Abstract
The aim of the present study was to demonstrate the effect of the T-NES®-HiT Tech patch system, on serum lactate levels and on the heart rate, of 60 triathletes, subjected to a resistance test. The active central portion of the patch contains a nanotechnological material (silver micronized with plasma vaporization) that is appropriately activated with a technology device, which uses optical radiation, magnetic fields, electric fields and acoustic waves specially sequenced. The patch transfers an Extremely Low Frequency (ELF) magneto-electric pulse by ion exchange. The ELF signal emitted by the device, increases the electromagnetic coherence of the systemic cellular electrical signals, which shows a better management of the muscular contraction, both bilaterally and between the agonist and antagonist districts and also a better management of oxygen and lactate, elements that lead to increased proprioception. The final result is manifested in the activation of the transmembrane ion channels, thus providing sufficient energy to the phosphate groups of the ADP, avoiding the deprotonation of excess lactic acid, present in the blood stream and therefore qualitatively improving the work of muscle contraction and aerobic capacity. Following these effects the T-NES®-HiT Tech patch system has led to a significant decrease in heart rate and serum lactate production in the athletes examined.
Highlights
The induction of a cellular effect, by a nano- technological device has as its premise the ability to guide the various metabolic phases through mechanisms that act on all interfering phenomena and through the induction of repairing chemical cascades in sequence
Johrian Ara et al.: Reduction by a Nanotechnology Device of Serum Lactate Levels and Heart Rate in Athletes Undergoing to Resistance Exercises (HRmax) is the highest heart rate an individual can achieve without severe problems through exercise stress, and generally decreases with age
Moderate electric fields (MEF) have shown interesting influences on the permeability and diffusion across. The objective of this investigation was to verify if the Extremely Low Frequency (ELF) fields, generated by the nanotechnology device T-NES®- HIT Tech., influence the stimulation of the human muscular apparatus, evaluating the potential reduction of serum lactate levels and the heart rate of 60 triathletes, subjected to a resistance test
Summary
The induction of a cellular effect, by a nano- technological device has as its premise the ability to guide the various metabolic phases through mechanisms that act on all interfering phenomena and through the induction of repairing chemical cascades in sequence. Any form of energy impacts a biological system by modifying the ∆G° and the functional dynamics of some multi-potential signaling devices such as Ca2+, or G protein coupled receptors, and the gene transcription system, which is able to modify the activation or deactivation of molecular switches. It is possible, to influence cellular functionality from the outside with appropriate physical signals [1], inducing functional changes by piloting some important biochemical reactions [2], improving the resistance of cells to hypoxia [3]. Electromagnetic fields (EMF) are able to modify chemical reactions in polar aqueous solutions, as shown by the Piccardi effect
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