Getting Started with MicroTesla/pEMF
Agenda: workshop runs from
9am -12pm and 1pm - 4pm EST Next Workshop: TBD |
Workshop is FREE
with certain equipment purchases Call for details: (603) 499 8363 |
NOTE: Licensed/credentialed healthcare professionals and staff members only
WORKSHOP DESCRIPTION
Pulsed electro-magnetic fields promote healing at the cellular level. Pulsing that is contingent on EEG output can be very powerful. Random pulsing promotes EEG flexibility. Reports indicate that neurofeedback outcomes are often enhanced with the addition of pulsed magnetic therapy. For further information about protocol development please send inquiries to: eegvemont@gmail.com.
In general, pulsing magnetic therapies do not fall under the heading of biofeedback self-regulation or operant conditioning. However, designs may be created that emit pulses which are contingent upon or in sync with the flow of the EEG. Hence, the magnetic pulses become part of, or are in a loop with, the biofeedback process. Additionally, magnetic pulsing may well influence EEG frequency. And there is overwhelming evidence that it promotes positive changes at the cellular level.
Benefits of pulsing magnetic therapies [literature review]
Before any new therapy is introduced into a neurofeedback clinic it is essential to know how it is viewed by the scientific community. Health benefits and statements made to patients should be supported by peer reviewed research. The following quotes are consistent with countless [perhaps thousands] of research articles referring to pEMF (bold italics added):
Fueling this recent interest is the fact that extremely low-frequency and low-intensity pulsed electromagnetic fields (pEMFs) have been shown to be innocuous, possibly even beneficial, to normal cell types. On the other hand, certain malignant cell classes have been shown to be particularly vulnerable to their effects (Crocetti, 2013).
Previous papers have reported that pEMF exposure could act modulating cartilage and bone metabolism, stimulating chondrocyte and/or osteoblast cell proliferation and the synthesis of extra-cellular matrix components. The stimulation of chondrocyte and/or osteoblast cell proliferation induced by pEMFs has been shown to have a positive effect in the treatment of fracture healing. (Vincenzi, 2013)
Numerous clinical studies have reported that pulsed electromagnetic fields (pEMF) are able to modify some parameters of nerve function in diabetic patients, and a voluminous amount of literature has suggested that pEMF can stimulate nerve growth, regeneration, and functional recovery of nerves in cells in vitro or in animal models with nerve disease. (Lei, 2013)
In general, pulsing magnetic therapies do not fall under the heading of biofeedback self-regulation or operant conditioning. However, designs may be created that emit pulses which are contingent upon or in sync with the flow of the EEG. Hence, the magnetic pulses become part of, or are in a loop with, the biofeedback process. Additionally, magnetic pulsing may well influence EEG frequency. And there is overwhelming evidence that it promotes positive changes at the cellular level.
Benefits of pulsing magnetic therapies [literature review]
Before any new therapy is introduced into a neurofeedback clinic it is essential to know how it is viewed by the scientific community. Health benefits and statements made to patients should be supported by peer reviewed research. The following quotes are consistent with countless [perhaps thousands] of research articles referring to pEMF (bold italics added):
Fueling this recent interest is the fact that extremely low-frequency and low-intensity pulsed electromagnetic fields (pEMFs) have been shown to be innocuous, possibly even beneficial, to normal cell types. On the other hand, certain malignant cell classes have been shown to be particularly vulnerable to their effects (Crocetti, 2013).
Previous papers have reported that pEMF exposure could act modulating cartilage and bone metabolism, stimulating chondrocyte and/or osteoblast cell proliferation and the synthesis of extra-cellular matrix components. The stimulation of chondrocyte and/or osteoblast cell proliferation induced by pEMFs has been shown to have a positive effect in the treatment of fracture healing. (Vincenzi, 2013)
Numerous clinical studies have reported that pulsed electromagnetic fields (pEMF) are able to modify some parameters of nerve function in diabetic patients, and a voluminous amount of literature has suggested that pEMF can stimulate nerve growth, regeneration, and functional recovery of nerves in cells in vitro or in animal models with nerve disease. (Lei, 2013)
BRAINMASTER MICROTESLA PRODUCTS
WHAT IS PEMF?
The goal of this workshop is to introduce a user-friendly format and understanding of pulsed Electro-Magnetic Field Therapy, Photic-Stimulation as well as slow frequency training. Users of these new protocols must have installed the latest Avatar; 4.6.4.765 as well as a z-score training capability.
Note the following:
Pulsed ElectroMagnetic Frequencies (pEMF) are associated with cellular repair and the energy provided by ATP activation. Low ATP levels cause our cells to be sick, and decreases their ability to heal, regenerate, or function properly. Numerous clinical studies have reported that pulsed electromagnetic fields (PEMF) are able to modify certain parameters of nerve function in diabetic patients. Furthermore, a voluminous amount of literature has suggested that pEMF can stimulate nerve growth, regeneration, and functional recovery of nerves in cells in vitro or in animal models with nerve disease. (Lei, 2013). Photic stimulation and not pEMF is an entrainment process; it activates evoked potentials in the visual cortex which has connections throughout the cortex. EEG slides will show how they differ.
Note the following:
- pEMF requires 2-4 coils of Microtesla and stim flash software. Discovery users need ECHO or an auxiliary Atlantis.
- Photic stim requires stim glasses and stim flash software. Discovery users need ECHO or an auxiliary Atlantis
Pulsed ElectroMagnetic Frequencies (pEMF) are associated with cellular repair and the energy provided by ATP activation. Low ATP levels cause our cells to be sick, and decreases their ability to heal, regenerate, or function properly. Numerous clinical studies have reported that pulsed electromagnetic fields (PEMF) are able to modify certain parameters of nerve function in diabetic patients. Furthermore, a voluminous amount of literature has suggested that pEMF can stimulate nerve growth, regeneration, and functional recovery of nerves in cells in vitro or in animal models with nerve disease. (Lei, 2013). Photic stimulation and not pEMF is an entrainment process; it activates evoked potentials in the visual cortex which has connections throughout the cortex. EEG slides will show how they differ.