EarthPulse™ PEMF enhances magnetic field every night. Feel a decade (or two+ younger in 90 days or return it. And you’ll probably notice the difference in one night, but we give you 90 days. Nothing has that guarantee and you have nothing to lose but your feeling bad and poor sleep. Magnetic Field Deficiency was first identified by the Japanese scientists long ago.
There are quite a number of PEMF systems available now in the US, for daily in-home use, that can help meet your unique needs. Some are FDA-approved and many more are available over-the counter or from various experienced practitioners. Some whole-body systems have been available in the US for over a decade and have been used in Europe by tens of thousands of people for a wide variety of problems without significant negative effects for over 20 years. One PEMF system has been studied through NIH-supported research at the University of Virginia for Rheumatoid Arthritis. These whole body systems have been used worldwide, not only by health-conscious individuals for health improvement and maintenance, but also by world-class and Olympic athletes for increased endurance, enhanced performance, and faster recovery.
Taping patients may support retraining of correct movement patterns. However, using asymptomatic subjects Cools et al (2002) showed that tape application intended to inhibit the upper and facilitate the lower trapezius had no effect on electromyographic activity in the serratus anterior or all three portions of the trapezius with resisted or un-resisted flexion and abduction of the shoulder. The authors suggested altered timing as a possible explanation for the clinically observed effects of taping. In contrast, in patients with subacromial impingement Selkowitz et al (2007) did show that similar taping decreased upper trapezius and increased lower trapezius activity during a functional overhead-reaching task and that it decreased upper trapezius activity during shoulder abduction in the scapular plane. Mechanisms suggested to be involved in taping include facilitation or augmentation of proprioceptive cutaneous input, tension when movement occurs outside of the movement pattern allowed by the taping application, and inhibition or facilitation by taping shortened overactive muscles in a lengthened position, whereas the tape might be used hold lengthened under-active muscles in a shortened position. Various taping techniques appropriate for patients with impingement have been described in the literature (Morrissey 2000, Kneeshaw 2002) (Fig 16.5). Morrissey (2000) suggested that when the positive effect on the movement pattern or on symptoms was maintained, taping could be discontinued.

Determining whether the injury is traumatic or is related to overuse is the first step to frame the treatment strategies. In the athlete with a trauma history, the initial goal is to control the pain and to restore full shoulder/scapula mobility and strength. The treatment for a partial rotator cuff tear in the overhead throwing athlete centers on the underlying deficiencies seen, such as loss of shoulder motion, scapula dyskinesia, and rotator cuff weakness. Mechanical flaws in the throwing or overhead motion may also need to be corrected.
In all advanced organisms, blood circulation regulates the nourishment of cells with oxygen and nutrients, the removal of waste products, vital information about hormones and chemical messengers, immune defenses and many other processes. The performance and functionality of every individual body cell and of muscles, joints, organs, glands and the immune system etc. depend on the optimal supply and removal by means of microcirculation.
The majority of these reactions are temporary and mild. In people with electromagnetic hypersensitivity and electrical hypersensitivity, these reactions are not only increasingly common but also more uncomfortable, yet magnetic therapy is seldom discontinued in this situation. Usually, the issues can be resolved by slightly adjusting the treatment.
Patients and methods: A randomized, double-blind, sham-controlled, multicenter study in 36 subjects with persistent low-back and/or radiating leg pain after lumbar surgery was conducted. Eligible subjects were randomized (1:1:1) to receive one of two doses of therapy (42-μs or 38-μs pulse width) or treatment with a sham device. Subjects self-treated twice daily for 60 days. The primary end point was change in pain intensity (∆PI) using the Numerical Pain Rating Scale between average baseline (Days −5 to −1) and end of treatment (Days 56–60) for lumbar and radiating leg pain. Secondary outcome measures included the Oswestry Disability Index, Beck Depression Inventory-II, Patient Global Impression of Change, and consumption of analgesics.
The basic science work accomplished to date provides strong support for the proposal that modulation of Ca2+ binding to CaM, upon a transient increase in intracellular calcium when homeostasis is interrupted,48 is an important PEMF transduction pathway. It is likely that the disruption of the tightly regulated Ca2+ balance in cells is the natural signal to provoke the endogenous tissue repair and regeneration mechanism, hence the apparent simple acceleration of normal healing activity by targeted PEMF signals. Ca/CaM catalyzes eNOS, which allows the PEMF signal to modulate the release of NO from eNOS and potentially affect the entire tissue repair pathway, from pain and edema to angiogenesis, bone and tissue regeneration, and other regenerative actions. PEMF signals configured to target the Ca/CaM pathway have been applied to rat tendon and wound healing.49,50 In both studies, tendon and wound healing rates were seen to significantly increase by 59% ± 4% (Figure 1, A) and 69% ± 5% (Figure 1, B) in PEMF-treated animals.

Once it was established that Ca2+ binding to CaM was a potential transduction pathway for PEMFs, the electrochemical model was employed to configure RF signals that would efficiently couple to Ca2+-binding kinetics28 using rate constants, which are well studied for the Ca/CaM system.39 This enabled the diathermy-based PEMF signal to be reconfigured so that its frequency spectrum more closely matched the dielectric properties of Ca2+-binding kinetics at CaM. The result is a PEMF device that uses 100 times less peak power to produce a biologically effective signal dose in the body. Initial confirmation of these predictions of the electrochemical model were reported for the MLCK enzyme assay, neurite outgrowth, and bone repair in a rabbit model.40 All of the limitations of the original diathermy-based devices were therefore addressed, potentially providing the physician with a more versatile and economical tool for postoperative pain and edema management with no known side effects.3


To learn more about the benefits of PEMF and study them in detail visit the World’s Largest Online Resource of PEMF Therapy. Organized alphabetically from Alzheimer’s — Wound Care. You’ll find thousands of peer-reviewed research articles to help you make sensible, realistic deductions that any PEMF therapy enthusiast who wants to use PEMF to enhance the lives of themselves and loved ones.
Sensations extrêmes en perspectives avec ce livre dont la beauté évocatrice des photographies coupe le souffle-d'ailleurs on s'attendrait presque à expirer de la vapeur tant on se sent happé par les paysages... Parce que ces lieux froids sont fascinants et qu'il est toujours fructueux de sortir de sa zone de confort, ce livre vient à point nommé nous rappeler que le réchauffement climatique n'est pas un simple inconvénient du développement mais bien une agression commise à l'encontre de l'équilibre du monde.
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