Bentsen Stroke Center Awards Grants for Regenerative Medicine Research

Newswise Every year, approximately 795,000 people in the United States suffer a stroke and the late U.S. Senator and Democratic Party vice presidential candidate Lloyd Bentsen was one of them. As the senator and his wife, B. A., dealt with the challenges of stroke, they developed the idea for a stroke research center.

The couples efforts led to the 2009 opening of the Senator Lloyd and B.A. Bentsen Center for Stroke Research at The Brown Foundation Institute of Molecular Medicine for the Prevention of Human Diseases (IMM), a part of The University of Texas Health Science Center at Houston (UTHealth). Sen. Bentsen died prior to the centers opening.

In April at the IMM, B.A. Bentsen and one of the couples sons, Lan, got updates on six projects funded by the stroke center. The center was launched with a generous gift from the Bentsen family and the center distributes up to $1 million annually for research.

The primary focus of the Bentsen Stroke Center is to develop cell-based therapeutics, including the use of certain populations of stem cells, to reduce secondary brain injury and enhance recovery, said Brian R. Davis, Ph.D., interim director of Center for Stem Cell and Regenerative Medicine at the IMM, which is the academic and administrative home of the Bentsen Stroke Center. Davis is the Annie and Bob Graham Distinguished Chair in Stem Cell Biology at UTHealth.

In 2011 and 2012, Bentsen Stroke Center grants were awarded to UTHealth Medical School faculty members Jaroslaw Aronowski, Ph.D., Qi Lin Cao, Ph.D., Charles Cox Jr., M.D., Pramod Dash, Ph.D., Ying Liu, M.D., Ph.D., Sean Savitz, M.D. and Jiaqian Wu, Ph.D. They are the principal investigators for the studies.

Lessen injury progression

When a blood vessel in the brain ruptures, pooling blood accumulates in brain matter and can cause additional if not more serious problems. Aronowski, professor of neurology and director of cerebrovascular (stroke) research, is exploring a natural way to speed up blood cleanup to prevent further brain injury.

This cleanup is normally done by specialized cells called phagocytes. Unfortunately, this process takes weeks, thus allowing blood, which is now outside of the vessel to continue to damage the brain. Aronowski proposes to speed up the process by modifying the phagocytes. We identified components of machinery phagocytes used to scavenge and clean up blood debris. Now, we will isolate them from blood, modify their function and reinject them back to see if they do a better cleanup job, Aronowski said. He plans to conduct a preclinical trial.

Replace damaged nerve cells

When a person suffers a stroke, nerve cells or neurons can begin to die. Regenerative medicine researchers would like to create replacement cells. Cao, associate professor at The Vivian L. Smith Department of Neurosurgery, is conducting a preclinical study to select the best neural cell types to treat stroke.

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Bentsen Stroke Center Awards Grants for Regenerative Medicine Research

Frozen cord could save a life

Tim and Padma Vellaichamy of Parramatta have had their new born child's umbilical cord stored cryogenically for future treatment. Pictured with their as yet unnamed three week old daughter. Picture: Adam Ward Source: The Daily Telegraph

IT'S current preservation for future regeneration - and now umbilical cord tissue is going on ice in Australia for the first time.

Usually discarded after birth, umbilical tissue from newborn babies is being collected and cryogenically frozen to be used one day for regenerative and stem cell medicine. And it doesn't just have potential for the babies involved, either. Experts say stem cells could also be used for family members who are genetically compatible.

It is hoped the cells will eventually be able to be used to repair damaged tissues and organs, with researchers investigating its uses for treating diseases like multiple sclerosis, cerebral palsy and diabetes, as well as for bone and cartilage repair.

Although cord blood storage has been available for many years, Cell Care Australia has added cord tissue storage in anticipation of new discoveries in the regenerative medicine field.

Cell Care Australia medical director associate professor Mark Kirkland said the storage process - already popular in the US, Europe and Southeast Asia - was long overdue for Australian shores.

"The science is developing around the world and we're really behind the rest of the world in providing parents the option to store these cells and we thought it was about time it was brought here," he said.

"It's finding a way to take what would otherwise be waste tissue and turning it into something of potential future value for not only your child but also potentially for other family members.'

Parramatta couple Tim and Padma Vellaichamy are among the first to use the service in Australia.

Mr Vellaichamy, 31, said he heard of the technology while working as a dentist in India and decided to store their daughter's cord cell tissue after birth three weeks ago.

