Archive for the ‘Cell Therapy’ Category

11-05-2012 14:16 Stem cells are the body's repair cells. They have the ability to divide and differentiate into many different types of cells based on where they are needed throughout the body. Stem cells can divide and turn into tissues such as skin, fat, muscle, bone, cartilage, and nerve to name a few. With this capability, we can use them as a treatment for joint injuries, ligament and tendon damage, and fractured bones. Using MediVet America's Stem Cell Therapy, we have seen positive clinical improvement in 95% of the arthritic cases performed nationwide. Some owners have even reported seeing a difference in as little as a week!

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Stem Cell Therapy Exclusively at Gandy Animal Hospital - Tampa, FL - Video

Philippine Daily Inquirer

Former President and current Pampanga Rep. Gloria Macapagal-Arroyo, who was suffering from a mineral deficiency in her bones arising from two corrective surgeries last September, wanted to seek alternative stem cell therapy abroad.

However, she was barred from leaving the country last November after Justice Secretary Leila de Lima refused to honor the temporary restraining order issued by the high court on the inclusion of Arroyo and her husband Jose Miguel Mike Arroyo in the immigration bureaus watch list.

In the wake of Arroyos supposed plan to try the radical technology at stem cell centers abroad to cure what her doctors here described as a rare bone disease, a province mate and a colleague of the former President filed a bill to put up a stem cell center in the country.

Pampanga Rep. Carmelo F. Lazatin, a member of the minority bloc in Congress, has filed House Bill No. 5287 mandating the establishment of a research facility to explore the benefits of stem cell technology as a potential cure for incurable diseases.

Blank cells

Stem cells, the foundation of every organ, tissue and cell within the human body, are like blank cells that do not yet have a specific physiological function, according to Harvard Stem Cell Institute (HSCI).

But when proper conditions in the body or in the laboratory occur, stem cells develop into specialized tissues and organs, HSCI explains in its website, adding that there are two sources of stem cells used in research: the adult stem cells and embryonic stem cells.

Adult stem cells are found in differentiated tissues and organs throughout the body while embryonic stem cells are obtained from the inner cell mass of a blastocyst, the ball of cells formed when the fertilized egg or zygote divides and forms two cells, then again to form four and so on, HSCI said.

In 2008, the Vatican issued a sweeping document on bioethical issues titled Dignitas Personae or The Dignity of the Person, taking into account recent developments in biomedical technology and reinforcing the Churchs opposition to embryonic stem cell research, in vitro fertilization, human cloning and genetic testing on embryos before implantation.

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In The Know: Stem cell therapy

Wed May 9, 2012 3:35pm BST

(Reuters) - Pluristem Therapeutics Inc said a 7-year old girl suffering from a bone marrow disease experienced a reversal of her condition after receiving its experimental stem cell therapy, sending the Israeli company's shares up 32 percent.

The girl, suffering from aplastic bone marrow in which the patient has no blood-forming stem cells, had a significant rise in her red cells, white cells and platelets following an injection of Pluristem's therapy -- PLacental eXpanded cells.

"The results of this unique case indicate that PLX cells may be effective in treating other diseases that affect the bone marrow," Reuven Or, the child's physician at Hadassah Medical Center, was quoted in a statement by Pluristem.

Last September, the company said animal studies showed that the therapy had the potential to treat blood tissue complications related with acute radiation syndrome, commonly called radiation sickness.

Last month, the U.S. health regulators gave a go ahead to the company to start a mid-stage trial of the therapy for treating Intermittent Claudication -- a subset of peripheral artery disease.

Pluristem shares, which have gained 5 percent since receiving the FDA nod for the mid-stage trial, were up 15 percent at $2.70 in morning trade on the Nasdaq. They touched a high of $3.10 earlier.

(Reporting by Esha Dey in Bangalore; Editing by Gopakumar Warrier)

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Pluristem stem cell therapy saves a patient, shares jump

ScienceDaily (May 2, 2012) HIV patients treated with genetically modified T cells remain healthy up to 11 years after initial therapy, researchers from the Perelman School of Medicine at the University of Pennsylvania report in the new issue of Science Translational Medicine. The results provide a framework for the use of this type of gene therapy as a powerful weapon in the treatment of HIV, cancer, and a wide variety of other diseases.

"We have 43 patients and they are all healthy," says senior author Carl June, MD, a professor of Pathology and Laboratory Medicine at Penn Medicine. "And out of those, 41 patients show long term persistence of the modified T cells in their bodies."

Early gene therapy studies raised concern that gene transfer to cells via retroviruses might lead to leukemia in a substantial proportion of patients, due to mutations that may arise in genes when new DNA is inserted. The new long-term data, however, allay that concern in T cells, further buoying the hope generated by work June's team published in 2011 showing the eradication of tumors in patients with chronic lymphocytic leukemia using a similar strategy.

"If you have a safe way to modify cells in patients with HIV, you can potentially develop curative approaches," June says. "Patients now have to take medicine for their whole lives to keep their virus under control, but there are a number of gene therapy approaches that might be curative." A lifetime of anti-HIV drug therapy, by contrast, is expensive and can be accompanied by significant side effects.

They also note that the approach the Penn Medicine team studied may allow patients with cancers and other diseases to avoid the complications and mortality risks associated with more conventional treatments, since patients treated with the modified T cells did not require drugs to weaken their own immune systems in order for the modified cells to proliferate in their bodies after infusion, as is customary for cancer patients who receive stem cell transplants.

To demonstrate the long-term safety of genetically modified T cells, June and colleagues have followed HIV-positive patients who enrolled in three trials between 1998 and 2002. Each patient received one or more infusions of their own T cells that had been genetically modified in the laboratory using a retroviral vector. The vector encoded a chimeric antigen receptor that recognizes the HIV envelope protein and directs the modified T cell to kill any HIV-infected cells it encounters.

