Archive for the ‘Cell Therapy’ Category

Research and MarketsPosted on:31 Aug 12

Research and Markets (http://www.researchandmarkets.com/research/9fkkzb/cell_therapy_tec) has announced the addition of Jain PharmaBiotech's new report "Cell Therapy - Technologies, Markets and Companies" to their offering.

This report describes and evaluates cell therapy technologies and methods, which have already started to play an important role in the practice of medicine. Hematopoietic stem cell transplantation is replacing the old fashioned bone marrow transplants. Role of cells in drug discovery is also described. Cell therapy is bound to become a part of medical practice.

Stem cells are discussed in detail in one chapter. Some light is thrown on the current controversy of embryonic sources of stem cells and comparison with adult sources. Other sources of stem cells such as the placenta, cord blood and fat removed by liposuction are also discussed. Stem cells can also be genetically modified prior to transplantation.

Cell therapy technologies overlap with those of gene therapy, cancer vaccines, drug delivery, tissue engineering and regenerative medicine. Pharmaceutical applications of stem cells including those in drug discovery are also described. Various types of cells used, methods of preparation and culture, encapsulation and genetic engineering of cells are discussed. Sources of cells, both human and animal (xenotransplantation) are discussed. Methods of delivery of cell therapy range from injections to surgical implantation using special devices.

Cell therapy has applications in a large number of disorders. The most important are diseases of the nervous system and cancer which are the topics for separate chapters. Other applications include cardiac disorders (myocardial infarction and heart failure), diabetes mellitus, diseases of bones and joints, genetic disorders, and wounds of the skin and soft tissues.

Regulatory and ethical issues involving cell therapy are important and are discussed. Current political debate on the use of stem cells from embryonic sources (hESCs) is also presented. Safety is an essential consideration of any new therapy and regulations for cell therapy are those for biological preparations.

The cell-based markets was analyzed for 2011, and projected to 2021. The markets are analyzed according to therapeutic categories, technologies and geographical areas. The largest expansion will be in diseases of the central nervous system, cancer and cardiovascular disorders. Skin and soft tissue repair as well as diabetes mellitus will be other major markets.

The number of companies involved in cell therapy has increased remarkably during the past few years. More than 500 companies have been identified to be involved in cell therapy and 284 of these are profiled in part II of the report along with tabulation of 274 alliances. Of these companies, 154 are involved in stem cells. Profiles of 70 academic institutions in the US involved in cell therapy are also included in part II along with their commercial collaborations. The text is supplemented with 55 Tables and 11 Figures. The bibliography contains 1,050 selected references, which are cited in the text.

Key Topics Covered:

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Press Release

DUBLIN--(BUSINESS WIRE)--

Research and Markets (http://www.researchandmarkets.com/research/9fkkzb/cell_therapy_tec) has announced the addition of Jain PharmaBiotech's new report "Cell Therapy - Technologies, Markets and Companies" to their offering.

This report describes and evaluates cell therapy technologies and methods, which have already started to play an important role in the practice of medicine. Hematopoietic stem cell transplantation is replacing the old fashioned bone marrow transplants. Role of cells in drug discovery is also described. Cell therapy is bound to become a part of medical practice.

Stem cells are discussed in detail in one chapter. Some light is thrown on the current controversy of embryonic sources of stem cells and comparison with adult sources. Other sources of stem cells such as the placenta, cord blood and fat removed by liposuction are also discussed. Stem cells can also be genetically modified prior to transplantation.

Cell therapy technologies overlap with those of gene therapy, cancer vaccines, drug delivery, tissue engineering and regenerative medicine. Pharmaceutical applications of stem cells including those in drug discovery are also described. Various types of cells used, methods of preparation and culture, encapsulation and genetic engineering of cells are discussed. Sources of cells, both human and animal (xenotransplantation) are discussed. Methods of delivery of cell therapy range from injections to surgical implantation using special devices.

Cell therapy has applications in a large number of disorders. The most important are diseases of the nervous system and cancer which are the topics for separate chapters. Other applications include cardiac disorders (myocardial infarction and heart failure), diabetes mellitus, diseases of bones and joints, genetic disorders, and wounds of the skin and soft tissues.

Regulatory and ethical issues involving cell therapy are important and are discussed. Current political debate on the use of stem cells from embryonic sources (hESCs) is also presented. Safety is an essential consideration of any new therapy and regulations for cell therapy are those for biological preparations.

The cell-based markets was analyzed for 2011, and projected to 2021. The markets are analyzed according to therapeutic categories, technologies and geographical areas. The largest expansion will be in diseases of the central nervous system, cancer and cardiovascular disorders. Skin and soft tissue repair as well as diabetes mellitus will be other major markets.

The number of companies involved in cell therapy has increased remarkably during the past few years. More than 500 companies have been identified to be involved in cell therapy and 284 of these are profiled in part II of the report along with tabulation of 274 alliances. Of these companies, 154 are involved in stem cells. Profiles of 70 academic institutions in the US involved in cell therapy are also included in part II along with their commercial collaborations. The text is supplemented with 55 Tables and 11 Figures. The bibliography contains 1,050 selected references, which are cited in the text.

Key Topics Covered:

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Research and Markets: Cell Therapy - Technologies, Markets and Companies - Updated 2012 Report

MANILA, Philippines Celebrity hairstylist Ricky Reyes, talent manager and host Lolit Solis, actress Lorna Tolentino and even former President Joseph Estrada are only among the prominent Filipinos who swear by the healing effects of fresh cell therapy, which involves the injection of live animal cells into the body.

Reyes, who used to suffer from a rare disease which he called reading eye epilepsy, said he went to Germany last June for fresh cell therapy.

After a number of sessions, the celebrity hairstylist can now read newspapers without suffering a seizure.

It was gone immediately, he said. Pati arthritis ko. Naalis yung sakit, tapos gaganda at babata ka pa.

Solis, 65, had fresh cell therapy after experiencing knee pain, and 75-year-old Estrada opted to undergo the procedure in Germany to keep healthy.

Before them, several other well-known figures worldwide are said to have tried fresh cell treatments, among them the late English actor Charlie Chaplin.

So how is this procedure done? Dr. Robert Janson-Muller, who runs a fresh cell therapy clinic in Germany, is in town to give Filipinos the lowdown on this decades-long treatment.

Not stem cell treatment

Before starting his lecture for members of the local media on Tuesday, Janson-Muller made it clear that fresh cell therapy is different from the now controversial stem cell treatment, which aims to replace damaged organs in the body or create one from scratch.

