Stroke Recovery

Stroke Recovery Stroke Treatment Using Adult Stem Cells
Bryn came to Dr. David Steenblock after suffering from a stroke. After going to numerous facilities he was finally able to get help with his stroke recovery after coming to Dr. David Steenblock. Dr. Steenblock used adult stem cell treatments to help aid Bryn in his stroke recovery. Call 1-800-300-1063 for more information.

By: David Steenblock

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Stroke Recovery

Infusion of stem cells and specially generated T-cells from same donor improves leukemia survival

Feb. 27, 2013 In a significant advance for harnessing the immune system to treat leukemias, researchers at Fred Hutchinson Cancer Research Center for the first time have successfully infused large numbers of donor T-cells specific for a key anti-leukemic antigen to prolong survival in high-risk and relapsed leukemia patients after stem cell transplantation. Both the stem cells for transplant and the T-cells came from the same matched donors.

Reporting results of a pilot clinical trial in the Feb. 27 issue of the journal Science Translational Medicine, researchers describe the use of T-cells that were taken from a donor, programmed in the lab to recognize the Wilm's Tumor Antigen 1 (WT1) and kill leukemia cells, grown in large numbers, and then infused into patients to promote anti-leukemic activity. The WT1 protein is overexpressed in leukemias and is in part responsible for why the cells have become leukemic.

The best results were achieved when some of the patients received T-cell clones that were exposed to interleukin 21 (IL-21) during the programming and growth process, based on the hypothesis that such exposure would create cells that could survive longer and produce greater anti-leukemic activity after transfer. IL-21 promotes T-cell expansion while helping those cells acquire characteristics of central memory T-cells.

"This is the first time patients have received an infusion of WT1 specific T-cells, and thus also the first demonstration that such cells can provide a therapeutic anti-leukemic effect, as has been suggested from earlier vaccine trials that induce less potent responses," said Philip Greenberg, M.D., corresponding author and head of the Immunology Program at Fred Hutch.

"Ours is also the first report to show that greatly improved T-cell in-vivo persistence can be achieved after transfer by modifying the way cells are generated in tissue culture for therapy with inclusion of the cytokine IL-21," said Aude Chapuis, M.D., lead author on the study and a research associate in the Fred Hutch Immunology Program.

The findings support expanding efforts to target WT1 and provide insights into what is necessary to establish potent and persistent T-cell responses in patients, and such second generation studies have recently been initiated at Fred Hutch. All of the patients, who were treated post-transplant at Seattle Cancer Care Alliance, Fred Hutch's site for patient care, received adoptively transferred infusions of billions of enhanced CD8 cytotoxic T-cell clones. They were considered at high risk of death because they had already relapsed and/or had a poor prognosis due to unfavorable characteristics of their leukemia.

Four of the 11 patients in the trial received infusions of T-cells that targeted WT1 and were generated in the presence of IL-21. One had detectable relapsed disease and entered complete remission shortly after the T-cells were infused. All four survived after T-cell therapy without relapse for more than 30 months without suffering graft-vs.-host-disease and required no additional anti-leukemic treatment, according to the study. GVHD is a major complication of stem cell transplantation.

Among the seven patients who received infused T-cells generated without the presence of IL-21, two showed direct evidence of anti-leukemic activity, including one patient with advanced progressive disease who had a temporary response.

Researchers undertook the clinical trial because relapse remains a leading cause of death after allogeneic hematopoietic cell transplantation for patients with high-risk leukemias. An obstacle to survival is that the beneficial graft-vs.-tumor effect of a transplant can be offset by concurrent GVHD. Interestingly, patients who develop GVHD have reduced relapse rates. This suggests that lymphocytes present in engrafted donor stem cells can cause a concurrent therapeutic graft-vs.-tumor effect. However, because donor stem cells are not selected for specificity for leukemia antigens and commonly recognized proteins expressed by many other host tissues, substantial morbidity and mortality from GVHD can occur.

The scientists theorized that infusions of T-cells that target WT1 could potentially promote additional anti-leukemic activity without inducing GVHD. WT1 is expressed 10 to 1,000 times higher in leukemic cells compared to normal CD34 blood stem cells, and the magnitude of expression correlates with the aggressiveness of acute myeloid leukemia, acute lymphoid leukemia and myelodysplastic syndromes.