As is standard for any trial, the researchers carefully monitored patients for any serious adverse events immediately after infusion -- none of which were seen. Additionally, because of the earlier concerns about long-term side effects, the U.S. Food and Drug Administration also asked the team to follow the patients for up to 15 years to ensure that the modified T cells were not causing blood cancers or other late effects. Therefore, each patient underwent an exam and provided blood samples during each of the subsequent years.

Now, with more than 500 years of combined patient safety data, June and colleagues are confident that the retroviral vector system is safe for modifying T cells. By contrast, June notes, the earlier, worrying side effects were seen when viral vectors were used to modify blood stem cells. The new results show that the target cell for gene modification plays an important role in long-term safety for patients treated. "T cells appear to be a safe haven for gene modification," June says.

The multi-year blood samples also show that the gene-modified T cell population persists in the patients' blood for more than a decade. In fact, models suggest that more than half of the T cells or their progeny are still alive 16 years after infusion, which means one treatment might be able to kill off HIV-infected cells for decades. The prolonged safety data means that it might be possible to test T cell-based gene therapy for the treatment of non-life threatening diseases, like arthritis.

"Until now, we've focused on cancer and HIV-infection, but these data provide a rationale for starting to focus on other disease types," June says. "What we have demonstrated in this study and recent studies is that gene transfer to T cells can endow these cells with enhanced and novel functions. We view this as a personalized medicine platform to target disease using a patient's own cells."

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Genetically modified T cell therapy appears to be safe, lasting in decade-long study of HIV patients

Public release date: 2-May-2012 [ | E-mail | Share ]

Contact: Holly Auer holly.auer@uphs.upenn.edu 215-200-2313 University of Pennsylvania School of Medicine

PHILADELPHIA -- HIV patients treated with genetically modified T cells remain healthy up to 11 years after initial therapy, researchers from the Perelman School of Medicine at the University of Pennsylvania report in the new issue of Science Translational Medicine. The results provide a framework for the use of this type of gene therapy as a powerful weapon in the treatment of HIV, cancer, and a wide variety of other diseases.

"We have 43 patients and they are all healthy," says senior author Carl June, MD, a professor of Pathology and Laboratory Medicine at Penn Medicine. "And out of those, 41 patients show long term persistence of the modified T cells in their bodies."

Early gene therapy studies raised concern that gene transfer to cells via retroviruses might lead to leukemia in a substantial proportion of patients, due to mutations that may arise in genes when new DNA is inserted. The new long-term data, however, allay that concern in T cells, further buoying the hope generated by work June's team published in 2011 showing the eradication of tumors in patients with chronic lymphocytic leukemia using a similar strategy.

"If you have a safe way to modify cells in patients with HIV, you can potentially develop curative approaches," June says. "Patients now have to take medicine for their whole lives to keep their virus under control, but there are a number of gene therapy approaches that might be curative." A lifetime of anti-HIV drug therapy, by contrast, is expensive and can be accompanied by significant side effects.

They also note that the approach the Penn Medicine team studied may allow patients with cancers and other diseases to avoid the complications and mortality risks associated with more conventional treatments, since patients treated with the modified T cells did not require drugs to weaken their own immune systems in order for the modified cells to proliferate in their bodies after infusion, as is customary for cancer patients who receive stem cell transplants.

To demonstrate the long-term safety of genetically modified T cells, June and colleagues have followed HIV-positive patients who enrolled in three trials between 1998 and 2002. Each patient received one or more infusions of their own T cells that had been genetically modified in the laboratory using a retroviral vector. The vector encoded a chimeric antigen receptor that recognizes the HIV envelope protein and directs the modified T cell to kill any HIV-infected cells it encounters.

As is standard for any trial, the researchers carefully monitored patients for any serious adverse events immediately after infusion -- none of which were seen. Additionally, because of the earlier concerns about long-term side effects, the U.S. Food and Drug Administration also asked the team to follow the patients for up to 15 years to ensure that the modified T cells were not causing blood cancers or other late effects. Therefore, each patient underwent an exam and provided blood samples during each of the subsequent years.

Now, with more than 500 years of combined patient safety data, June and colleagues are confident that the retroviral vector system is safe for modifying T cells. By contrast, June notes, the earlier, worrying side effects were seen when viral vectors were used to modify blood stem cells. The new results show that the target cell for gene modification plays an important role in long-term safety for patients treated. "T cells appear to be a safe haven for gene modification," June says.

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Genetically modified T cell therapy shown to be safe, lasting in decade-long study of HIV patients

South San Francisco, CA (Marketwire) - VistaGen Therapeutics, Inc. (OTCBB:VSTA) (OTCQB:VSTA), a biotechnology company applying stem cell technology for drug rescue and cell therapy, has licensed breakthrough stem cell culture technology from the McEwen Centre for Regenerative Medicine located at the University Health Network (UHN) in Toronto, Canada.

VistaGen will be utilizing the licensed technology to develop hematopoietic precursor stem cells from human pluripotent stem cells, with the goal of developing drug screening and cell therapy applications for human blood system disorders. The breakthrough technology is included in a new United States patent application.

Hematopoietic precursor stem cells give rise to all red and white blood cells and platelets in the body. VistaGen will use the UHN invention to improve the cell culture methods used to efficiently produce hematopoietic stem cell populations.

"This technology dramatically advances our ability to produce and purify this important blood stem cell precursor for both in vitro drug screening and in vivo cell therapy applications," said H. Ralph Snodgrass, PhD, VistaGen's President and Chief Scientific Officer.