He stressed that his methods, which do not promise miracles, have been proven effective by his predecessors for the past 60 years.

See original here:
Fresh cell therapy promises better health, sex and more

ScienceDaily (Aug. 10, 2012) Duke researchers may have found a promising stem cell therapy for preventing osteoarthritis after a joint injury.

Injuring a joint greatly raises the odds of getting a form of osteoarthritis called post-traumatic arthritis, or PTA. There are no therapies yet that modify or slow the progression of arthritis after injury.

Researchers at Duke University Health System have found a very promising therapeutic approach to PTA using a type of stem cell, called mesenchymal stem cells (MSCs), in mice with fractures that typically would lead to them developing arthritis. Their findings could lead to a therapy that would be used after joint injury and before signs of significant osteoarthritis.

The scientists thought the stem cells would work to prevent PTA by altering the balance of inflammation and regeneration in knee joints, because these stem cells have beneficial properties in other regions of the body.

"The stem cells were able to prevent post-traumatic arthritis," said Farshid Guilak, Ph.D., director of orthopaedic research at Duke and senior author of the study.

The study was published on August 10 in Cell Transplantation.

The researchers also thought that a type of mice bred for their super-healing properties would probably fare better than typical mice, but they were wrong.

"We decided to investigate two therapies for the study, said lead author Brian Diekman, Ph.D., a postdoctoral researcher in the Guilak lab. "We thought that stem cells from so-called superhealer mice would be superior at providing protection, and instead, we found that they were no better than stem cells from typical mice. We thought that maybe it would take stem cells from superhealers to gain an effect as strong as preventing arthritis after a fracture, but we were surprised -- and excited -- to learn that regular stem cells work just as well."

Certain people appear to fall into the superhealer category, too. They bounce back quickly and heal well naturally after a fracture, while other people eventually form cases of arthritis at the fractured joint, said Guilak, who is a professor of orthopaedic surgery and biomedical engineering.

"The ability of the superhealer mice to have superior healing after a fracture may go beyond the properties of their stem cells and be some beneficial factor, like a growth factor, that we don't know about yet," Guilak said.

Originally posted here:
Stem cells may prevent post-injury arthritis

LEUVEN, BELGIUM and MADRID, SPAIN--(Marketwire -08/08/12)- TiGenix (EURONEXT:TIG), the European leader in cell therapy, announced today the completion of patient enrollment in the Company's Phase IIa study of Cx611, a suspension of expanded allogeneic adult stem cells, in rheumatoid arthritis. The Phase IIa clinical trial is a 53-subject, multicenter, placebo-controlled study in 3 cohorts with different dosing regimens, designed to assess safety, feasibility, tolerance, and optimal dosing. The study is being conducted at 23 centers. The Company believes that this clinical trial can set the stage not only for the further development of Cx611 in RA, but also in a wide range of other autoimmune disorders.

"In addition to the primary endpoints of safety and optimal dosing, we expect this trial to yield a first indication of the duration of the efficacy of Cx611 in this very difficult patient population: the enrolled patients have previously failed to respond to at least two biologicals," said Eduardo Bravo, CEO of TiGenix. "In the trial patients are treated with three injections of Cx611. The six-month follow-up without further dosing should provide us with a truly meaningful result. This is the most advanced stem cell therapy trial in RA in the world, and completing the enrollment on time confirms our leadership position in the field. We anticipate reporting the results of the study no later than April 2013."

About Cx611 for rheumatoid arthritisCx611 is a suspension of expanded allogeneic adult stem cells derived from human adipose (fat) tissue (expanded Adipose derived Stem Cells or 'eASCs') that is delivered through intra-venous injection for the treatment of rheumatoid arthritis. The objective of the Phase IIa trial is to determine safety, feasibility, tolerance, and optimal dosing. This multicentre, placebo-controlled study has enrolled 53 patients, divided in 3 cohorts with different dosing regimens. There are 23 centers open and the company expects the final results to be available in the first half of 2013.

About TiGenixTiGenix NV (EURONEXT:TIG) is a leading European cell therapy company with a marketed product for cartilage repair, ChondroCelect, and a strong pipeline with clinical stage allogeneic adult stem cell programs for the treatment of autoimmune and inflammatory diseases. TiGenix is based out of Leuven (Belgium) and has operations in Madrid (Spain), and Sittard-Geleen (the Netherlands). For more information please visit http://www.tigenix.com.

Forward-looking informationThis document may contain forward-looking statements and estimates with respect to the anticipated future performance of TiGenix and the market in which it operates. Certain of these statements, forecasts and estimates can be recognised by the use of words such as, without limitation, "believes", "anticipates", "expects", "intends", "plans", "seeks", "estimates", "may", "will" and "continue" and similar expressions. They include all matters that are not historical facts. Such statements, forecasts and estimates are based on various assumptions and assessments of known and unknown risks, uncertainties and other factors, which were deemed reasonable when made but may or may not prove to be correct. Actual events are difficult to predict and may depend upon factors that are beyond TiGenix' control. Therefore, actual results, the financial condition, performance or achievements of TiGenix, or industry results, may turn out to be materially different from any future results, performance or achievements expressed or implied by such statements, forecasts and estimates. Given these uncertainties, no representations are made as to the accuracy or fairness of such forward-looking statements, forecasts and estimates. Furthermore, forward-looking statements, forecasts and estimates only speak as of the date of the publication of this document. TiGenix disclaims any obligation to update any such forward-looking statement, forecast or estimates to reflect any change in TiGenix' expectations with regard thereto, or any change in events, conditions or circumstances on which any such statement, forecast or estimate is based, except to the extent required by Belgian law.

See the article here:
TiGenix Completes Patient Enrollment in Phase IIa Rheumatoid Arthritis Study

AP

Raiders linebacker Aaron Curry isnt sure when hell be able to get back on the field, but hes pretty sure that stem cell therapy will be the thing that winds up getting him back there.

Paul Gutierrez of CSNBayArea.com reports that Curry has received the therapy on both of his knees. Bone marrow from his hips was used in the treatment and Curry told Gutierrez that it is the only thing hes tried that has helped him feel better. Curry is still working out on the side during Raiders practices and said hell only return to practice when hes fully able to help the Raiders.

My goal is to get healthy and just go out there and be violent, be fast, be a pain in the offenses butt and whatever I have to do on the defense, do it, Curry said. And do it full speed. I cant do that until my body says its ready.

