Stem Cell Clinic

Favorable News From Advanced Cell Technology and StemCells Inc Boosts Optimism in Regenerative Medicine Industry

By Uncategorized

NEW YORK, NY--(Marketwire -02/15/12)- Stem cell stocks have performed well of late, outperforming the S&P 500 by a large margin over the last three months. Since mid-November, TickerSpy's Stem Cell Stocks index (RXSTM) has returned more than 20 percent, as favorable news from some of stem cell industry heavyweights has boosted investor optimism in the sector. The Paragon Report examines investing opportunities in the Biotechnology Industry and provides equity research on Advanced Cell Technology, Inc. (OTC.BB: ACTC.OB - News) and StemCells Inc. (NASDAQ: STEM - News). Access to the full company reports can be found at:

http://www.paragonreport.com/ACTC

http://www.paragonreport.com/STEM

Shares of StemCells Inc. have skyrocketed nearly 20 percent year-to-date. StemCells Inc. is focused on cellular medicine, or the use of stem and progenitor cells as the basis for therapeutics and therapies, and enabling technologies for stem cell research, or the use of cells and related technologies to enable stem cell-based research and drug discovery and development.

Earlier this month the company released a statement saying that it received U.S. Food and Drug Administration authorization to start a clinical trial of the company's potential treatment for dry age-related macular degeneration, or AMD. AMD is the leading cause of vision loss and blindness in people over 55 years old and about 30 million people worldwide are affected by the disease, the company said

The Paragon Report provides investors with an excellent first step in their due diligence by providing daily trading ideas, and consolidating the public information available on them. For more investment research on the biotechnology industry register with us free at http://www.paragonreport.com and get exclusive access to our numerous stock reports and industry newsletters.

Shares of Advanced Cell Technology are up more than 30 percent this year - although they are down more than 20 percent over the last month. Advanced Cell Technology has acquired, developed and maintained a portfolio of patents and patent applications that forms the base for its research and development efforts in the area of embryonic and adult stem cell research.

Earlier this week Advanced Cell Technology announced that a third patient has been treated for Stargardt's macular dystrophy in its US. Phase I/II clinical trial. The therapy uses retinal pigment epithelial cells derived from human embryonic stem cells. Stargardt's disease or Stargardt's Macular Dystrophy is a genetic disease that causes progressive vision loss, usually starting in children between 10 to 20 years of age.

The Paragon Report has not been compensated by any of the above-mentioned publicly traded companies. Paragon Report is compensated by other third party organizations for advertising services. We act as an independent research portal and are aware that all investment entails inherent risks. Please view the full disclaimer at http://www.paragonreport.com/disclaimer

Go here to read the rest:
Favorable News From Advanced Cell Technology and StemCells Inc Boosts Optimism in Regenerative Medicine Industry

Advanced Cell Technology Announces Approval of Wills Eye Institute as Additional Site for Stem Cell Clinical Trial for …

By Uncategorized

MARLBOROUGH, Mass.--(BUSINESS WIRE)--

Advanced Cell Technology, Inc. (“ACT”; OTCBB: ACTC), a leader in the field of regenerative medicine, announced today that the Wills Eye Institute in Philadelphia has received institutional review board (IRB) approval as a site for the company’s Phase I/II clinical trial for Stargardt’s Macular Dystrophy (SMD), a form of juvenile macular degeneration, using human embryonic stem cell (hESC)-derived retinal pigment epithelial (RPE) cells. Earlier this year, the Company also announced that the IRB at Wills Eye Institute had approved the participation of the institution as a site for ACT’s clinical trial for dry age-related macular degeneration (dry AMD).

“We thank Wills Eye Institute once more for providing their IRB and their invaluable contribution to our macular degeneration studies,” said Gary Rabin, ACT’s chairman and CEO. “We are very happy that we can now report that Wills Eye Institute has been approved as a clinical trial site for both our SMD and dry AMD clinical trials. Ranked as one of the best ophthalmology hospitals in the country by U.S. News & World Report, the Wills Eye Institute is a truly world-class institution. Our team is eagerly anticipating working with Dr. Carl Regillo, a renowned retinal surgeon and director of clinical retina research at Wills Eye Institute, as well as a professor of ophthalmology at Thomas Jefferson University, along with the rest of his team as we move forward with these ground-breaking trials.”

