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Category Archives: Cell Therapy
Q&A – Stem cells could offer treatment for a myriad of diseases
Posted: January 29, 2014 at 1:40 am
Q&A - Stem cells could offer treatment for a myriad of diseases
Tuesday, January 28, 2014
Q.What are stem cells?
Stem cells are different however as they are at an earlier stage in cell development and this means they can make more cells and transform into different cell types such as a skin stem cell can make all the different types of skin cells.
Q. And there are two types? A.Yes. There are two types of stem cells: embryonic stem cells and adult stem cells. Embryonic stem cells can generate all cells of the human body. Adult stem calls generate a more limited number of human cell types.
Q.Why are stem cells so important? A.For many years, adult stem cells have been used to treat rare blood and certain cancers.
However, adult stem cells cant generate all cell types. For example, scientists say there doesnt appear to be an adult stem cell that can make insulin- secreting cells of the pancreas. Embryonic stem cells can, however, as they can generate all cell types and the aim of scientists is to use these embryonic cells to generate healthy tissue to replace cells compromised by disease. This means that embryonic cells are more scientifically useful.
Q. And its also embryonic cells that are the more controversial, right? A.The use of embryonic stem cells is controversial here and in other countries as certain groups believe it is morally wrong to experiment on an embryo that could become a human. Embryonic stem cells are taken from embryos left over after assisted fertility treatments. According to the Irish Stem Cell Foundation, if they werent used for research into human disease, they would be discarded as medical waste. Embryos are not created purely for research purposes they say.
Q. Why are they so useful? A. Among the conditions which scientists believe may eventually be treated by stem cell therapy are Parkinsons disease, Alzheimers disease, heart disease, stroke, arthritis, diabetes, burns and spinal cord damage. Early trials are under way for treating forms of blindness. It is also hoped we can learn from embryonic stem cells how early body tissues develops and more about the pathway of diseases. This will enable us to make better and more effective drugs.
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Q&A - Stem cells could offer treatment for a myriad of diseases
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Stem-cell therapy restores faith for arthritic pets
Posted: January 26, 2014 at 12:41 pm
ELLSWORTH Visitors to the Bellaire pet crisis center With a Little help From My Friends get an official welcome from Moka.
The Labrador retriever was found behind a Bellaire restaurant in 2011 and now serves as the centers mascot.
Peforming her duties has been increasingly difficult for the dog, who suffers from severe arthritis in her hips. So recently the center turned to Ellsworth veterinarian Christian Randall of North Country Veterinary Services, the first in northern Michigan to offer in-clinic adipose stem cell therapy.
The procedure uses a pets own blood and tissue to produce plasma-rich platelets and stem cells that proliferate growth in damaged areas.
Dormant stem cells are separated from adipose -- fat tissue -- and activated with an LED technology that uses three different wave lengths of light. Then the cells are injected directly into the affected area or administered intravenously to help promote regeneration. The result is a decrease in pain and lameness and increased range of motion.
Its using the bodys own repair cells to repair damage, said Trey Smith, director of laboratory services for MediVet America, which developed the technology Randall uses.
The therapy is the first treatment to help heal and slow the progression of osteoarthritis and degenerative joint disease rather than just cope with the symptoms, said Randall, who saw the results while studying at Virginia Equine Imaging and now plans to use it on equine as well as canine and feline patients.
It concentrates, speeds up and amplifies the bodys own healing power, he said.
Stem cell therapy has been around for a while, but in-clinic availability of the technology is new. Only a handful of veterinarians in Ann Arbor and Grand Rapids offer the services, said Randall, who charges $1,800 to treat a dog or cat. Repeat injections are possible with banked plasma-rich platelets and stem cells.
Before the one-day procedure, veterinarians had to send blood and tissue to an outside lab for processing, a more costly three-day procedure that requires an animal's return visit to the vet for injection.
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Stem-cell therapy restores faith for arthritic pets
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Abandoned dog receives historic stem cell therapy – Video
Posted: January 25, 2014 at 11:46 pm
Abandoned dog receives historic stem cell therapy
Veterinarians across the country now have a way to improve the lives of their patients by using a tool to combat osteoarthritis. On Thursday, one dog made hi...
