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8. Can you diagnose a disease using electrodermal technology?

9. How is a computer used in evaluating electrical activity a biological system?

10. Do imprinted solutions produce an immune response?

11. How can this "machine" help me?

12. How does electrodermal detection differ from laboratory analysis?

13. How long does it take to correct a non-coherent wave?

14. Do you have any suggested reading on subject of electrodermal detection?

15. What would I learn if I took your training program?

8. Can you diagnose a disease using electrodermal technology?

Electrodermal technology is an electromagnetic signal detection devise, it is not a diagnostic devise by itself. For scientific, ethical and legal reasons it is necessary to distinguish between signal detection and diagnosis. The following explanation is designed to clarify the issue.

The Definition of Diagnosis

Merriam – Webster’s Collegiate Dictionary 10th edition 1993

Diagnosis:

1a: the art or acts of identifying a disease from its signs and symptoms.

1b: the decision reached by diagnosis.

2: a concise technical description of a taxon (classification).

3a: investigation or analysis of the cause or nature of a condition, situation, or problem.

3b: a statement or conclusion from such an analysis.

Blacks Law Dictionary, Abridged 6th edition, West Publishing Company St. Paul MN 1991.

Diagnosis:

A medical term, meaning the discovery of the source of a patient’s illness or a determination of the nature of his disease, from a study of its symptoms.

The art or act of recognizing the presence of disease from its symptoms, and deciding as to its character, also the decision reached, for determination of type or condition through case or specimen study or conclusion arrived at through critical perception or scrutiny.

A "clinical diagnosis" is one made from the study of the symptoms only.

A "physical diagnosis" is one made by means of physical measure such as palpation and inspection.

(My addendum): "a pathological diagnosis" is made by an interpretation of a pathological specimen” by a pathologist.

In my book, An Analysis of Biological Conductance, my definition of diagnosis is;

Diagnosis: a consensus medical paradigm based on an analysis of a case history, a physical examination and an interpretation of laboratory and other studies for the purpose of treatment by those trained in this paradigm.

Electrodermal technology detects discrete electromagnetic signals at specific detection sites on the skin. By itself, a signal does not contain the essential information needed to make a diagnosis and cannot be used, as such, apart from its incorporation into the conventional medical paradigm as a technical data set. Signal detection may provide information that is useful in making a correct diagnosis.

9. How is a computer used in evaluating electrical activity a biological system?

There are similarities between the processing of electrical activity in biological systems and computers. The chart below lists some of the similarities of the two systems that allow for integration of the systems.

Computer and Biological System Integration

Petzold, C., Code (Redmond, Microsoft Press, 1999)

Yeargers, E., Basic Physics in Biology (Boca Raton, CRC Press 1992)

Speckhart, V. An Electrodermal Analysis of Biological Conductance, (Virginia Beach, Biological Conductance Inc. Press 2004)

10. Do imprinted solutions produce an immune response?

Imprinted solutions have been observed to be associated with the following responses:

Electric:

• A change in the ohmmeter from an indicator drop to an indicator balance

Physiologic:

• The restoration of the flow of biological energy from a site of origin e.g. an organ to a site of detection, the skin.

Electro-physiologic:

• The ability to restore the propagation of signals (information) through the biological sol/gel matrix by converting non-conductance wave to conductance waves
• A decrease in skin resistance and an increase skin conductance.

Physics:

• A change from destructive interference to constructive interference
• Change of non-coherent waves to a coherent waves.

The above responses are electromagnetic in nature and are present in all systems of the body.

The immune system is a specialized system that protects the body from foreign substances, cells and tissues by producing an immune response especially in the thymus, spleen, lymph nodes, lymphoid tissue in the gastrointestinal tract and the bone marrow, B cells, T cells, lymphocytes and antibodies.

An immune response is a lymphocyte reaction to render harmless certain antigenic molecules by forming antibodies or by forming immune complexes with other lymphocytes.

Imprinted solutions produce an immune response only in those situations where they correct non-coherent waves of the immune system.

11. How can this "machine" help me?

Electrodermal detection does not use a "machine". It uses an electronic devise. Electrodermal technology involves a sophisticated integration of modulated biological analog waves (pulsed square waves) encoded in a computer software program with the natural analog waves found in biological systems. The analysis is based on an improved understanding of the electromagnetic nature of acupuncture points and meridians as originally described by the Chinese.

A systematic evaluation of the electrical basis for the acupuncture was first carried out in the clinical setting by Rheinhold Voll in the mid-1950's. He was able to detect changes in skin resistance after the use of a pharmaceutical. He was also able to relate changes in skin resistance at acupuncture points to organs where pharmaceuticals effect had their main site of action. This led to an extensive investigation of the effects on skin resistance of various chemicals and biologicals and homeopathics.

The technique is to find the electromagnetic site where a non-coherent wave is found and to correct the non-coherence with an appropriate code (signal). Once found the square wave code is transferred to a water/alcohol solution by exposing the solution to the field effect of an induction coil, a process referred to as imprinting. The code is captured by the solution and transferred externally to the mucous membrane of the subject.

