As the injected adult stem cells enter the heart muscle, they begin to initiate dormant indigenous stem cells of the heart, forcing the heart to heal itself autonomously. The stem cell inhabitants of the heart begin work, replacing damaged and malfunctioned heart muscle cells with new, fresh cells. Overall, the introduced adult stem cells repair the heart muscle tissue, eliminating the lethal situation fueled by dead heart muscle cells.
Previously, the Coronary Heart Failure was treated by purified cardiac cells, derived from the patient’s heart during the coronary artery bypass surgery. The cells were then infused back to their owner, the entire process consuming up to six weeks.
As the injected adult stem cells enter the heart muscle, they begin to initiate dormant indigenous stem cells of the heart, forcing the heart to heal itself autonomously. The stem cell inhabitants of the heart begin work, replacing damaged and malfunctioned heart muscle cells with new, fresh cells. Overall, the introduced adult stem cells repair the heart muscle tissue, eliminating the lethal situation fueled by dead heart muscle cells.
STEM CELL TREATMENT FOR HEART DISEASE
HEART DISEASE
FIGURE 126: The heart is responsible for various process in the body. Therefore, heart disease is one of the deadliest illnesses that may inflict the human organism. Stem cells are one of the few cures available now for patients of the heart disease.
According to Cell Medicine,
“The standard heart treatment protocol typically takes 5 days [to initiate the stem cells into the circulatory system of the patient successfully]
• 4 intravenous injections of expanded allogeneic (low-passage) mesenchymal [bone marrow adult] stem cells
• 2 IV Vitamin C infusion (depending on the patients renal function)
• Stemkine supplement for 1 month (2 bottles)”
HEART FAILURE: DEFINED
Heart Failure is one of the most devastating diseases, contributing to nearly 53,000 deaths in the United States yearly. Victims range from the elderly to the very young, taking away the innocent lives that could have accomplished much more in the years to come if they were to remain alive.
Congestive Heart Failure occurs when an individual’s heart “fails” and is highly inefficient in pumping blood through the organism. The amount of oxygen traveling in the system lowers, often resulting in a feeling of “breathlessness.” At the present moment, heart failure is incurable, and the patient never recovers, affected by the instance for the rest of his or her life. Death occurs in many cases, however some are lucky by surviving and being simply hospitalized. In addition to the heart, other organs of the body are impacted by this disease. The lack of blood arriving to the kidneys may cause malfunction, and ultimately, a distressed capability of excreting water and the malicious minerals in the body, like salt and urea. The lungs are also affected by heart disease due to lack of oxygen.
A pulmonary edema may also occur if fluid in the lungs begins to accumulate, decimating the patient’s ability to exercise normally. Fluids may also gather inside the liver, damaging its ability to manufacture proteins, clearing the body of harmful toxins. Even the intestines may be affected by heart disease. The lack of blood pumped has the possibility to result in damaging the intestines, preventing them from absorbing the last aspects
of nutrients and vitamins, necessary for the organism to function properly.
Several of the factors that increase the chance of a person acquiring congestive heart failure include age, high blood pressure, high cholesterol, obesity, diabetes, and coronary artery disease. (CITATION 76).
THE STEM CELL CURE
One of the specialties of stem cells in the body is to arrive to the site of damage and repair the destroyed cells or tissues. This particular function serves as the foundation of stem cell regenerative therapy for Congestive Heart Failure. Adult stem cells deposited at the location of impairment generate new blood vessels to replace the malfunctioning ones, improving tissue perfusion. In each case of Heart Failure, however, a different treatment may be necessary. For some patients, the general injection of the pre-
programmed stem cells into the peripheral blood would be sufficient. Others may require a more advanced treatment, such as stem cell infusion into their coronary arteries. The coronary arteries provide a more direct approach, since stem cells will be able to arrive at the heart atrium at a faster and more efficient rate than through peripheral blood arteries. However, this will be a more risky process, since the coronary arteries are located closer to the heart’s frailer sites. The last treatment for Heart Failure through stem cells is a direct injection of stem cells into the patient’s heart. This variety of therapy is used less often, due to the elevated risks it carries.
- First stem cells are derived from the patient's bone marrow.
- Then, the stem cells are filtered, and the ones in an acceptable state are used further in the treatment.
- The collected cells are injected into the patient's heart tissue, where they begin their magic.
- After traveling through the blood arteries, the stem cells arrive to activate the stem cells of the heart.
- They, in turn, begin to rejuvenate the heart, repairing the damaged areas.