The treatment has been popular with Oakland athletes. Linebacker Rolando McClain said that the treatment helped his legs feel better earlier this offseason and As pitcher Bartolo Colon has credited stem cell treatment on his shoulder with saving his baseball career.

With McClain facing a possible suspension under the Personal Conduct Policy and Oakland short on linebacking depth, the Raiders need Curry to be healthy for the start of the season.

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Aaron Curry using stem cell therapy to help knees

Aug. 5, 2012, 3 a.m.

A GROWING number of overseas clinics touting stem cell therapy for conditions ranging from sexual disorders to HIV are targeting Australia, where such treatments are restricted.

Australian scientists have raised concerns about so-called ''stem cell tourism'', saying many of the treatments offered are unproven, untested and potentially deadly.

The Swiss firm Fetal Cell Technologies International has been advertising in Australia since last year and Emcell, based in Ukraine, started promoting its services last month.

It is estimated as many as 200 Australians have travelled overseas for the therapy. The secretary for science policy at the Australian Academy of Science, Bob Williamson, said he empathised with the desperation of seriously ill people but warned against the unproven therapies, which can cost up to $60,000.

''The therapies are almost all untested and unproven and sometimes they have killed people,'' Professor Williamson said. The Sun-Herald's calls to Emcell's Melbourne office were not returned.

Stem Cells Australia's Megan Munsie, who is conducting a study into stem cell tourism with Monash University, said many people she interviewed were unaware of the risks of therapy overseas.

''We're not talking about rubbing something into your skin or taking a capsule, we are talking about often a very invasive procedure,'' she said.

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Fears over 'stem cell tourism' Save

A GROWING number of overseas clinics touting stem cell therapy for conditions ranging from sexual disorders to HIV are targeting Australia, where such treatments are restricted.

Australian scientists have raised concerns about so-called ''stem cell tourism'', saying many of the treatments offered are unproven, untested and potentially deadly.

The Swiss firm Fetal Cell Technologies International has been advertising in Australia since last year and Emcell, based in Ukraine, started promoting its services last month.

It is estimated as many as 200 Australians have travelled overseas for the therapy. The secretary for science policy at the Australian Academy of Science, Bob Williamson, said he empathised with the desperation of seriously ill people but warned against the unproven therapies, which can cost up to $60,000.

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''The therapies are almost all untested and unproven and sometimes they have killed people,'' Professor Williamson said. The Sun-Herald's calls to Emcell's Melbourne office were not returned.

Stem Cells Australia's Megan Munsie, who is conducting a study into stem cell tourism with Monash University, said many people she interviewed were unaware of the risks of therapy overseas.

''We're not talking about rubbing something into your skin or taking a capsule, we are talking about often a very invasive procedure,'' she said.

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Fears over 'stem cell tourism'

By Tedra DeSue - August 3, 2012 | Tickers: BAX, OSIR | 0 Comments

Tedra is a member of The Motley Fool Blog Network -- entries represent the personal opinions of our bloggers and are not formally edited.

Advances continue to be made in the field of regenerative medicine, with many products and procedures being made possible from stem cell therapy. While large companies are making headway in this area, many small companies are just as active, raising much-needed funds through the capital markets.

The main challenge all of these companies face is convincing naysayers that their research and subsequent results are ethical. There has been much ado about regenerative medicine efforts that involve stem cells. This has especially been the case for research and therapy involving human embryonic stem cells. For this reason, investors who may be bullish about the industry may avoid these stocks.

The stem cell market is expected to grow to be a $5.1 billion industry by 2014. One of the reasons stem cell research is important to these companies is that it can help them grow their pipelines, according to a research report on the industry Stem Cells in Regenerative Medicine: Benchmarking Analysis of Big Companies Entering the Market.Researchers also see stem cell research as a way to find out the effectiveness of therapies without having to use animals for testing.

Lets take a look at a few of the public companies that have made strides in the stem cell therapy space.

One of the largest pharmaceutical companies active in the stem cell therapy space is Baxter Healthcare (NYSE: BAX). It is in the process of developing stem cell therapy for people who suffer from chronic myocardial ischemia or CMI. The condition stems from coronary artery disease. The company is in the midst of clinical trials to prove that its therapy can repair damaged heart muscles. Its referred to as stem cell therapy CD34+.

Also noteworthy for Baxter is a purchase it made last year. It bought Synovis Life Technologies, which made a name for its self because of the mechanical and biological products it made to repair soft tissue. The acquisition is expected to help Baxter further expand its offerings in the biosurgery and regenerative treatment.

Osiris Therapeutics (NASDAQ: OSIR) accomplished an important feat in the stem cell space by becoming the first company in the world to be able to market its stem cell therapy called Prochymal. On that news in May, its stock traded 20% higher, indicating that investors have more confidence in stocks in this space when they have some kind of meaningful approval by regulators. This product was approved by Health Canada.

Now the company is embroiled in a battle over Prochymal with a French pharmaceutical company that it partnered with to test the therapy. News that the sides have been unable to resolve their differences sent Osiriss stock lower this week. At the time of writing, it had lost 5.32% of its value and was trading around $9.

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Stem Cell Therapy Space Worth Review for Investors

MANILA, Philippines Talent manager Annabelle Rama revealed that she will be undergoing stem cell therapy in September.

She confirmed this report to The Philippine Stars entertainment columnist Ricky Lo.

Rama said shes been suffering from several illnesses and that stem cell therapy may help make her feel better.

Im suffering from high-blood pressure, high-blood sugar and other ailments and from what I heard, after the therapy I would feel better. Lahat daw yon gagaling, she said.

Rama said her son Richard Gutierrez, who will be paying for the whole procedure, also urged her to have her back problem checked.

Richard wants me to have my scoliosis checked and my lumbar region which are giving me so much pain. So I will have two more injections for that, each costing an extra one thousand euros, she said.

Lo said in his article that the whole package, which will include nine injections, will cost around P1 million.

Meanwhile, although she earlier vented on Twitter her disappointment that her family is against her plan to run for Congress, it seems that her children have changed their mind about politics.

Rama said she is hoping that she will feel renewed after her upcoming stem cell therapy so she will be ready to file her certificate of candidacy as a Cebu congresswoman when she comes back.

Richard and my other children want me to be physically fit for the campaign, Rama said.