"In addition to defining new cell culture methods for our use, the technology describes the surface characteristics of stem cell-derived adult hematopoietic stem cells. Most groups study embryonic blood development from stem cells, but, for the first time, we are able to not only purify the stem cell-derived precursor of all adult hematopoietic cells, but also pinpoint the precise timing when adult blood cell differentiation takes place in these cultures," Snodgrass added. "It is our belief that these early cells will be the precursors of the ultimate adult, bone marrow-repopulating hematopoietic stem cells."

Bone marrow-derived hematopoietic stem cells are able to repopulate the blood and immune system when transplanted into patients prepared for bone marrow transplantation. These cells have important potential therapeutic applications for the restoration of healthy blood and immune systems in individuals undergoing transplantation therapies for cancer, organ grafts, HIV infections or for acquired or genetic blood and immune deficiencies.

About VistaGen Therapeutics VistaGen is a biotechnology company applying human pluripotent stem cell technology for drug rescue and cell therapy. VistaGen's drug rescue activities combine its human pluripotent stem cell technology platform, Human Clinical Trials in a Test Tube, with modern medicinal chemistry to generate new chemical variants (Drug Rescue Variants) of once-promising small-molecule drug candidates. These are drug candidates discontinued due to heart toxicity after substantial development by pharmaceutical companies, the U.S. National Institutes of Health (NIH) or university laboratories. VistaGen uses its pluripotent stem cell technology to generate early indications, or predictions, of how humans will ultimately respond to new drug candidates before they are ever tested in humans, bringing human biology to the front end of the drug development process.

Additionally, VistaGen's small molecule drug candidate, AV-101, is in Phase 1b development for treatment of neuropathic pain. Neuropathic pain, a serious and chronic condition causing pain after an injury or disease of the peripheral or central nervous system, affects approximately 1.8 million people in the U.S. alone. VistaGen is also exploring opportunities to leverage its current Phase 1 clinical program to enable additional Phase 2 clinical studies of AV-101 for epilepsy, Parkinson's disease and depression. To date, VistaGen has been awarded over $8.5 million from the NIH for development of AV-101.

Visit VistaGen athttp://www.VistaGen.com, follow VistaGen athttp://www.twitter.com/VistaGenor view VistaGen's Facebook page athttp://www.facebook.com/VistaGen

Cautionary Statement Regarding Forward Looking Statements The statements in this press release that are not historical facts may constitute forward-looking statements that are based on current expectations and are subject to risks and uncertainties that could cause actual future results to differ materially from those expressed or implied by such statements. Those risks and uncertainties include, but are not limited to, risks related to regulatory approvals, the issuance and protection of patents and other intellectual property, the success of VistaGen's ongoing clinical studies, including the safety and efficacy of its drug candidate, AV-101, the failure of future drug rescue and pilot preclinical cell therapy programs related to VistaGen's stem cell technology-based Human Clinical Trial in a Test Tube platform, its ability to enter into drug rescue collaborations, risks and uncertainties relating to the availability of substantial additional capital to support VistaGen's research, development and commercialization activities, and the success of its research, development, regulatory approval, marketing and distribution plans and strategies, including those plans and strategies related to AV-101 and any drug rescue variants identified and developed by VistaGen. These and other risks and uncertainties are identified and described in more detail in VistaGen's filings with the Securities and Exchange Commission (SEC). These filings are available on the SEC's website at http://www.sec.gov. VistaGen undertakes no obligation to publicly update or revise any forward-looking statements.

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VistaGen Licenses Breakthrough Stem Cell Culture Technology To Speed Development Of Drug Screening And Cell Therapy ...

ScienceDaily (May 2, 2012) UC Davis Health System researchers are a step closer to launching human clinical trials involving the use of an innovative stem cell therapy to fight the virus that causes AIDS.

In a paper published in the May issue of the Journal of Virology, the UC Davis HIV team demonstrated both the safety and efficacy of transplanting anti-HIV stem cells into mice that represent models of infected patients. The technique, which involves replacing the immune system with stem cells engineered with a triple combination of HIV-resistant genes, proved capable of replicating a normally functioning human immune system by protecting and expanding HIV-resistant immune cells. The cells thrived and self-renewed even when challenged with an HIV viral load.

"We envision this as a potential functional cure for patients infected with HIV, giving them the ability to maintain a normal immune system through genetic resistance," said lead author Joseph Anderson, an assistant adjunct professor of internal medicine and a stem cell researcher at the UC Davis Institute for Regenerative Cures. "Ideally, it would be a one-time treatment through which stem cells express HIV-resistant genes, which in turn generate an entire HIV-resistant immune system."

To establish immunity in mice whose immune systems paralleled those of patients with HIV, Anderson and his team genetically modified human blood stem cells, which are responsible for producing the various types of immune cells in the body.

Building on work that members of the team have pursued over the last decade, they developed several anti-HIV genes that were inserted into blood stem cells using standard gene-therapy techniques and viral vectors (viruses that efficiently insert the genes they carry into host cells). The resulting combination vector contained:

These engineered blood stem cells, which could be differentiated into normal and functional human immune cells, were introduced into the mice. The goal was to validate whether this experimental treatment would result in an immune system that remained functional, even in the face of an HIV infection, and would halt or slow the progression toward AIDS.

The results were successful on all counts.

"After we challenged transplanted mice with live HIV, we demonstrated that the cells with HIV-resistant genes were protected from infection and survived in the face of a viral challenge, maintaining normal human CD4 levels," said Anderson. CD4+ T-cells are a type of specialized immune cell that HIV attacks and uses to make more copies of HIV.