The Phase I/II trial for SMD is a prospective, open-label study designed to determine the safety and tolerability of the hESC-derived RPE cells following sub-retinal transplantation into patients with SMD. The trial will ultimately enroll 12 patients, with cohorts of three patients each in an ascending dosage format. Preliminary results relating to both early safety and biological function for the first two patients in the U.S., one SMD patient and one dry AMD patient, were recently reported in The Lancet.

Specific patient enrollment for both trials at the Wills Eye Institute will be determined in the near future. Further information about patient eligibility for the SMD study and the concurrent study on dry AMD is also available on http://www.clinicaltrials.gov; ClinicalTrials.gov Identifiers: NCT01345006 and NCT01344993.

About Stargardt's Disease

Stargardt’s disease or Stargardt’s Macular Dystrophy is a genetic disease that causes progressive vision loss, usually starting in children between 10 to 20 years of age. Eventually, blindness results from photoreceptor loss associated with degeneration in the pigmented layer of the retina, called the retinal pigment epithelium.

About hESC-derived RPE Cells

The retinal pigment epithelium (RPE) is a highly specialized tissue located between the choroids and the neural retina. RPE cells support, protect and provide nutrition for the light-sensitive photoreceptors. Human embryonic stem cells differentiate into any cell type, including RPE cells, and have a similar expression of RPE-specific genes compared to human RPE cells and demonstrate the full transition from the hESC state.

About Advanced Cell Technology, Inc.

Advanced Cell Technology, Inc., is a biotechnology company applying cellular technology in the field of regenerative medicine. For more information, visit http://www.advancedcell.com.

About Wills Eye Institute

Wills Eye Institute is a global leader in ophthalmology, established in 1832 as the nation’s first hospital specializing in eye care. U.S. News & World Report has consistently ranked Wills Eye as one of America’s top three ophthalmology centers since the survey began in 1990. Wills Eye is a premier training site for all levels of medical education. Its resident and post-graduate training programs are among the most competitive in the country. One of the core strengths of Wills is the close connection between innovative research and advanced patient care. Wills provides the full range of primary and subspecialty eye care for improving and preserving sight, including cataract, cornea, retina, emergency care, glaucoma, neuro-ophthalmology, ocular oncology, oculoplastics, pathology, pediatric ophthalmology and ocular genetics, refractive surgery and retina. Ocular Services include the Wills Laser Correction Center, Low Vision Service, and Diagnostic Center. Its 24/7 Emergency Service is the only one of its kind in the region. Wills Eye also has a network of nine multi-specialty, ambulatory surgery centers throughout the tri-state area. To learn more, please visit http://www.willseye.org.

Forward-Looking Statements

Statements in this news release regarding future financial and operating results, future growth in research and development programs, potential applications of our technology, opportunities for the company and any other statements about the future expectations, beliefs, goals, plans, or prospects expressed by management constitute forward-looking statements within the meaning of the Private Securities Litigation Reform Act of 1995. Any statements that are not statements of historical fact (including statements containing the words “will,” “believes,” “plans,” “anticipates,” “expects,” “estimates,” and similar expressions) should also be considered to be forward-looking statements. There are a number of important factors that could cause actual results or events to differ materially from those indicated by such forward-looking statements, including: limited operating history, need for future capital, risks inherent in the development and commercialization of potential products, protection of our intellectual property, and economic conditions generally. Additional information on potential factors that could affect our results and other risks and uncertainties are detailed from time to time in the company’s periodic reports, including the report on Form 10-K for the year ended December 31, 2010. Forward-looking statements are based on the beliefs, opinions, and expectations of the company’s management at the time they are made, and the company does not assume any obligation to update its forward-looking statements if those beliefs, opinions, expectations, or other circumstances should change. Forward-looking statements are based on the beliefs, opinions, and expectations of the company’s management at the time they are made, and the company does not assume any obligation to update its forward-looking statements if those beliefs, opinions, expectations, or other circumstances should change. There can be no assurance that the Company’s clinical trials will be successful.

Read the original post:
Advanced Cell Technology Announces Approval of Wills Eye Institute as Additional Site for Stem Cell Clinical Trial for ...

Stem Cell Research Heals Scarring from Heart Attacks

By Stem Cell Treatment

Infusing stem cells into the arteries of heart attack patients can heal damaging scars, according to new research, a feat previously thought impossible.

