Archive for the ‘Bone Marrow Stem Cells’ Category

Jan. 31, 2013 New research has shown the presence of a disease affecting small blood vessels, known as microangiopathy, in the bone marrow of diabetic patients. While it is well known that microangiopathy is the cause of renal damage, blindness and heart attacks in patients with diabetes, this is the first time that a reduction of the smallest blood vessels has been shown in bone marrow, the tissue contained inside the bones and the main source of stem cells.

These precious cells not only replace old blood cells but also exert an important reparative function after acute injuries and heart attacks. The starvation of bone marrow as a consequence of microangiopathy can lead to a less efficient healing in diabetic patients. Also, stem cells from a patient's bone marrow are the most used in regenerative medicine trials to mend hearts damaged by heart attacks. Results from this study highlight an important deficit in stem cells and supporting microenvironment that can reduce stem cells' therapeutic potential in diabetic patients.

The research team, led by Professor Paolo Madeddu, Chair of Experimental Cardiovascular Medicine in the School of Clinical Sciences and Bristol Heart Institute at the University of Bristol, investigated the effect of diabetes on bone marrow stem cells and the nurturing of small blood vessels in humans.

The new study, published in the American Heart Association journal Circulation Research, was funded by the British Heart Foundation (BHF).

The researchers have shown a profound remodelling of the marrow, which shows shortage of stem cells and surrounding vessels mainly replaced by fat, especially in patients with a critical lack of blood supply to a tissue (ischaemia). This means that, as peripheral vascular complications progress, more damage occurs in the marrow. In a vicious cycle, depletion of bone marrow stem cells worsens the consequences of peripheral ischaemia.

Investigation of underpinning mechanisms revealed that exposure of bone marrow stem cells to the high glucose level typical of diabetes mellitus impacts on "microRNAs," which are tiny RNA molecules controlling gene expression and hence biological functions. In particular, microRNA-155, that normally controls the production of stem cells, becomes dramatically reduced in bone marrow cells exposed to high glucose. Diabetes-induced deficits are corrected by reintroducing microRNA-155 in human stem cells. The authors foresee that microRNAs could be used to regain proper stem cells number in diabetes and fix stem cells before reintroduction into a patient's body.

Professor Paolo Madeddu said: "Our study draws attention to the bone marrow as a primary target of diabetes-induced damage. The research suggests that the severity of systemic vascular disease has an impact on bone marrow causing a precocious senescence of stem cells. More severe bone marrow pathologies can cause, or contribute to, cardiovascular disease and lead to worse outcomes after a heart attack, through the shortage of vascular regenerative cells. Clinical evidence indicates that achieving a good control of glucose levels is fundamental to prevent vascular complications, but is less effective in correcting microangiopathy. We need to work hard to find new therapies for mending damaged microvessels."

Professor Costanza Emanueli, Chair of Vascular Pathology and Regeneration at the University of Bristol and co-author of the paper, added: "MicroRNAs represent an attractive means to repair the marrow damage and generate "better" stem cells for regenerative medicine applications. We are working at protocols using microRNA targeting for enhancing the therapeutic potential of stem cells before their transplantation to cure heart and limb ischaemia, which are often associated with diabetes mellitus. More work is, however, necessary before using this strategy in patients."

The findings advance the current understanding of pathological mechanisms leading to collapse of the vascular niche and reduced availability of regenerative cells. The data provides a key for interpretation of diabetes-associated defect in stem cell mobilisation following a heart attack. In addition, the research reveals a new molecular mechanism that could in the future become the target of specific treatments to alleviate vascular complications in patients with diabetes.

Professor Jeremy Pearson, Associate Medical Director at the BHF said: "Professor Madeddu and his team have shown for the first time that the bone marrow in patients with diabetes can't release stem cells which are important for the repair of blood vessel damage commonly found in people with the disease.

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Diabetes distresses bone marrow stem cells by damaging their microenvironment

ScienceDaily (Dec. 3, 2012) Researchers have derived dopaminergic neurons from bone marrow stem cells in monkeys.

