Dr. Omar Gonzalez presents his Integrative Medicine Clinic in Mexico
http://www.placidway.com/profile/705/ - Watch this Video as Dr.Omar Gonzalez, MD, specialist in Stem Cell Therapy, Integrative Medicine and Chronic Diseases, presents his new clinic located...
By: placidways
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Dr. Omar Gonzalez presents his Integrative Medicine Clinic in Mexico - Video
Dr Bindiya Bansal on Dental Stem Cells
Dr Bindiya Bansal explaining the importance of Dental Stem Cells preservation.
By: StemadeBiotech
PUBLIC RELEASE DATE:
9-Jun-2014
Contact: Lucia Lee NewsMedia@mssm.edu 212-241-9200 The Mount Sinai Hospital / Mount Sinai School of Medicine
(New York June 9, 2014) -- A protein may be the key to maintaining the health of aging blood stem cells, according to work by researchers at the Icahn School of Medicine at Mount Sinai recently published online in Stem Cell Reports. Human adults keep stem cell pools on hand in key tissues, including the blood. These stem cells can become replacement cells for those lost to wear and tear. But as the blood stem cells age, their ability to regenerate blood declines, potentially contributing to anemia and the risk of cancers like acute myeloid leukemia and immune deficiency. Whether this age-related decline in stem cell health is at the root of overall aging is unclear.
The new Mount Sinai study reveals how loss of a protein called Sirtuin1 (SIRT1) affects the ability of blood stem cells to regenerate normally, at least in mouse models of human disease. This study has shown that young blood stem cells that lack SIRT1 behave like old ones. With use of advanced mouse models, she and her team found that blood stem cells without adequate SIRT1 resembled aged and defective stem cells, which are thought to be linked to development of malignancies.
"Our data shows that SIRT1 is a protein that is required to maintain the health of blood stem cells and supports the possibility that reduced function of this protein with age may compromise healthy aging," says Saghi Ghaffari, MD, PhD, Associate Professor of Developmental and Regenerative Biology at Mount Sinai's Black Family Stem Cell Institute, Icahn School of Medicine. "Further studies in the laboratory could improve are understanding between aging stem cells and disease."
Next for the team, which includes Pauline Rimmel, PhD, is to investigate whether or not increasing SIRT1 levels in blood stem cells protects them from unhealthy aging or rejuvenates old blood stem cells. The investigators also plan to look at whether SIRT1 therapy could treat diseases already linked to aging, faulty blood stem cells.
They also believe that SIRT1 might be important to maintaining the health of other types of stem cells in the body, which may be linked to overall aging.
The notion that SIRT1 is a powerful regulator of aging has been highly debated, but its connection to the health of blood stem cells "is now clear," says Dr. Ghaffari. "Identifying regulators of stem cell aging is of major significance for public health because of their potential power to promote healthy aging and provide targets to combat diseases of aging," Dr. Ghaffari says.
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Mount Sinai researchers identify protein that keeps blood stem cells healthy as they age
PUBLIC RELEASE DATE:
9-Jun-2014
Contact: Kimberly Brown kbrown@snmmi.org 703-652-6773 Society of Nuclear Medicine
St. Louis, Mo. (June 9, 2014) Researchers at the Society of Nuclear Medicine and Molecular Imaging's 2014 Annual Meeting revealed how a protein encourages the production of stem cells that regenerate damaged tissues of the heart following an acute attack (myocardial infarction). They further assert that it has a better chance of working if provided early in treatment. This was confirmed by molecular imaging, which captured patients' improved heart health after therapy.
If given after a heart attack, granulocyte colony-stimulating factor (G-CSF) mobilizes bone marrow stem cells that turn down the collateral damage of cell death that occurs after acute myocardial infarction. Other research has shown G-CSF having a beneficial impact on left ventricle ejection fraction, a measurement of how powerfully the heart is pumping oxygenated blood back into the aorta and the rest of the body with each beat. The objective of this study was to find out how beneficial the stem cellstimulating therapy would be if administered early during standard treatment. Early prescription of G-CSF happens to strengthen its effect immediately and after follow up.