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Annabelle to undergo stem cell therapy

Details Published on Friday, 27 July 2012 00:00

STEM cell therapy is being eyed to cure the neck and back pains and other illnesses of former president and now Pampanga Rep. Gloria Arroyo, alternative medicine doctor Antonia Park said yesterday.

Arroyo went to Parks Green and Young Health and Wellness Center in Tagaytay City yesterday morning for cleansing and alternative healing.

A guard at the La Vista Subdivision in Quezon City, who requested anonymity, said Arroyo left the subdivision at around 7:30 a.m., accompanied by a few staff and a personal nurse. She rode a white Nissan Patrol and her convoy included a gray Toyota Land Cruiser and a police escort.

Arroyo was granted bail Wednesday by a Pasay City court after finding that the electoral sabotage case against her was weak. She posted a P1-million cash bond.

Stem cell treatment involves the introduction of new adult stem cells into the damaged tissue in order to treat a disease or injury. The ability of new cells to regenerate is seen as having significant potential to replace diseased areas of the body, with minimal risk of rejection and side effects.

Park, in a statement distributed to the media, said Arroyo complained of difficulty in swallowing with choking due to her bulge along the posterior pharyngeal wall, together with a change of her voice and losing weight due to her difficulties of swallowing the food (solid) and angina as well as continuous neck and back pain.

Thats why our center is accepting her for possible stem cell therapy and another treatment of pain management and giving natural food by means of fresh fruit and vegetable juices for which management is warranted and which the stem cell therapy is contemplated and strongly considered, she said.

She said the stem cell therapy can be given by her clinic in Tagaytay while Arroyo can continue her physical therapy at the Veterans Memorial Medical Center four times a week.

Park said Arroyo can to go her district, referring to the second district of Pampanga, over the weekend provided she takes care to wear a brace and avoid talking too much so as to protect the bulging interior of the throat, and provided she resumes physical therapy as soon as possible.

More here:
Malaya Business Insight

MANILA, Philippines - Former President Gloria Macapagal-Arroyo might undergo stem cell therapy to improve her health, according to the alternative medicine facility in Tagaytay City that the Pampanga lawmaker visited Thursday.

Arroyo came to the facility complaining of difficulty in swallowing because of a bulge in her throat, according to a statement from the Green 8 Young Health & Wellness Center.

Her voice has also changed and she is losing weight because she can't swallow solid food. She also has angina, the center said.

Arroyo also complained of continuing neck and back pain.

"Our center is accepting her for possible stem cell therapy," the alternative medicine facility said. "The stem cell therapy is... strongly considered."

It said the Arroyo can undergo such therapy in the Tagaytay center while her physical therapy will continue at the Veterans Memorial Medical Center 4 times a week.

The Pampanga lawmaker is seeking treatment at the center through her sister, Cielo Macapagal-Salgado.

The center said Salgado was previously diagnosed with a cancerous lump in her breast.

"She consulted several doctors and was subsequently subjected to a myrad of treatment procedures. These, however, did not produce the desired results. When she came to our center she was cured of her cancer," it claimed.

Arroyo heads to Pampanga

Continued here:
Arroyo might undergo stem cell therapy

Peter Aldhous, San Francisco bureau chief

It's official: stem cells are drugs. At least, that's the opinion of the US District Court in Washington DC, which has ruled that the Food and Drug Administration (FDA) has the authority to regulate clinics offering controversial stem cell therapies.

Treatments in which stem cells are harvested from bone marrow and injected straight back into the same patient are deemed part of routine medical practice - not regulated by the US government. But if the cells are subjected to more than "minimal manipulation", the FDA maintains that the therapy becomes a "drug", which must be specifically approved for use.

Christopher Centeno, medical director of Regenerative Sciences, vows to appeal. "This is really round one," he says. "Our position remains that a patient's cells are not drugs."

Scott hopes that the FDA will now step up its efforts to regulate other clinics offering unproven stem cell therapies. These include Celltex of Sugar Land, Texas, which rose to prominence after Texas governor Rick Perry was injected with stem cells supplied by the company to aid his recovery from back surgery.

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Ruling frees FDA to crack down on stem cell clinics

(Phys.org) -- New research at the Hebrew University of Jerusalem sheds light on pluripotencythe ability of embryonic stem cells to renew themselves indefinitely and to differentiate into all types of mature cells. Solving this problem, which is a major challenge in modern biology, could expedite the use of embryonic stem cells in cell therapy and regenerative medicine. If scientists can replicate the mechanisms that make pluripotency possible, they could create cells in the laboratory which could be implanted in humans to cure diseases characterized by cell death, such as Alzheimer's, Parkinson's, diabetes and other degenerative diseases.

To shed light on these processes, researchers in the lab of Dr. Eran Meshorer, in the Department of Genetics at the Hebrew Universitys Alexander Silberman Institute of Life Sciences, are combining molecular, microscopic and genomic approaches. Meshorer's team is focusing on epigenetic pathwayswhich cause biological changes without a corresponding change in the DNA sequencethat are specific to embryonic stem cells.

The molecular basis for epigenetic mechanisms is chromatin, which is comprised of a cell's DNA and structural and regulatory proteins. In groundbreaking research performed by Shai Melcer, a PhD student in the Meshorer lab, the mechanisms which support an open chromatin conformation in embryonic stem cells were examined. The researchers found that chromatin is less condensed in embryonic stem cells, allowing them the flexibility or "functional plasticity" to turn into any kind of cell.

A distinct pattern of chemical modifications of chromatin structural proteins (referred to as the acetylation and methylation of histones) enables a looser chromatin configuration in embryonic stem cells. During the early stages of differentiation, this pattern changes to facilitate chromatin compaction.

But even more interestingly, the authors found that a nuclear lamina protein, lamin A, is also a part of the secret. In all differentiated cell types, lamin A binds compacted domains of chromatin and anchors them to the cells nuclear envelope. Lamin A is absent from embryonic stem cells and this may enable the freer, more dynamic chromatin state in the cell nucleus. The authors believe that chromatin plasticity is tantamount to functional plasticity since chromatin is made up of DNA that includes all genes and codes for all proteins in any living cell. Understanding the mechanisms that regulate chromatin function will enable intelligent manipulations of embryonic stem cells in the future.

"If we can apply this new understanding about the mechanisms that give embryonic stem cells their plasticity, then we can increase or decrease the dynamics of the proteins that bind DNA and thereby increase or decrease the cells differentiation potential," concludes Dr. Meshorer. This could expedite the use of embryonic stem cells in cell therapy and regenerative medicine, by enabling the creation of cells in the laboratory which could be implanted in humans to cure diseases characterized by cell death, such as Alzheimer's, Parkinson's, diabetes and other degenerative diseases.

