, Bioheart's President and CEO. "Bioheart is pleased to be able to share our 13 years of experience in stem cell research and help expand this growing life science field."

The course included cell culture techniques and quality control testing such as flow cytometry and gram stain. In addition, participants learned how to work in a cleanroom operating according to FDA cGMP standards, regulations used in the manufacture of pharmaceuticals, food and medical devices. Aseptic techniques were also taught as well as cleanroom gowning, environmental monitoring and maintenance.

Future courses are open to physicians, laboratory technicians and students. After graduating the course, attendees are prepared to pursue research and careers in the field of stem cells and regenerative medicine. For more information about the course, contact info@agelessregen.com.

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 Ageless Regenerative Institute, LLC

The Ageless Regenerative Institute (ARI) is an organization dedicated to the standardization of cell regenerative medicine. The Institute promotes the development of evidence-based standards of excellence in the therapeutic use of adipose-derived stem cells through education, advocacy, and research. ARI 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. ARI has successfully treated hundreds of patients utilizing these cellular therapies demonstrating both safety and efficacy. For more information about regenerative medicine please visit http://www.agelessregen.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 and Ageless Partner to Advance Stem Cell Field With Laboratory Training Programs

EDMONDS, Wash., March 14, 2012 /PRNewswire/ --Washington Center for Pain Management is participating in a nationwide FDA-cleared adult stem cell study testing novel treatment for chronic low back pain and has enrolled its first patient. The study will test the use of Mesenchymal Precursor Cells (MPCs) adult stem cells derived from bone marrow that will be directly injected into the lumbar disc. The minimally invasive procedure may offer an alternative to back surgery for eligible patients with chronic pain from degenerative discs.

An estimated 30 million people in the United States suffer from back pain. Degenerative disc disease is the most common cause of low-back pain, which develops with the gradual loss of a material called proteoglycan, which cushions the bones of the spine and enables normal motion.

Most patients with low-back pain respond to physical therapy and medications, but in advanced cases, artificial disc replacement or spinal fusion -- removal of the degenerated discs and the fusion of the bones of the spine -- is necessary. However, these surgeries often are not entirely effective.

"Millions of Americans are debilitated by chronic low back pain," says Dr Hyun Joong Hong MD, the lead investigator at The Washington Center for Pain Management. "This promising therapy is at the cutting edge of medical science and has the potential to create a paradigm shift in our approach to minimally invasive solutions to this disease."

Researchers will enroll approximately 100 study participants. About fifteen participants will be enrolled at The Washington Center for Pain Management and the rest at 11 other medical centers throughout the United States. The trial is scheduled to last for three years.

Washington Center for Pain Management is enrolling study participants suffering from moderate low-back pain for a minimum of six months and whose condition has not responded to other, conventional treatments.

Once enrolled, patients are randomly assigned to one of four treatment groups:

Patients will receive a single injection of their assigned test agent directly into the center of the target discs within their spine and will be monitored for safety. Patients will also be monitored using imaging to identify any changes in their disease condition or disease progression. Use of pain medications, self-reports of pain, subsequent surgical interventions and assessments of disability, quality of life, productivity and activity will be evaluated. Repair of the disc and reduction of chronic back pain will be assessed in each patient.

Promising results have been observed in prior research using animal models when stem cells were investigated for the repair of damaged spine discs. The cells were well tolerated in these study animals.

This study is sponsored by Mesoblast Limited, a world leader in the development of biologic products for the broad field of regenerative medicine. Mesoblast has the worldwide exclusive rights to a series of patents and technologies developed over more than 10 years relating to the identification, extraction, culture and uses of adult Mesenchymal Precursor Cells (MPCs). The MPCs are derived from young adult donors' bone marrow and are immune tolerant.

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Washington Center for Pain Management Begins Enrollment in United States Stem Cell Therapy Study in Subjects With ...

OTTAWA A team of Ottawa researchers has been awarded $442,000 to test the worlds first experimental stem-cell therapy aimed at patients who suffer from septic shock, a runaway infection of the bloodstream thats notoriously difficult to treat.

The federal grant will allow researchers from the Ottawa Hospital Research Institute to use mesenchymal stem cells, found in the bone marrow of healthy adults, to treat as many as 15 patients with septic shock.