"Previous studies have shown that giving G-CSF to unselected heart attack patients failed to satisfactorily improve their condition, but G-CSF may potentially be beneficial if given earlier than 37 hours following myocardial infarction and coronary intervention," remarked Takuji Toyama, MD, the study's principal researcher from the division of cardiology at Gunma Prefectural Cardiovascular Center in Maebashi, Japan. "This study shows that the first intravenous drip infusion of G-CSF during treatment just after hospitalization was able to rescue our patients. I am confident that with additional data from a forthcoming clinical trial, this protocol can be adopted as a standard of practice."
For this study, 40 consecutive patients with acute myocardial infarction were given either G-CSF therapy or saline intravenously for a total of five days beginning during a selected minimally invasive treatment, otherwise known as percutaneous cardiac intervention. Results of one year's worth of SPECT stress tests nailed how earlier start of G-CSF therapy in heart attack patients improves blood flow, access to essential energy and overall cardiac function.
Coronary heart disease caused one out of every six fatalities in the U.S. in 2010, according to 2014 statistics from the American Heart Association. An estimated 620,000 Americans suffered a first heart attack, and 295,000 had a recurrent episode. Collectively, heart attacks occur about once every 34 seconds. Coronary events cause about 379,559 deaths each year.
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Scientific Paper 239: Takuji Toyama, Hiroshi Hoshizaki, Hakuken Kan, Ren Kawaguchi, Hitoshi Adachi, Shigeru Ohsima, Division of Cardiology, Gunma Prefectural Cardiovascular Center, Maebashi, Japan; Masahiko Kurabayashi, Department of Cardiovascular Medicine, Gunma University School of Medicine, Maebashi, Japan, "Is the granulocyte colony-stimulating factor therapy in the earliest phase effective to rescue patients with acute myocardial infarction?" SNMMI's 61th Annual Meeting, June 7, 2014, St. Louis, Missouri.
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Stem cell-stimulating therapy saves heart attack patients
DUBLIN, June 19, 2014 /PRNewswire/ -- Research and Markets (http://www.researchandmarkets.com/research/v969qd/cell_separation) has announced the addition of the "Cell Separation Technologies Market- Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019" report to their offering.
http://photos.prnewswire.com/prnh/20130307/600769
This report consists of the market analysis for the various technologies used in the cell separation market. Increasing cell therapy oriented research and development globally is driving the cell separation technologies market towards significant growth. The stakeholders for this report include providers and manufacturers of cell separation technology instruments.
The cell separation technologies market is segmented on the basis of technologies that are available in the market and application areas of cell separation technologies. The various technology segments covered in this report are gradient centrifugation and separation based on surface markers. Separation based on surface markers technology include two different techniques namely, magnetic activated cell sorting (MACS) and fluorescence activated cell sorting (FACS).
The application areas of cell separation technologies comprise stem cell research, immunology, neuroscience research and cancer research. Revenue forecast and market analysis for each segment has been given in this study for the period of 2011 to 2019 in terms of USD million in addition to the compound annual growth rate (CAGR %) for each segment of technology and application. The CAGR is provided for forecast period of 2013 to 2019 and 2012 have been considered as base in year for market size estimation.
Geographically, global cell separation technologies market has been segmented into four areas namely, North America, Europe, Asia-Pacific and Rest of the World (RoW). This report also provides the present and future market estimation in terms of USD million for the period 2011 to 2019, in addition to compound annual growth rate (CAGR %) for each geographic area. Further to market size estimation, this report provides recommendations and highlights of the market that should be useful for current and new market players to grow and sustain in the global cell separation technologies market.
Market trends and dynamics such as restraints, opportunities and growth drivers that have impact on present and future position of this market are demonstrated in the market overview chapter of this study. In addition, the market overview chapter also consists of Porter's five forces analysis and market attractiveness by geography to give detailed analysis of the entire competitive status of the global cell separation technologies market.