More information: The research appears in the journal Nature Communications as Melcer et al., Histone modifications and lamin A regulate chromatin protein dynamics in early embryonic stem cell differentiation. go.nature.com/9B33Ue

Journal reference: Nature Communications

Provided by Hebrew University of Jerusalem

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Researchers identify mechanisms that allow embryonic stem cells to become any cell in the human body

LEUVEN, BELGIUM--(Marketwire -07/17/12)- TiGenix (EURONEXT:TIG), the European leader in cell therapy, announced today that after obtaining national reimbursement for ChondroCelect in the Netherlands last month, the company has now contracted with four major hospitals to make its innovative cartilage repair therapy available to their patients on a routine basis: University Medical Center Utrecht, University Hospital Maastricht, Martini Hospital Groningen, and, most recently, the Elisabeth Hospital Tilburg. Discussions with other Cartilage Expert Centers are ongoing. Reimbursement for ChondroCelect in the Netherlands is retroactive per January 1, 2011.

"Our close collaboration with the Dutch hospitals is key to making ChondroCelect available to patients in the Netherlands," said Eduardo Bravo, CEO of TiGenix. "Dutch scientists and clinicians have made important contributions to the development of this innovative cartilage repair therapy. Patients who suffer from cartilage lesions in the knee that cause recurrent pain and can be incapacitating can now be routinely treated and literally find their footing again. We expect to soon expand the number of hospitals in the Netherlands where ChondroCelect is available."

Damage to the articular cartilage in the knee can be caused by sports or professional activities in which the knee is repeatedly and forcefully impacted. It is a condition that predominantly occurs in young adults, who as a result suffer from recurrent pain, locking or limited range of motion, and risk being incapacitated. TiGenix has developed ChondroCelect as a therapy to help patients regain their mobility and fully active lives by effectively repairing the damaged cartilage in the knee.

About ChondroCelect ChondroCelect for cartilage regeneration in the knee is an implantation suspension of characterized viable autologous (from the patient her- or himself) cartilage cells. The product is administered to patients in an autologous chondrocyte implantation procedure known as Characterized Chondrocyte Implantation (CCI), a surgical procedure to treat cartilage defects, in conjunction with debridement (preparation of the defect bed), a physical seal of the lesion (placement of a biological membrane, preferentially a collagen membrane) and rehabilitation.

Cartilage defects of the knee are very common and the spontaneous healing capacity of cartilage is limited. Currently, roughly 2 million cases of articular cartilage defects of the knee are diagnosed worldwide every year. TiGenix estimates that in Europe and the United States around 130,000 patients are eligible for treatment with cartilage regeneration products such as ChondroCelect.

ChondroCelect is the first cell-based product to successfully complete the entire development track from research to clinical development, and was approved by the European Medicines Agency as an Advanced Medicinal Therapy Product in October 2009. ChondroCelect is to date the only EMA approved cartilage repair therapy, and is commercially available in Belgium, the Netherlands, Luxemburg, Germany, the United Kingdom, Finland, and Spain.

About TiGenixTiGenix NV (EURONEXT:TIG) is a leading European cell therapy company with a marketed cell therapy product for cartilage repair, ChondroCelect, and a strong pipeline with clinical stage allogeneic adult stem cell programs for the treatment of autoimmune and inflammatory diseases. TiGenix is based out of Leuven (Belgium) and has operations in Madrid (Spain), and Sittard-Geleen (the Netherlands). For more information please visit http://www.tigenix.com.

Forward-looking informationThis document may contain forward-looking statements and estimates with respect to the anticipated future performance of TiGenix and the market in which it operates. Certain of these statements, forecasts and estimates can be recognized by the use of words such as, without limitation, "believes", "anticipates", "expects", "intends", "plans", "seeks", "estimates", "may", "will" and "continue" and similar expressions. They include all matters that are not historical facts. Such statements, forecasts and estimates are based on various assumptions and assessments of known and unknown risks, uncertainties and other factors, which were deemed reasonable when made but may or may not prove to be correct. Actual events are difficult to predict and may depend upon factors that are beyond TiGenix' control. Therefore, actual results, the financial condition, performance or achievements of TiGenix, or industry results, may turn out to be materially different from any future results, performance or achievements expressed or implied by such statements, forecasts and estimates. Given these uncertainties, no representations are made as to the accuracy or fairness of such forward-looking statements, forecasts and estimates. Furthermore, forward-looking statements, forecasts and estimates only speak as of the date of the publication of this document. TiGenix disclaims any obligation to update any such forward-looking statement, forecast or estimates to reflect any change in TiGenix' expectations with regard thereto, or any change in events, conditions or circumstances on which any such statement, forecast or estimate is based, except to the extent required by Belgian law.

Continued here:
TiGenix Signs Up 4th Major Hospital in the Netherlands for Innovative Cartilage Repair Therapy

Sugarland cosmetic dentist Dr. Jue from A Beautiful Smile at Lake Pointe becomes the first provider of dental stem cell therapy in Fort Bend County through Store-A-Tooth.

Sugarland, TEXAS (PRWEB) July 10, 2012

Sugarland cosmetic dentist Dr. Lance Jue from A Beautiful Smile at Lake Pointe has become the first provider of dental stem cell therapy in Fort Bend County.

Dental stem cell therapy saves stem cells from baby teeth, teeth removed for orthodontic reasons and wisdom teeth to help with future infections, injuries or diseases.

Dr. Jue works with Store-A-Tooth, which provides a Tooth Transport Kit, collects and validates the stems cells that are collected from the tooth. The cells are kept frozen until the day they are needed, at which time they are sent to the patients healthcare provider.

Dental stem cells have been used to treat periodontal disease, diabetes, spinal cord injury, stroke and liver disease. Stem cells are different from other cells because they can transform into many different cell types and divide more than other types of cells.

Dental stem cells are particularly effective because they replicate faster than stem cells take from other body tissues.

The initial cost of the Store-A-Tooth service is one-third to one-half the initial cost of storing umbilical cord blood, another source of stem cells.

A Beautiful Smile at Lake Pointe is the dental practice of Dr. Lance Jue. It has served the Houston area's restorative, cosmetic and general dentistry needs for 19 years. Dr. Jue makes an effort to listen to every patient to give him or her the appropriate treatment.

