Stem Cell Clinic

Cedars-Sinai researchers identify how heart stem cells orchestrate regeneration

By adminMay 7, 2014Uncategorized

PUBLIC RELEASE DATE:

6-May-2014

Contact: Sally Stewart sally.stewart@cshs.org 310-248-6566 Cedars-Sinai Medical Center

LOS ANGELES (EMBARGOED UNTIL NOON ET ON MAY 6, 2014) Investigators at the Cedars-Sinai Heart Institute whose previous research showed that cardiac stem cell therapy reduces scarring and regenerates healthy tissue after a heart attack in humans have identified components of those stem cells responsible for the beneficial effects.

In a series of laboratory and lab animal studies, Heart Institute researchers found that exosomes, tiny membrane-enclosed "bubbles" involved in cell-to-cell communication, convey messages that reduce cell death, promote growth of new heart muscle cells and encourage the development of healthy blood vessels.

"Exosomes were first described in the mid-1980s, but we only now are beginning to appreciate their potential as therapeutic agents. We have found that exosomes and the cargo they contain are crucial mediators of stem cell-based heart regeneration, and we believe this might lead to an even more refined therapy using the 'active ingredient' instead of the entire stem cell," said Eduardo Marbn, MD, PhD, director of the Cedars-Sinai Heart Institute and a pioneer in developing investigational cardiac stem cell treatments.

"The concept of exosome therapy is interesting because it could potentially shift our strategy from living-cell transplantation to the use of a non-living agent," he added. "Stem cells must be carefully preserved to keep them alive and functioning until the time of transplant, and there are some risks involved in cell transplantation. In contrast, exosome therapy may be safer and simpler and based on a product with a longer shelf life."

In lab experiments, the researchers isolated exosomes from specialized human cardiac stem cells and found that exosomes alone had the same beneficial effects as stem cells. Exosomes also produced the same post-heart attack benefits in mice, decreasing scar size, increasing healthy heart tissue and reducing levels of chemicals that lead to inflammation. Even when exosomes were injected in mice after heart attack scars were well-established, and traditionally viewed as "irreversible," they brought about multiple structural and functional benefits.

Exosomes transport small pieces of genetic material, called microRNAs, that enable cells to communicate with neighboring cells to change their behavior. The researchers pinpointed one such microRNA one that is especially plentiful in cardiac stem cell exosomes as responsible for some of the benefits. It is likely, they believe, that this and other microRNAs in the exosomes work together to produce the regenerative effects.

"The exosomes appear to contain the signaling information needed to regenerate healthy heart tissue, they are naturally able to permeate cells, and they have a coating that protects their payloads from degradation as they shuttle from cell to cell," said Marbn, senior author of an article in the May 6, 2014 Stem Cell Reports. "Injecting exosomes derived from specialized cardiac stem cells may be an attractive alternative to the transplantation of living cells."

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Cedars-Sinai researchers identify how heart stem cells orchestrate regeneration

OMICS Groups Cell Science & Stem Cell Research Congress to Explore the Recent Developments

By adminMay 7, 2014Stem Cell Treatment

Valencia, spain (PRWEB) May 07, 2014

Cell Science International Conference is being organized to broaden the scope of the research in the field of Tumorogenesis, Recombinant DNA technology, Cancer cell development and signaling pathway, Evolution of cancer, Genetic engineering and Gene therapy, Tumor suppressor genes, Tissue Engineering, Stem cell treatment, Bioinformatics and Computational biology, Bio Ethics and Patent Rights.

Eminent speakers including Stewart Sell, University of Albany, USA, Sudhakar Akul Yakkanti, SRI International, USA, and Diana Anderson, University of Bradford, UK will be joining their peers at Cell Science-2014, an International Conference 2014 to share their upcoming researches and experience in the field of Cell Science.