The deadly infection occurs when toxic bacteria spreads rapidly throughout the body and over-activates the immune system, leading to multiple organ failure and death in up to 40 per cent of cases.

One in five patients admitted to intensive-care units suffers from septic shock, making it the most common illness among a hospitals sickest of the sick.

Existing treatments focus on early diagnosis and intervention before organs start to fail. Patients with septic shock require aggressive resuscitation measures, large doses of intravenous antibiotics and, often, ventilators to help them breathe.

Yet because the infection can creep up on patients rapidly and cause unpredictable complications, death from septic shock remains relatively common.

The experimental therapy aims to use donor stem cells, grown and purified at the Ottawa laboratory, to dial down the bodys hyperactive immune response and reduce the cascade of inflammation that leads to organ failure.

Early results from animal studies even raise the possibility that mesenchymal cells could eliminate the bacteria that causes septic shock, although the impact on humans is not yet known.

Its a unique feature of the stem cells, said Dr. Lauralyn McIntyre, the intensive-care physician who is leading the trial. Certainly no other therapy in the past, other than antibiotics, has impacted the bacterial load in the system.

Like other stem cells, mesenchymal cells can turn into a variety of more specialized cells and tissues that help repair and regenerate damaged organs. And because mesenchymal cells are derived from adults, they sidestep the ethical issues arising from the destruction of human embryos needed to make embryonic stem cells.

See the rest here:
Ottawa researchers receive grant to test stem-cell therapy for septic shock

NEWARK, Calif., March 13, 2012 (GLOBE NEWSWIRE) -- StemCells, Inc. (Nasdaq:STEM - News), a leading stem cell company developing and commercializing novel cell-based therapeutics and tools for use in stem cell-based research and drug discovery, today reported financial results for the fourth quarter and year ended December 31, 2011 and provided a business update.

"The StemCells team made significant progress in 2011 with regard to two critical goals for the Company, namely accelerating and broadening our HuCNS-SC neural stem cell clinical trial agenda for diseases of, and injuries to, the central nervous system, while at the same time reducing our operating cash burn. We are now uniquely positioned as the only stem cell company pursuing clinical trials for disorders of all three organs of the CNS, the brain, spinal cord and eye," said Martin McGlynn, President and CEO of StemCells, Inc. "We have strong preclinical data underlying all our clinical trials, much of which has already been published in peer-reviewed journals, but we realize that the true test of our proprietary cell-based technology will be in the clinic. In this regard, I am pleased to confirm StemCells remains on track to report safety and efficacy data from our recently completed Phase I Pelizeaus-Merzbacher disease trial at the European Leukodystrophy Association meeting to be held in Paris, March 31-April 1. We are confident that executing our clinical trial agenda, while controlling our cash burn, is the best way to build lasting shareholder value."

Fourth Quarter and Recent Business Highlights

Therapeutic Product Development

Tools and Technologies Programs

Other Business Activities

Fourth Quarter 2011 Financial Results

For the fourth quarter of 2011, the Company reported a net loss of $7,212,000, or $(0.47) per share, compared with a net loss of $8,957,000, or $(0.70) per share, for the fourth quarter of 2010. Loss from operations in the fourth quarter of 2011 was $7,313,000, which was 5% lower when compared to the $7,706,000 loss from operations in the fourth quarter of 2010. Included in net loss and loss from operations in the fourth quarter of 2011 is a charge of $655,000 for the write-off of an acquired intangible asset.

Total revenue during the fourth quarter of 2011 was $541,000, compared to $699,000 in the same period of 2010. The decrease of 23% from 2010 to 2011 was due to both lower product sales and lower licensing and grant revenues. Total revenues in the fourth quarter of 2010 were higher due to a particularly strong quarter in our SC Proven business as well as the receipt of a milestone payment under a licensing agreement of approximately $438,000 in 2010.

Total operating expenses in the fourth quarter of 2011 were $7,807,000, compared to $8,341,000 in the fourth quarter of 2010. Excluding the impairment of the intangible asset, which is included as an operating expense, total operating expenses in the fourth quarter of 2011 were $7,152,000, or 14% lower than the same period in 2010. In the fourth quarter of 2011, research and development expenses totaled $4,834,000, or 18% less than in the same period of 2010, while selling, general and administrative expenses totaled $2,290,000, or 8% lower. The significant reduction in operating expenses was primarily attributable to the Company's cost containment efforts, including the reduction in force effected in May 2011.

