3.) Professional devices

3.) Professional devices

Lenyo CellCom (LCC)

The LCC is an endogenous device, because it uses uniquely signals of the organism received by the two input channels. Through a sophisticated filtering and modulation technology the actual content of the Biological Window (BW) will be used for supporting information processing in the body.

More than 650 pre-loaded programs and over 600 (tissue and condition specific) protocols make the application user-friendly. Also custom made protocols can be created or imported from other practitioners.

Sessions are shorter than ninety minutes, sometimes only twenty minutes, and due to the extremely profound impact on the information processing of the targeted biological subunits, typically administered only once or maximum twice weekly. LCC sessions are regularly complemented with other exogenous BRT sessions, in order to support adaptational reactions of the organism initiated with the LCC session.

Lenyo SanoCenter (LSC)

The LSC is the pro system among the exogenous devices due to its variability and complexity.
It can form a network of signal generators and serve up to 64 clients simultaneously or deliver several programs for one sole person.

The word exogenous serves here the differentiation from the endogenous approach in BRT, where the organism delivers the input signals for the session. Here uniquely the signal generator and the antenna/applicator are responsible for the generated field which serves as carrier wave for the internal communication signals of the organism. This field must be fine tuned to the targeted BW in order to give the possibility to the cells to receive all actually present biological signals in the range of the antenna.

Each BW is supported on average only for a few seconds, or maximum for a minute because of the fantastic fast speed of metabolic activity in the human cells. A program typically contains 30-85 sub-programs for the different BWs of the targeted zone; this makes sure that the different metabolic activities of the targeted biological sub-unit are all sufficiently supported in their adaptation processes.

Most of the LSC protocols are prepared for a 4-channel application, where four independent signal generators deliver synergistically the carrier waves during the session. This can be compared to an orchestra, in which the different instruments support each other in the expression of the melody, when playing together following the notes of the symphony. As the human body can be represented like a big orchestra, in which the different organs represent the different instrument groups; the cooperation of the organs and the cells in the organs is equally  important as the cooperation of the different instrumentalists in the symphonic orchestra. That is why a multi-channel BRT application is more efficient than a single channel one; the same way like a solo instrument can show less details of the melody than the whole symphonic orchestra, which makes the sound full-bodied.

2.) Development of BRT equipment

2.) Development of BRT equipment

In Budapest Hungary, Hippocampus started to develop first test equipment, followed by therapy devices; all based on above mentioned research of self-regulation processes of the organism.
The first 12 channels test and 1 channel therapy equipment, the Cerebellum Multichannel Medical Instrument (CMMI) was produced in late 1994 and in 1996 certified as a medical device.

Administering the own signals of the organism for adaptation support
In 1998 the first generation of the CellCom device was introduced. This device processes electromagnetic signals of the organism and uses selected vibrational components of the
endogenous signals for therapy. Endogenous BRT method makes it possible that biological structures receive exact matching components of the information content available in the communication network of the organism.

BRT home units

Hippocampus introduced in the year 2000 small portable home version units of the CMMI’s therapy module. This was followed during the years by various modalities of home devices in order to make BRT available for each and everyone.

Multi-channel devices

Increased environmental stress on the organism made it necessary to develop equipment which works on several biological levels in the same time.

This is how the 4-channel BRT technology was born, which can support four different communication channels simultaneously. Typically, the nervous system, circulatory system, digestive system are supported equally to the target zone under therapy.

 

 

 

New professional units and certification issues

After the political turmoil regarding complementary medicine regulations in Hungary, Hippocampus did not continue the medical certification of its devices, rather classified them as “wellness equipment” in order, that all user groups can use them. In 2011 for a period of 3 years, most of the new generation technologies were again classified as “medical device”.
Due to changes in the re-certification politics, in September 2014 these certificates were not renewed, since BRT is fundamentally different from allopathic therapy approaches and its application is not connected with any medical claim. BRT provides information and biological units can follow along with more precise adaptational reactions in their metabolic processes; that makes possible higher biological coherence, stronger immune system and making better decisions on mental-emotional level.

For Hippocampus the category “professional equipment” means professional documentation features in the software, where every session is automatically allocated to a client and making sure that one client can not receive the protocol of another client.

1.) About The Founder

1.) About The Founder

„My objective is to research and educate the scientific, clinical and public communities related to the biophysical approach in biology and medicine; to develop applications in bio-regulation therapy and other functional treatments.”