Stem cells - cells that form different tissue of in the body - helped half of tested heart attack patients recover from their scars over a six-month period, according to the study. The control group did not see any additional recovery in their hearts.

The researchers recommended the experimental therapy expand into clinical trials beyond the 17 patients who received the original treatment.

"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."

The research included a group of 25 patients who had suffered from heart attacks caused by a blockage in an artery. The online version of The Lancet published the research on Valentine's Day.

Like us on Facebook

The year-long study tested the effects of the stem cells on 17 patients, compared to eight control patients who received standard treatments of medication along with diet and exercise recommendations.

For each test patient, clinicians created a stock of stem cells from a heart sample smaller than a raisin. The researchers then injected the stem cells back into an artery damaged from the heart attack.

The authors reported no deaths or major side effects in either group. However, four patients in the stem cell group showed adverse reactions to the treatment whereas only one control showed complications. Adverse reactions included problems that required implantation of a defibrillator, according to the study.

"These results signal an approaching paradigm shift in the care of heart attack patients," Shlomo Melmed, dean of the Cedars-Sinai Heart Institute and a study co-author, said in a statement. "In the past, all we could do was to try to minimize heart damage by promptly opening up an occluded artery. Now, this study shows there is a regenerative therapy that may actually reverse the damage caused by a heart attack."

Other doctors expressed cautious optimism based on the results of the trial therapy.

"By preventing the consequences of a heart attack you may be able to prevent further down the heart failure that happens in [many of these] patients," Dr. Sonia Skarlatos, deputy director of the division of cardiovascular sciences at the NIH's National Heart, Lung, and Blood Institute, told CNN.

The researchers from the Cedars-Sinai Heart Institute initially set out to determine if the use of stem cells in heart attack patients was safe, and said they were surprised and excited to see the reduction in heart scarring and increase in healthy muscle tissue.

Marbán said the study will revolutionize how heart attacks are treated. "This discovery challenges the conventional wisdom that, once established, scar is permanent and that, once lost, healthy heart muscle cannot be restored."

To report problems or to leave feedback about this article, e-mail:
To contact the editor, e-mail:

Read the rest here:
Stem Cell Research Heals Scarring from Heart Attacks

Stem Cell Study in Mice Offers Hope for Treating Heart Attack Patients

By Stem Cell Treatment

Newswise — A UCSF stem cell study conducted in mice suggests a novel strategy for treating damaged cardiac tissue in patients following a heart attack. The approach potentially could improve cardiac function, minimize scar size, lead to the development of new blood vessels – and avoid the risk of tissue rejection.

In the investigation, reported online in the journal PLoS ONE, the researchers isolated and characterized a novel type of cardiac stem cell from the heart tissue of middle-aged mice following a heart attack.

Then, in one experiment, they placed the cells in the culture dish and showed they had the ability to differentiate into cardiomyocytes, or “beating heart cells,” as well as endothelial cells and smooth muscle cells, all of which make up the heart.

In another, they made copies, or “clones,” of the cells and engrafted them in the tissue of other mice of the same genetic background who also had experienced heart attacks. The cells induced angiogenesis, or blood vessel growth, or differentiated, or specialized, into endothelial and smooth muscle cells, improving cardiac function.

“These findings are very exciting,” said first author Jianqin Ye, PhD, MD, senior scientist at UCSF’s Translational Cardiac Stem Cell Program. First, “we showed that we can isolate these cells from the heart of middle-aged animals, even after a heart attack.” Second, he said, “we determined that we can return these cells to the animals to induce repair.”

Importantly, the stem cells were identified and isolated in all four chambers of the heart, potentially making it possible to isolate them from patients’ hearts by doing right ventricular biopsies, said Ye. This procedure is “the safest way of obtaining cells from the heart of live patients, and is relatively easy to perform,” he said.

“The finding extends the current knowledge in the field of native cardiac progenitor cell therapy,” said senior author Yerem Yeghiazarians, MD, director of UCSF’s Translational Cardiac Stem Cell Program and an associate professor at the UCSF Division of Cardiology. “Most of the previous research has focused on a different subset of cardiac progenitor cells. These novel cardiac precursor cells appear to have great therapeutic potential.”

The hope, he said, is that patients who have severe heart failure after a heart attack or have cardiomyopathy would be able to be treated with their own cardiac stem cells to improve the overall health and function of the heart. Because the cells would have come from the patients, themselves, there would be no concern of cell rejection after therapy.

