Arasys Science:
- Uses advanced MENS technology to resonate the biological signal that the brain sends to the nerve in control of the muscle.
- Arasys signal is built with up to 1,000 waveforms composed on the basis of empirical and clinical research (a total of 17 years) by the co-inventor of the first pacemaker.
- Arasys signal targets the nerve in control of the muscle and not the muscle as do muscle stimulators.
- Arasys resonance of the neuron signal results in a full muscle contraction that has the rhythm and potency of strenuous exercise without the effort.
- Arasys effortless workout gets you straight to the fat burning stage without the gym burnout. The Arasys procedure utilizes fat as an energy source. It bypasses aerobic (requiring oxygen) glucose burning as well as the anaerobic (without oxygen) energy supply process that converts pyruvic acid molecules to lactic acid.
HOW IS ARASYS DIFFERENT FROM MUSCLE STIMULATORS
Arasys uses microcurrent to signal the nerve in charge of the muscle contraction by resonating the brain signal at the nerve synapse.
MILIAMP MUSCLE STIMULATION VS. MENS SIGNAL TO THE NERVE:
Although the glucose molecule holds plenty of chemical energy, it cannot be used directly for muscle contraction. Instead muscle cells must transfer their incoming glucose supplies into the more readily utilizable form of ATP.
- MUSCLE STIMULATION: During muscle stimulation, the outside of the muscle cell membrane is more positive than the inside. An electrical stimulus causes a reversal of this polarity, causing the muscle to twitch. The energy that powers this process comes through ATP that acts as a molecular motor powering movement. Maintaining the availability of ATP for muscle contraction is the limiting factor, since ATP is not stored in large amounts in the skeletal muscle. Research has consistently shown that Miliamp (one over a thousand of an amp) depletes ATP. Muscle stimulators work with miliamps, quickly depleting the limited ATP supply in the skeletal muscle.
- SIGNAL TO THE NERVE: Nerve tissue (neurons and glia cells) has the ability to generate and conduct electrical signals in the body; it can communicate. These electrical messages are managed by nerve tissue in the brain and transmitted down the spinal cord to the body. During exercise, an electrical signal travels from the brain to the neuromuscular junctions, where a motor neuron attaches to the muscle. Calcium is released from its storage area bringing about a muscle contraction. As the nerve impulse reaches the junction, Acetycholine & ATP are co-released from the electromotor nerve terminals. ATP involved in the neuronal process does not have the limitations it does during muscle stimulation that draws on the limited supply of ATP stored in the skeletal muscle. A number of research studies indicate that an important advantage of microcurrent stimulation is that it increases ATP up to 500%.
NEURO-RESONANCE VS STIMULATION:
Neuro-resonance occurs when a signal harmonizes with another signal or a process. Neurons are prone to oscillate at certain frequencies. Research has shown that inter-neuronal feedback is the basis for neuronal oscillations rather than intrinsic autonomous oscillations of single cells (Victor et al 1988). Targeting the motor nerve rather than the muscle requires a complex signal that resonates with the biological signal transmitted to the nerve membrane during movement – e.g., a signal that involves an equivalent composition of an analogous number of frequencies. Neuro-resonance signifies harmony with a biological activity.
Stimulation reflects an increase of a non-specific activity that may or may not be beneficial or in harmony with the body.
WHAT DOES ARASYS DO?
- Clinical studies report that Arasys burns fat to build muscle.
- Muscle contraction enhances lymphatic drainage and blood circulation.
- Increased circulation and lymphatic drainage helps reduction of cellulite.
- Clinical studies on the Arasys report significant inch loss and increased metabolic rate.
- Inch loss after Arasys treatments is reportedly significant with individuals suspected to have visceral fat.
- Arasys clients report enhanced health and an overall sense of well-being.
ARASYS SQUARE WAVEFORM:
- Arasys square waveform is consistent with the square micro-signals of neurons reported by Erwin Neher (Nobel Prize, 1991).
- It is constructed with up to 1,000 frequencies researched at London University and BIS for 17 years.