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Infusion of stem cells and specially generated T-cells from same donor improves leukemia survival

Measure would start stem cell research center at KU Med

Topeka A bill pushed by abortion opponents that would require the Kansas University Medical Center to establish a center that focuses on adult stem cell research will be debated in the Senate on Thursday.

Senate Bill 199, which would create the Midwest Stem Cell Therapy Center, was authored by 22 conservative Republican senators, including Senate President Susan Wagle of Wichita, Majority Leader Terry Bruce of Hutchinson, and Public Health and Welfare Chairwoman Mary Pilcher-Cook of Shawnee.

"This has the potential of putting Kansas on the map in making actual patient therapies available," Pilcher-Cook said.

Gov. Sam Brownback also expressed support for the concept.

"Having an adult stem cell center is not only highly plausible, it's being done and used in many places around the world," he said.

"If Kansas could take a leadership position in that, it could be a highly useful thing for people to get treatments. There are number of different maladies now being treated by non-controversial stem cell treatments," he said. He added, "Let's see what develops in the process and in the bill."

The bill would prohibit the center from using embryonic stem cells or cells taken from aborted fetal tissue. Abortion opponents oppose human embryonic stem cell research because it involves the destruction of the embryo.

Under the proposal, KU would appoint a director of the center who would be responsible for oversight of patient treatment and research with adult, cord blood and other non-embryonic stem cells.

The director could solicit grants, gifts and contributions. The bill also sets up a 13-member advisory board.

The center would require $1.1 million to renovate a lab and hire staff and $750,000 annually after that. But the funding has not been secured.

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Measure would start stem cell research center at KU Med

New Stem Cell Activating Anti-aging Serums Offer Hope for Damaged Skin

Damaged and aging skin can now be repaired and rejuvenated due to new advances in stem cell and telomerase technology. A new topical agent restores skin to a youthful appearance without a visit to a plastic surgeon or dermatologist.

Fleetwood, PA (PRWEB) February 26, 2013

Up until now, patients had to see a plastic surgeon or dermatologist to rejuvenate their skin. Recent developments and research in topical agents have made it less likely for one to need Botox, laser or fillers to restore their skin to a more youthful appearance or get rid of blemishes.

Dr. Dave Woynarowski MD, an anti-aging specialist, states that new combinations of topical serums applied to the skin have yielded some remarkable results without having painful injections or surgery.

Dr. Dave gave remarks, I was extremely skeptical about the possibility of repairing damaged skin with a topical 'on the skin' agent. After all, the cosmetics industry has been hawking this stuff for decades to the tune of several billion dollars. None of it seemed to work very well. But recently there is research to back up specific agents that, when used in combination, can do some pretty amazing age reversal, even on damaged skin. I have a lot of friends who are plastic surgeons or anti-aging dermatologists so I decided to let them have the latest serum we devised called RG-Cell and see what they said. Bottom line: The patients love it for home use as well as post-treatment recovery, and it really does work far better than any of us anticipated!

While pleasantly surprised, he also said there are drawbacks.

This procedure takes longer to see results. It is not as aggressive, painful or expensive as injections, fillers, lasers or surgery, and it cannot be expected to deliver the same results in the same time frame.

The more wrinkled, sun damaged or blemished your skin is, the longer it takes using topical serums to reduce the damage youve accumulated. But, there is no down time either because you dont burn, puff or cut the skin. Its also very easy to use, so you dont have to depend on a skin care professional to administer it. Anyone can use it!

Of course, Dr. Dave encourages visiting a skin care professional first.

Your plastic surgeon, dermatologist or a good cosmetologist may actually already have RG-Cell, although it is very new and hard to get. Odds are the cutting edge ones will know about it and already carry it.

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New Stem Cell Activating Anti-aging Serums Offer Hope for Damaged Skin

Sweet news for stem cell's 'Holy Grail'

Feb. 26, 2013 Scientists have used sugar-coated scaffolding to move a step closer to the routine use of stem cells in the clinic and unlock their huge potential to cure diseases from Alzheimer's to diabetes.

