In the early stages of embryo development, STEM CELLS are created! These remarkable cells possess the incredible ability to differentiate into various tissues within our bodies. Initially known as Pluripotent Stem Cells, they hold the potential to become any cell type.
However, as development progresses, stem cells quickly become specialized and transform into tissue-specific stem cells. These specialized cells can only contribute to the specific tissue in which they reside. For example, stem cells in the brain exclusively produce new brain cells, while those in the gut generate gut cells. Remarkably, almost every organ in our body contains a small population of these tissue-specific stem cells.
In the natural course of our lives, many cells within our tissues die either at the end of their lifespan or due to injury. The lifespan of cells varies across different tissues, with some cells living for an extended period and others having a much shorter lifespan. For instance, cells in the heart, skeletal muscle, brain, and eye lens have a long lifespan, while cells in the skin, gut, and blood have a short lifespan.
Tissue-specific stem cells play a vital role in the continuous renewal of damaged cells. They act as nature's own anti-aging mechanism, ensuring that tissues do not age prematurely and facilitating the repair process. However, as we age, the functionality of these stem cells declines, resulting in reduced tissue functionality. This can manifest as slower wound healing, decreased blood cell production, and increased vulnerability to infections or anemia.
One of the primary factors influencing stem cell functionality is DNA damage. Stem cells replicate their DNA during cell division, and damaged DNA negatively affects their ability to function properly. Patients with diseases that cause increased DNA damage often experience difficulties in tissue regeneration and exhibit premature aging symptoms.
Another crucial aspect of stem cell aging is the shortening of telomeres, the protective caps at the ends of chromosomes. With each cell division, telomeres gradually shorten. When telomeres become too short, stem cells can no longer divide effectively.
While there may be other factors contributing to the decline of stem cell function with age, stem cell therapy offers a promising solution. Mesenchymal stem cells (MSC), a type of Pluripotent Stem Cell, have the remarkable ability to lengthen telomeres, rejuvenate cellular health, and regenerate damaged tissue. This therapy holds the potential to extend our lifespan and enhance our overall well-being.
Subscribe now as we delve into the intricacies of Stem Cell Therapy and the exciting possibilities!
Learn More Here: http://FRESHMEDIQ.com/Stem-Cell-Therapy
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FRESH MEDIQ - located in Pattaya Thailand - is an innovative Anti-Aging Clinic & Cannabis Dispensary specializing in Stem Cell Therapy, IV Vitamin Drips and Aesthetic Beauty.
Harvard Medical School
Dr. Nuttamon Le Men MD, the Medical Director of FRESH MEDIQ, is an alumni of Harvard Medical School with a Post Graduate Diploma for Leadership in Medicine 2021 (HMS-LIM SEA 2021).
FDA Licensed Provider
We provide FDA approved products of the highest quality, including dispensary products from the Government Pharmaceutical Organization and regenerative products like Stem Cells, Hormones & NAD+ from trusted laboratories.
Professional & Ethical
Our team is highly experienced in healthcare and our products and services are ethically priced within reach of all patients. We take pride in being the experts you can trust with your health and wellness.
Tel: 092-971-5159
Email: [email protected]
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