- Frequencies are combined like symbols programmed in a specific sequence to form a computer command.
- Frequencies intertwine into the square waveform that resonates the brain signal used to communicate with neuron cells during regular exercise.
How and why Arasys was invented
Arasys was invented and built in 1994 in London University by Gerry Pollock, the co-inventor of the first pacemaker and Donald Gilbert, a renown Cellular Biochemist. It was originally intended for the treatment of Multiple Sclerosis and Muscle Atrophy. It gained popularity in the field of cosmetics as a result of its high speed muscle building, inch loss, visceral fat reduction, and its dramatic effects in tightening abdominal muscles after pregnancy.
It was redesigned in 2004 to include modern electronics at Bi Centre Innova Science (BIS), a European Community Funded Science Park in the UK. After 17 years of empirical electronic research it was upgraded in 2005 for fine tuning of its complex square waveform that signals the nerve in charge of the muscle. The most recent 2006 upgrade empowered the Arasys with additional effectiveness and comfort.
Gerry Pollock, the co-inventor of the first pacemaker raised the standards of MENS (Micro-current Electrical Neuromuscular Stimulation) with Arasys exclusive square waveform that resonates the brain's biological signal to neuronal cells.
In studying neuronal cells Dr. Erwin Neher reported: "The square-wave nature of the signals was proof of the hypothesis that channels in biological membranes open and close stochastically in an all-or-none manner. The fact that similar records could be obtained both in our Göttingen laboratory and in the laboratory of Charles F. Stevens at Yale gave us confidence that they were not the result of some local demon, but rather signals of biological significance."
--Erwin Neher, 1991 Nobel Prize in Medicine and Physiology.
Gerry Pollock's proprietary waveform is built with up to 1,000 frequencies that form the fine tuned Arasys signal. Arasys frequencies have been combined to resonate the biological signal that the brain sends to the nerve in charge of the muscle prior to movement. Seventeen years of research on the Arasys have been dedicated in discovering and combining the specific frequencies that would intertwine to deliver a signal that can closely resonate the specific brain signal that the nerve understands.
The Arasys signal has the clarity and accuracy that makes it similar to the biological signal which singles out Arasys as a unique technology, despite several attempts to duplicate it. Pollocks' ingenuity and meticulous empirical experimentation has established Arasys as a superior technology. Pollock continues research and development at the Innova Science Park, a European community funded research center.
Arasys is unlike most Electrical Muscle Stimulators (EMS) which merely stimulate the muscle. Muscle cells do not receive or understand brain signals. Only muscle neurons understand the brain signal that Arasys has been designed to resonate. The muscle contraction caused by signaling the nerve that controls the muscle is a far more complicated process than mere muscle stimulation. Muscle stimulation is the result of a change occurring at the electrical gradient across the muscle cell membrane. The outside is more positive than the inside. Stimulus causes an instantaneous reversal of this polarity, causing the muscle to contract. On the other hand, the Arasys signal targets the neuromuscular junctions which are the point where a motor neuron attaches to a muscle. Acetycholine is released from the axon end of the nerve cell when a nerve impulse reaches the junction. A wave of electrical changes is produced in the muscle cell when the acetylcholine binds to receptors on its surface. Calcium is released from its storage area in the cell's endoplasmic reticulum, which is a network of membranous tubules in the cytoplasm of a cell, involved in the production of phospholipids (building blocks of cellular membrane) proteins, and other functions. Each impulse from a nerve cell causes calcium release to bring about a muscle contraction. In conclusion, Arasys works through a much more sophisticated and complex manner when compared to EMS devices that merely stimulate the muscle. Unlike most EMS devices that more or less twich the muscle, Arasys results in a full muscle contraction that is analogous to the movement that occurs during regular exercise.
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Arasys Perfector is a remarkable technology, the flagship of my practice. -Brandon To, MD
Our patients are ecstatic with their results. It has been a great business adjunct. -John E. Hamacher, MD
I've had the equipment for a year and it continues to be a major drawing point for the clinic. -Valerie Donaldson, MD
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