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Stem cell controversy could see new life with regent election shuffle

By adminMarch 25, 2012Stem Cell Medical Center

The departure of three University of Nebraska regents this year and the re-election campaign of a fourth is reviving debate over a controversial issue some believe should be laid to rest.

Two of the three departing regents, Chuck Hassebrook of Lyons and Jim McClurg of Lincoln, opposed a proposal considered by the Board of Regents in November 2009 that would have limited embryonic stem cell research at the University of Nebraska Medical Center to only cell lines approved under former President George W. Bush. Expansion had become a possibility since President Barack Obama relaxed the Bush guidelines.

Hassebrook and McClurg joined two other regents in killing the proposal by voting against the four who supported it. Pro-life activists believe embryonic stem cell research is morally wrong because harvesting the stem cells requires destroying an embryo.

Regent Randy Ferlic of Omaha, who supported the proposal to limit the research, also will leave the Board of Regents after this year. Bob Whitehouse of Papillion, who opposed the measure, is seeking re-election. Ten candidates are seeking the three retiring regents' seats, and candidate, Larry Bradley, is challenging Whitehouse.

Pro-life advocates said they see opportunity in the departure of two of the regents who opposed limiting stem cell research, but they aren't ready to say they'll ask like-minded regents to reintroduce a proposal to limit the research.

"That would be a place we could stand to gain if we had pro-lifers in the race who we're willing to endorse," said Julie Schmit-Albin, executive director of Nebraska Right to Life.

Nebraska Right to Life endorsed McClurg during his regents campaign, and Schmit-Albin said she believed he would have supported limiting embryonic stem cell research. When he voted against the proposal, however, Nebraska Right to Life ended its support of him, she said.

The group has become more careful in choosing candidates to endorse, Schmit-Albin said, sending out surveys to candidates and incumbents seeking re-election before the primary. It has yet to receive responses from those surveys, she said, so Nebraska Right to Life has yet to endorse any candidates this year.

Schmit-Albin said some regents candidates have contacted the group seeking endorsement, but she declined to name them. She said the group wouldn't endorse Whitehouse because he voted against the stem cell proposal in November 2009.

"He already has a record," she said.

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Stem cell controversy could see new life with regent election shuffle

Stem cell therapy could repair some heart damage: Study

By adminMarch 25, 2012Uncategorized

Published on Mar 25, 2012

CHICAGO (AFP) - Patients with advanced heart disease who received an experimental stem cell therapy showed slight improvements in blood pumping but no change in most of their symptoms, United States researchers said on Saturday.

Study authors described the trial as the largest to date to examine stem cell therapy as a route to repairing the heart in patients with chronic ischemic heart disease and left ventricular dysfunction.

Previous studies have established that the approach is safe in human patients, but none had examined how well it worked on a variety of heart ailments.

The clinical trial involved 92 patients, with an average age of 63, who were picked at random to get either a placebo or a series of injections of their own stem cells, taken from their bone marrow, into damaged areas of their hearts.

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Stem cell therapy could repair some heart damage: Study

A new shortcut for stem cell programming

By adminMarch 24, 2012Stem Cell Medical Center

ScienceDaily (Mar. 22, 2012) Researchers at the University of Bonn artificially derive brain stem cells directly from the connective tissue of mice.

Scientists at the Life & Brain Research Center at the University of Bonn, Germany, have succeeded in directly generating brain stem cells from the connective tissue cells of mice. These stem cells can reproduce and be converted into various types of brain cells. To date, only reprogramming in brain cells that were already fully developed or which had only a limited ability to divide was possible. The new reprogramming method presented by the Bonn scientists and submitted for publication in July 2011 now enables derivation of brain stem cells that are still immature and able to undergo practically unlimited division to be extracted from conventional body cells. The results have now been published in the current edition of the journal Cell Stem Cell.

The Japanese stem cell researcher Professor Shinya Yamanaka and his team produced stem cells from the connective tissue cells of mice for the first time in 2006; these cells can differentiate into all types of body cells. These induced pluripotent stem cells (iPS cells) develop via reprogramming into a type of embryonic stage. This result made the scientific community sit up and take notice. If as many stem cells as desired can be produced from conventional body cells, this holds great potential for medical developments and drug research. "Now a team of scientists from the University of Bonn has proven a variant for this method in a mouse model," report Dr. Frank Edenhofer and his team at the Institute of Reconstructive Neurobiology (Director: Dr. Oliver Brstle) of the University of Bonn. Also involved were the epileptologists and the Institute of Human Genetics of the University of Bonn, led by Dr. Markus Nthen, who is also a member of the German Center for Neurodegenerative Diseases.