By: UpNorthLive
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Abandoned dog receives historic stem cell therapy - Video
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Insulin-producing beta cells from stem cells
Posted: January 24, 2014 at 4:41 pm
Jan. 23, 2014 The Wnt/-catenin signaling pathway and microRNA 335 are instrumental in helping form differentiated progenitor cells from stem cells. These are organized in germ layers and are thus the origin of different tissue types, including the pancreas and its insulin-producing beta cells. With these findings, Helmholtz Zentrum Mnchen scientists have discovered key molecular functions of stem cell differentiation which could be used for beta cell replacement therapy in diabetes. The results of the two studies were published in the journal Development.
The findings of the scientists of the Institute of Diabetes and Regeneration Research (IDR) at Helmholtz Zentrum Mnchen (HMGU) provide new insights into the molecular regulation of stem cell differentiation. These results reveal important target structures for regenerative therapy approaches to chronic diseases such as diabetes.
During embryonic development, organ-specific cell types are formed from pluripotent stem cells, which can differentiate into all cell types of the human body. The pluripotent cells of the embryo organize themselves at an early stage in germ layers: the endoderm, mesoderm and ectoderm. From these three cell populations different functional tissue cells arise, such as skin cells, muscle cells, and specific organ cells.
Various signaling pathways are important for this germ layer organization, including the Wnt/-catenin signaling pathway. The cells of the pancreas, such as the beta cells, originate from the endoderm, the germ layer from which the gastrointestinal tract, the liver and the lungs also arise. Professor Heiko Lickert, director of the IDR, in collaboration with Professor Gunnar Schotta of LMU Mnchen, showed that the Wnt/-catenin signaling pathway regulates Sox17, which in turn regulates molecular programs that assign pluripotent cells to the endoderm, thus inducing an initial differentiation of the stem cells. In another project Professor Lickert and his colleague Professor Fabian Theis, director of the Institute of Computational Biology (ICB) at Helmholtz Zentrum Mnchen, discovered an additional mechanism that influences the progenitor cells. miRNA-335, a messenger nucleic acid, regulates the endodermal transcription factors Sox17 and Foxa2 and is essential for the differentiation of cells within this germ layer and their demarcation from the adjacent mesoderm. The concentrations of the transcription factors determine here whether these cells develop into lung, liver or pancreas cells. To achieve these results, the scientists combined their expertise in experimental research with mathematical modeling.
"Our findings represent two key processes of stem cell differentiation," said Lickert. "With an improved understanding of cell formation we can succeed in generating functional specialized cells from stem cells. These could be used for a variety of therapeutic approaches. In diabetes, we may be able to replace the defective beta cells, but regenerative medicine also offers new therapeutic options for other organ defects and diseases."
Diabetes is characterized by a dysfunction of the insulin-producing beta cells of the pancreas. Regenerative treatment approaches aim to renew or replace these cells. An EU-funded research project ('HumEn'), in which Lickert and his team are participating, shall provide further insights in the field of beta-cell replacement therapy.
The aim of research at Helmholtz Zentrum Mnchen, a partner in the German Center for Diabetes Research (DZD), is to develop new approaches for the diagnosis, treatment and prevention of major common diseases such as diabetes mellitus.
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Insulin-producing beta cells from stem cells
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Happy Valley Animal Hospital of Arizona Pet Vet Helps a Local Pet Start the New Year with the Resolution; Play More
Posted: January 24, 2014 at 4:41 pm
Glendale, Arizona (PRWEB) January 24, 2014
Floppy, a nine year old Dachshund, struggled to get up from a laying position before his recent stem cell therapy at Happy Valley Animal Hospital. The pain from arthritis was so bad he was reluctant to move much at all, even when encouraged by his family. This holiday season Floppys owners gifted him with quality of life. Now hes bringing in the New Year with less pain and more ability to run and play again.
Floppy had been suffering from osteoarthritis in his hips and knees long enough that it was affecting other joints in his hind end. He had difficulty getting up after sitting, limped, and exhibited stiffness. Happy Valley Animal Hospitals Dr. Victor Saltzman determined Floppy was a great candidate for stem cell therapy using Vet-Stem services, and in early December scheduled Floppy for a small fat tissue collection to start the process. Floppys fat was overnighted to Vet-Stems lab in San Diego, California where it was processed into injectable doses of Floppys own stem cells. In 48 hours Dr. Saltzman received the doses back and had started Floppy on his way to recovery.
