L’Influence Des Champs Magnétiques Sur La Microcirculation (en Anglais) – Magnetic Field Influences On The Microcirculation

19 mai 2017 par maty185



étude – research paper:

Cliquer pour accéder à Book%20chapter%20fluid%20flow%20.pdf

Excessive peptidergic sensory innervation of cutaneous arteriole-venule shunts (AVS) in the palmar glabrous skin of fibromyalgia patients: implications for widespread deep tissue pain and fatigue.


Sensory and Sympathetic Innervation to Arteriole-Venule Shunts in a Fibromyalgia Patient (image)

Integrated Tissue Dynamics (INTIDYN)


Fibromyalgia Pain May Also Result from Neurogenic Inflammation of Peripheral Nerves, Review Argues


Nerves, Estrogen, Dr. Mikovits and Paradoxes: The INTiDYN Approach to Fibromyalgia and Chronic Fatigue Syndrome

« First came a study on shingles, then one on CRPS, and then last year a Fibromyalgia study. All revealed increased numbers of autonomic nervous system and, in particular, sensory nerves in the skin of the hands of FM patients. » :


Sodium channel NaV1.7 in vascular myocytes, endothelium, and innervating axons in human skin

Article (PDF Available)inMolecular Pain 11(1):26 · May 2015with82 Reads

DOI: 10.1186/s12990-015-0024-3 · Source: PubMed
The skin is a morphologically complex organ that serves multiple complementary functions, including an important role in thermoregulation, which is mediated by a rich vasculature that is innervated by sympathetic and sensory endings. Two autosomal dominant disorders characterized by episodes of severe pain, inherited erythromelalgia (IEM) and paroxysmal extreme pain disorder (PEPD) have been directly linked to mutations that enhance the function of sodium channel NaV1.7. Pain attacks are accompanied by reddening of the skin in both disorders. NaV1.7 is known to be expressed at relatively high levels within both dorsal root ganglion (DRG) and sympathetic ganglion neurons, and mutations that enhance the activity of NaV1.7 have been shown to have profound effects on the excitability of both cell-types, suggesting that dysfunction of sympathetic and/or sensory fibers, which release vasoactive peptides at skin vasculature, may contribute to skin reddening in IEM and PEPD. In the present study, we demonstrate that smooth muscle cells of cutaneous arterioles and arteriole-venule shunts (AVS) in the skin express sodium channel Nav1.7. Moreover, Nav1.7 is expressed by endothelial cells lining the arterioles and AVS and by sensory and sympathetic fibers innervating these vascular elements. These observations suggest that the activity of mutant Nav1.7 channels in smooth muscle cells of skin vasculature and innervating sensory and sympathetic fibers contribute to the skin reddening and/or pain in IEM and PEPD.

Electromagnetic fields act via activation of voltage-gated calcium channels to produce beneficial or adverse effects


Cliquer pour accéder à EMF-VGCC-JCMM-5.pdf

Polarization: A Key Difference between Man-made and Natural Electromagnetic Fields, in regard to Biological Activity


Cardiac Effects of EMR:

Hearts use natural electric pulses to produce heart-beats. An electric pulse produces a cascade of calcium ions that cause the heart muscle to contract. The Electrocardiogram (ECG) is used to monitor heart activity and can detect heart disease through the altered electrical signals. Hence it is biologically plausible that electric signals, that are shown to interfere with artificial pacemakers, can also interfere with the natural heart-beat. This has been shown in several studies in relation to reduction of the heart rate variability (HRV). This is a known risk factor for heart disease.

Satre, Cook and Graham (1998) observed significantly reduced heart rate variability (HRV) in volunteers sleeping in 60Hz fields. Extrinsic EMR signals interfere with hearts and cause heart disease and death. Bortkiewicz et al. (1995, 1996, 1997) and Szmigielski et al. (1998) found that RF exposure altered heart rate variability and blood pressure. Forman et al.(1982) present case studies of microwave exposed personnel with induced hypertension. Braune et al. (1998) showed that cell phone significantly increased blood pressure. Savitz et al. (1999) found a highly significant dose response relationship for mortality from Arrhythmia related heart disease and heart attack (Acute Myocardial Infarction) for exposed electrical occupations and for individual occupations of electrician, lineman and power plant operator.

Hamburger, Logue and Silverman (1983) observed significant dose responses for heart disease for male physiotherapists as a function of treatments per month with microwaves, OR = 2.51 (1.09-5.78), Trend p<0.05); shortwave, OR = 3.40 (1.56-7.39), trend p=0.005; and Combined Microwave and Shortwave, OR = 2.88 (1.21-6.70), trend p=0.025.

This is a powerful set of epidemiological evidence showing that EMR across the spectrum increases the incidence and mortality from arrhythmia related heart disease and from heart attack. The following graph shows the dose-response curve for Acute Myocardial Infarction (Heart Attack) in electric utility workers, Figure 41.

Figure 41: Acute Myocardial Infarction as a function of cumulative exposure to 60 Hz fields in U.S. electricity utility workers, Savitz et al. (1999).

Savitz et al. (1999) show crude dose responses for Cardiac Arrhythmia related heart disease and a highly significant dose-response, Figure 41, for Heart Attack.

ARPANSA document – Neurological Effects of RFR in Humans doc. Case Reports : Neurological Effects of RFR in Humans


+ info at source: http://www.feb.se/emfguru/EMF/genotoxic/Genotoxic-EMR-paper.htm



mai 2017

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