"We actually saw an expansion of resistant cells after the viral challenge, because other cells which were not resistant were being killed off, and only the resistant cells remained, which took over the immune system and maintained normal CD4 levels," added Anderson.

The data provided from the study confirm the safety and efficacy of this combination anti-HIV lentiviral vector in a hematopoietic stem cell gene therapy setting for HIV and validated its potential application in future human clinical trials. The team has submitted a grant application for human clinical trials and is currently seeking regulatory approval, which is necessary to move on to clinical trials.

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Stem cell therapy shows promise in fight against HIV

Public release date: 1-May-2012 [ | E-mail | Share ]

Contact: Charles Casey charles.casey@ucdmc.ucdavis.edu 916-734-9048 University of California - Davis Health System

UC Davis Health System researchers are a step closer to launching human clinical trials involving the use of an innovative stem cell therapy to fight the virus that causes AIDS.

In a paper published in the May issue of the Journal of Virology, the UC Davis HIV team demonstrated both the safety and efficacy of transplanting anti-HIV stem cells into mice that represent models of infected patients. The technique, which involves replacing the immune system with stem cells engineered with a triple combination of HIV-resistant genes, proved capable of replicating a normally functioning human immune system by protecting and expanding HIV-resistant immune cells. The cells thrived and self-renewed even when challenged with an HIV viral load.

"We envision this as a potential functional cure for patients infected with HIV, giving them the ability to maintain a normal immune system through genetic resistance," said lead author Joseph Anderson, an assistant adjunct professor of internal medicine and a stem cell researcher at the UC Davis Institute for Regenerative Cures. "Ideally, it would be a one-time treatment through which stem cells express HIV-resistant genes, which in turn generate an entire HIV-resistant immune system."

To establish immunity in mice whose immune systems paralleled those of patients with HIV, Anderson and his team genetically modified human blood stem cells, which are responsible for producing the various types of immune cells in the body.

Building on work that members of the team have pursued over the last decade, they developed several anti-HIV genes that were inserted into blood stem cells using standard gene-therapy techniques and viral vectors (viruses that efficiently insert the genes they carry into host cells). The resulting combination vector contained:

a human/rhesus macaque TRIM5 isoform, which disrupts HIV from uncoating in the cytoplasm a CCR5 short hairpin RNA (shRNA), which prevents certain strains of HIV from attaching to target cells a TAR decoy, which stops HIV genes from being expressed inside of the cell by soaking up a critical protein needed for HIV gene expression These engineered blood stem cells, which could be differentiated into normal and functional human immune cells, were introduced into the mice. The goal was to validate whether this experimental treatment would result in an immune system that remained functional, even in the face of an HIV infection, and would halt or slow the progression toward AIDS.

The results were successful on all counts.

"After we challenged transplanted mice with live HIV, we demonstrated that the cells with HIV-resistant genes were protected from infection and survived in the face of a viral challenge, maintaining normal human CD4 levels," said Anderson. CD4+ T-cells are a type of specialized immune cell that HIV attacks and uses to make more copies of HIV.

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Study using stem cell therapy shows promise in fight against HIV

OLDSMAR, Fla., May 3, 2012 (GLOBE NEWSWIRE) -- via PRWEB - Cryo-Cell International, Inc. announced the appointment of Linda Kelley, Ph.D., as chief scientific officer. Dr. Kelley is responsible for overseeing Cryo-Cells state-of-the art laboratory, translational medicine initiatives and quality assurance program at its stem cell and cord blood banking facility in Oldsmar, Florida. She joins the company from the Dana Farber Cancer Institute at Harvard, where she was the director of the Connell OReilly Cell Manipulation Core Facility.

Dr. Kelley is an internationally recognized, cord blood stem cell scientist whose accomplishments have helped expand the scope of stem cell therapies from bone marrow transplantation to the treatment of heart, kidney, brain and other degenerative diseases. She was a member of the board of trustees of the Foundation for Accreditation of Cellular Therapy and chaired its Standards Committee. Dr. Kelley was one of 12 scientists selected by the Institute of Medicine of the National Academies of Science to serve on the panel that advised Congress on how to allocate $80 million in funding to optimally structure a national cord blood stem cell program.

While director of the Cell Therapy Facility at the University of Utah, she established that states first umbilical cord blood collection program that enabled families to donate their childrens cord blood to the national inventory. Dr. Kelley earned graduate and post-doctoral degrees in hematology and immunology at Vanderbilt University in Nashville, Tenn., where she also served as assistant professor in the Department of Medicine.

As a leader in our field, Cryo-Cell is delighted to have someone of Dr. Kelleys caliber directing our laboratory and translational medicine initiatives. Her expertise will ensure that we continue to exceed the industrys quality standards and maintain our tradition of offering clients the absolute best in cord blood, cord tissue, and menstrual stem cell cryopreservation services, said David Portnoy, chairman and co-CEO at Cryo-Cell. Under her guidance, Cryo-Cell will be propelled to the forefront of regenerative medicine.

Kelley replaces Julie Allickson, Ph.D., who is joining the Wake Forest Institute for Regenerative Medicine (WFIRM), where she will manage translational research. WFIRM is led by Anthony Atala, M.D., a Cryo-Cell board member and preeminent stem cell scientist.

The opportunity to work in a cutting-edge facility with a staff that is exceptionally well trained was very attractive to me, said Dr. Kelley. But equally important in my decision to join Cryo-Cell, was the commitment that co-CEOs David and Mark Portnoy have made to support the advancement of regenerative medicine through partnerships with Stanford University and private research facilities. Cryo-Cell is unique among stem cell cryopreservation firms in that regard.