We are extremely pleased with the results. The level of pain and stiffness has decreased dramatically. Its almost like hes a puppy again! There is a night and day difference in his ability to move around and perform everyday tasks. He will occasionally get sore after a long day of activity, but its 1000% better than before his stem cell therapy, the Sobols.
Just two weeks after the stem cell injections Dr. Saltzman and the team at Happy Valley Animal Hospital received a video of Floppy running happily around the backyard, enjoying his recovered range of motion and obvious lack of pain. Although results can vary, the first peer reviewed double-blinded multicenter study for adipose-derived (fat originating) stem cell therapy use in osteoarthritis of the hip in dogs showed positive results for lameness, pain, and range of motion. Similar results have been obtained for elbows and stifles in dogs, of which stifles were a secondary area of arthritis and pain for Floppy.
Stem cells decrease pain and inflammation. Stem cells are multi-potent and can differentiate into tendon, ligament, bone, cartilage, and other tissue. The hope is that Floppys stem cells will also regenerate tissues in the joints that are causing him pain.
Vet-Stem, Inc. was formed in 2002 to bring regenerative medicine to the veterinary profession. The privately held company is working to develop therapies in veterinary medicine that apply regenerative technologies while utilizing the natural healing properties inherent in all animals. As the first company in the United States to provide an adipose-derived stem cell service to veterinarians for their patients, Vet-Stem, Inc. pioneered the use of regenerative stem cells in veterinary medicine. For more on Vet-Stem, Inc. and Veterinary Regenerative Medicine visit http://www.vet-stem.com.
About Happy Valley Animal Hospital The goal of the team at Happy Valley Animal Hospital is to provide compassionate, preventive, and top quality medical and surgical veterinary care. With the most up-to-date equipment, the team at Happy Valley Animal Hospital can provide clients and their pets in the local community with the best healthcare and service possible. By offering and maintaining these goals, the team at Happy Valley Animal Hospital hopes to enhance the lives of their clients by allowing their pets to live long, happy lives. As a team, Happy Valley Animal Hospital always considers the client perspective and tries to put themselves in their shoes or paws.
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Happy Valley Animal Hospital of Arizona Pet Vet Helps a Local Pet Start the New Year with the Resolution; Play More
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stem cell therapy treatment for Right Hemiparesis Cerebral Palsy by dr alok sharma, mumbai, india – Video
Posted: January 23, 2014 at 9:44 am
stem cell therapy treatment for Right Hemiparesis Cerebral Palsy by dr alok sharma, mumbai, india
improvement seen in just 5 days after stem cell therapy treatment for Right Hemiparesis Cerebral Palsy by dr alok sharma, mumbai, india. Stem Cell Therapy do...
By: Neurogen Brain and Spine Institute
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stem cell therapy treatment for Right Hemiparesis Cerebral Palsy by dr alok sharma, mumbai, india - Video
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Number of cancer stem cells might not predict outcome in HPV-related oral cancers
Posted: January 23, 2014 at 9:44 am
PUBLIC RELEASE DATE:
22-Jan-2014
Contact: Amanda J. Harper amanda.harper2@osumc.edu 614-685-5420 Ohio State University Wexner Medical Center
COLUMBUS, Ohio New research from The Ohio State University Comprehensive Cancer Center Arthur G. James Cancer Hospital and Richard J. Solove Research Institute (OSUCCC James) suggests that it may be the quality of cancer stem cells rather than their quantity that leads to better survival in certain patients with oral cancer.
The researchers investigated cancer stem cell numbers in oral cancers associated with human papillomavirus (HPV) and in oral cancers not associated with the virus. Typically, patients with HPV-positive oral cancer respond better to therapy and have a more promising prognosis than patients with HPV-negative tumors. The latter are usually associated with tobacco and alcohol use.
The OSUCCC James team's findings, published in the journal Cancer, suggest that relying on the number of cancer stem cells in a tumor might inaccurately estimate the potential for the tumor's recurrence or progression.
"We show that high levels of cancer stem cells are not necessarily associated with a worse prognosis in head and neck cancer, a finding that could have far-reaching implications for patient care," says principal investigator Quintin Pan, PhD, associate professor of otolaryngology and scientist with the OSUCCC James Experimental Therapeutics Program.