Parkinson's disease is a degenerative disorder of the central nervous system that is characterized by tremors, rigidity, slowness of movement, and difficulty walking. It is caused by loss of the neurons that produce the neurotransmitter dopamine (known as dopaminergic neurons). One of the primary goals in Parkinson's disease research is to develop a replacement for dopaminergic neurons.

In a new study, researchers led by Takuya Hayashi at the RIKEN Center for Molecular Imaging Science in Kobe, Japan, derived dopaminergic neurons from bone marrow stem cells in monkeys. The cells were retrieved during a standard bone marrow aspiration and then treated with growth factors that directed the stem cells to become dopaminergic neurons. The monkeys that donated the stem cells were treated with a chemical to induce Parkinson's disease and then received a transplant of the new dopaminergic neurons that had been derived from their own bone marrow stem cells. Monkeys that received the transplant showed significant improvement in motor defects.

This study demonstrates that dopaminergic neurons derived from adult bone marrow stem cells can be safely used to improve motor function in Parkinson's disease in monkeys.

The research is published in the Journal of Clinical Investigation.

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Stem cell-derived dopaminergic neurons rescue motor defects in Parkinsonian monkeys

Study moves scientists one step closer to creating youthful heart patches from old cells

TORONTO, ON A new method of growing cardiac tissue is teaching old stem cells new tricks. The discovery, which transforms aged stem cells into cells that function like much younger ones, may one day enable scientists to grow cardiac patches for damaged or diseased hearts from a patients own stem cellsno matter what age the patientwhile avoiding the threat of rejection.

Stem cell therapies involving donated bone marrow stem cells run the risk of patient rejection in a portion of the population, argues Milica Radisic, Canada Research Chair in Functional Cardiovascular Tissue Engineering at the Institute of Biomaterials and Biomedical Engineering (IBBME) and Associate Professor in the Department of Chemical Engineering and Applied Chemistry at the University of Toronto.

One method of avoiding the risk of rejection has been to use cells derived from a patients own body. But until now, clinical trials of this kind of therapy using elderly patients own cells have not been a viable option, since aged cells tend not to function as well as cells from young patients.

Its a problem that Radisic and her co-researcher, Dr. Ren-Ke Li, think they might have an answer for: by creating the conditions for a fountain of youth reaction within a tissue culture.

Li holds the Canada Research Chair in Cardiac Regeneration and is a Professor in the Division of Cardiovascular Surgery, cross-appointed to IBBME. He is also a Senior Scientist at the Toronto General Research Institute.

Radisic and Li first create a micro-environment that allows heart tissue to grow, with stem cells donated from elderly patients at the Toronto General Hospital.

The cell cultures are then infused with a combination of growth factorscommon factors that cause blood vessel growth and cell proliferationpositioned in such a way within the porous scaffolding that the cells are able to be stimulated by these factors.

Dr. Li and his team then tracked the molecular changes in the tissue patch cells.

We saw certain aging factors turned off, states Li, citing the levels of two molecules in particular, p16 and RGN, which effectively turned back the clock in the cells, returning them to robust and healthy states.

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“Fountain of Youth” technique rejuvenates aging stem cells - Study moves scientists one step closer to creating ...

Washington, November 28 (ANI): A new method, which transforms aged stem cells into cells that function like much younger ones, may one day enable scientists to grow cardiac patches for damaged or diseased hearts from a patient's own stem cells-no matter what age the patient-while avoiding the threat of rejection.

Stem cell therapies involving donated bone marrow stem cells run the risk of patient rejection in a portion of the population, argues Milica Radisic, Canada Research Chair in Functional Cardiovascular Tissue Engineering at the Institute of Biomaterials and Biomedical Engineering (IBBME) and Associate Professor in the Department of Chemical Engineering and Applied Chemistry at the University of Toronto.

One method of avoiding the risk of rejection has been to use cells derived from a patient's own body. But until now, clinical trials of this kind of therapy using elderly patients' own cells have not been a viable option, since aged cells tend not to function as well as cells from young patients.

Now, Radisic and her co-researcher, Dr. Ren-Ke Li, have come closer to solving this problem, by creating the conditions for a 'fountain of youth' reaction within a tissue culture.

Radisic and Li first create a "micro-environment" that allows heart tissue to grow, with stem cells donated from elderly patients at the Toronto General Hospital.