Edenhofer and his co-workers Marc Thier, Philipp Wrsdrfer and Yenal B. Lakes used connective tissue cells from mice as a starting material. Just as Yamanaka did, they initiated the conversion with a combination of four genes. "We however deliberately targeted the production of neural stem cells or brain stem cells, not pluripotent iPS multipurpose cells," says Edenhofer. These cells are known as somatic or adult stem cells, which can develop into the cells typical of the nervous system, neurons, oligodendrocytes and astrocytes.

The gene "Oct4" is the central control factor

The gene "Oct4" is a crucial control factor. "First, it prepares the connective tissue cell for reprogramming, later, however, Oct4 appears to prevent destabilized cells from becoming brain stem cells" reports the Bonn stem cell researcher. While this factor is switched on during reprogramming of iPS cells over a longer period of time, the Bonn researchers activate the factor with special techniques for only a few days. "If this molecular switch is toggled over a limited period of time, the brain stem cells, which we refer to as induced neural stem cells (iNS cells), can be reached directly," said Edenhofer. "Oct4 activates the process, destabilizes the cells and clears them for the direct reprogramming. However, we still need to analyze the exact mechanism of the cellular conversion."

The scientists at the University of Bonn have thus found a new way to reprogram cells, which is considerably faster and also safer in comparison to the iPS cells and embryonic stem cells. "Since we cut down on the reprogramming of the cells via the embryonic stage, our method is about two to three times faster than the method used to produce iPS cells," stresses Edenhofer. Thus the work involved and the costs are also much lower. In addition, the novel Bonn method is associated with a dramatically lower risk of tumors. As compared to other approaches, the Bonn scientists' method stands out due to the production of neural cells that can be multiplied to a nearly unlimited degree.

Low risk of tumor and unlimited self renewal

A low risk of tumor formation is important because in the distant future, neural cells will replace defective cells of the nervous system. A vision of the various international scientific teams is to eventually create adult stem cells for example from skin or hair root cells, differentiate these further for therapeutic purposes, and then implant them in damaged areas. "But that is still a long way off," says Edenhofer. However, the scientists have a rather urgent need today for a simple way to obtain brain stem cells from the patient to use them to study various neurodegenerative diseases and test drugs in a Petri dish. "Our work could form the basis for providing practically unlimited quantities of the patient's own cells." The current study was initially conducted on mice. "We are now extremely eager to see whether these results can also be applied to humans," says the Bonn scientist.

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Stem-Cell Trial Failed to Treat Heart Failure

By adminMarch 24, 2012Uncategorized

SATURDAY, March 24 (HealthDay News) -- An innovative approach using patients' own bone marrow cells to treat chronic heart failure came up short in terms of effectiveness, researchers report.

Use of stem cell therapy to repair the slow, steady damage done to heart muscle and improve heart function is safe, but has not been shown to improve most measures of heart function, the study authors said.

"For the measures we paid most attention to, we saw no effect, there is no question about that," said researcher Dr. Lemuel Moye, a professor of biostatistics at the University of Texas School of Public Health in Houston.

"Ultimately, this is going to pay off handsomely for individuals and for public health in general, but it's going to take years of work," Moye said. "We are the vanguard looking for new promising lines of research."

While the hoped-for results didn't materialize, there appeared to be a small improvement in some patients, he said. "When we looked at another commonly used measure of heart function called ejection fraction, or the strength of the heart's pumping, that's where all the action was," Moye noted.

It's hard to know which measures of heart function to look at, Moye explained. "We have had some difficulty with that," he said.

Future research will look at other measures of heart function, pay more attention to the characteristics of the cells that are injected and determine which cells are best, he added.

Cardiac cells and other types of specially prepared cells are available now that were not accessible when this study started in 2009, Moye pointed out.

The results of the trial, which was sponsored by the U.S. National Heart, Lung, and Blood Institute, were to be presented Saturday at the American College of Cardiology's annual meeting in Chicago. The report was also published online March 24 in the Journal of the American Medical Association.

