Monthly Archives: July 2014

MS stem cell therapy treatment hope for mum

Posted: July 25, 2014 at 4:45 am

July 24, 2014, 10:29 p.m.

A 60 MINUTES report on new multiple sclerosis stem cell therapy has thrown Wendouree mum Kathryn Johnston a potential lifeline.

Hopeful: Wendouree mum Kathryn Johnston is hoping new stem cell therapy treatment will help her be a more active mother to her daughter Dellah, 7. PICTURE: KATE HEALY

Ms Johnston, who has had MS for 15 years, is hoping the treatment will help her be a more active mother to daughter Dellah, 7.

I cant do a great deal with my daughter now but its also the unknown not knowing if Ill wake up one day and not be able to walk, Ms Johnston said.

The 35-year-old emergency nurse hopes to travel to Russia in August next year for the treatment, which involves extracting her stem cells, freezing them while she undergoes a strong course of chemotherapy and then replacing them.

It gets rid of any underlying MS and rebuilds the immune system from scratch. As a general rule, its been about 80 per cent effective.

Ms Johnston first noticed her MS symptoms as an active Ararat 20-year-old doing her nursing degree and about to marry her childhood sweetheart Andrew.

I developed numbness in both hands but thought Id just slept on them until my tummy went numb too.

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MS stem cell therapy treatment hope for mum

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The New York Stem Cell Foundation Partners With Beyond Batten Disease Foundation to Fight Juvenile Batten Disease

Posted: July 25, 2014 at 4:45 am

New York, NY (PRWEB) July 23, 2014

The New York Stem Cell Foundation (NYSCF) and Beyond Batten Disease Foundation (BBDF) have partnered to develop stem cell resources to investigate and explore new treatments and ultimately find a cure for juvenile Batten disease, a fatal illness affecting children.

NYSCF scientists will create induced pluripotent stem (iPS) cell lines from skin samples of young people affected by juvenile Batten disease as well as unaffected family members. IPS cell lines are produced by artificially turning back the clock on skin cells to a time when they were embryonic-like and capable of becoming any cell in the body. Reprogramming juvenile Batten iPS cells to become brain and heart cells, will provide the infrastructure needed to investigate what is going wrong with the cells adversely affected by the disease. Thus far, efforts to study juvenile Batten disease have been done using rodent models or human skin cells; neither of which accurately mimic the disease in the brain, leaving researchers without proper tools to study the disease or a solid platform for testing drugs that prevent, halt, or reverse its progression. This will be the largest and first genetically diverse collection of human iPS cells for a pediatric brain disease.*

In addition to working with BBDF to actively recruit patients and families to donate skin samples, Batten Disease Support and Research Association (BDSRA) is providing resources and technical support, spreading awareness among academic scientists, and notifying its Pharmaceutical partners. Together, BBDF and BDSRA will ensure that juvenile Batten disease and other researchers are aware of and utilize the 48 stem cell lines resulting from this collaboration to further juvenile Batten disease research worldwide.

We know the genetic mutations associated with juvenile Batten disease. This partnership will result in stem cell models of juvenile Batten, giving researchers an unprecedented look at how the disease develops, speeding research towards a cure, said Susan L. Solomon, NYSCF Chief Executive Officer.

Working with NYSCF to generate functional neuronal subtypes from patients and families is a stellar example of one of our key strategies in the fight against juvenile Batten disease: creating resource technology with the potential to transform juvenile Batten disease research and accelerate our timeline to a cure, said Danielle M. Kerkovich, PhD, BBDF Principal Scientist.

Juvenile Batten disease begins in early childhood between the ages of five and ten. Initial symptoms typically begin with progressive vision loss, followed by personality changes, behavioral problems, and slowed learning. These symptoms are followed by a progressive loss of motor functions, eventually resulting in wheelchair use and premature death. Seizures and psychiatric symptoms can develop at any point in the disease.

Juvenile Batten disease is one disorder in a group of rare, fatal, inherited disorders known as Batten disease. Over 40 different errors (mutations) in the CLN3 segment of DNA (gene) have been attributed to juvenile Batten disease. The pathological hallmark of juvenile Batten is a buildup of lipopigment in the body's tissues. It is not known why lipopigment accumulates or why brain and eventually, heart cells are selectively damaged. It is, however, clear that we need disease-specific tools that reflect human disease in order to figure this out and to build therapy.

NYSCF is a world leader in stem cell research and production with a mission to find cures for the devastating diseases of our time, including juvenile Batten disease. NYSCF has developed the NYSCF Global Stem Cell ArrayTM, an automated robotic technology that standardizes and scales stem cell production and differentiation, enabling the manufacture and analysis of large numbers of identical cells from skin samples of patients. The Array technology allows for the production of large-scale iPS cells that have the potential to become any cell type in the body.

