EXCLUSIVE PATENTED COMMUNICATIONS LEVEL TECHNOLOGY
All electrical therapies are not equal, they are like any electronic device, be it a TV, a cell phone, etc, there are vast differences in capability based on their design.
A key to our successful patient outcomes with the Electroanalgesic Medical device comes from a new comprehensive signal delivery technique we refer to as Electronic Signal Intonation (ESI). The system follows a technical path more closely related to communications-level technology than older biomedical engineering technology. Computer-driven Digital Signal Processing engines (DSP) produce complex electronic signals that imitate, exhaust or interrupt the neuron’s axonal action potential, with the net result being stabilization of neuronal discharge, and decreased symptomatology.
We believe it is possible with the use of the advance electrical technology, to re-establish the electrical pathways in the cells, improve, or normalize the production of neurotransmitters, and improve or normalize multiple metabolic functions. A simple TENS device can not achieve these important functions because they are designed to only interrupt the pain impulse. To achieve these objectives with electro-medicine, the technology used must have the capability to modulate frequencies and amplitudes at the same time, and produce a sustained randomized signal that prevents cellular accommodation.
Without the sophistication of digital signals, randomization is not possible. Higher power is also necessary to overcome all impedance the electrical impulse encounters to reach and affect all cells when applied through the skin. These capabilities and more are what can be expected with Digital Electronic Signal Intonation technology. An important fact to know is this: all electro-medical devices that use an analog signal, can only produce short periods of cell stimulation before the cell accommodates and rejects the signal. The analog devices usually produces positive short term relief, but rarely brings about long term resolution.
Comprehensive Electronic Signal Intonation (ESI) includes simultaneous modulation of both the signal frequency, the sweep rate of the border carrier frequencies, as well as the amplitude of the delivered electronic signal energy, ensuring no neuronal accommodation. This level of sophistication in signal manipulation requires a digital design, such as ESI. Continuous changes in these values are applied at specific incremental steps, which are mathematically calculated to produce harmonic, vibratory effects on the membrane of the cells. This advanced, innovative technology provides a distinct proportional mixture of Stimulation (St) signals and Multi-facilitation (Mf) signals for differentiated electroanalgesic medical application.
Numerous kinds of electrical currents with varied parameters are offered today in electromedicine. The diversity of electromedical signal currents is the result of the infinite possibilities to vary the intensity and even the direction of the current in time. These electric signal variations create different physiological and therapeutic effects for the patient treatment.
Typical terminology to describe or define these different types of therapeutic electrical currents is usually according to their primary frequencies as: low, middle and high frequency currents. This classification system can be traced back through hundreds of articles and clinical reports in the literature and lists many scientific investigators. Some of the most relevant works include the physiologic investigations of GILDEMEISTER, SCHWARZ and WYSS conducted in the second third of the last century. (See information on Stimulatory Class and Multi-facilitory Class for more specific information on the different capabilities of electrical therapies).