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StemCells, Inc. Reports Fourth Quarter and Year End 2011 Financial Results and Provides Business Update

Editor's Choice Academic Journal Main Category: Heart Disease Also Included In: Cardiovascular / Cardiology;Stem Cell Research Article Date: 09 Mar 2012 - 4:00 PST

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The paper's lead author, Kenneth Chien from Harvard University in the USA explains:

Until now, clinical trials have been based on heart attacks, chronic heart failure as well as dilated cardiomyopathy, but regardless of the fact that regenerative therapies that are based on various non-cardiac cell types seem to be safe, their efficacy has not yet been tested in a clinical trial.

However, possible new targets and treatment strategies are now emerging due to recent progress in cardiac stem cell research and regenerative biology.

Scientists used to think that the heart only has a minimal capacity for self-renewal and saw no prospect in reversing the loss of healthy heart muscle and function. This perception has been altered because of recent findings, such as the discovery of several distinct embryonic progenitor cell types of which some are found in the heart.

A certain number of these cells can be activated in people with cardiac injuries and are now targeted by scientists to develop novel cardiac regenerative therapeutics either by delivery of the cells, or by new methods that activate expansion and conversion of functioning heart cells.

For instance, clinical studies conducted a short while ago demonstrated that scar formation following a heart attack can be reduced by taking cells from the patient's own heart tissue. Even though it remains uncertain whether the delivered cells are indeed stem cells, these studies nevertheless demonstrate that this is a small, educational step towards the goal of utilizing the heart's potential for self-healing.

More:
Heart Disease Stem Cell Therapies - Development Must Come From Several Specialties

(CNN) -

A Florida cardiologist could have his medical license revoked by state authorities who have accused him of performing illegal stem cell therapy on a patient who died during the procedure.

Florida's Department of Health ordered the emergency suspension of Zannos Grekos' medical license Wednesday, accusing the Bonita Springs doctor of violating an emergency order against using stem cell treatments in Florida and causing the death of an unidentified elderly patient. Grekos can appeal the order.

According to the license suspension order, Grekos performed a stem cell treatment this month on the patient, who was suffering from pulmonary hypertension and pulmonary fibrosis. Both diseases restrict blood flow to the heart.

"During said stem cell treatment, patient R.P. suffered a cardiac arrest and died," the suspension order said.

CNN first investigated Grekos' activities in 2009, when he said he was using stem cell therapy for a company called Regenocyte Therapeutic. His profile, listed on the company's website, describes Grekos as having "extensive experience in the field of stem cell therapy" and says he "was recently appointed to the Science Advisory Board of the United States' Repair Stem Cell Institute."

At the time of CNN's interview, Grekos said he extracted stem cells from patients and then sent the blood to Israel for laboratory processing. That processing, he said, resulted in "regenocytes," which he said would help heal crippling diseases, mostly associated with lung problems.

The president of the International Society of Stem Cell Research, Dr. Irving Weissman, told CNN at the time that "there is no such cell."

"There is nothing called a regenocyte," he said.

After CNN's initial report, Grekos said the name was "advertising" and was not intended to be scientific.

Continue reading here:
Patient dies during procedure

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

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, today discussed the potential use of the companys cell encapsulation technology with modified stem cells to treat late stage cancers.

Stem cell therapy is not new to physicians dealing with blood and bone cancers, with stem cell transplants being an important treatment for growing new bone marrow since the 1970s. Recent studies have indicated the potential for using stem cells across a much broader range of cancers is becoming a reality, mostly a result of advances in cell and molecular biology techniques.

Traditional chemotherapy works by targeting the fast-growing cells common to cancer tumors. Unfortunately, chemotherapeutics dont differentiate between healthy and cancerous cells. Patients suffering from metastatic cancers, where tumors have spread to multiple areas of the body, often have substantial difficulties with the chemotherapy needed to treat their disease.

In one case, researchers at City of Hope and St. Jude Children's Research Hospital may have found a way to treat cancers that have spread throughout the body more effectively. They used genetically modified stem cells to activate chemotherapeutic drugs at the tumor sites, so that normal tissue surrounding the tumor and throughout the body remain relatively unharmed. The stem cells were designed to produce a specific enzyme that converts the nontoxic prodrug into the chemotherapeutic agent. This method also targets the brain tumor treatment to remain localized within the brain, similar to the pancreatic cancer clinical trial carried out by SG Austria, providing for high dosage chemotherapy without affecting surrounding tissues and avoiding the severe side effects normally associated with cancer therapy.

