Stem Cell Treatment - How Stem Cell Treatment is Revolutionizing Medicine

Seeking stem cell treatment abroad has been gaining a lot of media attention in recent years. In this type of therapy, cells generated from human brain stems are used to treat a variety of degenerative illnesses. Some of the illnesses where this therapy has been used include ALS, autism, cerebral palsy, Parkinson's and severe spinal cord injuries. The therapy has been somewhat controversial at times, due to some stem cells being harvested from embryos. Recent developments have made stem cells that come from adults easier in use in new treatments. These new treatments have shown a lot of promise.

Stem cell therapy abroad is currently performed in several countries, including China and Mexico. There are several clinical trials going on in the United States that use stem cell treatments, with many of them in the third phase. Most trials involving stem cells in the United States use embryonic stem cells. Several clinics that operate overseas often use adult stem cells. It's thought that an increase in the use of adult stem cells will lead to better reception towards this treatment.

With regards to stem cell research Mexico has become a leader in the field of stem cell technology. Stem cell treatment allows patients to be seen by board-certified physicians who specialize in degenerative diseases. The larger hospitals that perform these treatments have specialists for every major area of medicine. Most hospitals use adult stem cells, which considerably decreases the risk of rejection issues. The treatments that are available utilize the most up-to-date technology, allowing patients to enjoy easier, more comfortable treatments. Some of the diseases that have been successfully treated in Mexican hospitals include congestive heart failure, liver failure, renal failure, and cerebral palsy

Many people are curious about exactly how these cutting-edge Mexico stem cell therapy work. They work according to what's known as regenerative medicine. When cells are specially created, they help supplement the body's natural healing process. It's hoped that regular use of treatments that use stem cells will allow more ailments to be treated without surgery or other invasive procedures. This could be convenient for patients who are not candidates for surgery due to heart or respiratory issues. Another advantage of using stem cells is that any wounds or injuries can heal without a lot of scarring. Many doctors expect to be able to use this technology to create new organs for patients who require life-saving transplants.

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Complete Autism Package

Does Your Child Have These Autism Symptoms?

As you may know by now there is no disorder as confusing to comprehend or as complex to diagnose as autism. And, no disorder has more myths and misconceptions surrounding it than autism.
In fact, University of California scientists and clinicians all agree that the earlier an autistic child starts a program, the better the symptoms can be treated, yet for infants and toddlers an accurate diagnosis can take several years.
As a result, many parents are confused, worried and frustrated.
And, once diagnosed hopes get shattered ... dreams get crushed ... and what should be a joyous parenting experience becomes what feels like an eternity of confusion and pain.
Does my child really have autism? What will his or her future be like? How can I identify with what they are thinking and feeling? What can I do to enhance my autistic child's future? What are the autistic signs, causes and symptoms?
These are only a handful of unanswered questions that might cross an autistic parent’s mind. How many questions would you like answered?

Read more...

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Stem Cell Treatment for Spinal Cord Injury

Spinal cord injuries can happen through accident, trauma, or disease. The spinal cord is the link between the brain and the rest of the body, and body functions may be affected by conditions like amyotrophic lateral sclerosis (also known as Lou Gehrig's disease), muscular dystrophy, Parkinson's disease, stroke, and traumatic accidents.

In the past, a spinal cord injury meant loss of function below the point of injury, but modern science and stem cell research and technology has provided a number of breakthroughs in treatments for spinal cord injury patients.

Stem Cell Treatments and Technology

The spinal cord is made up of neural cells that carry all electrical impulses from the brain to the spine to the muscles and organs of the body. Glial cells support neural cells and are an important component of the spinal cord. There are two different types of glial cells; oligodendrocytes, which make up the protective sheath covering of nerves, along with myelin, and astrocytes, which provide an adequate growth environment for neural cells.

Stem cell research has learned how to create new neurons. An injured brain or spinal cord may not be able to create new neurons by itself, but stem cell scientists have discovered neural stem cells in adult brains that can be stimulated to multiply or divide into neural cells that have been lost through central nervous system or spinal cord injury and disease processes.

Combination Stem Cell Therapies

Combination therapy is a combination of stem cell therapies that produce neural cells with myelin sheath protection, and gene therapy. To date, many of these technologies are still undergoing clinical trials in the United States.

Throughout the United States, researchers, biotechnical companies and stem cell researchers are undergoing Phase 1 and Phase 2 clinical trials for results after injecting oligodendrocytes from embryonic stem cells into the spinal cord in the hopes that they will replicate themselves. Researchers from California to New York are focusing stem cell research on astrocytes for generating new nerve fiber growth.

Research technologies and the number of clinical trials in the United States continue to advance as new discoveries are made. In the meantime, many Americans suffering from spinal cord injury and its limitations have experienced some benefit through stem cell treatments and therapies offered in globally recognized stem cell centers around the world.