The cells, known as Sca-1+ stem enriched in Islet (Isl-1) expressing cardiac precursors, play a major role in cardiac development. Until now, most of the research has focused on a different subset of cardiac progenitor, or early stage, cells known as, c-kit cells.

The Sca-1+ cells, like the c-kit cells, are located within a larger clump of cells called cardiospheres.

The UCSF researchers used special culture techniques and isolated Sca-1+ cells enriched in the Isl-1expressing cells, which are believed to be instrumental in the heart’s development. Since Isl-1 is expressed in the cell nucleus, it has been difficult to isolate them but the new technique enriches for this cell population.

The findings suggest a potential treatment strategy, said Yeghiazarians. “Heart disease, including heart attack and heart failure, is the number one killer in advanced countries. It would be a huge advance if we could decrease repeat hospitalizations, improve the quality of life and increase survival.” More studies are being planned to address these issues in the future.

An estimated 785,000 Americans will have a new heart attack this year, and 470,000 who will have a recurrent attack. Heart disease remains the number one killer in the United States, accounting for one out of every three deaths, according to the American Heart Association.

Medical costs of cardiovascular disease are projected to triple from $272.5 billion to $818.1 billion between now and 2030, according to a report published in the journal Circulation.

First author Ye, Henry Shih, Richard E. Sievers, Yan Zhang, and Megha Prasad are with the UCSF Division of Cardiology; Yeghiazarians and Andrew Boyle are with the UCSF Division of Cardiology and the UCSF Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research; William Grossman is with the UCSF Division of Cardiology and the UCSF Cardiovascular Research Institute; Harold S. Bernstein is with the UCSF Cardiovascular Research Institute, the UCSF Eli and Edythe Broad Center of Regeneration Medicine and Stem Cell Research, and the UCSF Department of Pediatrics; Hua Su is with UCSF Department of Anesthesia and Perioperative Care; and Yan Zhou with the UCSF Department of Cell and Tissue Biology.

The study was supported by funds from the Wayne and Gladys Valley Foundation, the UCSF Cardiac Stem Cell Fund and the Harold Castle Foundation.

UCSF is a leading university dedicated to promoting health worldwide through advanced biomedical research, graduate-level education in the life sciences and health professions, and excellence in patient care.

Follow UCSF
UCSF.edu | Facebook.com/ucsf | Twitter.com/ucsf | YouTube.com/ucsf

Comment/Share

Read more here:
Stem Cell Study in Mice Offers Hope for Treating Heart Attack Patients

Stem Cell Stocks: Mending Scarred Hearts

By Stem Cell Treatment

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 is certainly exciting news considering heart failure is still the No. 1 cause of death in men and women.

The study included 25 heart attack victims, 17 of whom got the stem cell treatment. Those patients saw a 50% reduction in cardiac scar tissue after one year, while the eight control patients saw no improvement.

The procedure involves removing a tiny portion of heart tissue through a needle, cultivating the stem cells from that tissue, and reinserting them in a second minimally invasive procedure, according to Bloomberg.

"If we can regenerate the whole heart, then the patient would be completely normal," said Eduardo Marban, director of Cedars-Sinai Heart Institute who was the study's lead author. "We haven't fulfilled that yet, but we've gotten rid of half of the injury, and that's a good start."

Business section: Investing ideas
Interested in investing in the promise that stem cell therapy holds? For a look at the investing landscape, we compiled a list of the 10 largest companies involved in stem cell therapy.

Do you think this industry will see growth from stem cell research? (Click here to access free, interactive tools to analyze these ideas.)

1. BioTime (NYSE: BTX  ) : Focuses on regenerative medicine and blood plasma volume expanders. Market cap at $291.95M. The company develops and markets research products in the field of stem cells and regenerative medicine. It develops therapeutic products derived from stem cells for the treatment of retinal and neural degenerative diseases; cardiovascular and blood diseases; therapeutic applications of stem cells to treat orthopedic diseases, injuries, and cancer; and retinal cell product for use in the treatment of age-related macular degeneration.