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Frozen cord could save a life

Neuralstem CEO to Present at the World Stem Cells and Regenerative Medicine Congress in London

ROCKVILLE, Md., May 21, 2012 /PRNewswire/ --Neuralstem, Inc. (NYSE MKT: CUR) announced that Richard Garr, CEO and President, will present at the World Stem Cells & Regenerative Medicine Congress in London (http://www.terrapinn.com/2012/stemcells/index.stm) on Tuesday, May 22nd at 12:30 PM. Mr. Garr's presentation, "Stem Cell Applications for Neurodegenerative Disorders," will review Neuralstem's cellular therapy trial in ALS, its neurogenic small molecule trial in major depressive disorder (MDD), and provide an overview on plans to expand the cellular therapy program.

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

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 neurogenic small molecule compound, for the treatment of major depressive disorder (MDD). Additional indications could include CTE (chronic traumatic encephalopathy), Alzheimer's disease, anxiety, and memory disorders.

For more information, please visit http://www.neuralstem.com or 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, 2011 and the Form 10-Q for the period ended March 30, 2012.

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Neuralstem CEO to Present at the World Stem Cells and Regenerative Medicine Congress in London

UTHealth Pediatric Surgery Expands Regenerative Medicine Program

Newswise About 3 percent of the babies born in the United States have a birth defect. Children without a birth defect are also susceptible to injury or disease. At The University of Texas Health Science Center at Houston (UTHealth), regenerative medicine researchers are exploring innovative ways to treat these conditions.

The Department of Pediatric Surgery at the UTHealth Medical School operates a research program devoted to childhood conditions that is seeking to harness the bodys regenerative powers to repair malformed organs and to mitigate injury from illness or trauma. It is called the Childrens Regenerative Medicine Program.

Kevin Lally, M.D., chairman of the Department of Pediatric Surgery at the UTHealth Medical School and surgeon-in-chief at Children's Memorial Hermann Hospital, announced the recruitment of four stem cell scientists to the program. The researchers are associate professor Yong Li, M.D., Ph.D., and assistant professors Scott Olson, Ph.D., Fabio Triolo, M.Phil., D.d.R., Ph.D., and Pamela Wenzel, Ph.D.

We were able to recruit outstanding investigators thanks in part to the generous support of Mrs. Clare Glassell and Mrs. Evelyn Griffin, said Lally, who is the A.G. McNeese Chair in Pediatric Surgery and the Richard Andrassy, M.D., Endowed Distinguished Professor at UTHealth. Our program in regenerative medicine is committed to a collaborative environment in which clinicians work with basic researchers.

Lally has a special interest in the treatment of a potentially life-threatening condition known as congenital diaphragmatic hernia that occurs in as many as one in every 2,500 live births and is often treated surgically. The diaphragm is a muscle separating the chest cavity and belly and is important for breathing.

The core fundamental problem is infants born with structural problems that need to be repaired, said Lally, who believes doctors may be able to use stem cells to replace the diaphragm or repair defects in the abdominal wall.

Stem cells may also help children with traumatic brain injuries. Charles Cox Jr., M.D., professor of pediatric surgery, director of the Pediatric Trauma Program at the UTHealth Medical School/Childrens Memorial Hermann Hospital and The Childrens Fund Inc. Distinguished Professor in Pediatric Surgery, is leading clinical research on the use of these versatile cells to address this leading cause of death and lifelong disability among children.

Yong Li, M.D., Ph.D.

Li previously served as a tenure track assistant professor in the Stem Cell Research Center at Childrens Hospital of Pittsburgh, where his laboratory studied the regenerative power of newts and salamanders in the hope of applying this information to the care of people.

Newts are able to regenerate missing body parts including limbs, spine and heart. Li has studied growth factors that facilitate this regeneration process in some amphibians and how they could be used for stem cell population and tissue engineering.

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UTHealth Pediatric Surgery Expands Regenerative Medicine Program

Biostem U.S., Corporation Adds Jeanne Ann Lumadue, MD, PhD, MBA to Its Scientific and Medical Board of Advisors

CLEARWATER, FL--(Marketwire -05/21/12)- Biostem U.S., Corporation, (HAIR.PK) (HAIR.PK) (Biostem, the Company), a fully reporting public company in the stem cell regenerative medicine sciences sector, today announced that Jeanne Ann Lumadue, MD, PhD, MBA, has been appointed to its Scientific and Medical Board of Advisors (SAMBA).

Dr. Lumadue currently is Medical Director at the Mount Nittany Physician Group Laboratory in State College, PA. She also serves as Medical Director of the Central Pennsylvania Blood Bank and is a member of the medical staff of the Mount Nittany Medical Center, all in State College.

Dr. Lumadue stated, "Biostem's international technology development and licensing approach is well planned. Stem cell regenerative medicine is a rapidly expanding field that has the potential to affect every human being in a positive way. I am delighted to be part of this highly promising company."