Key information about the top market players operating in the global cell separation technologies market is given in the company profiles section of this report. Some of the key players profiled in this report include BD Bioscience, EMD Millipore, Mitenyi Biotec GmbH, and STEMCELL Technologies, Terumo BCT, pluriSelect GmbH, and Life Technologies (Thermo Fisher Scientific, Inc.).
Key Topics Covered:
Chapter 1 Introduction
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Cell Separation Technologies Market- Global Industry Analysis, Size, Share, Growth, Trends and Forecast, 2013 - 2019
Stem Cells Cerebral Palsy: The Promise The Progress
The possibility that stem cells could one day treat cerebral palsy (CP) and many other conditions has captured our imagination. But what is actually involved...
By: Cerebral Palsy Alliance
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Stem Cells & Cerebral Palsy: The Promise & The Progress - Video
Patient Testimonial: Stem cell therapy for COPD Treatment in SERBIA
http://www.placidway.com/profile/1617/ - Marko was treated for COPD with Stem Cell Therapy in Swiss Medica #39;s Serbian Clinic. How the treatment effectiveness ...
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Patient Testimonial: Stem cell therapy for COPD Treatment in SERBIA - Video
Successful Fetal Stem Cell Therapy in Kyiv, Ukraine at EmCell via PlacidWay
Watch Daniel #39;s testimonial after undergoing successful Fetal Stem Cell Therapy at EmCell in Kyiv, Ukraine.
By: placidways
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Successful Fetal Stem Cell Therapy in Kyiv, Ukraine at EmCell via PlacidWay - Video
La Jolla, CA (PRWEB) June 17, 2014
StemGenex, the leading resource for adult adipose stem cell therapy in the US aimed at improving the lives of patients dealing with degenerative diseases, today announced their newest clinical study for Multiple Sclerosis. StemGenex believes that a commitment to the safety and efficacy of stem cell therapy are paramount when providing care to patients with life threatening diseases.
This clinical study is bringing to the field a new, unique type of stem cell therapy that has the possibility of being more effective than other stem cell treatments currently available. Patients who receive stem cell treatment through StemGenex for Multiple Sclerosis will receive StemGenex multiple administration protocol. This consists of four targeted administration methods of the stem cells to deliver the necessary amount of stem cells past the blood brain barrier.
Principal Investigator Dr. Jeremiah McDole, Ph.D. stated, "Currently available drugs for multiple sclerosis do not halt disease progression or aid in the repair of established damage. We strive to provide regenerative medicine applications that address this critical, underlying issue. While patients experience positive clinical outcomes as a result of stem cell treatment, large, rigorously performed studies are desired in order to guide our best efforts for future development. The study we are conducting is designed to provide us with this essential data."
This study is registered through The National Institutes of Health which can be found at http://www.clinicaltrials.gov and is being conducted under IRB approval. According to StemGenex Director of Patient Advocacy, Joe Perricone, It is important patients have access to top-tier stem cell treatment. By providing access to registered clinical studies through The National Institutes of Health, we are providing patients with the ability to choose a stem cell treatment center with the highest standard of care.
Rita Alexander, founder and president of StemGenex, stated, This is the first of many stem cell clinical studies to come and a positive step for the more than 2 million people around the world suffering with Multiple Sclerosis. The average lifetime cost of current standard of care treatment per MS patient is $1.2 million. The human cost of the disease including pain and suffering endured by MS patients, the profound impact on families and the loss of their ability to contribute to society is without question immeasurable. Dr. McDoles research background in neuroimmunology is certainly an asset in our effort to change the course of neurological diseases.
Stem cell treatment studies are currently being offered by StemGenex to patients diagnosed with Multiple Sclerosis and other degenerative neurological diseases. StemGenex takes a unique approach of compassion and empowerment while providing access to the latest stem cell therapies for degenerative neurological diseases including Parkinsons and Alzheimers disease, stroke recovery and others.