Nuvilex believes that incorporating Cell-in-a-Box encapsulation with this type of genetically modified stem cell, along with the proprietary cancer treatment being acquired, could significantly aid and improve patient outcomes.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, commented, We are hopeful for the day when late stage cancers can be routinely and safely treated using genetically modified cells like those used in the pancreatic cancer trial, increasing the ability of clinicians to avoid inducing side effects that typically accompany aggressive chemotherapy and/or radiation. Our cell encapsulation technology will enable practitioners to target tumors while preserving the health of the surrounding tissues. We continue to look for leading stem cell and oncology researchers to partner with us as we bring this technology to market.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

Safe Harbor Statement

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Nuvilex Points Toward Cell Encapsulation Technology Future to Expand Stem Cell Use for Late Stage Cancer Treatments

By David Fitzpatrick and Drew Griffin, Special Investigations Unit

updated 1:34 PM EST, Thu March 8, 2012

Dr. Zannos Grekos, seen here in 2009, could have his license suspended.

STORY HIGHLIGHTS

(CNN) -- A Florida cardiologist could have his medical license revoked by state authorities who have accused him of performing illegal stem cell therapy treatment on an elderly patient who died during the procedure.

Florida's Department of Health ordered the emergency suspension of Dr. Zannos Grekos' medical license Wednesday, accusing the Bonita Springs doctor of violating an emergency order against using stem cell treatments in Florida and allegedly causing the death of an unnamed elderly patient. Grekos can appeal the order.

According to the license suspension order, Grekos performed a stem cell treatment earlier this month on the patient, who was suffering from pulmonary hypertension and pulmonary fibrosis. Both diseases restrict blood flow to the heart.

"During said stem cell treatment, patient R.P. suffered a cardiac arrest and died," the suspension order said.

CNN first investigated Grekos's activities in 2009 and, at that time, he said he was using stem cell therapy for a company he called Regenocyte Therapeutic. His profile, listed on the company's website, describes Grekos as having "extensive experience in the field of stem cell therapy" and says he "was recently appointed to the Science Advisory Board of the United States' Repair Stem Cell Institute."

At the time of CNN's interview, Grekos said he extracted stem cells from patients and then sent the blood to Israel for laboratory processing. That processing, he said, resulted in "regenocytes," which he claimed would help heal crippling diseases, mostly associated with lung problems.

View original post here:
Florida suspends doctor accused of illegal stem cell therapy

By Fiona Macrae

Last updated at 1:55 AM on 8th March 2012

Important breakthrough: One in ten glaucoma sufferers go blind, due to late diagnosis, drugs not working or the disease being particularly severe (file picture)

A treatment for one of the most common causes of blindness could soon be available.

British researchers have used stem cells to heal the damage caused by glaucoma.

The treatment has only been tested on rats, but scientists say it could be tested on humans by 2015 and in widespread use four years later.

At present one in ten glaucoma sufferers go blind, due to late diagnosis, drugs not working or the disease being particularly severe.

Researchers at University College London took healthy stem cells master cells capable of turning into other types of cell and widely seen as a repair kit for the body from human eyes.

They used a cocktail of chemicals to turn them into retinal ganglion cells those that die in glaucoma. They then injected these into the eyes of rats with glaucoma-like damage.

After just four weeks, the cells had connected with existing nerve cells, and the animals eyes worked 50 per cent better, the journal Stem Cells Translational Medicine reports.

Read more:
Stem cell repair kit for glaucoma could mean a treatment for the most common cause of blindness

ROCKVILLE, Md., March 7, 2012 /PRNewswire/ -- Neuralstem, Inc. (NYSE Amex: CUR) announced that the second patient to receive stem cells in the cervical (upper back) region of the spine was dosed on February 29th in the ongoing Phase I trial of its spinal cord neural stem cells in amyotrophic lateral sclerosis (ALS or Lou Gehrig's disease). Patient 14 is also the first woman to be treated in the trial. Stem cell transplantation into the cervical region of the spinal cord couldsupport breathing, a key function that is lost as ALS progresses. The first twelve patients in the trial received stem cell transplants in the lumbar (lower back) region of the spinal cord only.