For the study, Moye and colleagues worked with 92 patients, average age 63 and mostly male, who had heart failure with and without chest pain. They were randomly assigned to receive either an injection of 100 million bone marrow cells from their own bone marrow, or an inactive placebo. Patients in both groups also received aggressive medical therapy.

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Stem-Cell Trial Failed to Treat Heart Failure

Cell therapy using patient's own bone marrow may present option for heart disease

By adminMarch 24, 2012Stem Cell Treatment

Public release date: 24-Mar-2012 [ | E-mail | Share ]

Contact: Kristin Wincek kwincek@mhif.org 612-863-0249 Minneapolis Heart Institute Foundation

CHICAGO Cell therapy may present an option for patients with ischemic heart disease to use their own bone marrow cells to repair the damaged areas of their hearts, and may pave the way for future treatment options, according to the FOCUS trial, which will be presented as a late-breaking clinical trial March 24 at the 61st annual American College of Cardiology (ACC) scientific session.

This is the largest study to date to look at stem cell therapy, using a patient's own stem cells, to repair damaged areas of the heart in patients with chronic ischemic heart disease and left ventricular dysfunction. Researchers found that left ventricular ejection fraction (the percentage of blood leaving the heart's main pumping chamber) increased by a small but significant amount (2.7 percent) in patients who received stem cell therapy. The study also revealed that the improvement in ejection fraction correlated with the number of progenitor cells (CD34+ and CD133+) in the bone marrow; and this information will help in evaluating and designing future therapies and trials.

"FOCUS is an incredibly important trial, as it has informed the cell therapy community how to better treat this high-risk patient population, and allows us to enter into an exciting, next generation of stem cell therapy armed with more data," said study investigator Timothy D. Henry, MD, an interventional cardiologist at the Minneapolis Heart Institute (MHI) at Abbott Northwestern Hospital in Minneapolis and director of research with the Minneapolis Heart Institute Foundation.

This multicenter study was conducted by the Cardiovascular Cell Therapy Research Network (CCTRN), which is supported through a research grant from the National Institutes of Health's National, Heart, Lung and Blood Institute (NHLBI), with the goal to evaluate novel stem cell-based treatment strategies for individuals with cardiovascular disease.

FOCUS will be presented at ACC.12 by its lead investigator Emerson C. Perin, MD, PhD, director of clinical research for cardiovascular medicine at the Texas Heart Institute, one of the five sites in the CCTRN. The Minneapolis Heart Institute is another site of the five in the network, and a large number of CCTRN patients were enrolled in Minnesota.

For this study, which took place between April 2009 and April 2011, the five sites randomly selected 92 patients to receive stem cell treatment or placebo. The symptomatic patients, with an average age 63, all had chronic ischemic heart disease and an ejection fraction of less than 45 percent (baseline 34 percent) along with heart failure and/or angina and were no longer candidates for revascularization. "These patients had no other options, as medical management failed to improve their symptoms," explained the study's co-investigator Jay Traverse, MD, an interventionalist cardiologist at the Minneapolis Heart Institute at Abbott Northwestern Hospital and physician researcher with the Minneapolis Heart Institute Foundation.

Bone marrow was aspirated from the patients and processed to obtain just the mononuclear fraction of the marrow. In patients randomly selected to receive stem cell therapy, physicians inserted a catheter into the heart's left ventricle to inject 100 million stem cells in more than 15 sites that showed damage on the electromechanical mapping image of the heart.

"Studies such as these are able to be completed much faster because of the team approach of the network" said Sonia I. Skarlatos, PhD, NHBLI's deputy director of the division of cardiovascular sciences and program director of CCTRN.

Chevy Hockenberry, Mercersburg, gets stem cell transplant at Hershey

By adminMarch 24, 2012Stem Cell Treatment

A local toddler with a very rare disease has begun a long recovery in Penn State Hershey Childrens Hospital after chemotherapy and a stem cell transplant.

Chevy Hockenberry, the 23-month-old son of Lance Hockenberry and Melissa Johnson of Mercersburg, suffers from Hurlers syndrome, a rare inherited genetic disorder that if left untreated, causes death within five years.

People with Hurlers syndrome do not produce lysosomal alpha-L-iduronidase, an enzyme that helps break down long chains of sugar molecules. The long sugar chains build up in the body, damage internal organs and eventually lead to death.