2. Cleveland BioLabs (Nasdaq: CBLI  ) : Market cap at $111.50M. Its products include Protectan CBLB502, a radioprotectant molecule with multiple medical and defense applications for reducing injury from acute stresses, such as radiation and chemotherapy by mobilizing various natural cell protecting mechanisms, including inhibition of apoptosis, reduction of oxidative damage, and induction of factors that induce protection and regeneration of stem cells in bone marrow and the intestines, and Protectan CBLB612, a modified lipopeptide mycoplasma that acts as a stimulator and mobilizer of hematopoietic stem cells to peripheral blood, providing hematopoietic recovery during chemotherapy and during donor preparation for bone marrow transplantation.

3. Gentium: Focuses on the development and manufacture of its primary product candidate, defibrotide, an investigational drug based on a mixture of single-stranded and double-stranded DNA extracted from pig intestines. Market cap at $128.29M. The company develops defibrotide for the treatment and prevention of hepatic veno-occlusive disease (VOD), a condition that occurs when veins in the liver are blocked as a result of cancer treatments, such as chemotherapy or radiation, that are administered prior to stem cell transplantation.

4. Geron (Nasdaq: GERN  ) : Develops biopharmaceuticals for the treatment of cancer and chronic degenerative diseases, including spinal cord injury, heart failure, and diabetes. Market cap at $265.57M. The company has licensing agreement with the University Campus Suffolk to develop human embryonic stem cell-derived chondrocytes for the treatment of cartilage damage and joint disease.

5. Harvard Bioscience: Develops, manufactures, and markets apparatus and scientific instruments used in life science research in pharmaceutical and biotechnology companies, universities, and government laboratories in the United States and internationally. Market cap at $118.28M. Develops devices used by clinicians and researchers in the field of regenerative medicine, including bioreactors for growing tissue and organs outside the body, and injectors for stem cell therapy.

6. Lydall (NYSE: LDL  ) : Designs and manufactures specialty engineered products for thermal/acoustical, filtration/separation, and bio/medical applications in the United States. Market cap at $163.44M. In addition, it offers Cell-Freeze, a medical device used for cryogenic storage of peripheral blood stem cells.

8. Osiris Therapeutics (Nasdaq: OSIR  ) : Focuses on the development and marketing of therapeutic products to treat various medical conditions in the inflammatory, autoimmune, orthopedic, and cardiovascular areas. Market cap at $157.26M. A stem cell company, focuses on the development and marketing of therapeutic products to treat various medical conditions in the inflammatory, autoimmune, orthopedic, and cardiovascular areas.

7. Verastem: Market cap at $229.00M. Focuses on discovering and developing proprietary small molecule drugs targeting cancer stem cells (CSCs) in breast and other cancers.

Interactive Chart: Press Play to compare changes in analyst ratings over the last two years for the stocks mentioned above. Analyst ratings sourced from Zacks Investment Research.

Kapitall's Alexander Crawford does not own any of the shares mentioned above.

Original post:
Stem Cell Stocks: Mending Scarred Hearts

Bioheart to Present at BioFlorida's Saturday Exchange

By Stem Cell Medical Center

SUNRISE, Fla., Feb. 15, 2012 (GLOBE NEWSWIRE) -- Bioheart (BHRT.OB), a leader in developing stem cell therapies to treat cardiovascular diseases, today announced that they have been chosen as a presenter in the BioFlorida Saturday Exchange conference later this month.

The Saturday Exchange is a reprise of the successful Biomed Exchange meeting, held for many years during the 1980-90's. Well over 100 life science professionals gathered in Miami on a Saturday morning each month to learn about various aspects of the community's growing life sciences cluster. The Exchange will take place at University of Miami's Life Science & Technology Park.

The Keynote Speaker is Bioheart's Chairman William P. Murphy Jr., MD. Dr. Murphy will share his career experiences and insights as a leading entrepreneur in the medical device industry, spanning the founding of Cordis Corporation to more recent ventures. In addition, Mike Tomas, Bioheart's president and CEO and Kristin Comella, Bioheart's CSO will present the use of stem cells in degenerative diseases

"The Saturday Exchange brings together many professionals to discuss the field of biotechnology," said Mike Tomas. "Bioheart is excited about the opportunity to represent the South Florida community and share our experiences in the field of regenerative medicine."