(Logo: http://photos.prnewswire.com/prnh/20061221/DCTH007LOGO )

"This cohort of patients represents another first for our trial, as we transplant cells directly into the gray matter of the spinal cord in the cervical region," said Karl Johe, PhD, Neuralstem's Chairman and Chief Scientific Officer. "We are delighted that the surgeries are progressing in a region that could have a significant impact on the quality of life for ALS patients. With the safe transplantation of our 14th patient, we are well are on our way to demonstrating the safety of our novel procedure."

About the Trial The Phase I trial to assess the safety of Neuralstem's spinal cord neural stem cells and intraspinal transplantation method in ALS patients has been underway since January 2010. The trial is designed to enroll up to 18 patients. The first 12 patients were each transplanted in the lumbar (lower back) region of the spine, beginning with non-ambulatory and advancing to ambulatory cohorts. The trial has now progressed to the final six patients. Each is in the cervical (upper back) region of the spine. The entire 18-patient trial concludes six months after the final surgery.

About Neuralstem Neuralstem's patented technology enables the ability to produce neural stem cells of the human brain and spinal cord in commercial quantities, and the ability to control the differentiation of these cells constitutively into mature, physiologically relevant human neurons and glia. Neuralstem is in an FDA-approved Phase I safety clinical trial for amyotrophic lateral sclerosis (ALS), often referred to as Lou Gehrig's disease, and has been awarded orphan status designation by the FDA.

In addition to ALS, the company is also targeting major central nervous system conditions with its cell therapy platform, including spinal cord injury, ischemic spastic paraplegia and chronic stroke. The company has submitted an IND (Investigational New Drug) application to the FDA for a Phase I safety trial in chronic spinal cord injury.

Neuralstem also has the ability to generate stable human neural stem cell lines suitable for the systematic screening of large chemical libraries. Through this proprietary screening technology, Neuralstem has discovered and patented compounds that may stimulate the brain's capacity to generate new neurons, possibly reversing the pathologies of some central nervous system conditions. The company has received approval from the FDA to conduct a Phase Ib safety trial evaluating NSI-189, its first small molecule compound, for the treatment of major depressive disorder (MDD). Additional indications could include schizophrenia, Alzheimer's disease and bipolar disorder.

For more information, please visit http://www.neuralstem.com and connect with us on Twitter and Facebook.

Cautionary Statement Regarding Forward Looking Information This news release may contain forward-looking statements made pursuant to the "safe harbor" provisions of the Private Securities Litigation Reform Act of 1995. Investors are cautioned that such forward-looking statements in this press release regarding potential applications of Neuralstem's technologies constitute forward-looking statements that involve risks and uncertainties, including, without limitation, risks inherent in the development and commercialization of potential products, uncertainty of clinical trial results or regulatory approvals or clearances, need for future capital, dependence upon collaborators and maintenance of our intellectual property rights. Actual results may differ materially from the results anticipated in these forward-looking statements. Additional information on potential factors that could affect our results and other risks and uncertainties are detailed from time to time in Neuralstem's periodic reports, including the annual report on Form 10-K for the year ended December 31, 2010 and the quarterly report on Form 10-Q for the period ended September 30, 2011.

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Fourteenth Patient Dosed in Neuralstem ALS Stem Cell Trial

Lindsay Porter's kidneys weighed 16 pounds before her transplant.

STORY HIGHLIGHTS

(CNN) -- By the time Lindsay Porter had her kidneys removed two years ago, they were bulging -- covered in cysts -- and together weighed 16 pounds.

Her abdominal area was so distended, "I looked nine months pregnant, and people regularly asked when I was due," Porter said.

As she prepared for a transplant to address her polycystic kidney disease, Porter, 47, had mixed feelings -- relief to have found a donor, tinged with resignation. She was looking forward to both a new kidney, and a lifetime on immune system-suppressing drugs.

"You get this brand new shiny kidney, and then they give you drugs that eventually destroy it," said Porter.

But that scenario may eventually change, if results of a new pilot study are replicated in a larger group of patients. The study, published Wednesday in the journal Science Translational Medicine, describes eight kidney transplant patients, including Porter, who received a stem cell therapy that allowed donor and recipient immune cells to coexist in the same body.