About Cryo-Cell International, Inc. Cryo-Cell International, Inc. was founded in 1989. In 1992, it became the first private cord blood bank in the world to separate and store stem cells. Today, Cryo-Cell has over 240,000 clients worldwide from 87 countries. Cryo-Cell's mission is to provide clients with state-of-the-art stem cell cryopreservation services and support the advancement of regenerative medicine. Cryo-Cell operates in a facility that is compliant with Good Manufacturing Practice and Good Tissue Practice (cGMP/cGTP). It is ISO 9001:2008 certified and accredited by the American Association of Blood Banks. Cryo-Cell is a publicly traded company, OTC:QB Markets Group Symbol: CCEL. Expectant parents or healthcare professionals who wish to learn more about cord blood banking and cord blood banking prices may call 1-800-STOR-CELL (1-800-786-7235) or visit http://www.cryo-cell.com/.

Forward-Looking Statement Statements wherein the terms "believes", "intends", "projects", "anticipates", "expects", and similar expressions as used are intended to reflect "forward-looking statements" of the Company. The information contained herein is subject to various risks, uncertainties and other factors that could cause actual results to differ materially from the results anticipated in such forward-looking statements or paragraphs, many of which are outside the control of the Company. These uncertainties and other factors include the success of the Company's global expansion initiatives and product diversification, the Company's actual future ownership stake in future therapies emerging from its collaborative research partnerships, the success related to its IP portfolio, the Company's future competitive position in stem cell innovation, future success of its core business and the competitive impact of public cord blood banking on the Company's business, the Company's ability to minimize future costs to the Company related to R&D initiatives and collaborations and the success of such initiatives and collaborations, the success and enforceability of the Company's menstrual stem cell technology license agreements and umbilical cord blood license agreements and their ability to provide the Company with royalty fees, the ability of the reproductive tissue storage to generate new revenues for the Company and those risks and uncertainties contained in risk factors described in documents the Company files from time to time with the Securities and Exchange Commission, including the most recent Annual Report on Form 10-K, Quarterly Reports on Form 10-Q and any Current Reports on Form 8-K filed by the Company. The Company disclaims any obligations to subsequently revise any forward-looking statements to reflect events or circumstances after the date of such statements.

Contact: David Portnoy Cryo-Cell International, Inc. 813-749-2100 dportnoy(at)cryo-cell(dot)com

This article was originally distributed on PRWeb. For the original version including any supplementary images or video, visit http://www.prweb.com/releases/2012/5/prweb9469228.htm

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Cryo-Cell International Taps Leader in Stem Cell Therapy to Serve as Chief Scientific Officer

18-04-2012 07:24 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the or mail to us: Name: Daniel Gender: Male Nationality: USA Age: 50 Start of treatment: 2009-08-12 Diagnosis: brain stem injury Treatment: 3 injections of bone marrow stem cells and nutritious stem cell cocktail treatment Days admitted to the hospital: 40 Reason for coming to treatment: In 1986, Daniel was involved in a car accident, which left him comatose and with little chance of survival. Against the odds Daniel came out of the coma and survived. Today Daniel has limited, but manageable, ability to communicate and to move his body. Wishing to gain more improvements in his motor abilities and improve his quality of life, Daniel and his wife, LaNea, came to Guangzhou for stem cell treatment on September 2009.

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China medical tourism Brain Injury stem cell therapy 2 clip - Video

18-04-2012 08:35 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the web: or mail to us: Name: Shana Weil Gender: Feale Nationality: USA Age: 22 Start of treatment: 2008-11-24 Diagnosis: Traumatic brain injury Treatment: 4 stem cells injections via lumbar puncture and a nutritious stem cell cocktail treatment Days admitted to the hospital: 60 Reason for coming to treatment: On November 20, 2003, Shana lost control of her car and ran into a tree. The accident left her severely brain damaged. Later, Shana came out of the coma, and progressed from a vegetative state to being minimally conscious. Her parents decided to keep their daughter at home, taking care of all her daily needs and kept her on an intense physiotherapy program, but eventually realized that they had exhausted all treatment options available in the US Upon Hearing on the TV about another family that traveled to China for stem cell treatment, her parents decided to travel with their daughter to Guangzhou.

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China medical tourism Brain Injury stem cell therapy 3 clip - Video

18-04-2012 09:47 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the web: or mail to us: Name: Sammy Ashraf Gender: Female Nationality: Pakistan Age: 32 Start of treatment: 2010-11-18 Diagnosis: Hypoxic encephalopathy, secondary epilepsy Treatment: 3 injections of bone marrow stem cells and nutritious stem cell cocktail treatment Days admitted to the hospital: 30 Reason for coming to treatment: Sammy developed breathing problems and fell into a coma after taking some cough medicine on March 25, 2009, and then she received a tracheotomy, mechanical ventilation to assist her breathing and organic phosphorus detoxification treatment. On the third day, she was taken off the ventilation and continued her treatment in the ICU. She received physical rehabilitation bedside with the assistance of her family members. Three months later, Sammy could understand simple instructions given to her. She was able to swallow small amounts of liquid and move her arms and legs slightly. At the onset of the disease, Sammy was presented with paroxysmal convulsions, clenched fists, and she would grit her teeth. Sammy was put on Topamax for treatment. They looked for new therapy, so they contact us and came to our hospital for ...