Where to Go for Approved Stem Cell Treatments Abroad

Stem cell therapies around the world have offered in enormous benefits to hundreds. A few of the most popular stem cell treatment centers and clinics abroad include:

    * ProgenCell-Stem Cell Therapies - located in Tijuana, Mexico, ProgenCell offers stem cell therapies for the improvement of conditions and overall health for individuals diagnosed with heart, liver and lung disease, multiple sclerosis, arthritis or other joint diseases as well as vision problems and a number of neurological diseases.
    * Stem One Biologicals Private Ltd. - located in Pune, India, Stem One is India's largest stem cell service provider. Focusing on conditions like cerebral palsy, autism and spinal cord injury, Stem One Biologicals is the first in India to provide cellular components for cerebral palsy treatments utilizing stem cell therapies.
    * Beike Biotechnology - located in Shenzhen, China, Beike Biotechnology has been in the stem cell research and clinical application field since the early 1990s. Beike provides partner hospitals with stem cells, cord blood, umbilical cord stem cells and bone marrow derived stem cells for the treatment of neurological conditions including spinal cord injuries.
    * EmCell Clinic - located in Kiev, Ukraine, EmCell Clinic is one of the world's largest fetal stem cell transplantation clinics, founded in the early 1990s. The facility has provided over 6,000 fetal stem cell transplantation for nearly 20 years, treating conditions associated with neurological disorders, spinal cord and traumatic brain injury.

For more information regarding stem cell research, different types of stem cells, and clinical trials of stem cell therapies for use in treatment for spinal cord injuries, visit PlacidWay, an international medical provider and resource for stem cell technologies, alternative medicine, and traditional therapies, surgeries and procedures abroad.

Beike Biotech is a Chinese biotechnology company with main offices in Shenzhen and Taizhou. Beike's, stem cell research and clinical applications were developed in the early 1990s.

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Autism: The Role Of Stem Cell Treatment

Potential of Stem Cell Treatments for Autism

In June of 2007 an article was published in a peer-reviewed journal (1) proposing a role for stem cell therapy in treating autism. The account that follows provides a perspective on the implications and prevalence of autism, as well as a synopsis and a critique of the proposed use of stem cells to treat the major symptoms of autism disorder.

Autism

Autism is a complex brain developmental disorder that is characterized by impaired social interactions, communication difficulties, obsessive attachment to routines and repetition, and often an extreme dislike of certain sounds, textures and tastes. Autism usually surfaces in the first three years of life and may vary in severity from mild to disabling. Depending on degree of severity, some children with autism may develop into independent adults with full time employment and self-sufficiency; however this is seldom the case (2). There is no known single cause but abnormalities in brain function are generally attributed to environmental, immunological and neurological factors.

Social costs

It is reported as one of the fastest-growing developmental disabilities in the US, with diagnoses having increased by staggering proportions in the last decade (2). An estimated 1.5 million children and adults in the U.S. currently (as at 2007) have some form of autism (2). Presenting these statistics another way; autism spectrum disorders are believed to affect approximately 1 in 166 children (1).

Children with autism suffer from two major conditions: Hypo-perfusion and Immune Dysregulation

Hypo-perfusion of the brain in autism

Children with autism have shown impaired blood flow (hypo-perfusion) to the brain. Hypo-perfusion may contribute to functional defects not only by inducing hypoxia (an oxygen deficit that prevents normal brain function) but also by allowing for abnormal metabolite or neurotransmitter accumulation. Hypothetically, if perfusion can be improved through the revitalization of blood vessels (angiogenesis), then this should also allow for metabolite clearance and restoration of functionality.

Immune dysregulation in autism

Successful neuro development is contingent upon a normal balanced immune response. Children with autism have immune systems that do not function normally; instead an autoimmune response of the nervous system appears to prevail (3). Astrocytes (supportive brain cells) that normally play a critical role in regulating perfusion [reviewed in 1] and protection against central nervous system infection, have the potential to cause damage to the host when functioning in an aberrant (i.e. auto-immune) manner. Autistic children often have continually suppressed immune systems and chronic inflammation. Immune dysregulation is very apparent in gastrointestinal health - most autistics experience symptoms ranging from diarrhea, gas, and bloating to intestinal lesions and inflammation of their gastrointestinal system (3,4).

Autism treatments

At this time there is no universally-accepted therapy or cure for autism. Current approaches are either behavioural, medical (treatment of anxiety and depression), nutritional (restriction of allergy-associated dietary components/ supplementation of minerals and vitamins/antioxidant therapy) or a combination of these. Research has increasingly focused on the connections between the immune system and the nervous system (4) yet to date no approach has been successful in correcting immune dysregulation/chronic inflammation in autism.