For the original version on PRWeb visit: http://www.prweb.com/releases/prwebcosmetic-dentistry/a-beautiful-smile/prweb9682301.htm

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Dr. Jue Brings Store-A-Tooth Dental Stem Cell Therapy Service to Sugarland

Tuloy na ang stem cell therapy ni Annabelle Rama dahil naka-schedule na siyang pumunta sa Germany sa first week ng September.

Kasama ni Annabelle sa Germany trip ang kanyang anak na si Ruffa Gutierrez. Hindi ako sure kung may plano rin si Ruffa na magpa-stem cell therapy dahil walang age limit ang procedure na pinag-uusapan na ngayon sa apat na sulok ng showbiz.

Tinutukso si Annabelle Rama na may kinalaman sa kanyang pagkandidato sa Cebu ang desisyon niya na sumailalim sa stem cell therapy.

Tumawa lang si Bisaya na mukhang seryoso na sa pagkandidato bilang kongresista ng North Cebu sa eleksiyon sa susunod na taon.

Binibiro si Bisaya na magpapa-stem cell therapy siya para kundisyon na kundisyon ang katawan niya habang nangangampanya sa North Cebu.

Ayaw kumpirmahin ni Bisaya ang political plans niya. Hintayin na lamang daw ng mga tao ang kanyang bonggang announcement sa October.

Asawa ni Jose nag-iba ng abogado matapos matalo

How true na iba na raw ang lawyers ni Analyn Manalo kaya tumanggi nang magsalita ang kanyang mga dating abogado?

Si Analyn ang kontrobersiyal na dyowa ni Jose Manalo. Ilang buwan nang nasa news ang mag-asawa dahil sa kanilang paghihiwalay.

News noong weekend na natalo si Analyn sa kaso na isinampa niya laban kay Jose.

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Bibiyahe sa Germany kasama si Ruffa, Annabelle magpapakondisyon sa kampanya kaya magpapa-stem cell therapy

MANILA, Philippines Stem cell therapy, aside from being a potential cure for a wide range of illnesses, can also make a patient look and feel younger, a stem cell therapist said.

Dr. Ricardo Quiones, a cosmetic surgeon and dermatologist, has trained to conduct stem cell therapy, which he describes as the future of medicine.

Quiones said stem cell therapy has become popular for its ability to regenerate and heal properties of adult stem cells.

As we grow old, our stem cells dramatically decline. When we were children, we had 80 million stem cells. As we reach the age of 40, our stem cells decline to 35 million, he told Mornings@ANC on Friday.

Quiones explained that the procedure is similar to turning back the clock because it can increase a persons stem cells to 100 million.

Ive done two patients from Zamboanga City. I called them up after the procedure and they told me they look younger. They have the stamina, the vigor and they have felt an increase in short-term memory, powers of attention and concentration, he said.

Quiones also said the procedure has the potential to cure diabetes, heart damage, brain damage such as Parkinsons and Alzheimers, osteoarthritis, stroke, baldness and even sports injuries.

3-hour procedure

Quiones said any patient, except those diagnosed with cancer, can undergo the procedure, which he said will only last for about 3 to 4 hours.

After receiving clearance from a physician and passing medical and laboratory tests, anesthesia will be administered to a patient before stem cells are harvested.

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Stem cell therapy 'turns back clock'

SHENZHEN, China, July 3, 2012 /PRNewswire-Asia/-- A study conducted by Beike Biotechnology Company (http://www.beikebiotech.com) in conjunction with physicians and researchers at two Chinese hospitals, documents the effectiveness of cord blood-derived stem cells in treating primary biliary cirrhosis (PBC). The study, which was published in the April 2012 issue of the Stem Cell Discovery, was the first of its kind. Researchers noted that additional clinical trials would be required before stem cells can become an accepted therapy for liver cirrhosis.

Prof. Jin-hui Yang, Director of the Department of Hepatology in the 2nd Affiliated Hospital of Kunming Medical College stated, "Given the severity of liver cirrhosis and its related conditions, and the limited number of options available to treat those who suffer from it, this finding represents an important, potentially significant breakthrough."

PBC is a chronic, progressive liver disease that leads eventually to fibrosis and cirrhosis of the liver. It affects 1 in 1,000 women over the age of 40.Approximately one-third of those who suffer from PBC and its related conditions do not respond well to Ursodeoxycholic acid (UDCA) treatment, which is the only currently FDA-approved standard medical treatment for the condition. Many of those patients ultimately require liver transplantation.

Beike Chairman, Dr. Sean Hu, commented, "With a growing body of research that demonstrates the effectiveness of cord blood-derived stem cell therapies in treating a broad range of chronic conditions, this latest study is a milestone in the continuing effort to gain broad acceptance and recognition of regenerative medicine as a mainstream treatment option.We look forward to conducting more comprehensive clinical trials to attempt to validate the positive outcomes we have already observed."

The case study reported in the Stem Cell Discovery involved a 58 year old woman suffering from PBC who developed an incarcerated hernia and uncontrolled hydrothorax after undergoing UDCA treatment.One week after completing two stem cell transplantations with no observed adverse effects, the patient showed improvement in both liver function and in her general condition. She was released from the hospital but continued to receive twice-daily UDCA treatments. Six months after her discharge, doctors observed continued improvements in her liver function and overall condition.

To review the full text of the published study, please visit: http://www.scirp.org/journal/PaperInformation.aspx?paperID=18710. Study authors included physicians and researchers from the 2nd Affiliated Hospital of Kunming Medical College, Beike Biotechnology Company, and the Yunnan Provincial 1st People's Hospital in Kunming, China.

About Beike Biotechnology Company

Shenzhen Beike Biotechnology Co., Ltd. is China's leading biotechnology company focusing on the production of adult stem cells for use in medical therapies. Headquartered in Shenzhen (near Hong Kong) with a flagship regenerative medicine facility at the China Medical City in Jiangsu province, Beike produces a full line of stem cell products derived from umbilical cord, cord blood and autologous bone marrow.

For any questions regarding this release, please call:

Contact Person: T. Gutmann Phone Number: +86-532-6677-6659

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Stem Cell Therapy Shown to be Effective in Treating Liver Cirrhosis

02-07-2012 09:43 State of the Nation is a nightly newscast anchored by award-winning broadcast journalist, Jessica Soho. It airs Mondays to Fridays at 9:00 PM (PHL Time) on GMA News TV Channel 11. For more videos from State of the Nation, visit fthenation.