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China medical tourism Brain Injury stem cell therapy 4 clip - Video

18-04-2012 10:06 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the web: or mail to us: Name: Binca Karprioru Gender: Female Nationality: Romania Age: 18 Start of treatment: 2007-11-17 Diagnosis: Cerebral Palsy, Mental Retardation Treatment: Stem cell treatment Days admitted to the hospital: 60 Reason for coming to treatment: Due to lack of oxygen during child birth Bianca was born with cerebral palsy characterized mainly by mental retardation. Before the treatment Bianca was very dependent on her mother in all daily activities - eating, dressing, tying her shoes, going to the bathroom and walking. Bianca could walk only with someone supporting her on one side and holding her hand. She could point to something but could not grasp small objects. She could pronounce a few words but was unable to create sentences. She could understand commands of medium difficulty. She appeared to have double vision and had difficulties focusing her sight. She was very anxious around people she didn't know and in unfamiliar environments and would express fear and uncontrolled aggression in such situations. She did not want to miss any opportunity, so she came here in Guangzhou for treatment.

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China medical tourism Cerebral Palsy stem cells therapy 6 clip - Video

18-04-2012 10:54 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the web: or mail to us: Name: Antilla Lawrence Gender: Male Nationality: Hungary Age: 27 Start of treatment: 2008-08-23 Diagnosis: Stem cell treatment Treatment: Weekly stem cell injections, physical therapy, cocktail medication Days admitted to the hospital: 40 Reason for coming to treatment: Antilla suffers from limited mobility and impaired balance due to limited oxygen supply to his brain during his birth. Before coming to Guangzhou Antilla suffered constantly from stiff and rigid muscles. His balance was poor; he could not get down the stairs without catching the handrail, he could not walk very fast and his walking was bumpy and uncoordinated. He could not bend his right knee while walking and used to lean forward with his upper body, a posture which worsened his sense of balance. He used to tire quickly from walking and suffered from back aches after a relatively long walk. He suffered from painful cramps in his legs, mostly during the night. In addition, Antilla's right arm and hand had very limited movement, and since he is right handed, this had a vast effect on his daily activities. He could not straighten his right arm more than ...

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China medical tourism Cerebral Palsy stem cells therapy 7 clip - Video

18-04-2012 12:47 Many of our patients travel to Guangzhou from all over the world for medical treatment and tourism. China medical tourism can help with becoming a patient, travel arrangements and language assistance. If you want to know more about our services, please browse the web: or mail to us: Name: Garbo Bocskai Gender: Male Nationality: Hungary Age: 20 Start of treatment: 2007-08-30 Diagnosis: Cerebral palsy Treatment: Stem cell treatment Days admitted to the hospital: 50 Reason for coming to treatment: Garbo was born as a result of a premature birth after only 7.5 months of pregnancy, and he suffered Septicemia secondary to Gastroenteritis caused by Thrush only 13 days after birth. Once the infection had been resolved, the infant appeared to have inconsistent bilateral eye movements and paralysis of the lower limbs and was eventually diagnosed with a Brain Injury at the age of 6 months. His parents heard that here in Guangzhou, Gabor would receive the advanced stem cell treatment done by a very professional medical team.

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China medical tourism Cerebral Palsy stem cells therapy 9 clip - Video

28-03-2012 10:17 Dr Joshua Hare is Professor of Medicine and Director of the Interdisciplinary Stem Cell Institute at the University of Miami. The interview was conducted on 25 March 2012 at the American College of Cardiology's (ACC's) 61st Annual Scientific Session & Expo in Chicago. See more ACC.12 Coverage: http://www.getinsidehealth.com

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Stem cell therapy for the repair of myocardium in heart failure patients - Video

March 27, 2012

According to a new study, using a patients own bone marrow may help repair damaged areas of the heart caused by heart failure.

Researchers found that left ventricular ejection fraction increased by 2.7 percent in patients who received stem cell therapy.

The study, which was presented at the American College of Cardiologys 61st Annual Scientific Session, revealed that the improvement in ejection fraction correlated with the number of CD34+ and CD133+ cells in the bone marrow.

This is the kind of information we need in order to move forward with the clinical use of stem cell therapy, Emerson Perin, MD, PhD, director of clinical research for cardiovascular medicine at the Texas Heart Institute and the studys lead investigator, said at the event.

The study included 92 patients who were randomly selected to receive stem cell treatment or placebo. The patients all had chronic ischemic heart disease and an ejection fraction of less than 45 percent along with heart failure.

Doctors placed a catheter in the hearts left ventricle to inject 3 ccs, or 100 million stem cells, into an average of 15 sites of the stem cell patients hearts.

The doctors used electromechanical mapping of the heart to measure the voltage in areas of the heart muscle and create a real-time image of the heart.

With this mapping procedure, we have a roadmap to the heart muscle, said Dr. Perin. Were very careful about where we inject the cells; electromechanical mapping allows us to target the cell injections to viable areas of the heart.

The trial was designed to determine whether left ventricular end systolic volume and myocardial oxygen consumption improved in patients who received stem cell treatment.

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Cell Therapy Improves Damaged Heart In Study

Public release date: 24-Mar-2012 [ | E-mail | Share ]

Contact: Beth Casteel bcasteel@acc.org 240-328-4549 American College of Cardiology

CHICAGO -- A new study found that using a patient's own bone marrow cells may help repair damaged areas of the heart caused by heart failure, according to research presented today at the American College of Cardiology's 61st Annual Scientific Session. The Scientific Session, the premier cardiovascular medical meeting, brings cardiovascular professionals together to further advances in the field.

Millions of Americans suffer from heart failure, the weakening of the heart muscle and its inability to pump blood effectively throughout the body. If medications, surgery, or stents fail to control the disease, doctors often have few treatment options to offer.

This is the largest study to date to look at stem cell therapy, using a patient's own stem cells, to repair damaged areas of the heart in patients with chronic ischemic heart disease and left ventricular dysfunction. Researchers found that left ventricular ejection fraction (the percentage of blood leaving the heart's main pumping chamber) increased by a small but significant amount (2.7 percent) in patients who received stem cell therapy. The study also revealed that the improvement in ejection fraction correlated with the number of CD34+ and CD133+ cells in the bone marrow information that will be helpful in evaluating and designing future therapies and trials.