This collaboration brings together the expertise of these two leading non-profit organizations, the support of BDSRA, and the participation of affected families, to create and make available to researchers, juvenile Batten disease iPS cell lines. Building on the NYSCF Research Institutes leading stem cell expertise and unique automated technology and analytics, while taking advantage of the tremendous resources and expertise of BBDF, BDSRA and affected families, this collaboration will move research

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The New York Stem Cell Foundation Partners With Beyond Batten Disease Foundation to Fight Juvenile Batten Disease

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NYSCF partners with Beyond Batten Disease Foundation to fight juvenile Batten disease

Posted: July 25, 2014 at 4:45 am

PUBLIC RELEASE DATE:

23-Jul-2014

Contact: David McKeon dmckeon@nyscf.org 212-365-7440 New York Stem Cell Foundation

NEW YORK, NY -- The New York Stem Cell Foundation (NYSCF) and Beyond Batten Disease Foundation (BBDF) have partnered to develop stem cell resources to investigate and explore new treatments and ultimately find a cure for juvenile Batten disease, a fatal illness affecting children.

NYSCF scientists will create induced pluripotent stem (iPS) cell lines from skin samples of young people affected by juvenile Batten disease as well as unaffected family members. IPS cell lines are produced by artificially "turning back the clock" on skin cells to a time when they were embryonic-like and capable of becoming any cell in the body. Reprogramming juvenile Batten iPS cells to become brain and heart cells will provide the infrastructure needed to investigate what is going wrong with the cells adversely affected by the disease. Thus far, efforts to study juvenile Batten disease have been done using rodent models or human skin cells, neither of which accurately mimic the disease in the brain, leaving researchers without proper tools to study the disease or a solid platform for testing drugs that prevent, halt, or reverse its progression. This will be the largest and first genetically diverse collection of human iPS cells for a pediatric brain disease.

"We know the genetic mutations associated with juvenile Batten disease. This partnership will result in stem cell models of juvenile Batten, giving researchers an unprecedented look at how the disease develops, speeding research towards a cure," said Susan L. Solomon, NYSCF Chief Executive Officer.

"Working with NYSCF to generate functional neuronal subtypes from patients and families is a stellar example of one of our key strategies in the fight against juvenile Batten disease: creating resource technology with the potential to transform juvenile Batten disease research and accelerate our timeline to a cure," said Danielle M. Kerkovich, PhD, BBDF Principal Scientist.

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NYSCF partners with Beyond Batten Disease Foundation to fight juvenile Batten disease

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StemGenex Gives Hope to Parkinsons Patients through New Stem Cell Clinical Study

Posted: July 24, 2014 at 12:48 pm

La Jolla, CA (PRWEB) July 23, 2014

StemGenex, the leading resource for adult adipose stem cell therapy in the US aimed at improving the lives of patients dealing with degenerative diseases today announced their newest clinical study for Parkinsons disease. StemGenex believes that a commitment to the safety and efficacy of stem cell therapy are paramount when providing care to patients with degenerative diseases.

This clinical study makes stem cell therapy accessible to the millions of individuals currently living with Parkinsons disease. The protocol used in these stem cell treatments is unique to StemGenex, having the possibility of being more effective than other stem cell treatments currently available. StemGenex has developed a multiple administration protocol for patients suffering from Parkinsons disease which includes targeted methods of stem cell delivery. Among these methods is a novel approach for delivering stem cells past the blood brain barrier an issue most stem cell treatments have been challenged by.

Principal Investigator Dr. Jeremiah McDole, Ph.D. stated, As is the case with most neurodegenerative conditions, there are few available drugs to treat Parkinsons disease. The handful of drugs that are available can only ameliorate symptoms and unfortunately, prolonged usage can create terrible side-effects. Further, these drugs do not halt disease progression or aid in the repair of established damage. Our goal is to provide regenerative medicine applications that address these critical issues. The study we are conducting is designed to provide us with a large amount of rigorously collected data so that we can better understand the clinical benefit of Parkinsons patients treated with stem cells.

This study is registered through The National Institutes of Health which can be found at http://www.clinicaltrials.gov and is being conducted under IRB approval. According to StemGenex Director of Patient Advocacy, Joe Perricone, It is important patients have access to top-tier stem cell therapy. By providing access to registered clinical studies through The National Institutes of Health, we are providing patients with the ability to choose a stem cell treatment center with the highest standard of care.