The cell cultures are then infused with a combination of growth factors-common factors that cause blood vessel growth and cell proliferation-positioned in such a way within the porous scaffolding that the cells are able to be stimulated by these factors.

Dr. Li and his team then tracked the molecular changes in the tissue patch cells.

"We saw certain aging factors turned off," states Li, citing the levels of two molecules in particular, p16 and RGN, which effectively turned back the clock in the cells, returning them to robust and healthy states.

"It's very exciting research," said Radisic, who was named one of the top innovators under 35 by MIT in 2008 and winner of the 2012 Young Engineers Canada award.

Li and Radisic hope to continue their goal to create the most effective environment in which cells from older patients can be given new life.

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'Fountain of youth' technique may help create heart patches from old cells

Toronto, Nov 28 (IANS) A new discovery that tricks aging stem cells into rejuvenating mode could enable scientists to create youthful patches for damaged or diseased hearts and heal them, according to a Canadian study.

The breakthrough may enable scientists to create such life giving patches from a patient's own stem cells regardless of the patient's age while avoiding the threat of rejection, the study claims.

Stem cell therapies involving donated bone marrow stem cells run the risk of patient rejection in a portion of the population, argues Milica Radisic, associate professor of chemical engineering and applied chemistry at the University of Toronto, the Journal of the American College of Cardiology reports.

One method of avoiding such a risk has been to use cells derived from a patient's own body. But until now, clinical trials of this kind of therapy using elderly patients' own cells have not been a viable option, since aged cells tend not to function as well as cells from young patients, according to a Toronto statement.

"If you want to treat these people with their own cells, how do you do this?" asks Radisic. It's a problem that Radisic and coresearcher RenKe Li think they might have an answer for: by creating the conditions for a 'fountain of youth' reaction within a tissue culture. Li is a professor in the division of cardiovascular surgery.

Radisic and Li first create a "microenvironment" that allows heart tissue to grow, with stem cells donated from elderly patients at the Toronto General Hospital, where Li works.

Li and his team then tracked the molecular changes in the tissue patch cells. "We saw certain aging factors turned off," states Li, citing the levels of two molecules in particular, p16 and (regucalcin) RGN, which effectively turned back the clock in the cells, returning them to robust and states.

"It's very exciting research," says Radisic, who was named one of the top innovators under 35 by MIT in 2008 and winner of the 2012 Young Engineers Canada award.

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Stem cell discovery may revive damaged heart

ScienceDaily (Nov. 27, 2012) A new method of growing cardiac tissue is teaching old stem cells new tricks. The discovery, which transforms aged stem cells into cells that function like much younger ones, may one day enable scientists to grow cardiac patches for damaged or diseased hearts from a patient's own stem cells -- no matter what age the patient -- while avoiding the threat of rejection.

Stem cell therapies involving donated bone marrow stem cells run the risk of patient rejection in a portion of the population, argues Milica Radisic, Canada Research Chair in Functional Cardiovascular Tissue Engineering at the Institute of Biomaterials and Biomedical Engineering (IBBME) and Associate Professor in the Department of Chemical Engineering and Applied Chemistry at the University of Toronto.

One method of avoiding the risk of rejection has been to use cells derived from a patient's own body. But until now, clinical trials of this kind of therapy using elderly patients' own cells have not been a viable option, since aged cells tend not to function as well as cells from young patients.

"If you want to treat these people with their own cells, how do you do this?"

It's a problem that Radisic and her co-researcher, Dr. Ren-Ke Li, think they might have an answer for: by creating the conditions for a 'fountain of youth' reaction within a tissue culture.

Li holds the Canada Research Chair in Cardiac Regeneration and is a Professor in the Division of Cardiovascular Surgery, cross-appointed to IBBME. He is also a Senior Scientist at the Toronto General Research Institute.

Radisic and Li first create a "micro-environment" that allows heart tissue to grow, with stem cells donated from elderly patients at the Toronto General Hospital.

The cell cultures are then infused with a combination of growth factors -- common factors that cause blood vessel growth and cell proliferation -- positioned in such a way within the porous scaffolding that the cells are able to be stimulated by these factors.

