Itâs one of the most exciting fields of regenerative medicine⦠[Click here](1770d7/ct0_0/1/ms?sid=TV2%3AMxpgsr844) to view this message in your browser | [Click here](1770d7/l-002e/zout?sid=TV2%3AMxpgsr844) to stop receiving our messages [] [] Al Sears, MD
11905 Southern Blvd.
Royal Palm Beach, FL 33411 [] June 24, 2024 [] Reader, Itâs one of the most exciting fields of regenerative medicine⦠But almost no one has heard of it⦠Iâm talking about optogenetics. Basically, it means controlling cells with the energy of low-level laser light. Recent studies reveal that optogenetics has an extraordinary effect on the behavior of stem cells. Remember that stem cells are the master cells of every other kind of cell in your body â those that make up your tissues, organs, bones, skin, blood, and everything else. [drsears ivy] IV laser therapy improves health by boosting stem cells by 54% â in just one week. And unlike other cells in your body, stem cells can keep dividing and copying themselves. That means they have the power to grow, regrow, repair, regenerate, and replace any one of the 220-plus types of cells in the human adult body. The problem is that as you age, you end up with much fewer functioning stem cells â along with an adult population of senescent stem cells that have basically fallen asleep. So the replication process slows down. But when stem cells come into contact with laser light â magic happens. A new study from the University of Johannesburg found that low-level laser therapy can boost the production of stem cells and their development into other kinds of cells by up to 54% â in just one week.1 This backs up earlier research. In a 2014 study, researchers successfully used low-level laser therapy on adipose stem cells âfound in your fat tissue â to speed up stem cell division and their growth into smooth muscle cells.2 These cells form the tissue and lining of blood vessels and are often damaged by heart disease. Then in 2017, another study found that if heart patients are given laser therapy up to four hours after a heart attack, thereâs a significantly increased chance of survival.3 The researchers discovered that the laser light had spurred stem cells in the heart muscle to repair the damaged tissue almost immediately. And the repair work was still continuing after six weeks. You see, the photons from laser light penetrate deep into tissues, effectively boosting the energy available to the mitochondria of your stem cells. In another recent study, researchers successfully combined low-power laser treatment and stem cell therapy to speed up bone cell regeneration and repair fractures.4 Researchers are now just beginning to understand the enormous healing potential of combining low-level laser therapy with stem cell therapy. The astonishing healing power of soft fiber optic laser light is already being used as a powerful weapon against dozens of chronic diseases and conditions â from diabetes and heart disease to chronic pain management and cancer. IV laser therapy improves your health by boosting blood flow to reduce inflammation... activating your immune system... energizing your mitochondria (the energy plants in your cells) to increase vigor and vitality... speeding up wound healing... and increasing anti-aging at the cellular level. Mainstream medicine, as usual, is slow on the uptake. Many doctors are still unconvinced by the technology â even though itâs recognized by every major industrialized nation worldwide. This is a tragedy because hundreds of thousands of patients could benefit from its proven healing power. At the Sears Institute, we use low-level laser therapy to both treat and prevent disease, including: - Diabetes
- Chronic pain/Osteoarthritis
- Heart disease
- Rheumatism
- Fibromyalgia
- Chronic fatigue syndrome
- Liver disease - COPD
- Ulcers/Diabetic Ulcers
- Kidney disease
- Macular degeneration
- Allergies and eczema
- High blood pressure
- Tinnitus My Patients Are Seeing Life-Changing Results After receiving this therapy, my patients have reported: â Feeling more energetic
â Less pain
â Improved sleep patterns
â Better mood
â Reduction of medications For best results, I recommend a total of three to 10 sessions. Boost Stem Cell Production At Home I understand that not everyone can activate stem cells' healing power using low-level laser therapy. But you can boost stem cell production at home using these simple steps: - Eat blue-green algae. Blue-green algae is one of the most nutrient-dense foods on the planet. There are two kinds, spirulina and a variety known as AFA. Researchers found that the AFA variety can significantly increase the production of human stem cells in the bone marrow. AFA is available as a supplement or a powder and can be found online. I recommend 800 mg a day. - Practice Tai Chi. This ancient Chinese martial art has been practiced for over 3,000 years. But only recently have scientists realized that this self-paced slow, gentle stretching system could increase the number of stem cells in your body as you age.5 These stem cells, called CD34 cells, are produced deep in your bone marrow. To Your Good Health, Al Sears, MD, CNS --------------------------------------------------------------- References: - Crous A, et al. âSingle and consecutive application of near-infrared and green irradiation modulates adipose derived stem cell proliferation and affect differentiation factors.â [Biochimie](1770d7/ct1_0/1/lu?sid=TV2%3AMxpgsr844). 2022;196:225-233.
- Mvula B and Abrahamse H. âLow intensity laser irradiation and growth factors influence differentiation of adipose derived stem cells into Smooth muscle cells in a coculture environment over a period of 72 hours.â Int J Photoenergy. 2014. doi.org/10.1155/2014/598793
- El Gammal ZH, et al. âEffect of low-level laser-treated mesenchymal stem cells on myocardial infarction.â Lasers Med Sci. 2017 Sep;32(7):1637-1646.
- Wang YH, et al. âLow power laser irradiation and human adipose-derived stem cell treatments promote bone regeneration in critical-sized calvarial defects in rats.â PLOS One. 2018 Apr 5;13(4):e0195337.
- Ho TJ, et al. âTai Chi intervention increases progenitor CD34(+) cells in young adults.â Cell Transplant. 2014;23(4-5):613-20. alsearsmd@send.alsearsmd.com [Preferences | Unsubscribe](1770d7/l-002e/zout?sid=TV2%3AMxpgsr844) 11905 Southern Blvd., Royal Palm Beach, Florida 33411, United States