STEM CELL TREATMENTS ON "THE DOCTORS"

STEM CELLS VIDEO ON "THE DOCTORS"

Stem Cell Therapy has started to hit main street as the TV show " The Doctors" featured world famous surgeon Dr. Ronald Hansen and his patient that received Stem Cell Injections Operation that helped Cure her knee and shoulder problems.

Many people suffering from Osteoarthritis of the hip & knee are getting relief and even turning back the age clock with the use of stem cells. The Centro-Schultz stem cell clinic in Denver Colorado is a world leading center for the treatment of all kinds of joint problems. The doctors take your own blood and spin out the stem cells and then extract your own bone marrow then mix it all together and re-inject the stem cell cocktail back into your hip joint gap area. After a few weeks most patients experience a huge improvement in the way the walk, exercise and move.

Stem cells are fast becoming an alternative to hip & knee replacement surgery.  A good friend of mine had problems with his hip and was scheduled for a hip replacement surgery. He went to Denver to talk with Dr. Centro about the possibility of stem cell treatments as an option for hit hip arthritis. He had the injections of his own stemm cells and is now walking, running and playing sports again. needless to say his hip replacement surgery was cancelled thanks to the advances treatments of injecting his own stem cells.

Some day Stem Cells will be used in almost every part of your body to heal, repair, cure and rejuvenate your own cells. In short with the growing science of stem cells you will be able to live forever so take good care of yourself.

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STEM CELL CORD BLOOD

Umbilical Stem Cell Cord Blood Research

What Is Stem Cell Cord Blood?

"Stem Cell Cord Blood" refers to the umbilical cord blood found after child birth in the placenta yet still attached to the umbilical cord. Stem cell cord blood is stored by stem cell storage banks primarily for umbilical cord blood stem cell research which can be used to treat many forms of cancer causing genetic diseases that kill millions of humans every year.

Stem cell cord blood is extracted by syringing out the placenta umbilical cord during birth just before the cord blood stem cell has been cut from the baby. These baby umbilical cord stem cells are perfect for advanced umbilical cord blood stem cell storage companies and especially for American President Obama Stem Cell Research policy guidelines of the stem cell industry.

Cord cells are collected and stored because they contain high concentration of natures most potent types of Baby stem cells that are necessary to stem cell rejuvenating cells. The problem with this process of Stem cell extractions that the Placenta cord blood does not produce enough stem cells for treatments or research in Adults.

 so the placenta is more valuable method of stem cell extraction mainly because it has 100 times more high quality baby stem cell storage than adult cord blood.

Obama Umbilical Cord Stem Cell Research

U.S. President Obama formed the stem cell research council under the the Food and Drug Agency to supervise all aspects of stem cell cord blood research under the title of Human Cells, Tissues cells, and Cellular and Tissue Based Human Research Products or "FDA"

The U.S. Stem Cell Research Agency has developed a standard Code of Stem Cell conduct under Federal Regulations to provide guidelines for public and private stem cell cord blood banking companies banks.

Public and private cord blood storage banks are eligible for funding  with either the American Association of Blood Banks AABB or the Foundation for the Accreditation of Cellular Therapy.

Stem Cell Storage Companies and  baby stem cell banks can review the updated status of Stem Cell banks from U.S. government list of accredited cord blood banks or the FACT search engine of accredited cord blood banks.

 Europe, Asia and Canada are also working together to develop new stem cell laws pertaining to umbilical cord blood stem cell research and stem cell storage companies.

EMBRIONC STEM CELLS

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Embryonic Stem Cells

1. Stages of development generating embryonic stem cells.
Stem cells, are derived from embryos. Most embryonic stem cells are derived from embryos that develop from eggs that have been fertilized in vitro fertilization clinic and then donated for research purposes with informed consent of the donors. They are not derived from eggs fertilized in a woman's body.