Dr. Li and his team then tracked the molecular changes in the tissue patch cells. "We saw certain aging factors turned off," states Li, citing the levels of two molecules in particular, p16 and RGN, which effectively turned back the clock in the cells, returning them to robust and healthy states.

"It's very exciting research," says Radisic, who was named one of the top innovators under 35 by MIT in 2008 and winner of the 2012 Young Engineers Canada award.

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'Fountain of youth' technique rejuvenates aging stem cells

Bone Marrow Stem cells for Rotator cuff Injury
George Ramsey Describes the road to recovery of his shoulder function using his own bone marrow stemcellsFrom:FLRegenerativeMedViews:0 0ratingsTime:01:55More inEducation

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Bone Marrow Stem cells for Rotator cuff Injury - Video

Public release date: 7-Nov-2012 [ | E-mail | Share ]

Contact: Deborah Mann Lake deborah.m.lake@uth.tmc.edu 713-500-3030 University of Texas Health Science Center at Houston

HOUSTON (Nov. 7, 2012) Administering stem cells derived from patients' own bone marrow either three or seven days after a heart attack is safe but does not improve heart function six months later, according to a clinical trial supported by the National Institutes of Health (NIH).

The results of the trial, called Transplantation In Myocardial Infarction Evaluation (TIME), mirror a previous related study, LateTIME, which found that such cells (called autologous stem cells) given two to three weeks after a heart attack did not improve heart function. Both TIME and LateTIME were conducted by the Cardiovascular Cell Therapy Research Network (CCTRN), sponsored by the NIH's National Heart, Lung, and Blood Institute.

The findings were presented Nov. 6, 2012, at the American Heart Association 2012 Scientific Sessions in Los Angeles and appeared concurrently in the Journal of the American Medical Association.

"These cells, while safe, were not better than placebo solution in providing benefit," said Lemuel Moy, III, M.D., Ph.D., principal investigator of the CCTRN and professor of biostatistics at The University of Texas School of Public Health, part of The University of Texas Health Science Center at Houston (UTHealth). "While this one cell type showed little promise, there are several new cell types that are available and we will be studying them. Cell therapy can and likely will play a major role in the treatment of cardiovascular disease in the future."

"This study was extremely valuable even though it did not provide a demonstrated health benefit after six months," said Sonia Skarlatos, Ph.D., deputy director of NHLBI's Division of Cardiovascular Sciences and member of the CCTRN. "Heart stem cell therapy research is still in its infancy, and results from early trials have varied greatly due to differences in the numbers of stem cells injected, the delivery methods used, and the compositions of the study populations. With TIME and LateTIME, we have established both safety and baseline results in two large studies that followed the same procedures for growing and then administering stem cells. This standard will inform the next steps in research on the use of stem cells to repair damaged hearts."

Skarlatos noted that another advantage of the TIME study is that CCTRN is storing samples of the stem cells taken from the participants. Investigators can examine the relationship between people who showed significant improvement during the study and the characteristics of their stem cells. Such a comparison may offer insights on the cell traits that are associated with clinical improvement.

Between July 2008 and February 2011, TIME researchers enrolled 120 volunteers (average age 57, 87.5 percent male) who suffered from moderate to severe impairment in their left ventricles the part of the heart that pumps oxygen-rich blood to the body and had undergone stenting procedures following heart attacks. Those selected for the trial were assigned randomly to one of four groups: day three after heart attack stem cell injection, day three after heart attack placebo injection, day seven after heart attack stem cell treatment, or day seven after heart attack placebo treatment. The researchers developed a method of processing and purifying the stem cells to ensure that participants in the stem cell groups received a uniform dose of 150 million cells about eight hours after the cells were harvested from their bone marrow. This ensured that results would not be skewed by differences in the quantity or quality of stem cells administered.

Researchers assessed heart improvement six months after stem cell therapy by measuring the percentage of blood that was pumped out of the left ventricle during each contraction (known as the left-ventricular ejection fraction, or LVEF). The study found no significant differences between the change in LVEF readings at the six-month follow-up in either the day three or the day seven stem cell groups compared with placebo groups or with each other. Every group showed about a three percent improvement in LVEF.