Biostem CEO Dwight Brunoehler said, "I am thrilled for the opportunity to work with Jeanne again. She is an innovative thinker, a tireless contributor, and a great team player."

Dr. Lumadue received her undergraduate degree magna cum laude from the Pennsylvania State University and her PhD in Genetics from Yale University. She received an MD degree from the Johns Hopkins University in Baltimore, MD, where she also did residency and fellowship training in anatomic and clinical pathology. She has served as Pathologist and Assistant Medical Director of Transfusion Medicine at the Johns Hopkins Hospital, the Medical Director of Laboratory Hematology and Stem Cell Processing at Children's National Medical Center in Washington, DC, and the Medical Director of Transfusion Services and Stem Cell Processing at the Inova Fairfax Hospital in Falls Church, Virginia.

She is a member of the American Society of Hematology, the College of American Pathologists, the American Society of Clinical Pathologists and the AABB, for which she serves as a facility assessor.

About Biostem U.S., Corporation

Biostem U.S., Corporation is a fully reporting Nevada corporation with offices in Clearwater, Florida. Biostem is a technology licensing company with proprietary technology centered on 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 Fox Communications Group 310-974-6821.

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Biostem U.S., Corporation Adds Jeanne Ann Lumadue, MD, PhD, MBA to Its Scientific and Medical Board of Advisors

Stem cell medicine thrown umbilical rope

Tim and Padma Vellaichamy of Parramatta have had their new born child's umbilical cord stored cryogenically for future treatment. Pictured with their as yet unnamed three week old daughter. Picture: Adam Ward Source: The Daily Telegraph

IT'S current preservation for the future regeneration - and now umbilical cord tissue is going on ice in Australia for the first time.

Usually discarded after birth, umbilical tissue from newborn babies is being collected and cryogenically frozen to be used one day for regenerative and stem cell medicine. And it doesn't just have potential for the babies involved, either. Experts say stem cells could also be used for family members who are genetically compatible.

It is hoped the cells will eventually be able to be used to repair damaged tissues and organs, with researchers investigating its uses for treating diseases like multiple sclerosis, cerebral palsy and diabetes, as well as for bone and cartilage repair.

Although cord blood storage has been available for many years, Cell Care Australia has added cord tissue storage in anticipation of new discoveries in the regenerative medicine field.

Cell Care Australia medical director associate professor Mark Kirkland said the storage process - already popular in the US, Europe and Southeast Asia - was long overdue for Australian shores.

"The science is developing around the world and we're really behind the rest of the world in providing parents the option to store these cells and we thought it was about time it was brought here," he said.

"It's finding a way to take what would otherwise be waste tissue and turning it into something of potential future value for not only your child but also potentially for other family members.'

Parramatta couple Tim and Padma Vellaichamy are among the first to use the service in Australia.

Mr Vellaichamy, 31, said he heard of the technology while working as a dentist in India and decided to store their daughter's cord cell tissue after birth three weeks ago.

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Stem cell medicine thrown umbilical rope

Family hangs hope for boy on unproven therapy in India

Indian clinic's stem cell therapy real?

STORY HIGHLIGHTS

For more of CNN correspondent Drew Griffin's investigation of India's experimental embryonic stem cell therapy, watch "CNN Presents: Selling a Miracle," at 8 and 11 p.m. ET Sunday on CNN.

New Delhi (CNN) -- Cash Burnaman, a 6-year-old South Carolina boy, has traveled with his parents to India seeking treatment for a rare genetic condition that has left him developmentally disabled. You might think this was a hopeful mission until you learn that an overwhelming number of medical experts insist the treatment will have zero effect.

Cash is mute. He walks with the aid of braces. To battle his incurable condition, which is so rare it doesn't have a name, Cash has had to take an artificial growth hormone for most of his life.

His divorced parents, Josh Burnaman and Stephanie Krolick, are so driven by their hope and desperation to help Cash they've journeyed to the other side of the globe and paid tens of thousands of dollars to have Cash undergo experimental injections of human embryonic stem cells.

The family is among a growing number of Americans seeking the treatment in India -- some at a clinic in the heart of New Delhi called NuTech Mediworld run by Dr. Geeta Shroff, a retired obstetrician and self-taught embryonic stem cell practitioner.

Shroff first treated Cash -- who presents symptoms similar to Down Syndrome -- in 2010. "I am helping improve their quality of life," Shroff told CNN.

After five weeks of treatment, Cash and his parents returned home to the U.S.

That's when Cash began walking with the aid of braces for the first time.

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Family hangs hope for boy on unproven therapy in India