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SONA: Stem cell therapy, kaya raw makapagpabata ng pangangatawan - Video

28-06-2012 14:46

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Stem Cell Therapy | Producers Direct | Kansas City, Missouri - Video

Optimal stem cell therapy delivery to damaged areas of the heart after myocardial infarction has been hampered by inefficient homing of cells to the damaged site. However, using rat models, researchers in France have used a magnet to guide cells loaded with iron oxide nanoparticles to key sites, enhancing the myocardial retention of intravascularly delivered endothelial progenitor cells.

The study is published in a recent issue of Cell Transplantation (21:4), now freely available online.

"Cell therapy is a promising approach to myocardial regeneration and neovascularization, but currently suffers from the inefficient homing of cells after intracavitary infusion," said Dr. Philippe Menasche of the INSERM U633 Laboratory of Surgical Research in Paris. "Our study was aimed at improving and controlling homing by loading human cord-blood-derived endothelial progenitor cells (EPCs) for transplant with iron oxide nanoparticles in order to better position and retain them in the hearts of myocardial-injured test rats by using a subcutaneously implanted magnet."

The researchers found that the cells were sufficiently magnetic to be able to be remotely manipulated by a magnet subsequent to implantation.

According to the researchers, an objective assessment of the technique to enhance the homing of circulating stem cells is the ability to track their fate in vivo. This was accomplished by visualization with MRI.

"We found a good correlation between MRI non-invasive follow-up of the injected cells and immunofluoresence or quantitative PCR data," said Dr. Menasche. The researchers concluded that further studies were needed to follow cell homing at later time points. They noted that the magnitude of homing they experienced may have been reduced by the relatively small number of cells used, owing to their large size and the subsequent risk of coronary thrombosis.

"In a rat model of myocardial infarction, this pilot study suggested homing of circulating stem cells can be improved by magnetic targeting and warrants additional benchwork to confirm the validity of concept," said Dr. Menasche. "There is also a need to optimize the parameters of targeting and assess the relevance of this approach in a clinically relevant large animal model."

"This study highlights the use of magnets to target transplanted cells to specific sites which could increase their regenerative impact. Factors to still be extensively tested include confirming the safety of the cells containing the magnetic particles and whether this process alters the cell's abilities" said Dr. Amit N. Patel, director of cardiovascular regenerative medicine at the University of Utah and section editor for Cell Transplantation.

More information: Chaudeurge, A.; Wilhelm, C.; Chen-Tournoux, A.; Farahmand, P.; Bellamy, V.; Autret, G.; Mnager, C.; Hagge, A.; Larghro, J.; Gazeau, F.; Clment, O.; Menasch, P. Can Magnetic Targeting of Magnetically Labeled Circulating Cells Optimize Intramyocardial Cell Retention? Cell Transplant. 21 (4):679-691; 2012.

Journal reference: Cell Transplantation

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Magnet helps target transplanted iron-loaded cells to key areas of heart

COLORADO SPRINGS, Colo.--(BUSINESS WIRE)--

HemoGenix announced today that FDA CBER has given HemoGenix its first Master File Number for an in vitro blood stem cell potency, quality and release assay (HALO-96 PQR) (1)for cellular therapy products(2)used for stem cell transplantation purposes. HALO-96 PQR is the first commercially available stem cell potency assay for cellular therapy products. It incorporates the most sensitive readout available to measure changes in the cells energy source (ATP) as a function of the potential for stem cells to proliferate. Potency and quality of stem cell therapeutic products are required to be measured prior to use to help predict the engraftment of the cells in the patient. At the present time, tests such as cell number, viability and a stem cell marker called CD34 are routinely used. However, none of these tests specifically measure stem cells and none determine the stem cell biological activity required for a potency assay. The only cell functionality test presently used in this field, especially for umbilical cord blood transplantation, is the colony-forming unit (CFU) assay, which is subjective, non-validated and has been used since the early 1970s. HALO-96 PQR changes this paradigm. It is particularly needed in the umbilical cord blood stem cell transplantation field by providing an application-specific test incorporating all of the compliance characteristics required not only by regulatory agencies(3) and standards organizations, but also the cord blood community(4).

Stem cell potency is one of the most important parameters necessary for any therapeutic product, especially stem cells. Without it, the dose cannot be defined and the transplantation physician has no indication as to whether the product will engraft in the patient. The number of cord blood units collected and stored and the number of cord blood stem cell transplantations have increased exponentially over the last 12 years. During this time, significant advancements have been made in pre- and post stem cell transplantation procedures. Yet the tests used during the preparation and processing of the cells have remained unchanged and do not even measure the biological functionality of the stem cells being transplanted. Indeed, the standards organizations responsible for applying regulatory guidance to the community have so far failed to allow any new and alternative assays to be used during cord blood processing. HALO-96 PQR is the first test that actually quantitatively characterizes and defines the stem cells in cord blood, mobilized peripheral blood or bone marrow as high quality and potent active ingredients for release prior to transplantation. Presently, approximately 20% engraftment failure is encountered in cord blood transplantation. HALO-96 PQR could help reduce the risk of engraftment failure by providing valuable and time-sensitive information on the stem cells prior to use. HALO-96 PQR complies with the guidelines not only with the cord blood community, but also with regulatory agencies thereby providing a benefit to both the stem cell transplantation center and the patient, said Ivan Rich, Founder and CEO of HemoGenix (www.hemogenix.com).

About HemoGenix, Inc.

HemoGenix is a privately held Contract Research Service and Assay Development Laboratory based in Colorado Springs, Colorado. Specializing in predictive in vitro stem cell toxicity testing, HemoGenix provides its services to small, medium and many of the largest biopharmaceutical companies. HemoGenix has developed several assays for stem cell therapy and regenerative medicine applications. These and other patented and proprietary assays are manufactured and produced in Colorado Springs and sold worldwide. HemoGenix has been responsible for changing the paradigm and bringing in vitro stem cell hemotoxicity testing into the 21st century. With HALO-96 PQR the company is now also changing the paradigm to become a leader in stem cell therapy assays. To this end, HemoGenix is a member of the Alliance for Regenerative Medicine and working with other companies to decrease risk and improve safety for the patient.