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Bone marrow stem cells do not improve short-term recovery after heart attack

cryocell | Umbilical Cord Stem Cells - Hope For a Better Tomorrow With Cord Blood Banking
http://www.cordbloodrecommendation.com However, the fees from bank to bank are pretty similar across the board. It is ready-to-use, as it is stored frozen after collecting and testing it. However, this blood can be used for non-family members and is being used to treat diseases and save lives. Secondly they regenerate cells to treat heart and circulatory diseases. Swarms of people are visiting the hospital to know more about preservation and how it is going to be beneficial for them in times of medical emergencies. The latter comes under much scrutiny and debate. However, looking at the benefit your child or may be his siblings may get 20 years down the line, you can definitely think of it as an insurance premium. 4. She was in the advanced stages of Parkinson and was looking for treatment options. How Can I Save My Baby #39;s Cord Blood?You can save it by storing it in a private cord blood bank, but if you do not save it, it will be discarded after birth. The proportion of unsuccessful searches is even greater among patients not of Northern European descent. Compared to bone marrow stem cells, cord blood stem cells are easier to harvest because they are easily obtainable from placenta after delivery and so do not involve a surgical procedure. The transplants are used to treat diseases as well as immune system problems. Most, if not all, of the major cord blood banking companies allow you to create a gift registry - similar to the popular registries at baby retailers - so that ...From:luisantafeViews:1 0ratingsTime:01:31More inTravel Events

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cryocell | Umbilical Cord Stem Cells - Hope For a Better Tomorrow With Cord Blood Banking - Video

cryocell | Umbilical Cord Stem Cells - Hope For a Better Tomorrow With Cord Blood Banking
http://www.cordbloodrecommendation.com However, the fees from bank to bank are pretty similar across the board. It is ready-to-use, as it is stored frozen after collecting and testing it. However, this blood can be used for non-family members and is being used to treat diseases and save lives. Secondly they regenerate cells to treat heart and circulatory diseases. Swarms of people are visiting the hospital to know more about preservation and how it is going to be beneficial for them in times of medical emergencies. The latter comes under much scrutiny and debate. However, looking at the benefit your child or may be his siblings may get 20 years down the line, you can definitely think of it as an insurance premium. 4. She was in the advanced stages of Parkinson and was looking for treatment options. How Can I Save My Baby #39;s Cord Blood?You can save it by storing it in a private cord blood bank, but if you do not save it, it will be discarded after birth. The proportion of unsuccessful searches is even greater among patients not of Northern European descent. Compared to bone marrow stem cells, cord blood stem cells are easier to harvest because they are easily obtainable from placenta after delivery and so do not involve a surgical procedure. The transplants are used to treat diseases as well as immune system problems. Most, if not all, of the major cord blood banking companies allow you to create a gift registry - similar to the popular registries at baby retailers - so that ...From:luisantafeViews:1 0ratingsTime:01:31More inTravel Events

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cryocell | Umbilical Cord Stem Cells - Hope For a Better Tomorrow With Cord Blood Banking - Video

Neil Riordan PhD - Stem Cell Therapy for Spinal Cord Injury || Stem Cell Treatments (Part 2 of 5)
Case studies of spinal cord injury patients treated with CD34+ and mesenchymal stem cells harvested from human umbilical cord Wharton #39;s jelly and cord blood, animal studies using mesenchymal stem cells, immunosuppression requirements in allogeneic stem cell treatments, intrathecal and intravenous administration of autologous bone marrow stem cells in spinal cord injury patients, and the role adult stem cell trophic factors in tissue regeneration.From:cellmedicineViews:623 5ratingsTime:12:57More inScience Technology

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Neil Riordan PhD - Stem Cell Therapy for Spinal Cord Injury || Stem Cell Treatments (Part 2 of 5) - Video

Critical Limb Trials Update
Lower limb amputation is a reality for thousands of people every year in South Carolina. Roper St. Francis Healthcare is leading the way in a clinical trial utilizing bone marrow stem cells to save limbs.From:RoperStFrancisViews:24 0ratingsTime:01:31More inScience Technology

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Critical Limb Trials Update - Video