Stem cells have the unique ability to turn into any type of human cell, opening up all sorts of therapeutic possibilities for some of the world's incurable diseases and conditions. The problem facing scientists is how to encourage stem cells to turn into the particular type of cell required to treat a specific disease.

But researchers at the University of Manchester's School of Materials and Faculty of Life Sciences have developed a web-like scaffold, coated with long-sugar molecules, that enhances stem-cell cultures to do just this. The scaffold is formed by a process known as 'electrospinning', creating a mesh of fibres that mimic structures that occur naturally within the body.

The team's results -- presented in the Journal of Biological Chemistry -- are particularly promising, as the sugar molecules are presented on the surface of the fibres, retaining structural patterns important in their function. The sugars are also 'read' by the stem cells grown on the surface, stimulating and enhancing the formation of neuronal cell types.

Lead author Dr Catherine Merry, from Manchester's Stem Cell Glycobiology group, said: "These meshes have been modified with long, linear sugar molecules, which we have previously shown play a fundamental role in regulating the behaviour of stem cells. By combining the sugar molecules with the fibre web, we hoped to use both biochemical and structural signals to guide the behaviour of stem cells, in a similar way to that used naturally by the body. This is the Holy Grail of research into developing new therapeutics using stem cell technology."

The group anticipate that the combination of the sugar molecules with the fibre web will aid both the growth of stem cells and the formation of different cell types from the stem cell population.

Possible applications include tissue engineering, where the meshes could support cells differentiating to form bone, liver or blood vessels, for example. The meshes also have potential therapeutic implications in the treatment of diseases such as multiple osteochondroma (MO), a rare disease creating bony spurs or lumps caused by abnormal production of these sugar molecules.

Co-author Professor Tony Day, from Manchester's Wellcome Trust Centre for Cell-Matrix Research, said: "This cross-faculty collaboration provides exciting new possibilities for how we might harness the adhesive interactions of extracellular matrix to manipulate stem cell behaviour and realise their full therapeutic potential."

The study was funded by the Medical Research Council and Engineering and Physical Sciences Research Council Human Frontiers Scientific Programme.

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Sweet news for stem cell's 'Holy Grail'

Duke doctor: Stem cell therapy might help heart disease patients

Durham, N.C. People with heart disease have more treatment options than ever. However, sometimes nothing gets rid of continued chest pain known as angina. Researchers say they are looking at a special stem cell therapy to help those patients.

Danny Darden, 49, has heart disease and frequent chest pain despite two years worth of every treatment, surgery and medication available to stop it.

If I walk around the block, I give out and have chest pains, he said.

Duke cardiologist Dr. Tom Povsic included Darden in a phase 3 trial looking for benefits of a special stem cell therapy to stimulate the growth of new vessels feeding blood to the heart.

In certain patients, the arteries can no longer be fixed, or bypass surgery can't be used to fix the arteries. And in those patients, novel therapies are sorely needed, Povsic said. So, the stem cells in this particular case are obtained from the patient themselves.

The cells, originating in the bone marrow, are stimulated and released into the blood stream, extracted and then administered directly into the heart through a special catheter.

Last week, I was injected with the stem cells, Darden said. I'm excited to be in it, because I feel it's going to work, and even if it (doesnt) work for me, it's going to work for other people.

The study is blind, meaning Darden may have received a fake infusion. Participants are followed for two years. A smaller previous study showed promising results.

The benefit that was seen in the early study far exceeds what was seen with many medicines that are approved for angina relief, Povsic said.

Researchers say if the stem cell therapy benefits are confirmed in patients with angina, it could also be studied in patients dealing with stroke, heart attack or heart failure.

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Duke doctor: Stem cell therapy might help heart disease patients

'Holy Grail' of stem cell research discovered

Washington, February 27 (ANI): Scientists have developed sugar-coated scaffolding to improve stem cell technology to cure some of the world's incurable diseases and conditions.

Stem cells have the unique ability to turn into any type of human cell, opening up all sorts of therapeutic possibilities for diseases from Alzheimer's to diabetes.

But how to encourage stem cells to turn into the particular type of cell required to treat a specific disease is the problem that scientists are facing now.