Head and neck cancer is the sixth most common cancer worldwide, with an estimated 600,000 cases diagnosed annually. Although the disease is often linked to alcohol and tobacco use, cancer-causing types of HPV are a major risk factor for the malignancy, and cases of HPV-associated oral cancers have tripled in the past 30 years.
Cancer stem cells make up only a small percent of the malignant cells within a tumor. When these cells divide, they can produce either more cancer stem cells or the nondividing malignant cells that constitute the bulk of a tumor.
Research has shown that cancer stem cells are highly resistant to chemotherapy and radiation and those cancer stem cells that survive treatment cause tumor recurrence. For these reasons, it is thought that tumors with high numbers of cancer stem cells are more likely to recur.
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Number of cancer stem cells might not predict outcome in HPV-related oral cancers
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Dr. Burton Feinerman Shares Experiences from Celebrity Care to Modern Medicine
Posted: January 22, 2014 at 9:41 am
TAMPA, Fla. (PRWEB) January 22, 2014
Societys continual, obsessive search for perpetual youth has lead many on a tumultuous path of medical mayhem from shots to creams and a variety of procedures in between.
A leader in modern medicine, Dr. Burton Feinerman has always been at the forefront of new and life changing procedures in the healthcare community. Feinerman's experience includes his time as a key research associate at the Papanicolau Cancer Research Institute in Miami.
His career took a glamorous turn when he became a concierge physician to the stars at his office in Maui, Hawaii. He has treated a variety of high-profile clientele including celebrities Eddie Murphy, Larry David, Pink, Brittney Spears, Nick Nolte, Christian Slater, Arnold Schwarzenegger and Oprah, who once thanked him with an autographed magazine for the shot in the tush.
Staying true to his mission to find relief for those afflicted with incurable diseases, Feinerman soon focused his efforts on the innovative and unfamiliar world of cell regeneration and gene therapy. As one of the original physician scientists to create stem cell protocols for incurable diseases, Feinerman now runs his clinic in Tampa, Fla. where he treats patients with conditions such as Alzheimers, ALS, Autism, brain damage, Cerebral Palsy, Multiple Sclerosis, Spinal Cord Injury, Parkinsonism, Heart Disease, COPD, diabetes, Chronic Kidney Disease, Pulmonary Fibrosis, Tay Sachs, Sandhoff Disease, Stargardt Disease, Huntington Disease, Scleroderma, Lupus, Rheumatoid Arthritis, Crohns Disease, cancer of all types, Macular Degeneration and Retinitis Pigmentosa.
The emerging developments in stem cell therapy, gene therapy, nanotechnology and tissue engineering offer new hope to millions of patients, said Feinerman.
Stem Cells and Sex Wars By: Dr. Burton Feinerman ISBN: 978-1481774789 Available at Amazon, Barnes and Noble and Authorhouse online bookstores.
About the authors A graduate of New York Medical College, Dr. Burton Feinerman also received extensive postgraduate training from Long Island College Hospital and the Mayo Clinic. He served as chief medicine for the U.S. Army, as part of the 98th General Hospital in Germany as well as chairman of medicine at Miami General Hospital, Opa-Locka Hospital, N. Miami General Hospital and chairman of cancer technologies Kids Medical Centers of America. Active in many industry organizations, Feinerman is a member of the Society of Apheresis, the Society of Bone Marrow Blood Transplantation, the International Society for Cellular Therapy, the Society for Cranial Transplantation and Brain Repair, and the Society for Cardiac Translational Therapy. With over 55 years of experience in medical practice, he is currently the president and CEO of Stem Cell Regen Med.
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Dr. Burton Feinerman Shares Experiences from Celebrity Care to Modern Medicine
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New tool assists stem cell therapy
Posted: January 15, 2014 at 9:40 am
Published:Tuesday, January 14, 2014
Updated:Tuesday, January 14, 2014 18:01
A new tool that could help facilitate future stem cell therapy has recently been identified by a UVM professor and his colleagues, according to UVMs College of Medicine.
The development of this tool could potentially help more than 700,000 Americans who suffer a heart attack each year.
