Stem Cell Clinic

Qatar in breakthrough diabetes stem cell therapy

Manama: A potentially significant breakthrough in the treatment of diabetes has been made by a team of Qatar-based scientists. The scientists at Qatar Biomedical Research Institute (QBRI), in collaboration with researchers at Imperial College London, have reportedly discovered a new way to instruct isolated stem cells in a laboratory setting to secrete insulin when it is needed to maintain the correct sugar level in the bodys circulation.

Diabetes is a world-wide health problem, and it is especially prevalent in Qatar, Dr Abdul Ali Haoudi, the Executive Director of QBRI and a co-author of the study, said. People with diabetes face serious medical complications, including heart disease and kidney failure. This discovery has the potential to reduce this burden by harnessing the bodys own stem cells to secrete insulin as needed to maintain proper blood sugar levels in the body. This research represents the first promising steps toward a new treatment, but it will need to go through the clinical validation before it is declared a viable therapy, he said.

The findings have just been published in Molecular Therapy-Nucleic Acids, the official journal of the American Society of Gene and Cell Therapy.

Dr Nagy Habib, Scientific Director of the Stem Cell and Regenerative Medicine Centre at QBRI, is the lead investigator of the team of scientists at QBRI and Imperial College London that made the discovery.

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In a healthy person, insulin is produced by the pancreas in a constant proportion to remove excess glucose, or sugar, from the blood, Haoudi explained. When a person consumes more sugar-rich food, the insulin-producing cells in the pancreas (called beta cells) secrete more insulin. When a person eats less sugar, the beta cells produce less insulin. The stem cells engineered by the QBRI team behave in the same way, secreting more or less insulin, depending on glucose levels in the blood, he said.

The studies have been supported by QBRI, a member of the Qatar Foundation for Education, Science and Comnmunity Development, established in 2012 to tackle diseases of major worldwide importance, and particularly prevalent in Qatar and the Middle East, such as diabetes and certain forms of cancer.

QBRI which has a specific focus on developing translational biomedical research and biotechnology, has set up eight research centres: Stem Cell and Regenerative Medicine Research Centre, Genomic Medicine and Systems Biology Research Centre, Gene-based Therapy Research Centre, Biomedical Engineering Research Centre, Diabetes Research Centre, Cancer Research Centre, Genetic Diseases Research Centre, and the Qatar Biobank.

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Qatar in breakthrough diabetes stem cell therapy

A paralyzed German Shepard receives revolutionary combination stem cell treatment! – Video

A paralyzed German Shepard receives revolutionary combination stem cell treatment!
Brando, a 9 year-old German Shepard received combination stem cell therapy today at Paradise Animal Clinic by Dr. Jose Gorostiza (surgeon) and Dr. Jaime Pausa (practice owner). Brando has been...

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A paralyzed German Shepard receives revolutionary combination stem cell treatment! - Video

Sandy Andolong credits stem cell treatment for revitalized health; supports daughter Mariel’s plan to join showbiz

Sandy Andolong credits stem cell treatment for revitalized health; supports daughter Mariel's plan to join showbiz

Marami ang natuwa sa mas batang hitsura at mas malusog na pangangatawan ngayon ni Sandy Andolong.

Kinuwento nga nito na sumailalim siya sa stem cell treatment kaya malaki ang naging improvement ng kanyang kalusugan.

Kung matatandaan ay nagkaroon ng maraming sakit si Sandy noong 2003.

She was diagnosed with kidney maladies, her large intestines had lacerations, her uterus was inflamed, there was a polyp in her gall bladder and her pituitary gland had a disorder resulting in abnormal lactation.

Muntik na nga raw sumailalim sa isang kidney transplant operation ang butihing asawa ni Christopher de Leon.

Pero dahil sa malakas na panalangin nila sa Panginoon, nagkaroon ng kasagutan ang kanilang mga dasal and ten years after, maganda na ang kalusugan ng aktres.

I went through six months of stem cell treatment. Dito lang naman sa atin ginawa kaya hindi na namin kailangang pumunta sa ibang bansa.

After the treatment, mas lumakas na ang katawan ko kasi nga bagong mga cells ang nasa loob ng katawan ko.

