MAIN TENDENCIES OF NLS-TECHNOLOGY DEVELOPMENT
V.I. Nesterov, V.I. Nesterova, I.V. Nesterov
Vladimir Igorevich Nesterov – president of International Academy on non-linear diagnostic systems, full member of Academy of Medical and Technical Sciences, academician.
Vera Ivanovna Nesterova - director of the Institute of Practical Psychophysics, Corresponding member of Academy of Medical and Technical Sciences.
Igor Vladimirovich Nesterov – director of European branch of the Institute of Practical Psychophysics in Prague.
First decade of the new century will be marked by considerable extension of NLS-technology’s diagnostic features, first of all by means of new technologies introduction, using computer engineering and alliance with pharmaceutical industry. Such concepts as NLS- ultramicroscopy, non-linear spectral and entropy analysis, high-frequency NLS-therapy will become customary in clinics. Together with development of inexpensive portable digital NLS-systems, scope of their application will be extended also; improvement of communication means capabilities will allow to transmit live pictures to medical consulting centers from any place on Earth. Pragmatic market of 3D-visualizing diagnostic technologies will be formed gradually by means of harmless nonionizing methods, allowing to fulfill multiple dynamic researches, i.e. NLS-technologies undoubtedly will come to the fore.
Non-linear (NLS) diagnostics, based on a new physics of quantum-entropy interaction allows to acquire maximum information about gravity, maturity and intensity of functional changes in human organism during medical check-up. In majority of cases application of this technology has a principle meaning for diagnosing and therefore for choosing of proper treatment course. Thereby developing of this method became a great improvement in diagnostic medicine. Using the principle of NLS-diagnostics and taking as the basis researches of academic Svyatoslav Pavlovich Nesterov, who invented underlying trigger sensor, at the beginning of 90’s of the last century the Institute of Practical Psychophysics (IPP) started to design NLS-diagnostics systems. According to EU experts, diagnostic equipment manufactured by the IPP, holds 20% of world market of medical resonance-wave technologies nowadays. Development of NLS-technologies cannot be separated from main problems of medicine – reasons of diseases development, their early diagnostics and objectivization of treatment efficiency. Despite decreasing of cardiovascular diseases mortality rate (according to world statistics), the situation around “epidemic no. 1” is still remains unfavorable. Constant growth of oncological and hereditary pathologies is registered. In modern world protective, less-invasive, bloodless surgery goes together with therapy which becomes more and more “aggressive”. And if we take into account that our civilization is technogeneous, it is quite possible that humanity will face new and unknown diseases in future. With this background development of diagnostics methods goes on and NLS-researches is one of the most significant among them.
To achieve significant progress in quality of NLS pictures, considerable increase of amount and accuracy of contained information is required. It is increasing of amount and accuracy of diagnostic information in NLS picture that is the main objective of modern technologies development. Nowadays, new approaches to acquiring and analysis of information can be divided into those related to visualization in three-dimension mode and those related to increasing of devices’ generation frequency, which is directly associated with increasing of resolution during research of organism tissues’ ultrafine structures.
In identification of NLS-systems’ operating characteristics high-frequency generators have principal meaning. Major part of the most significant achievements in picture quality improvement and in growing of our clinical possibilities related to innovations in development of non-linear generators. Working frequency ranges of modern generators are within 1.4 – 4.9 GHz, which allows us to research almost all internal organs, anatomical masses and tissues with up to 30 micron resolution. However non-invasive visualization of ultrafine structure of tissue at separate cell organelles and DNA fragments may be hampered. That is why technology of high-frequency non-linear generators manufacturing have changed greatly.
At the present time, together with American company "Clinic Tech. Inc”, super high-frequency non-linear generators with 40 - 100 GHz operating frequency are developed and clinically tested. It allowed to reach 100 angstrom resolution. These technologies, which are not yet widely applied, are already called “NLS-ultramicroscanning”. Most probably in near future thanks to development of this area, we will be able to look at epithelial and endothelial tissues at sub-cell level more closely and to research and correct clusters of reborn cells.
The main problem of torsion fields’ influence to a cell ultra-structure and DNA helix is to find an extremely precise instrument which, similar to laser, could influence DNA molecule structure with diameter less than 2 nanometers. Creation of such unique instrument became possible only after super-high-frequency torsion generators were developed. These generators have frequency of few dozens of gigahertz and additional feature of wide-pulse signal modulation to generate field oscillations with parameters peculiar to living cell in order to restore its regulatory mechanisms.
Another promising area of NLS-technology development is creation of non-linear telemedicine monitoring system.
A remarkable opportunity of this method lies in enhancing the sensitivity of the diagnostics and expanding the system functionality due to technologically remote diagnostics (telediagnostics) in asynchronous mode of a dialogue between the doctor and the patient at which they can communicate with one interactively regardless of the location remoteness.
The system, offered by the Institute of Practical Psychophysics, provides opportunity to ensure an audiovisual contact between a patient and a doctor during torsion diagnostics when doctor is at great distance from the patient.
The equipment can be applied in clinics, diagnostic centers and scientific research institutes to carry out distant diagnostics of patients using mobile terminals (in field conditions, in the mountains, at sea).
The body of the obtained data is sent through a specialized server to a medical advisory center with the observance of data safety requirements.
Another technical achievement, which opens up new prospects and features in NLS-diagnostics, is “three-dimensional picture” (3D). Originally 3D appeared in computer tomography, because processing powers allowed to summarize parallel crosscuts into one multidimensional unit.
Even few years ago 3D was considered as hardly applicable long term aestheticism of professionals in NLS-diagnostics. In the present time it is an integral part of not only scientific studies, but practical diagnostics also. There is growing number of such terms as “surgery under control of three-dimensional NLS-visualization” or “3D virtual NLS-graphy”.
Preparation of NLS pictures for visual analysis is carried out by means of “4D TISSUE” original technology developed by the Institute, that allows not only getting of virtual multidimensional pictures of anatomic and histological structures, but also mark with color interesting biologic tissue – “additional dimension” and visualize bones, soft tissues and vessels simultaneously or in any desired succession.
Great future of such programs is unquestionable, because these technical achievements facilitates diagnostician’s job and allows to represent clearly anatomic characteristics and pathological changes in researches organism.
It seems that creation of ultrahigh-speed “intellectual” NLS-scanner is one of the most important features of new 3D generation.
More and more clinical therapists realize necessity to master NLS-diagnostic equipment, because need in properly educated experts in this field is obvious. At the same time among traditional medicine specialists there is a tendency to pay more attention to researches with computed X-ray imaging and magnetic resonance imaging. That is why NLS-technologies, unfortunately, is still hidden among more orthodox methods of diagnostics. Clinician will be ready (in many aspects are already ready) to improve their diagnostic possibilities by using of NLS-technology, often without X-CT, MRI and radionuclide methods.
Nevertheless, only in strategic partnership of NLS-diagnostics experts, radiologists and clinicians may be found a key to optimal diagnostic and healing application of this, in all senses, original and efficient medical technology.
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