"This is the kind of information we need in order to move forward with the clinical use of stem cell therapy," said Emerson Perin, MD, PhD, director of clinical research for cardiovascular medicine at the Texas Heart Institute and the study's lead investigator.

This multi-center study was conducted by the Cardiovascular Cell Therapy Research Network and took place between April 2009 and 2011. At five sites, 92 patients were randomly selected to receive stem cell treatment or placebo. The patients, average age 63, all had chronic ischemic heart disease and an ejection fraction of less than 45 percent along with heart failure and/or angina, and were no longer candidates for revascularization.

"Studies such as these are able to be completed much faster because of the team approach of the network," said Sonia Skarlatos, PhD, deputy director of the division of cardiovascular sciences at the National, Heart, Lung and Blood Institute, and program director of the network.

Bone marrow was aspirated from the patients and processed to obtain just the mononuclear fraction of the marrow. In patients randomly selected to receive stem cell therapy, doctors inserted a catheter into the heart's left ventricle to inject a total of 3 ccs comprising 100 million stem cells into an average of 15 sites that showed damage on the electromechanical mapping image of the heart. Dr. Perin said the procedure is relatively quick and painless, involving only an overnight stay at the hospital.

The study used electromechanical mapping of the heart to measure the voltage in areas of the heart muscle and create a real-time image of the heart.

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Stem cell therapy possibly helpful in heart failure patients

25-03-2012 10:22 Dr Adelson aspirates bone marrow for concentration for stem cell therapy for musculoskeletal pain conditions

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bone marrow aspiration for stem cell therapy by Dr Adelson - Video

24-03-2012 07:46 This is the harvest of adipose tissue for combination with bone marrow aspirate concentrate for stem cell therapy

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Adipose harvest for stem cell therapy by Dr Adelson - Video

3/25/2012 10:50 AM ET (RTTNews) - An important clinical trial, which evaluated the use of autologous bone-marrow-cell therapy in patients with chronic ischemic heart failure, has failed to meet the prespecified end points of improvement in most measures of heart function, according to the results presented at the American College of Cardiology 2012 Scientific Sessions.

The trial dubbed, FOCUS - a phase II study, is the largest study to date to investigate if a patient's own bone marrow cells improved myocardial perfusion, reduced left ventricular end-systolic volume or enhanced maximal oxygen consumption in patients with coronary artery disease or LV dysfunction, and limiting heart failure or angina. The FOCUS trial was undertaken by the National Heart, Lung, and Blood Institute-sponsored Cardiovascular Cell Therapy Research Network.

Ninety two patients with chronic ischemic heart disease , having a left ventricular ejection fraction of 45% or less, a perfusion defect by single-photon emission tomography, or SPECT, who were no longer candidates for revascularization, were enrolled in the trial. Sixty one patients in the study were administered bone marrow cells through transendocardial injections while thirty one patients were administered placebo.

An assessment of primary endpoints at 6 months has revealed that there is no statistically significant difference between the treatment group and placebo arm in left ventricular end-systolic volume assessed by echocardiography, maximal oxygen consumption, and reversibility on SPECT. The secondary outcomes, including percent myocardial defect, total defect size, fixed defect size, regional wall motion, and clinical improvement, also has not exhibited any difference between the two arms.

However, according to the study authors, exploratory analyses have revealed that left ventricular ejection fraction improved in the treatment group compared with the placebo group by 2.7%.

The authors, led by Emerson Perin, concluded that the findings provide evidence for further studies to determine the relationship between the composition and function of bone marrow product and clinical end points. Understanding these relationships will improve the design and interpretation of future studies of cardiac cell therapy, the authors noted.

The results were published online March 24 in the Journal of the American Medical Association.

by RTT Staff Writer

For comments and feedback: editorial@rttnews.com

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Bone Marrow Stem Cell Therapy Trial - Clues, But No Answers

Published on Mar 25, 2012

CHICAGO (AFP) - Patients with advanced heart disease who received an experimental stem cell therapy showed slight improvements in blood pumping but no change in most of their symptoms, United States researchers said on Saturday.

Study authors described the trial as the largest to date to examine stem cell therapy as a route to repairing the heart in patients with chronic ischemic heart disease and left ventricular dysfunction.

Previous studies have established that the approach is safe in human patients, but none had examined how well it worked on a variety of heart ailments.

The clinical trial involved 92 patients, with an average age of 63, who were picked at random to get either a placebo or a series of injections of their own stem cells, taken from their bone marrow, into damaged areas of their hearts.

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Stem cell therapy could repair some heart damage: Study

SATURDAY, March 24 (HealthDay News) -- An innovative approach using patients' own bone marrow cells to treat chronic heart failure came up short in terms of effectiveness, researchers report.

Use of stem cell therapy to repair the slow, steady damage done to heart muscle and improve heart function is safe, but has not been shown to improve most measures of heart function, the study authors said.

"For the measures we paid most attention to, we saw no effect, there is no question about that," said researcher Dr. Lemuel Moye, a professor of biostatistics at the University of Texas School of Public Health in Houston.

"Ultimately, this is going to pay off handsomely for individuals and for public health in general, but it's going to take years of work," Moye said. "We are the vanguard looking for new promising lines of research."

While the hoped-for results didn't materialize, there appeared to be a small improvement in some patients, he said. "When we looked at another commonly used measure of heart function called ejection fraction, or the strength of the heart's pumping, that's where all the action was," Moye noted.