James L Sharely, Director of The Adult Stem Cell Technology Centre, LLC, USA organizes a symposium on Stem Cell DNA Segregation and Genetic Fidelity. Ornella Parolini, President, International Placenta Stem Cell Research (IPLASS) holds another symposium on Fetal-derived Stem cells: Characteristics and Applications during Cell Science-2014.

The GID Group, Inc. that manufactures and distributes versatile tissue processing system, sterile disposable canister like GID 700 and GID SVF-1 exhibits its products and services during the conference.

The Organizing Committee welcomes you to attend Cell Science-2014 which includes Ornella Parolini, IPLASS (International Placenta Stem Cell Society), Italy; Sudhakar A Yakkanti, Stanford Research Institute (SRI) International, USA; Stewart Sell, University of Albany, USA; Valles Marti, University of Valencia, Spain; LilianSoraya, University of Valencia, Spain; James L. Sherley, The Adult Stem Cell Technology Center, LLC, USA; Diana Anderson, University of Bradford, UK; Shiaw-Yih (Phoebus) Lin, Anderson Cancer Center The University of Texas, USA; Behjatolah Monzavi Karbassi, University of Arkansas for Medical Sciences, USA.

Cell Science-2014 official partners include The Adult Stem Cell Technology Center, LLC USA and the International Placenta Stem Cell Research (IPLASS).

The three day conference will be hosting significant sessions like Keynote forum, speaker Sessions, Poster sessions, awards and Exclussive session on Successful Postdoctoral Fellowship training.

In addition to this, Soraya L Valles, University of Valencia, Spain organized a pre-conference workshop on NeuroSceince at Salon de Grados, Faculty of Medicine Valencia, Spain on February 25th, 2014 thus promulgating this pragmatic conference.

OMICS Publishing Group hosts 350 Open Access, Online ScientificJournals and hosts more than 100 Scientific Conferences worldwide. With 30,000 strong editorial board members drawn from academics, research and industries, OMICS Group Journals will publish the best papers presented in Cell Science- 2014.

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OMICS Groups Cell Science & Stem Cell Research Congress to Explore the Recent Developments

Unlicensed stem cell doctor slapped with charges over patient's death

By adminMay 7, 2014Stem Cell Treatment

Charges of syndicated estafa, illegal medical practice and murder were filed on Tuesday against Dr. Zoharina Antonia Pedrera Carandang, also known as Dr. Antonia Carandang-Park, for practicing stem cell therapy on 23-year-old cancer patient Katherine Kate Tan. The treatment was alleged to have caused the Tan's death.

The charges were filed by Kate's father Bernard Tan before the Tagaytay Municipal Fiscal's Office. Aside from Carandang, owner and operator of Tagaytay-based Green & Young Health and Wellness Center, also charged were Joy Dimaranan, Estrella Maranan, Bebot Maranan and several other employees of the wellness center.

Tan also filed on Tuesday a separate administrative complaint against Park before Tagaytay's Office of the City Administrator, GMA News TV's Quick Response Team (QRT) reported.

According to the City Administrator's Office, Park had, in the past, applied for a permit to operate a medical clinic but was denied for failing to present the necessary documents, such as a Department of Health (DOH) certification.

Park, was, however, granted a permit to operate a massage clinic in 2012.

A caretaker at the wellness center, who received the copy of the criminal and administrative complaints, said Park had left the clinic Tuesday morning.

The Fiscal's Office also sent a letter to Park requiring her to respond to the complaint within two days, otherwise an investigation based only on the evidence presented by the Tans would be pursued.

The Office of the City Administrator also prohibited the wellness clinic from operating until a reply to the administrative complaint was filed.

Alternative treatment

In a separate complaint filed last month before the National Bureau of Investigation (NBI), Tan alleged that Park was not licensed by the Professional Regulation Commission (PRC) to practice medicine in the Philippines.