The effect, in a handful of those patients, was to trick the recipient's immune system into recognizing the donated kidney as its own.

When it works, patients become a sort of medical rarity called a chimera.

"Chimerism is a condition wherein two different genetic cell populations are present in the body, and both cell types are tolerated," said Dr. Anthony Atala, director of the Institute for Regenerative Medicine at Wake Forest Baptist Medical Center, who was not involved in the study, via e-mail.

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Transplant without lifetime of drugs?

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

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, today pointed out the potential for substantial partnership and licensing opportunities using the companys cell encapsulation technology for applications in stem cell research and medicine. Migration of implanted cells away from the target site and host rejection have been recognized as fundamental challenges faced by the stem cell community regarding their use in therapy, which the companys technology overcomes.

The technology being acquired from associate SG Austria is used to place live stem cells into strong, flexible and permeable capsules. These capsules can then be implanted into animals or humans for specific therapies. Stem cells can then exist at the desired location inside the capsules, prevented from migrating and protected from the immune system that aims to eliminate such foreign cells from the body.

Stem cell therapy is being used by clinicians throughout the world for treating such diverse diseases as spinal cord injury, amyotrophic lateral sclerosis, burns, glioma, multiple myeloma, arthritis, heart disease, stroke, Stargardt's Macular Dystrophy, and age-related macular degeneration, among others, most of which can be found at ClinicalTrials.gov.

Historically, researchers have faced numerous difficulties in succeeding with certain stem cell treatments, because of the problems associated with keeping stem cells alive for significant periods of time, stopping rejection and destruction by the recipients immune system, and keeping stem cells from migrating away from the desired sites. Cells encapsulated in SG Austrias porous beads have been shown to remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and are unable to migrate to other sites in the body.

In the February 29, 2012 research report, Goldman Small Cap Research stated, The Cell-in-a-Box approach could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, discussed the value for licensing the companys stem cell therapy, adding, By overcoming traditional barriers to effective stem cell therapy, namely viability, migration, and host rejection, we believe these new advances in medical science utilizing stem cells and encapsulation will enable us to take quantum leaps forward now and in the future. As a result of challenges SG Austria has overcome, new advances will be surprisingly close at hand and are part of the driving force behind our desire to work with a number of companies in this endeavor. Our primary goal has been and remains to use our technology to bring life changing treatments to patients on an expedited basis.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

Safe Harbor Statement

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Nuvilex Forecasts Vast Partnership Opportunities Using Breakthrough Stem Cell Technology

WASHINGTON, DC--(Marketwire -03/05/12)- The Alliance for Regenerative Medicine issued the following statement today: "An article about stem cell treatments taking place in Texas published by Nature last week is extremely troubling. The article suggests that patients are being administered stem cell treatments that have not been systematically demonstrated to be safe and effective therapies through the established FDA regulatory process.

"Cell therapy treatments, including those using adult stem cells, hold the promise of providing patients with treatments and cures for numerous diseases and disabilities. However, FDA regulation is key to ensuring that the treatments available to patients are safe and effective.

"The Alliance for Regenerative Medicine (ARM), a non-profit organization whose mission is to promote increased funding and development of regenerative medicine products, believes cell therapy and regenerative medicine products, including autologous cell therapy products, must go through the rigorous safety testing that is part of the FDA regulatory process before they can be marketed to the public. These regulations are designed to promote safe collection, manufacture, storage, and use of human cells, and cellular and tissue based products. ARM members comply with these rules because they know that FDA oversight helps to prevent patients from exposure to potentially unsafe products.

"We urge all companies developing stem cell treatments to follow FDA rules governing research and product development. ARM remains committed to working with all stakeholders to ensure that safe and effective products reach patients as soon as possible."

About The Alliance for Regenerative Medicine (ARM) The Alliance for Regenerative Medicine (ARM) is a Washington, DC-based non-profit organization that promotes legislative, regulatory, reimbursement, and financing initiatives necessary to facilitate access to life-giving advances in regenerative medicine. ARM also works to increase public understanding of the field and its potential to transform human healthcare, and provides services to support the growth of its member companies and organizations. To learn more about ARM or to become a member, visit http://www.alliancerm.org.

Original post:
The Alliance for Regenerative Medicine Statement on Use of Cell Therapies Not Approved by the Federal Drug ...