I feel more energized at parang nagdahilan lang ako sa sakit ko before.

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Sandy Andolong credits stem cell treatment for revitalized health; supports daughter Mariel's plan to join showbiz

Scientists challenge patent ban for embryonic stem cell research

Scientists and lawyers in Britain are challenging a European ban on the patenting of embryonic stem cells which they believe is blocking the development of new treatments for a range of illnesses including diabetes, heart disease and Parkinsons.

They have been joined by a High Court judge who has asked the Court of Justice of the European Union in Luxembourg to clarify its decision to prevent the patenting of stem cell research involving the use and destruction of human embryos. Medical researchers and biotechnology firms are incensed by the European courts ban on stem cell patents. They say it is deterring investment in Europe while scientists in Asia forge ahead with research into new medical treatments based on embryonic stem cells.

Sir Ian Wilmut, who cloned Dolly the sheep, and Professor Austin Smith of the Wellcome Trust Centre for Stem Cell Research at Cambridge University, said that banning patents has effectively removed the protection of intellectual property that is crucial for commercial investment.

Their concerns have now been voiced by Henry Carr QC, a deputy judge of the High Court, who questioned whether the European court really understood the scientific basis of its ban, which it issued last year.

The European court ruled that German scientists could not patent a technique based on human embryonic stem cells because it involved the destruction of something capable of commencing the process of development of a human being in other words a human embryo.

However, Mr Carr said that the definition of a human embryo used by the court may be too broad because it included types of artificially created embryos that are not capable of developing into a foetus.

Stem cells have the potential to revolutionise the treatment of human disease. Because of their capacity to differentiate into almost any type of adult cell, human stem cells open the door to a wide variety of new therapies and other medical applications, Mr Carr said in his judgment on a patent appeal case. However, to exclude [from patentability] processes of development which are incapable of leading to a human being does not, in my view, strike a balance at all It is more akin to a total exclusion from patent protection of the fruits of stem cell research, to the detriment of European industry and public health.

Professor Pete Coffey of University College London, who is conducting one of the first clinical trials of stem cells to treat progressive blindness, said the ban on patenting stem cell research could harm its future development in Britain and Europe. It creates [funding problems for] this kind of translational research taking ideas from the lab into the clinic, he said.

The US Supreme Court ruled yesterday that genes extracted from the human body cannot be patented.

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Scientists challenge patent ban for embryonic stem cell research

Induced Pluripotent Stem Cell Industry (iPSC Market) Report Updated for 2013 Now Available at ReportsnReports.com

Dallas, Texas (PRWEB) June 13, 2013

Sales (number) of iPSC research products worldwide have been growing at a rate of 14.7% per year for the past five years. In addition, 22% of all stem cell researchers now self-report as having used induced pluripotent stem cells within a research project. It is clear that iPSCs are a vital research trend within the scientific community. A distinctive feature of this report is an end-user survey of 293 researchers (181 U.S. / 112 International) that identify as having induced pluripotent stem cells as their core research focus. These survey findings reveal iPSC researcher needs, technical preferences, key factors influencing buying decisions, and more. They can be used to make effective product development decisions, create targeted marketing messages, and produce higher prospect-to-client conversion rates.

Complete 2012-13 Induced Pluripotent Stem Cell Industry Report on market metrics, dynamics, and trends says continued research and experimentation has resulted in numerous advances over the last few years. In one example, the University of Michigan announced in Circulation Research (2012) that they had developed innovative methods for use of induced pluripotent stem cells derived from skin biopsies to create cardiac muscle cells. This accomplishment quickly fueled other research into the use of iPSCs for the reversal and repair of diseased heart tissue. Similar advances will continue to be perfected for use of reprogrammed adult cells in the treatment of other diseases and disorders. Original techniques for iPSC production, such as viral induced transcription processes, are being replaced with newer technologies as private industries join with the scientific community to develop safe and efficient methods of iPSC production. With sustained research and experimentation, established guidelines for effective production of iPSC will be commonplace.