Stem Cell Therapy for Critical Limb Ischemia - YouTube.flv
Dr. Michael Murphy discusses a previous trial using bone marrow stem cells, a clinical trial based upon research sponsored by Cryptic Masons Medical Research Foundation and ICVBM.From:CMMRF2012Views:69 1ratingsTime:01:39More inPeople Blogs

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Stem Cell Therapy for Critical Limb Ischemia - YouTube.flv - Video

Science Talk: Myelodysplastic Syndromes (MDS) Linked to Abnormal Stem Cells
http://www.einstein.yu.edu - July 2, 2012 - Researchers at Albert Einstein College of Medicine of Yeshiva University and Montefiore Medical Center have found that abnormal bone marrow stem cells drive the development of myelodysplastic syndromes (MDS). The findings published online July 2 in the journal Blood. See accompanying release http://www.einstein.yu.eduFrom:EinsteinCollegeofMedViews:212 1ratingsTime:02:59More inScience Technology

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Science Talk: Myelodysplastic Syndromes (MDS) Linked to Abnormal Stem Cells - Video

Dr.Mohamad Ghoneim
Dr.Mohamed Ahmed Ghoneim, MD (MD Hon.), Emeritus: Professor of Urology Mansoura University, Mansoura, Egypt. Dr.Ghoneim talks at the 2nd GCCTX11 Congress in Riyadh, Saudi Arabia,on October 4th 2011 about "Transplantation of Insulin producing cells derived from human Bone Marrow Stem Cells did Control."From:saudiorgantransplantViews:80 0ratingsTime:29:51More inScience Technology

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Dr.Mohamad Ghoneim - Video

Coast To Coast AM - 2011-11-15 - Regenerative Medicine / Dulce Base (Full Show)
Date: 11-15-11 Host: George Noory Guests: Anthony F. Sanchez, Christian Wilde In the first half, researcher Christian Wilde talked about the emerging field of regenerative medicine, and how scientists are actually building replacement body parts with stem cells. He announced that Dr. Richard Burt at Northwestern University #39;s School of Medicine has been successfully using patients own bone marrow stem cells to treat a variety of autoimmune diseases like Lupus, and Type 1 Diabetes. It may be possible to expand human lifespan up to around 150 years, Wilde declared, now that replacement organs such as kidneys and livers can be grown in a matter of 6-8 weeks. He cited an instance where new stem cells were injected into the cadaver heart of a rat, and in a few days it started beating again. And, he added, at the Univ. of Pittsburgh, a Marine who lost his right hand, has had a successful transplant of a cadaver hand. Wilde also spoke about heart health, and the importance of taking homocysteine and CRP (C-Reactive Protein) tests in order to monitor cardiac issues and inflammation. Supplements such as turmeric can reduce inflammation and protect against some cancers, he noted. -------------------------- In the latter half, software engineer and UFO researcher, Anthony F. Sanchez, presented details about an underground base in Dulce, New Mexico, and its connection to the Greys. Much of his information comes from "Colonel X," a retired military whistleblower, who wishes to remain ...From:PIGAMOUSViews:267 5ratingsTime:02:33:31More inNonprofits Activism

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Coast To Coast AM - 2011-11-15 - Regenerative Medicine / Dulce Base (Full Show) - Video

Stem Cell Therapy And Tissue Engineering For Cardiovascular Repair
xxsurl.com Stem Cell Therapy And Tissue Engineering For Cardiovascular Repair Ventricular Remodeling in Ischemic Cardiomyopathy.- Myocardial Regeneration: Which Cell and Why.- Cardiac Stem Cells for Myocardial Regeneration.- A Historic Recapitulation of Myoblast Transplantation.- Myoblast Cell Transplantation Preclinical Studies.- Skeletal Myoblasts: The European Experience.- Skeletal Myoblasts: The US Experience.- Progenitor Cells for Cardiac Regeneration.- Bone Marrow Derived Stem Cell for Myocardial Regeneration: Preclinical Experience.- Bone Marrow Derived Stem Cell for Myocardial Regeneration: Clinical Experience, Surgical Delivery.- Autologous Mononuclear Bone Marrow Cell Transplantation for Myocardial Infarction: The German Experience.- Autologous Mononuclear Bone Marrow Cell Transplantation for Myocardial Infarction: The Spanish Experience.- Mobilizing Bone Marrow Stem Cells for Myocardial Repair after Acute Myocardial Infarction.- Percutaneous Myoblast Transplantation: Steps in Translational Research.- A Porcine Model of Myocardial Infarction for Evaluation of Cell Transplantation.- Tissue Engineering for Myocardial Regeneration.- The Role of PET Scan in Stem Cell Therapy.- The Measurement of Systolic Function in the Mammalian Heart.- Electrophysiological Aspects of Cell Transplantation.- Regulatory Considerations in Manufacturing, Product Testing, and Preclinical Development of Cellular Products for Cardiac Repair.- Appendix: Catheter Descriptions.- Index. EAN ...From:maurinecooper3Views:56 0ratingsTime:00:12More inPeople Blogs