NEW YORK, NY--(Marketwire -03/05/12)- February was a challenging month for stem cell stocks. TickerSpy's Stem Cell Stocks Index (RXSTM) has slipped nearly 13 percent over the last month -- underperforming the S&P 500 by close to 17 percent over that time frame. Despite the drop in investor optimism, new research continues to propel the industry forward. Five Star Equities examines the outlook for companies in the Biotechnology industry and provides equity research on Advanced Cell Technology, Inc. (OTC.BB: ACTC.OB - News) and NeoStem, Inc. (AMEX: NBS - News). Access to the full company reports can be found at:

http://www.fivestarequities.com/ACTC

http://www.fivestarequities.com/NBS

A new study at Johns Hopkins University has shown that stem cells from patients' own cardiac tissue can be used to heal scarred tissue after a heart attack. "This has never been accomplished before, despite a decade of cell therapy trials for patients with heart attacks. Now we have done it," Eduardo Marban, director of the Cedars-Sinai Heart Institute and one of the study's co-authors, said in a statement. "The effects are substantial."

In another study, researchers led by Jonathan Tilly, director of the Vincent Center for Reproductive Biology at Massachusetts General Hospital, argue they've discovered the ovaries of young women harbor very rare stem cells capable of producing new eggs.

Five Star Equities releases regular market updates on the biotechnology industry so investors can stay ahead of the crowd and make the best investment decisions to maximize their returns. Take a few minutes to register with us free at http://www.fivestarequities.com and get exclusive access to our numerous stock reports and industry newsletters.

Advanced Cell Technology, Inc., a biotechnology company, focuses on the development and commercialization of human embryonic and adult stem cell technology in the field of regenerative medicine. The Company recently issued a press release stating that it utilized $13.6 million in cash for operations during 2011, compared to $8.8 million in the year-earlier period. The increase in cash utilization resulted primarily from ACT's ongoing clinical activities in the US and Europe.

NeoStem, Inc., a biopharmaceutical company, engages in the development and manufacture of cellular therapies for oncology, immunology, and regenerative medicines in the United States and China. In January, Amorcyte, LLC, a NeoStem, Inc. company, announced the enrollment of the first patient in the Amorcyte PreSERVE Phase 2 trial for acute myocardial infarction.

Five Star Equities provides Market Research focused on equities that offer growth opportunities, value, and strong potential return. We strive to provide the most up-to-date market activities. We constantly create research reports and newsletters for our members. Five Star Equities has not been compensated by any of the above-mentioned companies. We act as an independent research portal and are aware that all investment entails inherent risks. Please view the full disclaimer at: http://www.fivestarequities.com/disclaimer

Excerpt from:
New Stem Cell Research Shows Promising Results -- Advanced Cell Tech and NeoStem Poised to Benefit

NEW YORK, NY--(Marketwire -03/05/12)- February was a challenging month for stem cell stocks. TickerSpy's Stem Cell Stocks Index (RXSTM) has slipped nearly 13 percent over the last month -- underperforming the S&P 500 by close to 17 percent over that time frame. Despite the drop in investor optimism, new and promising research continues to propel the industry forward. Five Star Equities examines the outlook for companies in the Biotechnology industry and provides equity research on BioTime, Inc. (AMEX: BTX - News) and Aastrom Biosciences, Inc. (NASDAQ: ASTM - News). Access to the full company reports can be found at:

http://www.fivestarequities.com/BTX

http://www.fivestarequities.com/ASTM

A new study at Johns Hopkins University has shown that stem cells from patients' own cardiac tissue can be used to heal scarred tissue after a heart attack. "This has never been accomplished before, despite a decade of cell therapy trials for patients with heart attacks. Now we have done it," Eduardo Marban, director of the Cedars-Sinai Heart Institute and one of the study's co-authors, said in a statement. "The effects are substantial."

In another study, researchers led by Jonathan Tilly, director of the Vincent Center for Reproductive Biology at Massachusetts General Hospital, argue they've discovered the ovaries of young women harbor very rare stem cells capable of producing new eggs.

Five Star Equities releases regular market updates on the biotechnology industry so investors can stay ahead of the crowd and make the best investment decisions to maximize their returns. Take a few minutes to register with us free at http://www.fivestarequities.com and get exclusive access to our numerous stock reports and industry newsletters.

