HEART ATTACKS

This is an off-label use of PEMF technology backed by the following scientific article.

Any off label use should be done in cooperation with a licensed healthcare provider supervising such application.

HEART ATTACKS EXPERIENCE it is important to have your doctor on board if you plan to use EMpulse for treating your heart. He/she may not understand that EMpulse has been shown to remove free radicals quickly which will stop heart muscle death (and perhaps yours as well) and that a pulse nearly identical to EMpulse has been shown to increase new blood vessel growth after heart attack by increasing growth hormone which is called vascular endothelial growth factor in blood vessels. See the study below. Now there is EMpulse, a convenient  hand held device that generates PEMF (pulsed electromagnetic fields), a therapy clinically proven to increase new blood vessel growth after heart attack with no side effects. In fact, EMpulse promotes tissue healing by releasing antioxidants to neutralize damaging free radicals. TREATMENT I keep my EMpulse in a shirt pocket located over my heart ever since doctors told me I needed a heart transplant because all my vessels were "going south" in my heart, large ones and small ones both. It took six months to prepare myself for a solo 2500 mile bicycle ride across the United States after that somber message. My cardiologist encouraged me to use EMpulse; he had seen its use in Russia and although he personally didn't think it would work, agreed I had little to lose by trying it. He doesn't feel that way today. EMpulse - the most advanced Pulsed Electromagnetic Field device available today. Visit the EM-Probe Technologies home page for more information.

Ask Dr. Gordon   Experience the restorative power of EMpulse  Order Now or Call (888) 697-9996 30 day money back guarantee.

J Cell Physiol. 1988 Jan;134(1):37-46.
Endothelial cell response to pulsed electromagnetic fields: stimulation of growth rate and angiogenesis in vitro.

Yen-Patton GP, Patton WF, Beer DM, Jacobson BS.

Department of Biochemistry, University of Massachusetts, Amherst 01003.

The effects of pulsed electromagnetic fields on the repopulation rate of denuded regions of endothelial cell monolayers and on endothelial cell reorganization into complex vessellike structures was monitored in vitro by using human umbilical vein and bovine aortic endothelial cells. A small (20-40%) but statistically significant enhancement in growth rate of partially denuded endothelial cell monolayers as determined by tritiated thymidine incorporation was observed in the presence of pulsed electromagnetic fields. Morphologically, endothelial cells entering the denuded regions were observed to be elongated, often connecting end to end to form a mycelial or "sprouting" pattern when exposed to pulsed electromagnetic fields. This was in contrast to cells outside of the field which had a more cuboidal morphology. Complete disruption of the endothelial cell monolayer by passaging the cells with EDTA-trypsin resulted in reorganization of some of the cells into three-dimensional vessellike structures after as little as 5-8 hours in the presence of the pulsed electromagnetic field. This reorganization occurred in the presence of heparin, endothelial cell growth factor, and a competent fibronectin matrix. Vascularization for comparable cultures outside of the field did not occur during the time-course of the experiments. Discrete stages of neovascularization were observed in the presence of the field that were qualitatively similar to stages of angiogenesis observed in vivo.

PMID: 2447105 [PubMed - indexed for MEDLINE]