Stem Cell Basics: Introduction [Stem Cell Information]

By adminMay 7, 2014Stell Cell Research

Introduction: What are stem cells, and why are they important? What are the unique properties of all stem cells? What are embryonic stem cells? What are adult stem cells? What are the similarities and differences between embryonic and adult stem cells? What are induced pluripotent stem cells? What are the potential uses of human stem cells and the obstacles that must be overcome before these potential uses will be realized? Where can I get more information?

Stem cells have the remarkable potential to develop into many different cell types in the body during early life and growth. In addition, in many tissues they serve as a sort of internal repair system, dividing essentially without limit to replenish other cells as long as the person or animal is still alive. When a stem cell divides, each new cell has the potential either to remain a stem cell or become another type of cell with a more specialized function, such as a muscle cell, a red blood cell, or a brain cell.

Stem cells are distinguished from other cell types by two important characteristics. First, they are unspecialized cells capable of renewing themselves through cell division, sometimes after long periods of inactivity. Second, under certain physiologic or experimental conditions, they can be induced to become tissue- or organ-specific cells with special functions. In some organs, such as the gut and bone marrow, stem cells regularly divide to repair and replace worn out or damaged tissues. In other organs, however, such as the pancreas and the heart, stem cells only divide under special conditions.

Until recently, scientists primarily worked with two kinds of stem cells from animals and humans: embryonic stem cells and non-embryonic "somatic" or "adult" stem cells. The functions and characteristics of these cells will be explained in this document. Scientists discovered ways to derive embryonic stem cells from early mouse embryos nearly 30 years ago, in 1981. The detailed study of the biology of mouse stem cells led to the discovery, in 1998, of a method to derive stem cells from human embryos and grow the cells in the laboratory. These cells are called human embryonic stem cells. The embryos used in these studies were created for reproductive purposes through in vitro fertilization procedures. When they were no longer needed for that purpose, they were donated for research with the informed consent of the donor. In 2006, researchers made another breakthrough by identifying conditions that would allow some specialized adult cells to be "reprogrammed" genetically to assume a stem cell-like state. This new type of stem cell, called induced pluripotent stem cells (iPSCs), will be discussed in a later section of this document.

Stem cells are important for living organisms for many reasons. In the 3- to 5-day-old embryo, called a blastocyst, the inner cells give rise to the entire body of the organism, including all of the many specialized cell types and organs such as the heart, lung, skin, sperm, eggs and other tissues. In some adult tissues, such as bone marrow, muscle, and brain, discrete populations of adult stem cells generate replacements for cells that are lost through normal wear and tear, injury, or disease.

Given their unique regenerative abilities, stem cells offer new potentials for treating diseases such as diabetes, and heart disease. However, much work remains to be done in the laboratory and the clinic to understand how to use these cells for cell-based therapies to treat disease, which is also referred to as regenerative or reparative medicine.

Laboratory studies of stem cells enable scientists to learn about the cells essential properties and what makes them different from specialized cell types. Scientists are already using stem cells in the laboratory to screen new drugs and to develop model systems to study normal growth and identify the causes of birth defects.

Research on stem cells continues to advance knowledge about how an organism develops from a single cell and how healthy cells replace damaged cells in adult organisms. Stem cell research is one of the most fascinating areas of contemporary biology, but, as with many expanding fields of scientific inquiry, research on stem cells raises scientific questions as rapidly as it generates new discoveries.

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Stem Cell Basics: Introduction [Stem Cell Information]

Doctors perform living donor stem cell transplants in eye …

By adminMay 6, 2014Stem Cell Doctors

by Jim Ritter

Debra Astrug, who once feared she was going blind, can see fine now, thanks to a stem cell transplant she received from her daughter, Jessica.

The stem cells came from two pieces of tissue that Dr. Charles Bouchard of Loyola University Medical Center removed from the cornea of Jessica's left eye. When Bouchard proposed the innovative procedure, she immediately agreed.

"It's my mom," Jessica said. "If she needs part of my eye, she's got it."