Now researchers at the University of Manchester's School of Materials and Faculty of Life Sciences have developed a web-like scaffold, coated with long-sugar molecules, that enhances stem-cell cultures to do just this.

The scaffold is formed by a process known as 'electrospinning', creating a mesh of fibres that mimic structures that occur naturally within the body.

The team's results are particularly promising, as the sugar molecules are presented on the surface of the fibres, retaining structural patterns important in their function. The sugars are also 'read' by the stem cells grown on the surface, stimulating and enhancing the formation of neuronal cell types.

"These meshes have been modified with long, linear sugar molecules, which we have previously shown play a fundamental role in regulating the behaviour of stem cells. By combining the sugar molecules with the fibre web, we hoped to use both biochemical and structural signals to guide the behaviour of stem cells, in a similar way to that used naturally by the body. This is the Holy Grail of research into developing new therapeutics using stem cell technology," said lead author Dr Catherine Merry, from Manchester's Stem Cell Glycobiology group.

The group anticipate that the combination of the sugar molecules with the fibre web will aid both the growth of stem cells and the formation of different cell types from the stem cell population.

Possible applications include tissue engineering, where the meshes could support cells differentiating to form bone, liver or blood vessels, for example.

The meshes also have potential therapeutic implications in the treatment of diseases such as multiple osteochondroma (MO), a rare disease creating bony spurs or lumps caused by abnormal production of these sugar molecules.

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'Holy Grail' of stem cell research discovered

Cedars-Sinai Invites High School Students to Submit Essays, Attend Stem Cell Program

Newswise LOS ANGELES (Feb. 24, 2013) Three winners of a high school essay contest on stem cells will receive a cash award and the chance to volunteer in a stem cell research laboratory during the summer. All high school students essayists or not and parents and teachers are invited to a 5 to 7 p.m. program on March 14 at Cedars-Sinai Medical Center to learn more about these cells that may revolutionize many medical therapies.

Students who choose to participate in the contest must submit by March 1 an essay on any one of three topics: Discuss the ethical and social issues involved with the use of embryonic stem cells Discuss the recent successes of the use of stem cells in therapy for human diseases Discuss the challenges of making stem cell therapies more viable for human use Winning essays will be chosen by a selection committee that will value content over length, although essays are expected to be long enough to address the topic researched. References, which must be cited in the text, may include periodicals, textbooks and websites, but not Wikipedia. Awards range from $200 to $500. Winners will be announced during the March 14 program, Introduction to the World of Stem Cells. Advanced registration is available at http://www.cedars-sinai.edu/neurosurgeryconferences, under Student Conferences; same-day registration will begin at 4:30 p.m.

Cedars-Sinai research scientists and clinicians will present sessions on:

An introduction to stem cells and issues related to different types Differing scientific opinions, ethical issues and how scientists are working to resolve conflicts Adult stem cells versus embryonic stem cells for therapy Careers related to stem cells Stem cell Jeopardy! game Presentation of essay awards

The program will be led by John S. Yu, MD, vice chair of the Department of Neurosurgery and director of surgical neuro-oncology, and Dwain Morris-Irvin, PhD, neural stem cell research scientist and principal investigator with the Maxine Dunitz Neurosurgical Institute at Cedars-Sinai.

Ahmed Ibrahim, who has a masters in public health and is in Cedars-Sinais Graduate Program in Biomedical Science and Translational Medicine, also will speak. As a high school student, Ibrahim participated in a summer research project at Cedars-Sinai. He now conducts stem cell research at the Cedars-Sinai Heart Institute, which in 2009 performed the first procedure where a heart attack patients own heart tissue was used to grow specialized stem cells that were injected back into the heart. The researchers found significant reduction in the size of heart attack-caused scars in patients who underwent the experimental stem cell procedure, compared to other heart attack patients who did not receive the experimental therapy.

For questions or essay submission, contact Samantha Phu, academic program coordinator for the Department of Neurosurgery, at phus@cshs.org or (310) 423-9522.