About Bioheart

Bioheart (BHRT.OB) is committed to developing stem cell therapies to treat congestive heart failure, lower limb ischemia, chronic heart ischemia, acute myocardial infarctions and other medical problems. The company focuses on the discovery and development of therapies that will improve patients' quality of life and reduce health care costs and hospitalizations. Bioheart's leading product, MyoCell, is a muscle-derived cell therapy designed to populate regions of scar tissue within a patient's heart to improve cardiac function.

For more information on Bioheart, visit http://www.bioheartinc.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.

Forward-looking statements involve known and unknown risks, uncertainties and other factors which may cause our actual results, performance or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking statements. Also, forward-looking statements represent our management's beliefs and assumptions only as of the date hereof. Except as required by law, we assume no obligation to update these forward-looking statements publicly, or to update the reasons actual results could differ materially from those anticipated in these forward-looking statements, even if new information becomes available in the future.

The Company is subject to the risks and uncertainties described in its filings with the Securities and Exchange Commission, including the section entitled "Risk Factors" in its Annual Report on Form 10-K for the year ended December 31, 2010, and its Quarterly Report on Form 10-Q for the quarter ended September 30, 2011.

See the original post here:
Bioheart to Present at BioFlorida's Saturday Exchange

Stem cells – ISWA project – Video

By Uncategorized

14-02-2012 08:13 STEM CELLS The dance of life Recent developments in regenerative medicine and modern biology are going to have an enormous impact on our lives. Also the way itself we face the problem of sickness, aging and death changes as the hope (or the illusion?) grows that we always can fight and delay them. Stem cell research is in fact changing our knowledge of the fundamental mechanisms of life and feeding the idea that we can increasingly contrast the cruel natural selection rules which make us fall ill, grow old and die. A new frontier opens and unpredictable changes in our culture are taking place. People's hopes and fears grow at the same time. The general properties of the stem cells is presented, namely the ability to proliferate and, under certain conditions, to differentiate in other types of cells. In this way they can generate a new tissue replacing a damaged one, and also a new organ (like blood, thrachea, liver, heart, skin, cornea and very recently retina). A stamp is shown, which was emitted by the Japanese government to celebrate the discovery of a university team, which was able to regenerate a cornea and giving the opportunity to a patient to see again. Then the innovative results is presented in applications of the stem cells to orthopedy, muscular dystrophy, cardiology and dentistry. Finally the etherogeneus perspectives is presented offered by stem cell research to treat degenerative disorders, like Alzheimer, Parkinson diseases and Multiple Sclerosis. www ...

Continued here:
Stem cells - ISWA project - Video

Provia Labs Makes Chicago Midwinter Meeting Debut and Launches Store-A-Tooth™ Dental Stem Cell Preservation, Enabling …

By Uncategorized

Dentists can be at the forefront of the emerging field of regenerative medicine by offering Store-A-Tooth™ dental stem cell banking.

This service enables families to save their own adult stem cells from teeth that are naturally coming out or being extracted. Dental professionals play a role in making patients aware of this option, giving families the choice to safely and securely store their stem cells today – in a convenient and affordable way – so that they can take advantage of future therapies in regenerative medicine and dentistry.

Provia Laboratories, LLC will be exhibiting its Store-A-Tooth™ dental stem cell preservation service during the Chicago Midwinter Meeting at booth # 3346.

Lexington, MA (PRWEB) February 15, 2012

Provia Laboratories, LLC will be exhibiting during the Chicago Midwinter Meeting at booth # 3346 to showcase its Store-A-Tooth™ dental stem cell preservation service.

The Store-A-Tooth service enables families to save their own adult stem cells – from baby teeth ready to fall out; teeth pulled for orthodontic reasons; and wisdom teeth being extracted. Dental professionals play a role in making patients aware of this option, giving families the choice to safely and securely store their stem cells today – in a convenient and affordable way – so that they can take advantage of future therapies in regenerative medicine and dentistry.

The company partners with dental offices to make it easy to educate and inform patients about the option to preserve their family’s dental stem cells. For those interested in the service, Provia works with the dental team to provide high quality tooth collection, and arranges for the sample to be sent overnight to the lab, where the stem cells are harvested, tested and cryopreserved for future potential use.

“New stem cell therapies are going to change medicine as we know it, and dentists will play a leading role in enabling this transformation,” states Howard Greenman, Provia Labs CEO. “There’s been a lot of media buzz about stem cell research in general, but most people are unaware that a very potent and plentiful source of viable stem cells exits in the dental pulp of healthy teeth.”