Literature Cited

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HemoGenix® FDA Master File to Measure Blood Stem Cell Potency for Cellular Therapy Products:

NEW YORK, June 25, 2012 (GLOBE NEWSWIRE) -- NeoStem, Inc. (NYSE MKT:NBS) ("NeoStem" or the "Company"), a cell therapy company, today announced that it has been awarded a two year grant totaling $595,252 for the "Development of Human, Autologous, Pluripotent Very Small Embryonic Like (VSELs) Stem Cells as a Countermeasure to Radiation Threat" from the National Institute of Allergy and Infectious Diseases (NIAID), a division of the National Institutes of Health (NIH). This peer reviewed grant was awarded to support research to be headed by Denis O. Rodgerson, Ph.D., Director of Stem Cell Science for NeoStem and Mariusz Ratajczak, M.D., Ph.D., who is the head of the Stem Cell Biology Program at the James Graham Brown Cancer Center at the University of Louisville and co-inventor of VSELTM Technology.

This award will fund studies to investigate the potential of very small embryonic-like stem cells as a countermeasure to radiological and nuclear threat. The product candidate, which is an autologous stem cell therapy derived from the patient's own stem cells, will be developed to rescue patients who have been exposed to radiation due to nuclear accident or terrorist threat and to treat cancer patients who have undergone radiation therapy and who consequently have compromised immune systems. The award includes $295,252 for the first year and $300,000 for the second year of the project.

Dr. Denis O. Rodgerson, Director of Stem Cell Science for NeoStem, said, "We are very excited to add radiation treatment to the growing list of indications for which our VSELTM Technology is being evaluated. Those exposed to acute high-dose radiation have compromised immune systems such that the virulence and infectivity of biological agents is dramatically increased. Death can occur within 1-6 weeks following radiation exposure. Currently there is only one intervention that saves a fatally irradiated person -- a rescue through stem cell transplantation. VSELs might be an ideal cell therapy to regenerate the body's immune system and repair other tissues damaged by radiation exposure. Most importantly, early studies show VSELs are resistant to lethal radiation which destroys other immune system restoring stem cells in the body, making autologous treatment post-exposure possible."

Dr. Robin L. Smith, Chairman and CEO of NeoStem, added, "NeoStem is pleased that the NIAID is funding this cutting edge technology that we hope will reinvent the treatment landscape for acute radiation syndrome. We plan to continue to pursue NIH SBIR grants to fund our VSEL technology platform development with non-dilutive capital."

About VSELTM Technology

NeoStem has a worldwide exclusive license to VSELTM Technology. Research by Dr. Mariusz Ratajczak, M.D., Ph.D., and others at the University of Louisville provides compelling evidence that bone marrow contains a heterogeneous population of stem cells that have properties similar to those of an embryonic stem cell. These cells are referred to as very small embryonic-like stem cells. This finding opens the possibility of capturing some of the key advantages associated with embryonic stem cells without the ethical or moral dilemmas and without some of the potential negative biological effects associated with stem cells of embryonic derivation. The possibility of autologous VSEL treatments is yet another important potential benefit to this unique population of adult stem cells. VSELTM Technology offers the potential to go beyond the paracrine effect, yielding cells that actually differentiate into the target tissue creating true cellular regeneration.

About NeoStem, Inc.

NeoStem, Inc. ("we," "NeoStem" or the "Company") continues to develop and build on its core capabilities in cell therapy to capitalize on the paradigm shift that we see occurring in medicine. In particular, we anticipate that cell therapy will have a large role in the fight against chronic disease and in lessening the economic burden that these diseases pose to modern society. Our January 2011 acquisition of Progenitor Cell Therapy, LLC ("PCT") provides NeoStem with a foundation in both manufacturing and regulatory affairs expertise. We believe this expertise, coupled with our existing research capabilities and collaborations, will allow us to achieve our mission of becoming a premier cell therapy company. Our PCT subsidiary's manufacturing base is one of the few current Good Manufacturing Practices ("cGMP") facilities available for contracting in the burgeoning cell therapy industry. Amorcyte, LLC ("Amorcyte"), which we acquired in October 2011, is developing a cell therapy for the treatment of cardiovascular disease. Amorcyte's lead compound, AMR-001, represents NeoStem's most clinically advanced therapeutic and Amorcyte is enrolling patients for a Phase 2 trial to investigate AMR-001's efficacy in preserving heart function after a heart attack. We also expect to begin a Phase 1 clinical trial by 2012/2013 to investigate AMR-001's utility in arresting the progression of congestive heart failure and the associated comorbidities of that disease. Athelos Corporation ("Athelos"), which is approximately 80%-owned by our subsidiary, PCT, is engaged in collaboration with Becton-Dickinson that is exploring the earlier stage clinical development of a T-cell therapy for autoimmune conditions. In addition, our pre-clinical assets include our VSELTM Technology platform as well as our MSC (mesenchymal stem cells) product candidate for regenerative medicine.

For more information on NeoStem, please visit http://www.neostem.com.

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NeoStem Awarded NIAID Research Grant for the Development of VSEL Technology for Radiation Exposure

Stem cell therapy has gone to the dogs. The technology aimed at giving ailing pets a new lease on life has arrived in Hawaii.

13-year-old Kumba is still a bit dazed, coming out of general anesthesia. The veterinarian at Surf Paws Animal Hospital just extracted about two tablespoons of fat tissue from the dog. Stem cells from that fat tissue will then be used to help him with his arthritis.

"Once we get the stem cells then we do some extra processing steps to wake them up so that they're very active. At the end of that, the veterinarian will inject the stem cells into the areas of damage," says Carol Spangler Vaughn of Medivet America.

A company called MediVet America is bringing the technology to animal hospitals in Hawaii. This is a first for Oahu. The company says the procedure works on other animals with different types of ailments.

"So the nice thing about this we're not gonna give you a puppy back but we'll give you some nice quality time with your animal. You won't have to put them down because of their arthritis," Vaughn said.

Kumba's arthritis had gotten worse in the past five years, and his owners were wondering whether it was best to end his life to stop him from suffering.

'When we start saying things like oh we don't know how much longer, poor Kumba, he must be in a lot of pain. That kind of stuff really hits home especially since he's been with us for so long," said Rumi Hospodar Kumba's owner.

But with this new procedure, they're counting on Kumba to be pain free in a few weeks and are looking forward to get backdoing some of the things Kumba enjoyed, like swimming.

"He can't do that now since his joints are so bad, and he's getting so old so that's one of the many things I'm looking forward to," Kelsea Hopsodar, his other owner said.

The cost of the procedure runs from 24 to 28 hundred dollars, and it's covered by most pet insurance policies.

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Stem cell therapy gives dog new lease on life