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Stem Cell Therapy And Tissue Engineering For Cardiovascular Repair - Video

Stem Cell Therapy - How Stem Cells Helped Emery with Pain and more!
Bone marrow stem cells helped Emery M. after having pain in his foot and other minor problems. He came to Dr. David Steenblock for adult stem cell treatments and did wonderfully. To find out more about bone marrow stem cells and how legal stem cells are done here in the US call Dr. Steenblock #39;s office: 1-800-300-1063.From:STEMCELLinfoViews:37 0ratingsTime:02:00More inScience Technology

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Stem Cell Therapy - How Stem Cells Helped Emery with Pain and more! - Video

Stem cells for critical limb ischemia (NAPLES Study).m4v
This is the procedure of intra arterial autologous transplant of bone marrow stem cells for the treatment of critical limb ischemia according to NAPLES Study.From:Alessandro SchiavettaViews:47 0ratingsTime:01:16More inScience Technology

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Stem cells for critical limb ischemia (NAPLES Study).m4v - Video

Own Bone Marrow Adult Stem Cells Renewed Heart Attack Patient
Proactive Stem cell options to renew hearts with own bone marrow stem cells .. http://www.EJMorris.biz Your own bone marrow stem cells help repair aging and damaged hearts and other organs. Many stem cell procedures are performed in India, and other international countries. Some adult stem cell releasing.. extracting .. and stem cell injection procedures are performed in the USA. Investigate all your stem cell nutrition options.. including Naturally Releasing MILLIONS more Stem Cells from your Bone Marrow within 60 MINUTES of consuming 2 patented adult stem cell nutrition capsules. Investigate a proactive wellness lifestyle by releasing MILLIONS more of YOUR OWN adult stem cells from your bone marrow EVERY DAY with adult stem cell nutrition capsules. Your body is indeed a Miracle.. and your own adult stem cells constitute Your body #39;s own RENEWAL SYSTEM to help in anti-aging and rejuvenation of not only your heart .. but ALL your organs, tissues and muscles. See VIDEO of patented stem cell nutrition including capsules, tablets granules,powders and serums.. httpFrom:EJ MorrisViews:43 0ratingsTime:04:17More inScience Technology

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Own Bone Marrow Adult Stem Cells Renewed Heart Attack Patient - Video

Releasing Her Own Adult Stem Cells Renewed Lisa Ray
Stem cell options for releasing more bone marrow stem cells .. http://www.EJMorris.biz Lisa Ray #39;s own bone marrow stem cells helped repair her body. Some stem cell procedures are performed in India, and some adult stem cell releasing.. extracting .. and stem cell injection procedures are performed in the USA. Investigate all your stem cell nutrition options..including Naturally Releasing MILLIONS more Stem Cells from your Bone Marrow within 60 MINUTES of consuming 2 patented adult stem cell nutrition capsules. Investigate your body #39;s own RENEWAL SYSTEM, using your OWN Bone Marrow Adult Stem Cells for repair and rejuvenation.From:EJ MorrisViews:64 0ratingsTime:01:01More inScience Technology

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Releasing Her Own Adult Stem Cells Renewed Lisa Ray - Video