Aastrom Biosciences, Inc., a regenerative medicine company, engages in developing autologous cell therapies for the treatment of severe and chronic cardiovascular diseases.

BioTime, Inc. primarily focuses on regenerative medicine, which refers to therapies based on human embryonic stem (hES) cell and induced pluripotent stem (iPS) cell technology designed to rebuild cell and tissue function lost due to degenerative disease or injury. The company recently elected to market progenitors of muscle stem cells bearing hereditary diseases. BioTime will produce the products from five human embryonic stem (hES) cell lines from Reproductive Genetics Institute (RGI) of Chicago, Illinois.

Five Star Equities provides Market Research focused on equities that offer growth opportunities, value, and strong potential return. We strive to provide the most up-to-date market activities. We constantly create research reports and newsletters for our members. Five Star Equities has not been compensated by any of the above-mentioned companies. We act as an independent research portal and are aware that all investment entails inherent risks. Please view the full disclaimer at: http://www.fivestarequities.com/disclaimer

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BioTime and Aastrom Biosciences -- Stem Cell Research Making Breakthroughs

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

Nuvilex, Inc. (OTCQB:NVLX), an emerging biotechnology provider of cell and gene therapy solutions, released information today about the companys cell encapsulation technology and the breakthrough in stem cell research which overcomes specific fundamental challenges faced in stem cell therapyhost rejection and migration of implanted cells away from the target site.

Stem cell therapy is believed by many medical researchers as holding a key to treating cancer, Type 1 diabetes mellitus, Parkinson's disease, Huntington's disease, Celiac Disease, cardiac failure, muscle damage, neurological disorders, and other chronic, debilitating diseases. There are presently >1,400 registered trials using stem cells that are recruiting patients (ClinicalTrials.gov). The encapsulation technology being advanced allows live stem cells to be implanted into robust, flexible and permeable capsules where they can replicate inside the capsules at the target site free from attack by the bodys immune system and free to undergo natural changes to become the appropriate cell type needed.

The Goldman Small Cap Research report, issued February 29, 2012, noted some inherent difficulties encountered in stem cell treatments, such as keeping stem cells alive for significant periods of time, potential rejection of the cells and subsequent destruction by the recipients immune system, and the migration of the stem cells away from the critical treatment site, while making a distinction that the Companys cell encapsulation technology overcomes these concerns.

The report also accurately recognized, Cells encapsulated in SG Austrias porous beads remain alive for long periods of time in humans, surviving intact for at least two years. Once encapsulated, cells are protected from the bodys immune system. Furthermore, encapsulated cells remain within the beads and do not migrate out of the beads to other sites in the body.

In assessing the overall importance of this technology to Nuvilexs overall business model, Goldman pointed out, The Companys acquisition of the Cell-in-a-Box approach along with the expertise of SG Austria could significantly advance the implementation and utilization of stem cells for a host of debilitating diseases and conditions, in addition to being used to target cancer cells, thus making it a uniquely valuable commodity. We believe that by partnering with leading players in the field, Nuvilex could find that companies with deep pockets would be happy to collaborate or license the delivery system and engage in further research which could result in meaningful development and licensing revenue.

Dr. Robert Ryan, Chief Executive Officer of Nuvilex, added, There is a broad range of expanding research supporting the use of stem cells to treat a variety of human diseases and conditions. Our technology allows for precise maintenance and localization of stem cells, preventing their loss from the critical area of need, that will enable us to potentially create miniature organs at specific sites and as a result we believe greater utilization of those stem cells at the site for their intended purpose, once implanted. As stem cell treatments advance, we expect Nuvilex to be at the forefront of developing new, significant, life changing therapies.

For a detailed review of the research report and valuation methodology, investors are directed to the Goldman Research Report.

About Nuvilex

Nuvilex, Inc. (OTCQB:NVLX) is an emerging international biotechnology provider of clinically useful therapeutic live encapsulated cells and services for encapsulating live cells for the research and medical communities. Through our effort, all aspects of our corporate activities alone, and especially in concert with SG Austria, are rapidly moving toward completion, including closing our agreement. One of our planned offerings will include cancer treatments using the companys industry-leading live-cell encapsulation technology.

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Nuvilex Announces Major Breakthrough in Stem Cell Research