To find out more about stem cell therapy, contact StemGenex either by phone at (800) 609-7795 or email Contact(at)stemgenex(dot)com
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StemGenex Announces New Stem Cell Clinical Study for Multiple Sclerosis
Tampa, FL (PRWEB) June 19, 2014
Located in Tampa, FL, Lung Institute was instrumental in allowing Robert Ware get his life back. Three months ago, Robert decided to take his health into his own hands and move ahead with stem cell treatment. Hundreds of people with lung disease have been treated with the companys innovative use of stem cells from the patients own body.
Stem cell therapy is a viable option for many people with lung disease, said Dr. Burton Feinerman, Medical Director of the Lung Institute. Our patients are breathing easier, walking further, and depending less on supplemental oxygen.
For Robert, 71, chronic obstructive pulmonary disease (COPD) was taking over his life. Over the past decade, this progressive lung disease diminished his quality of life and forced him away from the activities he used to love. Robert was unable to be outdoors, attend live music shows in the town squares and work on his yard and landscaping. A few months ago, Robert had a health scare that he thought was a heart attack. He was actually experiencing lung spasms and not receiving enough oxygen, often referred to as a COPD exacerbation.
COPD is not only the third leading cause of death in the United States, but is responsible for severely limiting sufferers quality of life. People with COPD often cant even walk to their mailbox without debilitating shortness of breath. For people without COPD, it is akin to breathing through a small straw while carrying out normal activities.
In Roberts case, his exacerbation caused him to look for alternatives to the traditional medications he had been taking. Robert and his wife decided stem cell therapy at the Lung Institute was the best option for him. Robert received autologous stem cell therapy, meaning stem cells from his own body were used to help cue natural healing processes for damaged lung tissue. After the minimally invasive, outpatient procedure, Robert returned home and was able to regain a substantial amount of his quality of life.
Before treatment, I was pretty much on oxygen all the time, said Robert. I couldnt do much without my oxygen. Today, Im doing just about anything I want to do.
Now, Robert no longer needs to pay someone to take care of his lawn. Robert is able to be outdoors, mow the grass, work around the house and go out with friends.
People are just amazed how well Im doing. Im probably 75% to what I was originally, 10 years ago, added Robert. I started getting better fast and my friends couldnt believe it. They were shocked. It was kind of funfeeling good, rather than being sick.
About Lung Institute At Lung Institute (LI), we are changing the lives of hundreds of people across the nation through the innovative technology of regenerative medicine. We are committed to providing patients a more effective way to address pulmonary conditions and improve quality of life. Our physicians, through their designated practices, have gained worldwide recognition for the successful application of revolutionary minimally invasive stem cell therapies. With over a century of combined medical experience, our doctors have established a patient experience designed with the highest concern for patient safety and quality of care. For more information, visit our website at LungInstitute.com, like us on Facebook, follow us on Twitter or call us today at 1-855-469-5864.
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Lung Institute Instrumental in Allowing Robert Ware to Get His Life Back
Knee and shoulder arthritis/torn rotator cuffs 16 months after stem cell therapy by Dr Harry Adelson
Mike discusses his results 16 months after stem cell therapy for his arthritic knees and shoulders and torn rotator cuffs by Dr Harry Adelson at http://www.docerecl...
By: Harry Adelson, N.D.
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Newswise LOS ANGELES (June 17, 2014) Stem cell therapy for cardiovascular disease isnt a medical pipe dream its a reality today, although patients need to better understand the complex science behind these experimental treatments, according to the chief of Cardiology for the Cedars-Sinai Heart Institute.
In a 17-minute TEDxGrandForks talk now available on YouTube.com, Timothy D. Henry, MD, known for his innovative work in developing stem cell treatments for advanced heart disease patients, said he understands why so many are confused about the latest scientific findings.
Most people today get our information from sound bites, and the issues surrounding stem cells are too complex to be fully explained in a single catchy phrase, Henry said, adding, We have far too much controversy about stem cells and far too much hype.