Dental stem cells have already successfully been used in people to regenerate alveolar jaw bone and to treat periodontal disease. “One of the first routine applications in the oral cavity for the use of mesenchymal stem cells from teeth will be to promote bone growth around implants so they integrate more quickly, similar to how cellular bone matrix products are used today,” says Dr. Nicholas Perrotta, DMD, who started providing the Store-A-Tooth service in 2011.

“In addition to potential applications in regenerative dentistry, dental stem cell research may lead to new treatments for a wide range of medical conditions, including type 1 diabetes, stroke, cardiovascular disease, spinal cord injuries, and Parkinson’s disease, to name a few,” explains Peter Verlander, PhD, Chief Scientific Officer for Provia Labs. “Dental stem cell collection and preservation gives parents the peace of mind that they are now equipped to take advantage of the breakthroughs in stem cell therapies that will arise from the research community.”

“Store-A-Tooth is less expensive than collecting stem cells from umbilical cord blood. In fact, we hear from many of our customers that they are thankful to have this opportunity to store their stem cells, especially if they missed the chance to save cord blood,” states Greenman. “Our mission is to make stem cell banking accessible to the millions of children losing teeth every year.”

There are no fees or costs to dentists who wish to become an authorized Store-A-Tooth provider; in fact dentists can generate incremental revenue for assisting with tooth collection. Provia Labs supplies all participating practices with patient education materials, practice tools and dedicated support; training is simple and there is minimal impact to existing workflow.

Dental professionals share Store-A-Tooth educational materials with their patients, who enroll directly with Provia Labs. The day of the appointment, the dentist simply places the extracted tooth into the Store-A-Tooth collection kit, which includes a proven transport device called Save-A-Tooth®. In use by thousands of dentists for over 20 years, the Save-A-Tooth is an FDA-approved and ADA-accepted device for transporting avulsed teeth for reimplantation. The Store-A-Tooth collection kit is shipped overnight to the Provia Laboratories facility, where the stem cells are processed and stored.

The Store-A-Tooth service is currently available to dental offices throughout the United States and internationally. To become a provider, visit http://www.store-a-tooth.com or call 877-867-5753.

About Provia Laboratories, LLC

Headquartered in Lexington, MA, Provia Laboratories, LLC (http://www.provialabs.com) is a healthcare services company specializing in high quality biobanking (preservation of biological specimens). The company’s Store-A-Tooth™ service platform enables the collection, transport, processing, and storage of dental stem cells for potential use in future stem-cell therapies. The company advises industrial, academic, and governmental clients on matters related to the preservation of biological specimens for research and clinical use. In addition, Provia offers a variety of products for use in complex biobanking environments to improve sample logistics, security, and quality. For more information on dental stem cells, call 1-877-867-5753, visit http://www.store-a-tooth.com or http://www.facebook.com/storeatooth, or follow via twitter @StoreATooth.

###

Store-A-Tooth
Provia Laboratories, LLC
877-867-5753
Email Information

Read the rest here:
Provia Labs Makes Chicago Midwinter Meeting Debut and Launches Store-A-Tooth™ Dental Stem Cell Preservation, Enabling ...

Bone gives 'some' heart healing

By Uncategorized

14 February 2012 Last updated at 19:10 ET By James Gallagher Health and science reporter, BBC News

Bone marrow stem cell therapy offers "moderate improvement" to heart attack patients, according to a large UK review of clinical trials.

The analysis by the Cochrane Collaboration looked at 33 trials involving more than 1,700 patients.

It said longer-term studies were needed to see if the experimental therapy affected life expectancy.

The review comes a day after doctors reported the first case of using heart cells to heal heart attack damage.

If a patient survives a heart attack, dead heart muscle is replaced with scar tissue - leaving the patient weaker and possibly on a lifetime of medicine.

Researchers are beginning to show that taking cells from a heart, growing millions of new heart cells in the laboratory and pumping those back into the heart may reduce scar tissue and lead to new heart muscle.

Continue reading the main story “Start Quote

Stem cell therapy may also reduce the number of patients who later die or suffer from heart failure, but currently there is a lack of statistically significant evidence based on the small number of patients treated so far”

End Quote Dr Enca Martin-Rendon Lead researcher

However, the trials are at a very early stage and in only a handful of patients. Using a similar technique with cells taken from the bone marrow, which is a prime source of stem cells, has a much longer pedigree.