It's hard to know which measures of heart function to look at, Moye explained. "We have had some difficulty with that," he said.

Future research will look at other measures of heart function, pay more attention to the characteristics of the cells that are injected and determine which cells are best, he added.

Cardiac cells and other types of specially prepared cells are available now that were not accessible when this study started in 2009, Moye pointed out.

The results of the trial, which was sponsored by the U.S. National Heart, Lung, and Blood Institute, were to be presented Saturday at the American College of Cardiology's annual meeting in Chicago. The report was also published online March 24 in the Journal of the American Medical Association.

For the study, Moye and colleagues worked with 92 patients, average age 63 and mostly male, who had heart failure with and without chest pain. They were randomly assigned to receive either an injection of 100 million bone marrow cells from their own bone marrow, or an inactive placebo. Patients in both groups also received aggressive medical therapy.

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Stem-Cell Trial Failed to Treat Heart Failure

CHICAGO - Patients with advanced heart disease who received an experimental stem cell therapy showed slightly improved heart function, researchers said at a major U.S. cardiology conference on Saturday.

The clinical trial involved 92 patients, with an average age of 63, who were picked at random to get either a placebo or a series of injections of their own stem cells, taken from their bone marrow, into damaged areas of their hearts.

The patients all had chronic heart disease, along with either heart failure or angina, and their left ventricles were pumping at less than 45 per cent of capacity.

All the participants in the study were ineligible for revascularization surgery, such as coronary bypass to restore blood flow, because their heart disease was so advanced.

Those who received the stem cell therapy saw a small but significant boost in the heart's ability to pump blood, measuring the increase from the heart's main pumping chamber at 2.7 per cent more than placebo patients.

Study authors described the trial as the largest to date to examine stem cell therapy as a route to repairing the heart in patients with chronic ischemic heart disease and left ventricular dysfunction.

"This is the kind of information we need in order to move forward with the clinical use of stem cell therapy," said lead investigator Emerson Perin, director of clinical research for cardiovascular medicine at the Texas Heart Institute.

Perin's research, which was conducted between 2009 and 2011 across five U.S sites, was presented at the annual American College of Cardiology Conference in Chicago.

The technique involved taking bone marrow samples from the patients and processing the marrow to extract stem cells. Doctors then injected the cells via catheter into the heart's left ventricle.

The injections, comprising some 100 million stem cells in all, were specifically targeted at damaged areas, identified by real-time electromechanical mapping of the heart.

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Stem cell treatment could repair heart damage

Public release date: 24-Mar-2012 [ | E-mail | Share ]

Contact: Kristin Wincek kwincek@mhif.org 612-863-0249 Minneapolis Heart Institute Foundation

CHICAGO Cell therapy may present an option for patients with ischemic heart disease to use their own bone marrow cells to repair the damaged areas of their hearts, and may pave the way for future treatment options, according to the FOCUS trial, which will be presented as a late-breaking clinical trial March 24 at the 61st annual American College of Cardiology (ACC) scientific session.

This is the largest study to date to look at stem cell therapy, using a patient's own stem cells, to repair damaged areas of the heart in patients with chronic ischemic heart disease and left ventricular dysfunction. Researchers found that left ventricular ejection fraction (the percentage of blood leaving the heart's main pumping chamber) increased by a small but significant amount (2.7 percent) in patients who received stem cell therapy. The study also revealed that the improvement in ejection fraction correlated with the number of progenitor cells (CD34+ and CD133+) in the bone marrow; and this information will help in evaluating and designing future therapies and trials.

"FOCUS is an incredibly important trial, as it has informed the cell therapy community how to better treat this high-risk patient population, and allows us to enter into an exciting, next generation of stem cell therapy armed with more data," said study investigator Timothy D. Henry, MD, an interventional cardiologist at the Minneapolis Heart Institute (MHI) at Abbott Northwestern Hospital in Minneapolis and director of research with the Minneapolis Heart Institute Foundation.

This multicenter study was conducted by the Cardiovascular Cell Therapy Research Network (CCTRN), which is supported through a research grant from the National Institutes of Health's National, Heart, Lung and Blood Institute (NHLBI), with the goal to evaluate novel stem cell-based treatment strategies for individuals with cardiovascular disease.

FOCUS will be presented at ACC.12 by its lead investigator Emerson C. Perin, MD, PhD, director of clinical research for cardiovascular medicine at the Texas Heart Institute, one of the five sites in the CCTRN. The Minneapolis Heart Institute is another site of the five in the network, and a large number of CCTRN patients were enrolled in Minnesota.

For this study, which took place between April 2009 and April 2011, the five sites randomly selected 92 patients to receive stem cell treatment or placebo. The symptomatic patients, with an average age 63, all had chronic ischemic heart disease and an ejection fraction of less than 45 percent (baseline 34 percent) along with heart failure and/or angina and were no longer candidates for revascularization. "These patients had no other options, as medical management failed to improve their symptoms," explained the study's co-investigator Jay Traverse, MD, an interventionalist cardiologist at the Minneapolis Heart Institute at Abbott Northwestern Hospital and physician researcher with the Minneapolis Heart Institute Foundation.

Bone marrow was aspirated from the patients and processed to obtain just the mononuclear fraction of the marrow. In patients randomly selected to receive stem cell therapy, physicians inserted a catheter into the heart's left ventricle to inject 100 million stem cells in more than 15 sites that showed damage on the electromechanical mapping image of the heart.

"Studies such as these are able to be completed much faster because of the team approach of the network" said Sonia I. Skarlatos, PhD, NHBLI's deputy director of the division of cardiovascular sciences and program director of CCTRN.

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Cell therapy using patient's own bone marrow may present option for heart disease