Rita Alexander, founder and president of StemGenex stated, Parkinson's disease affects a very small part of the brain but anyone suffering with this disease understands the negative impact on his or her life is very big, actually, enormous. Over the last several years we have observed significant improvement in the symptoms of Parkinsons patients through stem cell treatment. We are determined to be part of the solution and are eager to document and publish our findings in the next few years.

Stem cell treatment studies are currently being offered by StemGenex to patients diagnosed with Parkinsons disease and other degenerative neurological diseases. StemGenex takes a unique approach of compassion and empowerment while providing access to the latest stem cell therapies for degenerative neurological diseases including Multiple Sclerosis, Alzheimers disease, stroke recovery and others.

To find out more about stem cell therapy, contact StemGenex either by phone at (800) 609-7795 or email Contact(at)stemgenex(dot)com.

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StemGenex Gives Hope to Parkinsons Patients through New Stem Cell Clinical Study

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New method for reducing tumorigenicity in induced pluripotent stem-cell based therapies

Posted: July 24, 2014 at 3:44 am

PUBLIC RELEASE DATE:

23-Jul-2014

Contact: Kathryn Ruehle kruehle@liebertpub.com 914-740-2100 Mary Ann Liebert, Inc./Genetic Engineering News

New Rochelle, NY -- The potential for clinical use of induced pluripotent stem cell (iPSC) technology for transplant-based therapeutic strategies has previously been hindered by the risk of dysregulated cell growth, specifically the development of tumors. The ability to use etoposide treatment to halt teratoma formation in iPSCs for the treatment of heart disease, specifically acute myocardial infarction, is demonstrated in an article in Stem Cells and Development, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers. The article is available on the Stem Cells and Development website.

In the article 'Inhibition of DNA topoisomerase II selectively reduces the threat of tumorigenicity following induced pluripotent stem cell-based myocardial therapy' Saranya Wyles, Andre Terzic, Timothy Nelson, and coauthors, Mayo Clinic (Rochester, MN), discovered a strategy that alone or in conjunction with other methods could significantly reduce the risk of a tumorigenic event occurring. Their work demonstrates how pretreatment with genotoxic etoposide significantly lowered the threat of abnormal growths by removing the contaminated pluripotent cells and establishing an adjunctive therapy to further harness the clinical value of iPSC-derived cardiac regeneration.

"For anyone seeking to exploit iPSC technology in a clinical setting, the Mayo Clinic has described a strategy that significantly mitigates the risk of tumor development. Furthermore, the paper provides benchmark strategies for assessing the localization and persistence of cell-based treatments in a preclinical model," says Editor-in-Chief Graham C. Parker, PhD, The Carman and Ann Adams Department of Pediatrics, Wayne State University School of Medicine, Detroit, MI.

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About the Journal

Stem Cells and Development is an authoritative peer-reviewed journal published 24 times per year in print and online. The Journal is dedicated to communication and objective analysis of developments in the biology, characteristics, and therapeutic utility of stem cells, especially those of the hematopoietic system. Complete tables of content and a free sample issue may be viewed on the Stem Cells and Development website.

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New method for reducing tumorigenicity in induced pluripotent stem-cell based therapies

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A US Leader in Stem Cell Therapy – StemGenex – Video

Posted: July 24, 2014 at 3:42 am

A US Leader in Stem Cell Therapy - StemGenex
http://www.stemgenex.com/ - StemGenex offer patients access to cutting-edge adipose stem cell therapies for degenerative diseases, cosmetic enhancements and ...

By: EMSearch C

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A US Leader in Stem Cell Therapy - StemGenex - Video

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Scientists Find New Way To Make Human Platelets – Video

Posted: July 23, 2014 at 12:41 pm

Scientists Find New Way To Make Human Platelets
Boston scientists have discovered a new way to create fully functioning human platelets using a bioreactor and human stem cells. Follow Follow Lauren Gores: http://www.twitter.com/laurengores...

By: NewsyVideos

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Scientists Find New Way To Make Human Platelets - Video

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Cordlife Group partners China Cord Blood Corporation to help Asian patients

Posted: July 23, 2014 at 8:40 am

Written by The Edge Wednesday, 23 July 2014 17:20

Cordlife Group said it has partnered China Cord Blood Corporation, the leading provider of cord blood collection and stem-cell storage services on the Mainland, today announced that the two companies have joined forces in assisting patients in China, Singapore, Hong Kong, Indonesia, India, the Philippines and Malaysia to identify suitable cord blood matching units for stem cell therapy.

China Cord Blood Corporation is the first and largest umbilical cord blood banking operator in China in terms of geographical coverage and the only cord blood banking operator with multiple licenses. Under current Chinese government regulations, only one licensed cord blood banking operator is permitted to operate in each licensed region and only seven licenses have been authorised as of today. China Cord Blood Corporation provides cord blood collection, laboratory testing, hematopoietic stem cell processing, and stem cell storage services.