The report by Cochrane pooled the data from all 33 bone marrow trials which had taken place up to 2011.

It concluded that bone marrow therapy "may lead to a moderate long-term improvement" in heart function which "might be clinically very important".

Longer life uncertain

It said there was still no evidence of "any significant effect on mortality" in comparison with standard treatment. However, this may be due to the size of the studies and that patients were followed for a short period of time.

Lead author Dr Enca Martin-Rendon, from NHS Blood and Transplant at the John Radcliffe Hospital in Oxford, said: "This new treatment may lead to moderate improvement in heart function over standard treatments.

"Stem cell therapy may also reduce the number of patients who later die or suffer from heart failure, but currently there is a lack of statistically significant evidence based on the small number of patients treated so far."

Prof Anthony Mathur, from Barts and the London School of Medicine and Dentistry, is leading the largest ever trial of stem cells in heart attack patients.

It starts this year, however, he told the BBC that the results could come quite quickly. Three thousand patients across Europe will take part. They will be injected with stem cells five days after a heart attack and then followed for two years to see if the therapy affects life expectancy.

Prof Peter Weissberg, medical director at the British Heart Foundation, said: "This review reflects the consensus of opinion about these trials - cell therapy has a modestly beneficial effect.

"Despite that, no-one knows why, or even if, cell therapies will translate into better survival or sustained improvement in damaged hearts. It's much too early to judge the likely long-term benefits."

Follow this link:
Bone gives 'some' heart healing

Family wants foundation in memory of paraplegic

By Stem Cell Treatment

Family wants foundation in memory of paraplegic

10:00am Wednesday 15th February 2012 in


The mother of a paraplegic man who died during controversial stem cell treatment in South America will establish a foundation to campaign for better information for the paralysed.

Ricky Chick was 22, a budding body builder and running the family business, when a motorbike accident on Brighton Road, South Croydon, left him paralysed from the chest down.

The following five years of turmoil for Ricky and his family culminated in his body leaving an Ecuadorian hospital on the back of a pick-up truck.

His mother Chris Chick, 51, Wontford Road, Purley travelled to Ecuador with her son in August 2009 as he sought life-changing stem cell treatment on his severed spinal cord.

She describes a harrowing experience of misinformation, malpractice, and misinformation at the San Francisco Hospital, Guayaquil, as she saw her son fall into a coma before experiencing a massive brain haemorrhage and die.

She even described how he was taken to have a brain scan in a camper van.

She said: "The trauma a spinally injured patient and their family goes through is something I would wish on my worst enemy, but to get through that only for that to happen, you can’t comprehend. It has shattered this family."

Booked to have stem cells taken from his bone marrow injected into his spine, Mrs Chick described how doctors also chose to inject cells into his legs, treatment she believes led to his death.

Mrs Chick said: "He couldn’t deal with that amount of pain. If they told him they were planning this he would have said no."

Forced to undergo 18 months of reconstructive surgery and rehabilitation following his accident, Ricky and his family immediately began looking at stem cells treatment.

Carly Chick, his younger sister, said: "As soon as he was confirmed paralysed it was something we were looking at. It was the talk of the hospital - everyone was talking about stem cell research."

Internet research threw up information about successful treatment in Ecuador and Ricky began planning his journey.

Carly, said: "He was a realist, he never thought it was some miracle cure and he’d be able to walk again, he just hoped it would improve his life, give him back some control and stop the muscle wastage.

"There needs to be more information. There are so many people out there who are paralysed who might be tempted to try this. We still support the use of stem cells and if the process had been done here, Ricky would still be alive.

"In many ways Ricky was a Guinea Pig - a warning for people about the dangers."

The family plan to establish a charity in his name to highlight the danger of seeking treatment abroad, and give up-to-date information for those who have been paralysed.

Professor Chris Mason from University College London is an expert on stem cell research.

He said: "People have been using stem cells for decades using bone marrow for cancer patients. For more advanced treatment something like 20 to 30 patients have benefited from limbal stem cell therapy repairing damaged eyes.

"Research is underway into work on spinal injury but it is still at the animal stage and will probably be a few more years. This treatment is available elsewhere but my advice would be to seek advice from your doctors before considering it. At the end of the day it is the person’s choice."



See more here:
Family wants foundation in memory of paraplegic