In summary, induced pluripotent stem cells represent a promising tool for use in the reversal and repair of many previously incurable diseases. This is a must-read industry report for research supply companies to optimally position themselves to sell iPSC products. To profit from this lucrative and rapidly expanding market, one needs to understand ones key strengths relative to the competition, intelligently position own products to fill gaps in the market place, and take advantage of the crucial iPSC trends. Claim this report now to profit from this expanding market - Buy / Order a copy of this report @ http://www.reportsnreports.com/Purchase.aspx?name=206575.

Key findings of this report on iPSC market include:

Companies and Research Institutes mentioned / covered in this report:

Commerical entities developing iPSC therapies: ViaCyte, Fate Therapeutic, iPerian, Cellular Dynamics and Mesoblast.

Strategic collaborations for development of iPSC products: Life Technologies, Lonza Group AG, EMD Millipore, Sigma Aldrich, Roslin Cells, Ltd., ArunA Biomedical, CeeTox and Cellular Dynamics.

Top research institutions performing stem cell research: University of Wisconsin, including WARF, WiCell, and the WISC Bank, US National Institutes of Health (NIH), Johns Hopkins University, California Institute for Regenerative Medicine and University of Connecticut Induced Pluripotent Stem Cell Core (iPSCC).

Comprehensive Table of Contents and more on the report Complete 2012-13 Induced Pluripotent Stem Cell Industry Report on Market Metrics, Dynamics, and Trends @ http://www.reportsnreports.com/reports/206575-complete-2012-13-induced-pluripotent-stem-cell-industry-report.html.

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Induced Pluripotent Stem Cell Industry (iPSC Market) Report Updated for 2013 Now Available at ReportsnReports.com

IntelliCell BioSciences Receives US Patent for its Stem Cell Extraction Technology

NEW YORK, June 13, 2013 /PRNewswire/ --IntelliCell BioSciences, Inc. ("Company") (SVFC) announces that it has been notified by the US Patent office that its patent for stem cell extraction technology has been published. IntelliCell's proprietary patented method for deriving blood vessel originated vascular cells from adipose (fat) tissue by use of ultrasonic cavitation has been made official. This technology involves an innovative mechanical method for the separation of stromal vascular fraction cells from adipose (fat) tissue, without the use of enzymes. Vascular cells derived by IntelliCell's proprietary method are potentially useful in bringing the promise of regenerative medicine to many therapeutic and aesthetic procedures. Investors can access the published patent at the US Patent website by entering the patent # 8,440,440. Link to patent website: http://patft.uspto.gov/netahtml/PTO/srchnum.htm

IntelliCell's Chairman and CEO, Dr.Steven Victor, stated "Our Company is very pleased to announce today that with the publishing of our patent, our technology is now protected and we expect our international patent publication in a short time."

About IntelliCell BioSciences, Inc.

IntelliCellBioSciencesis a Regenerative Medicine company developing novel technologies that address the regenerative, curative and preventative conditions of disease states with high unmet clinical needs. The Company has several patent-pending applications including the patent that was recently published, an industry unique method of obtainingautologousstromalvascular fraction cells (SVF) cells from the vasculature surrounding adipose tissue containing adult stem cells and a robust population of regenerative healing cells. The Company is also pioneering the development ofautologousandallogeneiccells from living and non-living tissue donors for research purposes.IntelliCellis planning a series of in-human clinical studies with top tier universities for the treatment of osteoarthritis, multiple sclerosis, lower limb ischemic wounds, and gum regeneration in the oral cavity as well as medical aesthetics. The Company has developed a first in classcGTPcellular processing facility inNew York City, purpose built and designed to be fully integrated into an ambulatory surgery center.

Forward-Looking Statements

Certain statements set forth in this press release constitute "forward-looking statements." Forward-looking statements include, without limitation, any statement that may predict, forecast, indicate, or imply future results, performance or achievements, and may contain the words "estimate," "project," "intend," "forecast," "anticipate," "plan," "planning," "expect," "believe," "will likely," "will reach," "will change," "will soon," "should," "could," "would," "may," "can" or words or expressions of similar meaning. Such statements are not guarantees of future performance and are subject to risks and uncertainties that could cause the company's actual results and financial position to differ materially from those included within the forward-looking statements. Forward-looking statements involve risks and uncertainties, including those relating to the Company's ability to grow its business. Actual results may differ materially from the results predicted and reported results should not be considered as an indication of future performance. The potential risks and uncertainties include, among others, the Company's limited operating history, the limited financial resources, domestic or global economic conditions, activities of competitors and the presence of new or additional competition, and changes in Federal or State laws. More information about the potential factors that could affect the Company's business and financial results is included in the Company's filings, available via the United States Securities and Exchange Commission.