Before the transplant, Debra Astrug's vision was extremely blurred like looking through a glass smeared with Vaseline. She could not read or drive. And when Jessica took her to buy groceries, Debra had to bring a magnifying glass to read labels.

"It was horrible," she said.

But since receiving the stem cell transplant, and wearing special contact lenses, Debra Astrug's vision has improved to 20/25.

Loyola is among a handful of centers that perform living-related corneal stem cell transplants on patients who have too few corneal stem cells. Ophthalmologists traditionally have treated such deficiencies by transplanting stem cells from deceased donors. In these cases, in order to prevent the patient's immune system from rejecting the donated stem cells, patients take immune-suppressing drugs for several years or longer. But such drugs can have toxic side effects and also increase the risk of infections, said Bouchard, who is chair of Loyola's Department of Ophthalmology.

Bouchard is performing corneal/limbal stem cell transplants from living donors who are first-degree relatives of patients. Because the donor and recipient are closely related, most patients can avoid taking systemic immune-suppressing drugs.

Stem cell transplants are the treatment of choice for patients who have severe cases of limbal stem cell deficiency, or LSCD. (Limbal refers to the border of the cornea and sclera. The cornea is the transparent front part of the eye, and the sclera is the white part of the eye.)

Beverly Hills Orthopedic Institute Now Offering Stem Cell Procedures for Hip Arthritis to Help Patients Avoid Surgery

By adminMay 6, 2014Stem Cell Doctors

Beverly Hills, California (PRWEB) May 05, 2014

The top stem cell orthopedic doctor in Beverly Hills at Beverly Hills Orthopedic Institute is now offering stem cell procedures for hip arthritis to help patients avoid the need for joint replacement. The procedures are administered by a highly respected, Double Board Certified Beverly Hills orthopedic doctor, Dr. Raj. Call (310) 438-5343 for more information and scheduling.

Millions of Americans suffer from debilitating hip arthritis and hundreds of thousands annually undergo hip replacement procedures. While hip replacement typically provides exceptional pain relief, it is a major procedure with potential complications in the short or long term. Therefore, it is recommended to only have the procedure as a last resort.

Stem cell procedures for hip arthritis offer the potential for not only relieving pain, but also regenerating damaged tissue. Dr. Raj offers multiple types of stem cell procedures.

The first type of procedure involves bone marrow from the patient. The marrow is harvested with a short outpatient procedure, with the marrow being immediately processed to concentrate the stem cells and growth factors. At the same setting, the concentrate is then injected into the painful hip. Both can be treated at the same time.

The second type of procedure involves amniotic derived stem cells, which are harvested from consenting donors after a scheduled c-section. No fetal tissue is involved, alleviating any ethical concerns. The fluid is processed at an FDA regulated lab and is extremely rich with stem cells, growth factors, anti-inflammatory material and more.

Results in small studies looking at regenerative medicine injections with stem cells have shown excellent pain relief for joint arthritis, tendonitis and ligament injury. Patients are often able to avoid the need for surgery and get back to participating in desired recreational activities.

Dr. Raj has been named one of the top orthopedic doctors in Los Angeles on several occasions, and is also a medical correspondent for ABC News. He is an expert in the nonoperative and operative treatment of hip arthritis.

For those desiring top notch regenerative medicine treatment options for hip arthritis in Los Angeles and Beverly Hills, call (310) 438-5343.

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Beverly Hills Orthopedic Institute Now Offering Stem Cell Procedures for Hip Arthritis to Help Patients Avoid Surgery

FDAs Adult Stem Cell Research

By adminMay 6, 2014Stem Cell Medical Center

Scientists who are part of the Food and Drug Administrations MSC Consortium, are studying adult mesenchymal stem cells (MSCs) that could eventually be used to repair, replace, restore or regenerate cells in the body, including those needed for heart and bone repair.