Introduction to the World of Stem Cells, which will be in Cedars-Sinais Harvey Morse Auditorium, is one of three programs to be presented by the Department of Neurosurgery during Brain Awareness Week March 11-17. The annual Brainworks program for seventh and eighth graders will be from 10 a.m. to 1:10 p.m. on March 11; a two-day conference for scientific and health care professionals on nanomedicine for imaging and treatment will be on March 15 and 16.

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VIDEOLINK ENABLED Thanks to a new, state-of-the-art in-house studio, Cedars-Sinai Medical Center can now instantly broadcast quality HD video directly to newsrooms around the world.

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Cedars-Sinai Invites High School Students to Submit Essays, Attend Stem Cell Program

YaFarm Technologies Announces ISCI Clinical Study

PITTSTON, ME--(Marketwire - Feb 25, 2013) - YaFarm Technologies, Inc. ( PINKSHEETS : YFRM ) (YaFarm, or the Company) announced todaythatthe Integrative Stem Cell Institute (ISCI), apremier provider of point-of-care, stem cell-based therapies, has initiatedits first clinical study in Degenerative Neuromuscular Diseases (DNMD).

The clinical studies will be conducted at the ISCI facility in the Hospital Galenia in Cancun, Mexico and will consist of an integrative approach that will combine autologous, adult progenitor (stem) cells with physical therapy, nutrition and other complementary treatments to multiple sclerosis (MS),Alzheimer'sand Parkinson's disease.Patients will spend up to three weeks in Cancun for the therapies. The patient's own cells will be processed in the ISCI's state-of-the-art laboratory with a class 10,000, ISO 7 clean room.As part of the study protocol all patients will have to meet a strict set of inclusion and exclusion criteria and be evaluated by a 3rd party physician prior to treatment who will also serve to provide long-term and independent collection of outcome data, and the reporting of any adverse event or complication stemming from the treatment.

"Today there are literally hundreds of thousands of people living with DNMD," says David Audley, CEO of the ISCI. "Estimates from the National Institutes of Health provide a grim reminder to what many already know: these diseases touch many people." The National Institutes for Neurological Disorders and Stroke (NINDS) estimates that there are currently 250,000 people in the US alone with MS(1), while the University of Kansas Institute for Neurological Discoveries believes thatParkinson's disease affects nearly 1.5 million(2) and the National Institutes forAging estimates that over 5 million Americans may suffer fromAlzheimer's.(3) "And while conventional medicine may provide relief for many," continues Mr Audley, "Thousands of others find themselves suffering with limited or no options for treatment. It is for these patients that we have initiated these studies."

About The Integrative Stem Cell Institute (ISCI)The Integrative Stem Cell Institute (ISCI) is a premier provider of point-of-care, stem cell-based therapies for patients from around the world. With a state of the art laboratory housed within the Hospital Galenia in Cancun, Mexico, the ISCI combines the most advanced scientific application of stem cells with second to none medical care within the structure of adaptive clinical trials to effectively track long term outcomes and assure patient safety. More information on the Integrative Stem Cell Institute is available at http://www.iscelli.com

SAFE HARBOR STATEMENT

This press release may contain certain forward-looking statements and information, as defined within the meaning of Section 27A of the Securities Act of 1933 and Section 21E of the Securities Exchange Act of 1934, and is subject to the Safe Harbor created by those sections. Forward-looking statements are inherently subject to risks and uncertainties, some of which cannot be predicted or quantified. This material contains statements about expected future events and/or financial results that are forward-looking in nature and subject to risks and uncertainties. Future events and actual results could differ materially from those set forth in, contemplated by, or underlying the forward-looking statements. The risks and uncertainties to which forward-looking statements are subject include, but are not limited to, the effect of government regulation, competition, adequate financing, and other material risks. Such forward-looking statements by definition involve risks, uncertainties and other factors, which may cause the actual results, performance, or achievements to be materially different from the statements made herein.

(1) NINDS: http://www.ninds.nih.gov/disorders/multiple_sclerosis/detail_multiple_sclerosis.htm

(2) Univ of Kansas: http://www.indkc.org/neuromuscular_and_movement.html

(3) NIA: http://www.nia.nih.gov/alzheimers/publication/alzheimers-disease-fact-sheet

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YaFarm Technologies Announces ISCI Clinical Study