Contacts: Anna Rhodes, IntelliCell BioSciences, Inc. Phone: (646) 576-8710 Email: arhodes@intellicellbiosciences.com

Melissa Diaz, South Street Media, Inc. Phone: (917) 937-8968 Email: info@southstreetmedia.com

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IntelliCell BioSciences Receives US Patent for its Stem Cell Extraction Technology

Global Expert in Lung Disease Joins Cedars-Sinai to Lead New Stem Cell Research Program

Newswise LOS ANGELES (June 11, 2013) Barry R. Stripp, PhD, a recognized expert in lung disease and stem cell research, has been named director of the new Lung Stem Cell Research Program that spans the Womens Guild Lung Institute and the Regenerative Medicine Institute at Cedars-Sinai.

Stripp comes to Cedars-Sinai from Duke University Medical Center in Durham, N.C., where he has been professor in both the Department of Medicine and in Cell Biology since 2006. At Duke University Medical Center, Stripp was a member of the Division of Pulmonary, Allergy and Critical Care Medicine, led by Paul W. Noble, MD, who is now chair of the Department of Medicine at Cedars-Sinai. The recruitment of Stripp and Noble to Cedars-Sinai bring two leaders in lung disease research whose highly interactive programs have potential to develop new treatments for patients.

In May 2013, Stripp received a $5 million Research Leadership Award from the California Institute for Regenerative Medicine (CIRM) for his innovative strategies in stem cell technology and regenerative medicine. This award was granted to six world-class scientists and was created to help California universities and research institutions recruit the best stem cell scientists in the world.

The recruitment of Stripp to Cedars-Sinai and his recent CIRM grant are a reflection of his superb credentials and recognized contributions to the field of lung disease, regenerative medicine and stem cell technology, said Noble. We are pleased to welcome an outstanding scientist and educator of his stature to Cedars-Sinai and trust his contributions will result in improved treatments for patients locally and globally.

Stripps expertise will play a pivotal role in the new Cedars-Sinai stem cell research program, which launched in late 2012 and is a part of the Regenerative Medicine Institute. Focused on lung disease, including pulmonary disease, the division will bring together researchers and clinicians to discuss stem cell therapies in lung disease, provide core services that generate clinically relevant stem cell populations and use disease-specific stem cells to explore mechanisms of cell death in human lung disorders.

With funding from the CIRM grant and support from the leadership staff at Cedars-Sinai, I look forward to enhancing both the translational research component and clinical management of lung disease, said Stripp. These collaborative efforts will provide new therapeutic and surgical interventions for patients suffering from debilitating lung diseases that currently lack effective treatment options.

Stripps research interests focus on understanding cellular and molecular mechanisms of lung injury and repair. Defects in the maintenance and differentiation of epithelia lining small airways are commonly observed in chronic lung disease and represent a therapeutic target for interventions aimed at restoring lung function. His work has defined microenvironments within airways that maintain a population of adult tissue stem cells.

Through the work of Dr. Stripp and the new Lung Stem Cell Research Program, we will be able to determine how lung disease is caused, said Zab Mosenifar, MD, co-medical director of the Cedars-Sinai Womens Guild Lung Institute. This understanding will lead to new therapies that may prevent the initiation or the progression of lung disease, which is the third most likely cause of death in the United States.

Since opening in 2010, under the direction of Clive Svendsen, PhD, the Cedars-Sinai Regenerative Medicine Institute has received more than $30 million of grant support from the state stem cell agency. These grants have provided research funds for diseases of the central nervous system and skeleton, along with funding for novel development of stem cell technology.

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Global Expert in Lung Disease Joins Cedars-Sinai to Lead New Stem Cell Research Program