2.Growing Embryonic Stem Cells

Growing cells in the laboratory is known as cell culture. Human embryonic stem cells  are generated by transferring cells from a embryo into a plastic laboratory culture dish that contains a nutrient broth known as culture medium. The cells divide and spread over the surface of the dish. The inner surface of the culture dish is typically coated with mouse embryonic skin cells that have been treated so they will not divide. This coating layer of cells is called a feeder layer. The mouse cells in the bottom of the culture dish provide the cells a sticky surface to which they can attach. Feeder cells release nutrients into the culture medium. Researchers have devised ways to grow embryonic stem cells without mouse feeder cells. This is a significant scientific advance because of the risk that viruses or other macromolecules in the mouse cells may be transmitted to the human cells.

The process of generating an embryonic stem cell line is somewhat inefficient, so lines are not produced each time cells from the  embryo are placed into a culture dish. However, if the plated cells survive, divide and multiply enough to crowd the dish, they are removed gently and plated into several fresh culture dishes. The process of re-plating  the cells is repeated many times and for many months. Each cycle of  the cells is referred to as a passage. Once the cell line is established, the original cells yield millions of embryonic stem cells. Embryonic stem cells that have proliferated in cell culture for for a prolonged period of time without differentiating,  have not developed genetic abnormalities are referred to as an embryonic stem cell line. At any stage in the process, batches of cells can be frozen and shipped to other laboratories for further culture and experimentation.

3. Embryonic Stem Cells Tests
At various points during the process of generating embryonic stem cell lines, scientists test the cells to see whether they exhibit the fundamental properties that make them embryonic stem cells. This process is called characterization.

Scientists who study human embryonic stem cells have not yet agreed on a standard battery of tests that measure the cells' fundamental properties. However, laboratories that grow human embryonic stem cell lines use several kinds of tests, including:

    Growing and sub culturing the stem cells for many months. This ensures that the cells are capable of long-term growth and self-renewal. Scientists inspect the cultures through a microscope to see that the cells look healthy and remain undifferentiated.
    Using specific techniques to determine the presence of transcription factors that are typically produced by undifferentiated cells. Two of the most important transcription factors are Nanog and Oct4. Transcription factors help turn genes on and off at the right time, which is an important part of the processes of cell differentiation and embryonic development. In this case, both Oct 4 and Nanog are associated with maintaining the stem cells in an undifferentiated state, capable of self-renewal.
    Using specific techniques to determine the presence of paricular cell surface markers that are typically produced by undifferentiated cells.
    Examining the chromosomes under a microscope. This is a method to assess whether the chromosomes are damaged or if the number of chromosomes has changed. It does not detect genetic mutations in the cells.
    Determining whether the cells can be re-grown, or subcultures, after freezing, thawing, and re-plating.

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 4. Human Embryonic Stem Cells
1) allowing the cells to differentiate spontaneously in cell culture
2) manipulating the cells so they will differentiate to form cells characteristic of the three germ layers; or
 3) injecting the cells into a mouse with a suppressed immune system to test for the formation of a benign tumor called a teratoma. Since the mouse’s immune system is suppressed, the injected human stem cells are not rejected by the mouse immune system and scientists can observe growth and differentiation of the human stem cells. Teratomas typically contain a mixture of many differentiated or partly differentiated cell types—an indication that the embryonic stem cells are capable of differentiating into multiple cell types.

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STEM CELLS THE MAGIC POWER OF YOU

 DEEPAK CHOPRA EXPLAINS STEM CELLS
World Famous Doctor Deepak Chopra explanation about the magic power of you, how you are integrated into the cosmic universe and your stem cells. Incredibly simple concept of how to unlock the information and intelligent that is deep within your every stem cell at the molecular level. Stem cells will change your life some day and that day is today!

Image by tobin.t via Flickr

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CUBA INVENTS CANCER VACCINE

Cuban Cigars Cure Stem Cells Treatments

CUBAN CIGARS CURE CANCER WITH STEM CELLS VACCINE

Cuba has launched the worlds first Cancer Vaccine. Cuba's famous Cohibas Cigars are known for exporting stem cells, but it might soon be known for exporting a lung cancer vaccine produced by natural stem cells that researchers say can turn advanced lung cancer into a manageable chronic illness that can extend  a cancer patients life span by 25% of more.