Because stem cells have the potential to develop into a variety of cell types in the body, they may offer a renewable source of replacement cells to treat diseases, conditions and disabilities, and even regenerate damaged tissue and organs.
However, the field of regenerative medicine has struggled to successfully graft cells from culture back into injured tissue.
UVM Associate Professor of Medicine Jeffrey Spees, Ph.D., collaborated with the Center for Gene Therapy at Tulane University. His research team recently set out to develop ways to enhance graft success.
Dr. Spees and his team focused on a type of bone marrow-derived progenitor cell or biological cell that forms stromal cells or connective tissue cells.
They found that the medium contained Connective Tissue Growth Factor (CTGF) and the hormone insulin, and together, they have a synergistic effect, Spees said to UVMs College of Medicine.
The group found that the protective ligands resulted in improved graft success, breaking the record for engraftment.
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Study identifies population of stem-like cells where HIV persists in spite of treatment
Posted: January 12, 2014 at 9:45 pm
PUBLIC RELEASE DATE:
12-Jan-2014
Contact: Sarah Dionne Sullivan ssullivan38@partners.org 617-726-6126 Massachusetts General Hospital
Although antiviral therapy against HIV suppresses viral replication and allows infected individuals to live relatively healthy lives for many years, the virus persists in the body, and replication resumes if treatment is interrupted. Now investigators from Massachusetts General Hospital (MGH) and the Ragon Institute of MGH, MIT and Harvard may have found where the virus hides - in a small group of recently identified T cells with stem-cell-like properties.
"Most human cells are short lived, so it has been unclear how HIV manages to stick around for decades in spite of very effective antiviral treatment," says Mathias Lichterfeld, MD, of the MGH Infectious Disease Division, corresponding author of the report receiving advance online publication in Nature Medicine. "This question led to the hypothesis that HIV might infect stem cells - the most long-lasting cells in the body - but traditional organ-specific stem cells, even those that give rise to all immune and blood cells, are resistant to HIV infection. We have discovered that a new group of T cells, called T memory stem cells, are susceptible to HIV and likely represent the longest lasting cellular niche for the virus."
HIV has such a devastating impact on the human immune system because it infects the CD4-positive T cells that normally direct and support the infection-fighting activities of other immune cells. Several subtypes of CD4 T cells have different functions; and all are capable of being infected by HIV, although antiviral treatment keeps the virus in those cells from replicating. Most of these CD4 T cells are short-lived and die relatively soon. What is distinct about CD4 T memory stem cells is their ability to live for decades, while giving rise to several subgroups of T cells. Therefore, HIV-infected T memory stem cells could continuously regenerate new HIV-infected cells, fueling the fire of HIV persistence in the human body.
The MGH/Ragon team found that T memory stem cells express both CD4 and CCR5 - the receptor proteins used by HIV to enter cells - suggesting that these long-lived cells could be the long-sought HIV reservoir. They then found that these cells can be readily infected with HIV, which was unexpected since traditional stem cells resist HIV infection. Importantly, the investigators found that levels of HIV DNA in patients receiving long-term antiviral treatment were highest in T memory stem cells.
Testing blood samples that had been taken from patients soon after initial infection and several years later revealed that the viral sequences found in T memory stem cells after 6 to 10 years of treatment were similar to those found in circulating T cells soon after infection, indicating that HIV had persisted relatively unchanged in T memory stem cells. In addition, the amount of HIV DNA in these cells remained relatively stable over time, even after long-term treatment caused viral levels to drop in other T cell subsets.
"Our findings suggest that novel, specific interventions will have to be designed to target HIV-infected T memory stem cells," says Lichterfeld, an assistant professor of Medicine at Harvard Medical School. "Methods of inhibiting stem cell pathways are being studied to eliminate cancer stem cells - persistent cells that are responsible for tumor recurrence after conventional treatments kill proliferating tumor cells. We are now investigating whether any of the drugs that target cancer stem cells might be effective against HIV-infected T memory stem cells.
"Identifying the reservoirs for HIV persistence is a critical step toward developing interventions that could induce a long-term remission without the need for antiviral medication, or possibly eliminate the virus entirely," Lichterfeld adds. "Although a real cure for HIV has been elusive, it is not impossible."
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Study identifies population of stem-like cells where HIV persists in spite of treatment
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