Stem cell science has become a political dividing line with many opposing research into stem cells derived from human embryos, Henry said. However, he said, todays leading-edge clinical research focuses on stem cells derived from adults that can be scientifically programmed to become a specialized cell, such as a heart cell or a brain cell, thereby avoiding the ethical questions involved in embryonic research.
Very few of the cells we give actually become muscle or actually become blood vessels, Henry said. What they do is increase growth factors and encourage natural cells in the body to generate new, healthy tissue.
The Cedars-Sinai Heart Institute, directed by Eduardo Marbn, MD, PhD, is a world leader in studying the use of stem cells to regenerate heart muscle in patients who have had heart attacks. In 2009, Cedars-Sinai physicians conducted the first infusion of stem cells into heart attack patients, using stem cells grown from the patients own heart tissue. The resulting study, published in February 2012 in The Lancet, showed that patients who underwent the stem cell procedure experienced a significant reduction in the size of the scar left behind by a heart attack. Patients also experienced a sizable increase in healthy heart muscle following the experimental stem cell treatments.
Currently, Henry is co-directing a new stem cell study with Raj Makkar, MD, director of Interventional Cardiology. The national trial, called ALLSTAR, uses heart cells from unrelated donors in an effort to reverse lasting tissue damage after a heart attack.
During his talk, Henry also expressed concern for patients who might be taken advantage of by unscrupulous clinics outside of the United States that offer stem cell cures for everything from neurological diseases to baldness. Patients also need to understand that stem cell science has a long way to go before regenerative medicine treatments are widely available.
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Stem Cell Expert Explains How Experimental Regenerative Medicine Therapies Can Regrow Damaged Heart Muscle
Stemologica
Researchers have verified that when included in our skin creams, the Uttwiler Sptlauber Swiss apple stem cells will communicate with you have skin #39;s stem cells, getting rid of wrinkles and...
By: Jordan Kaleb
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Stemologica - Video
Adipose vs Haemopoietic and Bone Marrow Sources
Fat vs other sources of stem cells? Fat is the foremost source of stem cells from practical, cost and clinical outcome perspective. Years of clinical practice and research show that treatment...
By: Global Medical Training Network [GMTN]
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Adipose vs Haemopoietic and Bone Marrow Sources - Video
Global Stem Cell Therapy Industry Pipeline Analysis 2020
Stem Cell Therapy Industry @ http://bit.ly/1qkbHjQ.
By: Ashley Harvey
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Global Stem Cell Therapy Industry Pipeline Analysis 2020 - Video
Stem Cell Therapy in South Korea
When traditional treatments fail, Stem Cell Therapy in South Korea offers hope to worldwide patients.
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Stem Cell Therapy in South Korea - Video
Patient Testimonial: Stem cell therapy for Multiple Sclerosis
http://www.placidway.com/profile/1617/ - Stem cell therapy in Switzerland was effective for 44 year old patient who had multiple sclerosis. He explains how the side effects started to diminish...
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Patient Testimonial: Stem cell therapy for Multiple Sclerosis - Video
Stem cell therapy | stem cells laboratory chip osteoarthritis
http://www.arthritistreatmentcenter.com A 3 D lab chip for osteoarthritis... learn more next... Living human cartilage grown on lab chip In Business Standard, scientists have created the...
By: Nathan Wei
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Stem cell therapy | stem cells laboratory chip osteoarthritis - Video
Lumbar disc pain one year after stem cell therapy by Dr Harry Adelson
Lisa describes her outcome one year after having bone marrow stem cells injected into her degenerated and dehydrated lumbar discs by Dr Harry Adelson http://www.docereclinics.com.
By: Harry Adelson, N.D.
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Lumbar disc pain one year after stem cell therapy by Dr Harry Adelson - Video
Obesity Weight (Stem Cell Therapy)
The subject matter of this video Obesity Weight.
By: Mohammad Sadique
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Obesity & Weight (Stem Cell Therapy) - Video