Early development of interest for the healing arts

Gabor was confronted at an early age with articular and periarticular tissue ailments of the body. His joint problems, allergies and severe migraines made him aware of the consequences of diet and the life style factors. His main interest in education was math and physics and early in life participated in specific math competitions.

Turning point

An important milestone of his life was the triple hernia operation of his mother. At the age of 11 he actively participated in her rehabilitation and soon made the turning point by developing his own massage technics through extraordinary sensitivity and perseverance. He basically re-

developed Shiatsu, the Japanese acupressure style. Later these technics led him to understand the Chinese meridian system and the Indian bioenergetic system.

Professional career and studies

Following the age of 19, Gabor was involved on a daily bases in practicing healing arts. His permanent studies made it possible to develop a complex bioenergetic approach, including physical and mental exercise, dietary elements and Chi Kung. To further his studies, Gabor left Hungary in 1983.

  • first application of German bioinformatic devices – 1984

  • acupuncture study at Societas Medicinae Sinensis (Munich, Germany) – 1985-’86

  • first application of a computerised bioinformatic device – 1987

  • physiotherapy study at Hogeschool van Amsterdam, University for Applied Sciences (Amsterdam, Holland) – 1989-’93

  • BRT at Brügemann Institut Internazionale Medizinische Arbeitskreis (Munich, Germany) – 1991-’92

  • psychology study at Miskolc Philosopher Association (Miskolc, Hungary) – 1997-2000

While learning about the different modalities of bioenergetic processes, Gabor felt motivation to develop a complex technology for optimising adaptation and all necessary logistic steps on tissue and cellular level. That is why his main focus is on electromagnetic bio-communication and related studies.

He initiated a series of complex research programs to prove the practical applicability of:

  1. mitogenetic radiation

  2. biophoton emission of DNA

  3. information content transmitted by the so called biological windows as observed in major Russian, German, and North American research facilities.

  • ongoing research projects in several Institutes of the Academy of Science of the Ukraine (Kiev, Ukraine); main topics: BRT applications in oncology, gerontology, immunology, radiobiology, neurology and intensive care – 1993-’98

  • development and certification of a complex functional electro-diagnostic method – Functional Electro- Dynamic Test (FEDT) – and a complex diagnostic and therapeutic device with ECG, BRT and FEDT applications – 1993-’96

  • cooperation with the research group of Martin Blanc and Reba Goodman (Department of Pathology and Cell Biology, Columbia University, New York, USA); main topic: BRT induced heat shock protein expression – 1995

  • participation in different research projects at Institute of Noetic Sciences (Sausalito, USA); main topics: identifying contactless and remote healing effects; functional electrodynamic testing (FEDT), and the role of bioelectric testing methods in monitoring the healing process – 1995-’97

  • cooperation with Mea-Wan Ho’s research group (Department of Biology, Open University, Milton Keynes, UK); topic: BRT induced immediate and long term changes in metabolic processes – 1996-’97

Lecturing activities

Gabor’s research activities and deep involvement in the clinical work resulted in a large scale lecturing activity.
He lectured in many universities and major hospitals, like

  • Aurel Vlaicu University of Arad (Arad, Rumania)

  • Charles University (Prague, Czech Republic)

  • Hospital Angeles Mexico (Mexico City, Mexico) 

    Hospital Military de Santiago (Santiago de Chile, Chile) 

  • Hospital Sant Joan de Déu University of Barcelona (Barcelona, Spain)

  • Hungarian Army Central Military Hospital (Budapest, Hungary)

  • Hungarian Army Military Hospital (Pecs, Hungary)

  • Istanbul Technical University (Istanbul, Turkey)

  • Instituto Politécnico Nacional (Mexico City, Mexico)

  • Lomonosov University (Moscow)

  • Magnet Hospital (Ankara, Turkey)

  • Medicana Hospital (Konya, Turkey)

  • National Taiwan University Hospital (Taipei, Taiwan)

  • National University of Kyiv-Mohyla Academy (Kiev, Ukraine)

  • Universidad Americana (San Jose, Costa Rica)

  • San Jose State University (San Jose, California)

  • Semmelweis University (Budapest, Hungary)

  • Taipei Medical University (Taipei, Taiwan)

  • The National Autonomous University of Mexico (Mexico City, Mexico)

  • The Taras Shevchenko National University of Kyiv (Kiev, Ukraine)

  • Universidad de la Valle (Cali, Columbia) 

  • Universidad Líbre (Cali, Columbia)

  • University of Bologna (Bologna, Italy)

  • University of Padova (Padova, Italy)

  • University of Pavia (Pavia, Italy)

  • University of Vienna (Vienna, Austria)