The transplant

Chevy was diagnosed with Hurlers in January, but his symptoms started showing up long before that.

He was always sick, Johnson said by phone from Hershey. Chevy was always in and out of the hospital and had developed pneumonia and mild scoliosis.

Once he was diagnosed, the only treatment option for was a stem cell transplant.

Its not curable, Johnson said. But the stem cell transplant stops the progression.

The stem cells came from donated umbilical cords and Chevys parents because they are both carriers of Hurlers.

Chevy had multiple weeks of enzymes infusion followed by nine days of chemotherapy before the stem cell transplant.

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Chevy Hockenberry, Mercersburg, gets stem cell transplant at Hershey

Stem cell treatment could repair heart damage

By adminMarch 24, 2012Stem Cell Treatment

CHICAGO - Patients with advanced heart disease who received an experimental stem cell therapy showed slightly improved heart function, researchers said at a major U.S. cardiology conference on Saturday.

The patients all had chronic heart disease, along with either heart failure or angina, and their left ventricles were pumping at less than 45 per cent of capacity.

All the participants in the study were ineligible for revascularization surgery, such as coronary bypass to restore blood flow, because their heart disease was so advanced.

Those who received the stem cell therapy saw a small but significant boost in the heart's ability to pump blood, measuring the increase from the heart's main pumping chamber at 2.7 per cent more than placebo patients.

"This is the kind of information we need in order to move forward with the clinical use of stem cell therapy," said lead investigator Emerson Perin, director of clinical research for cardiovascular medicine at the Texas Heart Institute.

Perin's research, which was conducted between 2009 and 2011 across five U.S sites, was presented at the annual American College of Cardiology Conference in Chicago.

The technique involved taking bone marrow samples from the patients and processing the marrow to extract stem cells. Doctors then injected the cells via catheter into the heart's left ventricle.

The injections, comprising some 100 million stem cells in all, were specifically targeted at damaged areas, identified by real-time electromechanical mapping of the heart.

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Stem cell treatment could repair heart damage

Naperville Residents Protest Plans For Fertility Clinic

By adminMarch 23, 2012Stem Cell Clinic

Embryologist Ric Ross holds a dish with human embryos at the La Jolla IVF Clinic February 28, 2007 in La Jolla, California. The clinic accepts donated embryos from around the country through The Stem Cell resource which are then given to stem cell research labs for research. (Credit: Sandy Huffaker/Getty Images)

NAPERVILLE, Ill. (CBS) Controversy has erupted over a plan for a fertility clinic in downtown Naperville.

As WBBM Newsradios Lisa Fielding reports, Naperville city Councilman Bob Feesler says has already heard from several residents about the proposed facility to be built at the northwest corner of Washington and Benton streets.

LISTEN: WBBM Newsradios Lisa Fielding reports

Ive already gotten a dozen e-mails, all supportive of my position that this is a bad use of that property, Feesler said.

A local doctor, Randy Morris, wants the clinic to provide medications, insemination, in-vitro fertilization and surgical procedures. Some residents are concerned about some of those services, saying they devalue and objectify the sanctity of human life.

Feesler says zoning laws do allow for such a clinic, but that doesnt necessarily mean it should get an automatic green light.

For me the question is, is that the best use? Is that what we want? Is that the right thing? Feesler said.

Feesler says hes concerned about potential protests, similar to those at the Planned Parenthood facility in Aurora. The issue will be up for a final vote on April 3.

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Naperville Residents Protest Plans For Fertility Clinic

Somatic stem cells obtained from skin cells for first time ever

By adminMarch 23, 2012Stem Cell Medicine

"Our research shows that reprogramming somatic cells does not require passing through a pluripotent stage," explains Schler. "Thanks to this new approach, tissue regeneration is becoming a more streamlined - and safer - process."

Up until now, pluripotent stem cells were considered the 'be-all and end-all' of stem cell science. Historically, researchers have obtained these 'jack-of-all-trades' cells from fully differentiated somatic cells. Given the proper environmental cues, pluripotent stem cells are capable of differentiating into every type of cell in the body, but their pluripotency also holds certain disadvantages, which preclude their widespread application in medicine. According to Schler, "pluripotent stem cells exhibit such a high degree of plasticity that under the wrong circumstances they may form tumours instead of regenerating a tissue or an organ." Schler's somatic stem cells offer a way out of this dilemma: they are 'only' multipotent, which means that they cannot give rise to all cell types but merely to a select subset of them - in this case, a type of cell found in neural tissue - a property, which affords them an edge in terms of their therapeutic potential.