According to the FDA, theinvestigational work is unprecedented: Seven labs at FDA's Center for Biologics Evaluation and Research formed the consortium to fill in gaps in knowledge about how stem cells function.

A consumer update from FDA quotes Carolyn A. Wilson, Ph.D., associate director for research at the center, as saying, This research aims to facilitate development of this important class of innovative medical products. Its the first time weve done anything like this, and its proven to be a very useful approach. Its worked so well because this is a huge, complicated project that requires expertise in many different technologies and methods.

The research could ultimately be key to the advancement of personalized medicine, the practice in which medical treatment is tailored to the needs of an individual patient.Its not science fiction,says Steven R. Bauer, Ph.D., chief of the Cellular and Tissue Therapy Branch in FDAs Office of Cellular Tissue and Gene Therapies.For me, regenerative medicine is the most exciting part of what we regulate in our office.

Visit FDAs Consumer Updates page for more information on adult sem cells and regenerative medicine.

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FDAs Adult Stem Cell Research

Health Beat: Growing stem cells in space: Medicine's next big thing?

By adminMay 6, 2014Stem Cell Clinic

JACKSONVILLE, Fla. -

Hemorrhagic stroke is responsible for more than 30 percent of all stroke deaths. It happens when a weakened blood vessel ruptures and bleeds into the brain.

Its something Jon Galvan experienced five years ago when he almost died from a hemorrhagic stroke while at work.

"I was typing away and I felt a pop in my head," Galvan said.

He was able to recover, but Dr. Abba Zubair, medical director of transfusion medicine and stem cell therapy at Mayo Clinic, Florida, said not everyone is as fortunate.

"If it happens, you either recover completely or die," Zubair said. "Thats what killed my mother."

Zubair said he wants to send bone marrow derived stem cells to the international space station.

"Based on our experience with bone marrow transplant, you need about 200 to 500 million cells," Zubair said.

But conventionally grown stem cells take a month. Experiments on earth have shown that stem cells will grow faster in less gravity.

"Five to ten times faster, but it could be more," Zubair said.

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Health Beat: Growing stem cells in space: Medicine's next big thing?

The New Cellular Medicine from MetroMD Stem Cell PRP Helps Tennis Elbow Sufferers, and Other Athletes to Recover …

By adminMay 6, 2014Uncategorized

Los Angeles, CA (PRWEB) May 05, 2014

Tennis elbow is a common condition affecting 40-60 years aged adults. Though it is not a critical condition, it is potentially disabling in the sense that it restricts the certain activities of tennis players. MetroMD Institute of Regenerative Medicine, Los Angeles, offers an innovative treatment with PRP- Platelet Rich Plasma- a minimally invasive procedure. The therapy takes fewer months for rehabilitation and correct elbow injury in a way that traditional methods cannot do. Source: Dr. Alex Martin - MetroMD Institute of Regenerative Medicine, 7080 Hollywood Blvd, Los Angeles, California.

Tennis elbow is caused by repetitive strain to the tendon in the elbow. Consequently, due to the overuse and strain, elbows have damaged ligaments in the area. Scientifically, this condition is known as lateral epicondylitis. MetroMD, LA, treats vastitude of players with tennis elbow with a minimally invasive procedure with less time for rehabilitation. Dr. Alex Martin, Medical Doctor at the Institute, introduces the latest technologies in regenerative medicine - prolotherapy and platelet-rich plasma treatment (PRP) is one of them. The therapy involves the use of stem cells harvested from the patients bone marrow along with PRP and re-injecting the derived concentrated solution to the damaged soft tissue in the elbow for regeneration. Further, the stem cell specialist accurately places the cells to the troubled area. Once the cells are placed as the way they are required to, the healing process commences. Gradually, the sport players start to restore to full recovery. Patients become able to reuse their elbow and come back to normalcy to continue the sports for as long as they want.

