GET ANCHORED
NOW A Piece for your Piece
The Original Anchor
When a user applies tension to the penis, the suspensory ligament, corpus cavernosum and all penile tissue cells become stretched. This action is a natural process. The cell tissue is engaged in repairing its self in a larger state. Our Original Anchor Band with Patent Pending 14 lbs x 5 points pull force energy Technology, help repair the tissue at an accelerated state. A permanent increase in the length and girth of the penis has been achieved by many. Both erect and flaccid conditions will be affected.
THE FACTS
SIMPLE TERMS
The Red box is the Corpus Cavernosum / Spongiosum
The Blue Box is The Original Anchor.
Newton's Law of Gravity is the result.
Magnets Increase Blood Flow
Magnets healing properties since ancient Greece. Magnetic therapy is widely used today as an alternative method for treating a number of conditions, from arthritis to depression.
 | These are clustered blood cells, that can not properly carry the healing effects to stressed cells.
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| When blood cells are exposed to Neodymium Iron Boron magnetic field, the cells separate and can easily migrate through veins. The surface of the red blood cells is greatly increased and red blood cells can carry much more oxygen. The magnetic field influences the iron in the blood to separate .Causing surface area for cells to carry more oxygen.
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THE STUDY
Magnetic stimulation of the cavernous nerve for the treatment of erectile dysfunction in humans
A Shafik1, O el-Sibai2 and A A Shafik1
1Department of Surgery and Experimental Research, Faculty of Medicine, Cairo University, Cairo, Egypt
2Department of Surgery, Faculty of Medicine, Menoufia University, Egypt
Abstract
A recent study in dogs has demonstrated that magnetic stimulation (MS) of the cavernous nerve produced an increase of the intracorporeal pressure and full penile erection. In view of these results, we tested the possible application of this procedure in humans with erectile dysfunction (ED). The study comprised 32 patients with ED (age 38.3±9.6 y) and 20 healthy volunteers (age 36.8±8.8 y). Routine erectile function tests suggested that impotence was neurogenic. A magnetic coil was placed over the dorsal aspect of the penis in the vicinity of the symphysis pubis. MS was performed using a stimulation of 40% intensity, 20 Hz frequency, 50 s on and 50 s off for 10 minutes duration. In the healthy volunteers, the coil was placed as aforementioned but was not activated. The intracorporeal pressure was recorded and penile tumescence and rigidity observed during MS in the patients and without stimulation in the controls. MS led to gradual increase in length and diameter of the penis until full erection was achieved; the penis became firm, rigid and pulsatile. The intracorporeal pressure increased significantly (P<0.0001) at full erection. Mean latency to full erection was 19.3±3.4 s. Upon off-stimulation, penile erection and intracorporeal pressure returned to baseline after a mean of 22.7±3.2 s. Penile and pressure response to MS was resumed after an off-time of 50 s. The response was reproducible infinitely if the off-time was observed. The controls showed no penile tumescence or rigidity or increase of the intracorporeal pressure. In conclusion, MS of the cavernous nerve is effective in inducing penile rigidity. It is a simple, easy and non-invasive method which has no adverse effects. It might prove to be suitable for application in patients with ED.
International Journal of Impotence Research (2000) 12, 137-141THE STUDY
“The FDA regulates specific claims of medical efficacy, but in general static magnetic fields are viewed as safe,” notes Thomas Skalak, professor and chair of biomedical engineering at U.Va.
Skalak has been carefully studying magnets for a number of years in order to develop real scientific evidence about the effectiveness of magnetic therapy.
Skalak’s lab leads the field in the area of micro circulation research—the study of blood flow through the body’s tiniest blood vessels. With a five-year, $875,000 grant from the National Institutes of Health’s National Center for Complementary and Alternative Medicine, Skalak and Cassandra Morris, former Ph.D. student in biomedical engineering, set out to investigate the effect of magnetic therapy on micro circulation. Initially, they sought to examine a major claim made by companies that sell magnets: that magnets increase blood flow.
The researchers first found evidence to support this claim through research with laboratory rats. In their initial study, magnets of 70 milliTesla (mT) field strength—about 10 times the strength of the common refrigerator variety—were placed near the rat’s blood vessels. Quantitative measurements of blood vessel diameter were taken both before and after exposure to the static magnetic fields—the force created by the magnets. Morris and Skalak found that the force had a significant effect: the vessels that had been dilated constricted, and the constricted vessels dilated, implying that the magnetic field could induce vessel relaxation in tissues with constrained blood supply, ultimately increasing blood flow.
Dilation of blood vessels is often a major cause of swelling at sites of trauma to soft tissues such as muscles or ligaments. The prior results on vessel constriction led Morris and Skalak to look closer at whether magnets, by limiting blood flow in such cases, would also reduce swelling. Their most recent research, published in the November 2007 issue of the American Journal of Physiology, yielded affirmative results.
In this study, the hind paws of anesthetized rats were treated with inflammatory agents in order to simulate tissue injury. Magnetic therapy was then applied to the paws. The research results indicate that magnets can significantly reduce swelling if applied immediately after tissue trauma.
Since muscle bruising and joint sprains are the most common injuries worldwide, this discovery has significant implications. “If an injury doesn’t swell, it will heal faster—and the person will experience less pain and better mobility,” says Skalak. This means that magnets could be used much the way ice packs and compression are now used for everyday sprains, bumps, and bruises, but with more beneficial results. The ready availability and low cost of this treatment could produce huge gains in worker productivity and quality of life.
Skalak envisions the magnets being particularly useful to high school, college, and professional sports teams, as well as school nurses and retirement communities. He has plans to continue testing the effectiveness of magnets through clinical trials and testing in elite athletes. A key to the success of magnetic therapy for tissue swelling is careful engineering of the proper field strength at the tissue location, a challenge in which most currently available commercial magnet systems fall short. The new research should allow Skalak’s biomedical engineering group to design field strengths that provide real benefit for specific injuries and parts of the body.
“We now hope to implement a series of steps, including private investment partners and eventually a major corporate partner, to realize these very widespread applications that will make a positive difference for human health,” says Skalak.
http://www.newsmax.com/health/magnets_reduce_swelling/2008/01/04/61731.html
DONT BE CAUGHT SHORT
