Arasys Perfector - iPico Ion Magnum

Xanya Sofra-Weiss, Ph.D

Abstract:

The aging process cannot be conceptualized by examining a single gene or a single pathway, but can best be addressed at the systems level. Aging is not only the sum total of shortened telomeres, denatured proteins and DNA molecules, or oxidative damage in the mitochondria. Aging attacks key regulatory nodes crucial for the biological network stability. It is the dynamic process of increasing imbalances in the systemic organization of degenerating biological processes. DNA and stem cells engineering have successfully reversed certain individual components of time attrition resulting in rejuvenation and aging delay. So far, research has merely followed a sequential process that goes from the part to the whole, identifying aging genes and engineering stem cells, etc. However, discovering pieces of the puzzle still requires identification of the interconnections between matching pieces before the solution emerges. The old, the ill, and the injured all suffer from misarranged patterns of atoms. A single substitution an A for a G in a DNA molecule can cause a significant change in the conductance of the molecule leading to cancer. Such research findings demonstrate how the sequence and interrelations of amino acids in a protein, or the sequence of base pairs in a DNA molecule can become determining factors between health and disease, aging and youth. The DNA sequence alone doesn’t determine everything. The importance of the spatial organization or nuclear architecture in regulating gene expression begs for scientific observation that does not merely focus on the study of atoms and molecules, (the basic components of a Gestalt); but on the interrelations, sequence, orientation and spatial organization of these atoms and molecules (the dynamic whole or Gestalt). Recent research has shown that DNA, proteins, cells, including stem cells, appear to be electrical in that they demonstrate conductivity or the presence of ionic currents. Since electricity is a dynamic entity emerging out of the interactions of atoms and molecules, we propose that perhaps the simplest way of focusing on the entire system is by decoding the complex electrical signals that map biological interactions with respect to spatial organization. Biological signals must be analyzed in terms of their amperage, frequency, voltage, interactions, orientation, spatial organization. Next will be their translation into electronic signals that comply with the specifications of amperage, frequency, voltage or biological signals. Electronic signals will then be intertwined to orchestrate a Gestalt waveform built on the basis of information attained from observations of biological interactions and architecture – a process similar to that done in Pollock’s lab (1990-2004). This Gestalt waveform will act as an electronic diplomat to awaken biological processes that have diminished with aging or disease by signaling the recuperation and activation of biological reparative mechanisms leading to extended longevity.

A clinical study with individuals presenting abnormally clumped Red Blood Cells’ (RBCs) was completed in February 2009 with a device representing the Pacemaker Technology for the Skeletal muscle. Results indicate that this technology rapidly and efficiently leads to normalized erythrocytes’ separation at the microscopic level. RBCs separation is crucial for the overall blood flow and timely transport of hormones, antibodies, oxygen and nutrients to the cells, and waste products to the kidneys. Transport of Hormones is a crucial process lipolysis (T3 and Growth Hormone — GF) and muscle hypertrophy (Insulin Growth Factor - IGF-1). Additionally, erythro cyte separation resulting from treatment with the Pacemaker Technology appears to have a negative correlation with the number of fungal forms, poikilocytosis, thrombocyte aggregation and bac teria present in the blood prior to treatments. In summary, the erythrocyte separation resulting from treatments with the Pacemaker Thechology enhances hormonal transport including T3 and GH leading to lipolysis and muscle hypertrophy; 2) RBC;s separation enhances overall level of health by a significant reduction of free radicals. bacteria, fungal forms. etc.; 3) Obesity is characterized by reduced blood flow. The Pacemaker Thechology increases RBC’s separation resulting in normalized blood flow. In conclusion, re-establishing normal levels of blood flow will not only help reduce obesity but it will help reduce the risk of heart attack as well as all other disorders associated with obesity. Due to its resonance with the biological signal and following the rule of reinforced synapses when signals are in synch with the CNS, the signal of the Pacemaker Technology spreads throughout the CNS inducing effortless and painless isometric and isotonic muscle contractions. The Pacemaker Technology signal to the nerve ultimately triggers hormonal secretion such as Growth Hormone (GF), Thyroxine (T4) and Triiodothyronine (T3) for lipolysis and Insulin Growth Factor (IGF-1) for muscle hypertrophy.

Goals and Objectives
(1)To integrate the diverse data on aging genes, cellular oxidative damage, telomere attrition, protein and DNA denaturation and mitochondria damage into a unified theory that addresses aging at the systems level.
(2)To discuss studies that have used ionic currents to enhance molecular reparative mechanisms.
(3)To introduce clinical and experimental results obtained with the Pacemaker Technology
(4)To introduce the ionic currents model of anti-aging for rejuvenation and obesity and discuss consequential medical benefits involved with this technology.

Tags: Xanya Sofra Weiss

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