Release Millions More Bone Marrow Stem Cells.. Your Body #39;s Renewal System
Witness Proactive Bone Marrow Stem Cell option Videos here.. http://www.EJMorris.biz See adult stem cell animation of renewing your body tissues and organs with your own bone marrow stem cells .. http Your own bone marrow stem cells help repair aging and damaged tissues, muscles, bones ,hearts and other organs. Many stem cell procedures are performed in India, and other international countries. Some adult stem cell releasing.. extracting .. and stem cell injection procedures are performed in the USA. Investigate all your stem cell nutrition options.. including Naturally Releasing 3 to 4 MILLION more Stem Cells from your Bone Marrow within 60 MINUTES of consuming 2 patented adult stem cell nutrition capsules. Investigate a proactive wellness lifestyle by releasing MILLIONS more of YOUR OWN adult stem cells from your bone marrow EVERY DAY with adult stem cell nutrition capsules. Your body is indeed a Miracle.. and your own adult stem cells constitute Your body #39;s own RENEWAL SYSTEM to help in anti-aging and rejuvenation of not only your heart .. but ALL your organs, tissues and muscles. See VIDEO of patented stem cell nutrition including capsules, tablets granules, powders and serums.. http://www.EJrecommends.comFrom:EJ MorrisViews:27 0ratingsTime:06:27More inScience Technology

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Release Millions More Bone Marrow Stem Cells.. Your Body's Renewal System - Video

2012 Ask the Experts -3 Facts about Stem Cell Research - Dr Megan Munsie
Dr Megan Munsie, Stem Cells Australia spoke on Hope, Hype and Reality: The Facts about Stem Cell Research. Megan explained that headlines about stem cells are often sensational and oversimplify where research is at. Present use of cord blood and bone marrow stem cells is limited to diseases of the blood -- #39;like for like #39;. Over the last 20 years researchers have been able to identify stem cells in the kidney, heart and brain, but these cannot be effectively harnessed for treatments yet. There is often a great focus on the potential therapeutic use for stem cells, but where stem cells are currently making a great scientific contribution is as a research tool for finding out more information about the disease itself, for example we can now look at how MND develops using stem cells in a petri dish. There is currently a long list of stem cell treatment companies even though treatments are yet unproven. A person considering stem cell treatment should speak with their neurologist first to better understand the context of the proposed treatment because the neurologist will be more impartial than a company #39;selling #39; the treatment. Booklets are available through Stem Cells Australia at http://www.stemcellsaustralia.edu.au to help with right questions to ask.From:mndnswViews:33 0ratingsTime:33:25More inNonprofits Activism

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2012 Ask the Experts -3 Facts about Stem Cell Research - Dr Megan Munsie - Video

Stem Cell Doctors from India and Stem Cell Options
Review stem cell doctors and stem cell nutrition options from India ..www.EJrecommends.com .. then investigate how your own bone marrow stem cells help repair aging and damaged tissues, muscles, bones ,hearts and other organs. Many stem cell procedures are performed in India, and other international countries. Some adult stem cell releasing.. extracting .. and stem cell injection procedures are performed in the USA. Investigate all your stem cell nutrition options.. including Naturally Releasing 3 to 4 MILLION more Stem Cells from your Bone Marrow within 60 MINUTES of consuming 2 patented adult stem cell nutrition capsules. Investigate a proactive wellness lifestyle by releasing MILLIONS more of YOUR OWN adult stem cells from your bone marrow EVERY DAY with adult stem cell nutrition capsules. Your body is indeed a Miracle.. and your own adult stem cells constitute Your body #39;s own RENEWAL SYSTEM to help in anti-aging and rejuvenation of not only your heart .. but ALL your organs, tissues and muscles. See VIDEO of patented stem cell nutrition including capsules, tablets granules, powders and serums.. httpFrom:EJ MorrisViews:30 0ratingsTime:04:34More inScience Technology

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Stem Cell Doctors from India and Stem Cell Options - Video

Stem Cell Treatment Helps Shoulder Pain!
Kurt came to Dr. Steenblock for help with his shoulder. Kurt did bone marrow stem cells and had great results with helping heal his right shoulder heal. Find out more by calling Dr. Steenblock #39;s office today at 1-800-300-1063.From:STEMCELLinfoViews:49 0ratingsTime:01:40More inScience Technology

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Stem Cell Treatment Helps Shoulder Pain! - Video