To allow them to interconvert somatic cells into somatic stem cells, the Max Planck researchers cleverly combined a number of different growth factors, proteins that guide cellular growth. "One factor in particular, called Brn4, which had never been used before in this type of research, turned out to be a genuine 'captain' who very quickly and efficiently took command of his ship - the skin cell - guiding it in the right direction so that it could be converted into a neuronal somatic stem cell," explains Schler. This interconversion turns out to be even more effective if the cells, stimulated by growth factors and exposed to just the right environmental conditions, divide more frequently. "Gradually, the cells lose their molecular memory that they were once skin cells," explains Schler. It seems that even after only a few cycles of cell division the newly produced neuronal somatic stem cells are practically indistinguishable from stem cells normally found in the tissue.

Schler's findings suggest that these cells hold great long-term medical potential: "The fact that these cells are multipotent dramatically reduces the risk of neoplasm formation, which means that in the not-too-distant future they could be used to regenerate tissues damaged or destroyed by disease or old age; until we get to that point, substantial research efforts will have to be made." So far, insights are based on experiments using murine skin cells; the next steps now are to perform the same experiments using actual human cells. In addition, it is imperative that the stem cells' long-term behaviour is thoroughly characterized to determine whether they retain their stability over long periods of time.

"Our discoveries are a testament to the unparalleled degree of rigor of research conducted here at the Mnster Institute," says Schler. "We should realize that this is our chance to be instrumental in helping shape the future of medicine." At this point, the project is still in its initial, basic science stage although "through systematic, continued development in close collaboration with the pharmaceutical industry, the transition from the basic to the applied sciences could be hugely successful, for this as well as for other, related, future projects," emphasizes Schler. This, then, is the reason why a suitable infrastructure framework must be created now rather than later. "The blueprints for this framework are all prepped and ready to go - all we need now are for the right political measures to be ratified to pave the way towards medical applicability."

More information: Han D.W., Tapia N., Hermann A., Hemmer K., Hing S., Arazo-Bravo M.J., Zaehres H., Frank S., Moritz S., Greber B., Yang J.H., Lee H.T., Schwamborn J.C., Storch A., Schler H.R. (2012) Direct Reprogramming of Fibroblasts into Neural Stem Cells by Defined Factors, Cell Stem Cell, CELL-STEM-CELL-D-11-00679R3

Provided by Max-Planck-Gesellschaft (news : web)

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Somatic stem cells obtained from skin cells for first time ever

Stem Cell Transplant Program Offered at UVA Medical Center

By adminMarch 23, 2012Stem Cell Medical Center

What used to be medical trash is now treating cancer. The University of Virginia's Medical Center is the first place in Virginia to take advantage of stem cells from umbilical cords and they are pleased with the results.

Dr. Mary Laughlin, the director of stem cell transplantation at UVA,said, "These are cells that are routinely thrown away, these cells save lives."

A lab within the UVA Medical Center contains numerous tubes where non-embryonic stem cells reside. They come from umbilical cord blood and give hope topatients suffering leukemia, multiple myeloma and lymphoma.

Dr. Laughlin added, "They can completely replace a patient's bone marrow in the immune system. Oneof 10 cancer patients are able to find those cells through existing adult registries."

Thefive million babies that are born each year will soon solve that problem. The cells that are normally tossed out attack cancer cells.

Denise Mariconda, a nurse within the stem cell transplant program, stated, "It looks like a blood transfusion." Dr. Laughlin added, "It is in many ways like a cancer vaccine."

The first transplants were made in January and the transplant program at the UVA Medical Center admits it takes getting used to.

Mariconda said, "It is a process that's not like having your heart fixed in a one-day setting and you know that it's better."

These cells are not cause for controversy. Dr. Laughlin said, "Use of cord-blood is approved by all religious groups including the Vatican."

Babies' immune systems are not fully educated at the time of birth, making these cells effective. Dr. Laughlin, added, "That allows us to cross transplant barriers."

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Stem Cell Transplant Program Offered at UVA Medical Center