Rationale for using Stem Cells to treat autism

The administration of CD34+ umbilical cord cells and mesenchymal cells are proposed as novel treatments for the two pathologies associated with autism – hypoperfusion to the brain and immune dysregulation (1). Using these two kinds of stem cells together may potentially heal both the brain and the gut (3,4).

Treatment of hypoperfusion defect with umbilical cord blood CD34+ stem cells

Angiogenesis - the formation of collateral blood vessels - is believed to be fundamental in neurological recovery. A promising method of increasing angiogenesis into damaged areas is by administration of CD34+ stem cells [reviewed in 1]. Umbilical cord blood has highly active CD34+ cells that, following injection into a patient, should induce angiogenesis in areas of cerebral hypoperfusion. Consequently improved blood flow and oxygen to the brain should also improve nervous system functioning.

Safety: Allogeneic cord blood CD34+ cells are needed if this therapy is to be made available for widespread use because few, if any, patients will have access to autologous cord blood. Safety concerns regarding allogeneic CD34+ cells centre on fears of graft / host reactions. It is believed that allogeneic cord blood cells can not be used without immune suppression however Riordan et al (6) have recently published an account of the feasibility of cord blood cells administration in absence of immune suppression. Also, there are reports of stem cell treatments where no immune suppression was used in over 500 patients without a single one suffering graft vs. host disease [reviewed in 1].

Immune modulation by mesenchymal stem cells

The treatment of immune dysregulation in autism is expected to profoundly influence neurological function. The ability of mesenchymal stem cells to suppress pathological immune responses (e.g. inflammation) and to stimulate haematopoiesis (blood cell regeneration) leads to the possibility that these cells may also be useful for treatment of the defect in T cell numbers associated with autism(3).
Safety: The review by Ichim et al (1) suggests that allogeneic mesenchymal stem cells administered to suppress inflammation may be used without fear of immune-mediated rejection.

Practical clinical entry

The following passage is quoted directly from the authors' proposal in ‘Stem Cell Therapy for Autism'(1) and outlines their suggestions for clinical trials : "We propose a Phase I/II study investigating a combination of cord blood expanded CD34+ cells together with mesenchymal stem cells for the treatment of autism and clinical manifestations of inflammatory intestinal disease. One of the authors (*Fabio Solano) has utilized both CD34+ and mesenchymal stem cells clinically for treatment of various diseases. In some case reports, the combination of CD34+ and mesenchymal stem cells was noted to induce synergistic effects in neurological diseases, although the numbers of patients are far too low to draw any conclusions. We propose to conduct this study based on the previous experiences of our group in this field, as well as numerous other groups that have generated anecdotal evidence of stem cell therapy for autism but have not published in conventional journals. We believe that through development of a potent clinical study with appropriate endpoints, much will be learned about the pathophysiology of autism regardless of trial outcome."

Cautionary arguments

While the rationale for using stem cells to treat autism is indeed sound, many proponents of stem cell treatment for autism (6,7,8,9) are in agreement that clinical trials with sufficient patient numbers are needed to assess treatment efficacy. When patients and their families consider new treatments, the proposals need to be interpreted in a discerning manner that can be balanced with scientific evidence.

Regenecell has treated a few carefully selected autistic children, below the age of 8, with cord blood stem cells. The results, noted at 3 weeks were improvements in cognition, physical communication, speech and fine and gross motor skills. The composition of clinical data is still in progress, but the results look very promising, with best indicator so far being a positive response in every child.

Cord blood stem cell treatment will one day completely change the way we approach disease in certain patients, the benefits and safety are obvious, but it will still take clear clinical trials to lay the foundation for routine treatment of this disabling condition. In the meantime certain individuals are breaking the mould by treating patients and achieving moderate successes in a disease state for which there is almost no hope at all.

REFERENCES

1. Review: Stem Cell Therapy for Autism Thomas Ichim, Fabio Solano, Eduardo Glenn, Frank Morales, Leonard Smith, George Zabrecky, Neil H Riordan Journal of Translational Medicine June 2007, 5:30
2. Alliance for Stem Cell Research
3. The immune response in autism: a new frontier for autism research Paul Ashwood, Sharifia Wills, Judy vd Water Journal of Leukocyte Biology. 80:1–15; 2006
4. The Stem Cell and Autism Connection
5. Autism: stemcelltherapies.org
6. Cord blood in regenerative medicine: do we need immune suppression? Riordan N, Chan K, Marleau A, Ichim T. Journal of Translational Medicine. Jan 2007 5:8
7. Kristina Chew, July 2007
8. Cellmedicine.com (publication is equivalent to Review: Stem Cell Therapy for Autism Ichim et al.)
9. Osiris

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