The revolutionary stem cell option is a new attempt to cure the tennis elbow in players with PRP injections to better health. The best part of the treatment is it restores to full health without having the need to go for invasive procedure, unlike conventional surgical methods." says Alex Martin, Medical Doctor, MetroMD, Los Angeles. To know more about the regenerative medicine, please visit http://www.metromd.net.

About MetroMD

MetroMD is a Los Angeles based clinical institute and a leading provider of PRP, Stem Cell Therapy and numerous others. The institute treats the patients with latest technology to treat aging, improve sports performance, texture of hair, nail with HGH therapy. All the treatments are FDA approved and hence considered safe. The institute runs licensed Stem Cell Therapy clinic in Los Angeles. __title__ How to Repair Elbow Joints with PRP]

Irvine Stem Cell Treatment Center Upcoming Lecture Tour

By adminMay 6, 2014Stem Cell Treatment

Irvine, California (PRWEB) May 05, 2014

The Irvine Stem Cell Treatment Center, PC, located in Irvine, California, announces a series of free public seminars on the use of stem cells for various degenerative and inflammatory conditions. They will be provided by Dr. Thomas A. Gionis, Surgeon-in-Chief.

The tour dates and locations are as follows:

Wednesday, May 7, 2014 @ 3pm Coco's Restaurant 18380 Brookhurst St., Fountain Valley, CA 92708

Thursday, May 8, 2014 @ 3pm Polly's Pies 18132 Imperial Hwy., Yorba Linda, CA 92886

Friday, May 9, 2014 @ 2pm Polly's Pies 23701 Moulton Pkwy., Laguna Woods, CA 92637

At the Irvine Stem Cell Treatment Center, utilizing investigational protocols, adult adipose derived stem cells (ADSCs) can be deployed to improve patients quality of life with a number of degenerative conditions and diseases. ADSCs are taken from the patients own adipose (fat) tissue (also called stromal vascular fraction (SVF). Adipose tissue is exceptionally abundant in ADSCs. The adipose tissue is obtained from the patient during a 15 minute mini-liposuction performed under local anesthesia in the doctors office. SVF is a protein-rich solution containing mononuclear cell lines (predominantly autologous mesenchymal stem cells), macrophage cells, endothelial cells, red blood cells, and important Growth Factors that facilitate the stem cell process and promote their activity.

ADSCs are the body's natural healing cells - they are recruited by chemical signals emitted by damaged tissues to repair and regenerate the bodys damaged cells. The Irvine Stem Cell Treatment Center only uses autologous stem cells from a person's own fat no embryonic stem cells are used. Our current areas of study include: Heart Failure, Emphysema, COPD, Asthma, Parkinsons Disease, Stroke, Multiple Sclerosis, and orthopedic joint injections. For more information, or if someone thinks they may be a candidate for one of the stem cell protocols offered by Irvine Stem Cell Treatment Center, they may contact Dr. Gionis directly at (949) 679-3889, or see a complete list of the Centers study areas at http://www.StemCellsUSA.net.

About Irvine Stem Cell Treatment Center: The Irvine Stem Cell Treatment Center is an affiliate of the Cell Surgical Network (CSN). We provide care for people suffering from diseases that may be alleviated by access to adult stem cell based regenerative treatment. We utilize a fat transfer surgical technology to isolate and implant the patients own stem cells from a small quantity of fat harvested by a mini-liposuction on the same day. The investigational protocols utilized by the Irvine Stem Cell Treatment Center have been reviewed and approved by an IRB (Institutional Review Board) which is registered with the U.S. Department of Research Health, Office of Human Reseach Protections (OHRP); and the study is registered with Clinicaltrials.gov, a service of the U.S. National Institutes of Health (NIH). For more information contact: Info(at)StemCellsUSA(dot)net or visit our website: http://www.StemCellsUSA.net.

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Irvine Stem Cell Treatment Center Upcoming Lecture Tour