Cuba is famous for the quality of its Cohiba cigars comes some pretty big news. Granma reports that Cuban stem cell medical authorities have released the first therapeutic vaccine for terminal lung cancer. CimaVax-EGF is the result of a 30 year stem cell research project at  CHCMI, Havana’s Center for Molecular Immunology, and it could make a dramatic difference for patients dying from late-stage lung cancer.
Cuban Stem Cell Scientist
Cuban stem cell scientist have invented  a new vaccine called "CimaVax-EGF" which isn’t a vaccine in the preventative sense. EGF stem cells doesn’t prevent lung cancer from taking hold in new patients. It’s based on a new types of stem cells related to uncontrolled cell growth deviation that doesn’t prevent cancer from starting in the first place but attacks the cells that does damage your own lung cells

Cuban Stem Cells Reasearch,
Stem cells, cancer vaccines, Cuba, health, lung cancer, vaccines and more
Stem cells research into Cuban vaccines can turn aggressive final stage lung cancer into a controllable chronic disease by helping your own body produce its own stem cell antibodies that battle agaionst the same proteins that cause uncontrolled cell growth destruction. Even Chemotherapy and radiotherapy are still popular to destroying cancer cells showing no improvement to the new stem cells and new vaccine which could be a lifesaver for a terminal cancer patient..
Free Cuban Stem Cells
This new Cuban Stem cell vaccine has already been tested in thousands of patients in Havana Cuba and is being distributed throughout Cuban hospitals free of charge. That’s huge health care benifit for Cubans where smoking Cohiba cigars is part of Cuba's national pastime and a leading cause of Cancer deaths. If Cuban cigar smoking stem cell vaccines are proven successful then Cuba should give all those Americans suffering from lung cancer reason to rejoice with a good tasting Cohiba Cuban cigar courtesy of the new Cuban Stem cell Vaccine.

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STEM CELLS REPAIR EYES

Eye Damage Repaired Using Stem Cells

Stem Cell Treatments Repair Eye Damage

 Severe Eye Damage Cured by Stem Cells

Dozens of people who were blinded or otherwise suffered severe eye damage when they were splashed with caustic chemicals had their sight restored with transplants of their own stem cells, Italian researchers reported Wednesday.

The treatment worked completely in 82 of 107 eyes and partially in 14 others, with benefits lasting as long as a decade so far. One man whose eyes were severely damaged more than 60 years ago now has near-normal vision.

Sight regained

Currently, people with eye burns can get an artificial cornea, a procedure that carries such complications as infection and glaucoma, or they can receive a transplant using stem cells from a cadaver, but that requires taking drugs to prevent rejection.

The Italian study involved 106 patients treated between 1998 and 2007. Most had extensive damage in one eye, and some had such limited vision that they could only sense light, count fingers or perceive hand motions. Many had been blind for years and had had unsuccessful operations to restore their vision.

The cells were taken from the limbus, the rim around the cornea, the clear window that covers the coloured part of the eye. In a normal eye, stem cells in the limbus are like factories, churning out new cells to replace dead corneal cells. When an injury kills off the stem cells, scar tissue forms over the cornea, clouding vision and causing blindness.

In the Italian study, the doctors removed scar tissue over the cornea and glued the laboratory-grown stem cells over the injured eye. In cases in which both eyes were damaged by burns, cells were taken from an unaffected part of the limbus.

Researchers followed the patients for an average of three years and some as long as a decade. More than three-quarters regained sight after the transplant. An additional 13 per cent were considered a partial success. Though their vision improved, they still had some cloudiness in the cornea.

Patients with superficial damage were able to see within one to two months. Those with more extensive injuries took several months longer.

"They were incredibly happy. Some said it was a miracle," said one of the study leaders, Graziella Pellegrini of the University of Modena's Center for Regenerative Medicine in Italy. "It was not a miracle. It was simply a technique."

The study was partly funded by the Italian government.

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STEM CELLS. WHY ARE THEY IMPORTANT

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Image via WikipediaWHY ARE STEM CELLS IMPORTANT



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 specialized 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 plenipotentiary stem cells  , 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 reparation 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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