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Controversial Staminia treatment carried out on sick boy

Posted: July 23, 2014 at 8:40 am

Brescia hospital ordered to let discredited therapy resume

(ANSA) - Brescia, July 22 - A controversial stem-cell treatment was administered to a child suffering from muscular dystrophy at a hospital in northern Italy on Tuesday despite having been discredited. The Stamina treatment was administered on the orders of a Sicilian court after the hospital in Brescia decided to suspend the procedure on the boy suffering from Duchenne muscula dystrophy because it had been called into doubt. The child "will remain in observation for a few hours and we will carry out a few tests," said Giuseppe Morfino, the court-appointed doctor leading the external team that performed the treatment. Morfino added that the atmosphere at the hospital had been cooperative. The credibility of the Stamina treatment, which involves extracting bone-marrow stem cells from a patient, supposedly turning them into neurons by exposing them to retinoic acid for two hours, and injecting them back into the patient, has long been suspect, and last autumn the health ministry ruled that the Stamina Foundation would no longer be allowed to test the treatment on humans. The foundation was also stripped of its non-profit status after a study found its treatment was "ignorant of stem-cell biology". Recent investigations have shown risks of the treatment range from nausea to cancer, and reported that as many as one-quarter of all patients treated have experienced "adverse effects". In April, after study results became known, hospitals in Italy announced they had suspended the stem-cell treatment program. However, some local judges have ruled in favor of its application, despite the bans, amid heavy pressure from advocates and the families of patients.

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Controversial Staminia treatment carried out on sick boy

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Novel methods may help stem cells survive transplantation into damaged tissues

Posted: July 22, 2014 at 5:46 pm

PUBLIC RELEASE DATE:

22-Jul-2014

Contact: Kathryn Ruehle kruehle@liebertpub.com 914-740-2100 Mary Ann Liebert, Inc./Genetic Engineering News

New Rochelle, NY -- Stem cells offer much promise for treating damaged organs and tissues, but with current transplantation approaches stem cell survival is poor, limiting their effectiveness. New methods are being developed and tested to improve the survival and optimize their therapeutic function after transplantation, as described in a Review article in BioResearch Open Access, a peer-reviewed journal from Mary Ann Liebert, Inc., publishers. The article is available free on the BioResearch Open Access website.

In the article 'Preconditioning Stem Cells for In Vivo Delivery,' Sbastien Sart, Ecole Polytechnique (Palaiseau, France) and Teng Ma and Yan Li, Florida State University (Tallahassee) examine the leading strategies for preconditioning stem cells prior to transplantation to prepare them for the environment often found in damaged tissue. Preconditioning methods might include exposing stem cells to microenvironments characterized by reduced oxygen levels, heat shock, and oxidative stress, creating three-dimensional stem cell aggregates or microtissues, and using hydrogels in which to embed or encapsulate the cells.

"This article provides an extensive review of the current methods of stem cell preconditioning for transplantation," says BioResearch Open Access Editor Jane Taylor, PhD, MRC Centre for Regenerative Medicine, University of Edinburgh, Scotland. "It also highlights the cutting edge technologies employed to do this."

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About the Journal

BioResearch Open Access is a bimonthly peer-reviewed open access journal led by Editor-in-Chief Robert Lanza, MD, Chief Scientific Officer, Advanced Cell Technology, Inc. and Editor Jane Taylor, PhD. The Journal provides a new rapid-publication forum for a broad range of scientific topics including molecular and cellular biology, tissue engineering and biomaterials, bioengineering, regenerative medicine, stem cells, gene therapy, systems biology, genetics, biochemistry, virology, microbiology, and neuroscience. All articles are published within 4 weeks of acceptance and are fully open access and posted on PubMedCentral. All journal content is available on the BioResearch Open Access website.

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Novel methods may help stem cells survive transplantation into damaged tissues

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Monthly Archives: July 2014

MS stem cell therapy treatment hope for mum

The New York Stem Cell Foundation Partners With Beyond Batten Disease Foundation to Fight Juvenile Batten Disease

NYSCF partners with Beyond Batten Disease Foundation to fight juvenile Batten disease

StemGenex Gives Hope to Parkinsons Patients through New Stem Cell Clinical Study

New method for reducing tumorigenicity in induced pluripotent stem-cell based therapies

A US Leader in Stem Cell Therapy – StemGenex – Video

Scientists Find New Way To Make Human Platelets – Video

Cordlife Group partners China Cord Blood Corporation to help Asian patients

Controversial Staminia treatment carried out on sick boy

Novel methods may help stem cells survive transplantation into damaged tissues

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