The process of transferring the code to the mucous membrane is repeated until the non-coherent wave is no longer detected. It is a process of iterating and reiterating the subject until changes take place.

Changes in the clinical profile of the subject can then observed ro parallel the electromagnetic changes.

12. How does electrodermal detection differ from laboratory analysis?

Electrodermal detection represents an electromagnetic paradigm of biological data analysis.

Paradigm:

a philosophical and theoretical framework of a scientific school or discipline within which, theories, laws, and generalizations and the experiments performed in support of them are formulated.

Merriam-Webster's Collegiate Dictionary, 10th edition(Springfield 1993).

13. How long does it take to correct a non-coherent wave?

Most non-coherent waves are corrected after the first iteration. There are some, however, that take longer. Generally, the more acute the onset of the signal, the more rapidly it can be corrected. Miasms such as syphilinum and the tuberculinums and signals for chronic infections such as Borrelia burgdorferi may take significantly longer to respond. Candidiasis, and Aspergillae are associated with chemicals with a long half-life, consequently their signal may come and go over a long period of time, being undetectable for a time only to reappear later.

14. Do you have any suggested reading on subject of electrodermal detection?

A comprehensive list of references may be found in my text, An Electrodermal Analysis of Biological Conductance. The beginning student should be familiar with the information in the following references:

1. Bailey, Phillip M., Homeopathic Psychology (Berkeley: North Atlantic Books, 1995)
2. Becker, Robert O. & Selden, Gary, The Body Electric (New York: William Morrow 1985)
3. Becker, Robert O., Cross Currents (Los Angeles: Jeremy P. Tarcher 1990)
4. Bellavite, Paolo and Signorini, Andrea, Homeopathy, A Frontier of Medical Science (Berkley: North Atlantic Books 1995)
5. Bischko, Johannes, An Introduction to Acupuncture 2nd Edition (Heidelberg: Karl Haug Publishers 1978)
6. Bischko, Johannes, Intermediate Acupuncture (Heidelberg: Karl Haug Publishers 1986)
7. Boericke, William, Homeopathic Materia Medica, 9th Edition, (Santa Rosa: Boericke and Taffel Publishers, 1927)
8. Chen, Kuo-Gen, Applying Quantum Interference to EDST Testing (IEEE Engineering in Medicine and Biology Magazine pp 64-66, Volume 15, Number 3 1996
9. Chen, Kuo-Gen, Electrical Properties of Meridians (IEEE Engineering in Medicine and Biology Magazine pp 58-63, Volume 15, Number 3 1996)
10. Dempster, John, Computer Analysis of Electrophysiological Signals (London: Academic Press1993)
11. Ellis, Andrew, Wiseman, Nigel & Boss, Ken, Fundamentals of Chinese Acupuncture, Revised Edition (Brookline: Paradigm Publications 1991)
12. Gerber, Richard, Vibrational Medicine (Santa Fe: Bear & Company 1988)
13. Hahenemann, Samuel, Organon of Medicine (Boston: J.P.Tharcher, New translation 1982)
14. Kenyon, Julian N., Modern Techniques of Acupuncture Volume I-III (Willingborough, Northamptonshire England: Thorsons Publishing Group 1985)
15. Mattman, Lida H., Cell Wall Deficient Forms 2nd Edition (Boca Raton: CRC Press 1992)
16. Morrison, Roger, Desktop Guide (Albany: Hahnemann Clinic Publishing, 1993).
17. Oschman, James L. Energy Medicine (Edinburgh: Churchill Livingstone 2000)
18. Petzold, Charles, Code (Redmond: Microsoft Press 1999)
19. Pischinger, Alfred, Matrix and Matrix Regulation (Brussels: Haug 1991)
20. Pohlmann, Ken C., Principles of Digital Audio, 3rd Edition (McGraw-Hill 1995)
21. Popp. Fritz-Albert, Warnke, Ulrich, König, Herbert L.& Peschka, Walter, Electromagnetic Bio-Information 2nd Edition (München-Wien-Baltimore: Urban and Schwartzenberg 1989)
22. Serway, Raymond A.,and Faughn, Jerry S., College Physics Vol 1& 2, 5th Edition (Fort Worth: Saunders College Publishing 1999)
23. The Homeopathic Pharmacopœia of the United States, 8th Edition Volume I (American Institute of Homeopathy 1979)
24. Tsuei, Julia, Lam, Fred M. K. & Chou, Pesus Clinical Application of the EDST (IEEE Engineering in Medicine and Biology Magazine pp 67-75, Volume 15, Number 3 1996)
25. Tsuei, Julia, Science of Acupuncture-Theory and Practice (IEEE Engineering in Medicine and Biology Magazine pp 52-57, Volume 15, Number 3 1996)
26. Voll, Reinhold, The 860 Measurement Points of the Meridians and Vessels Including The Secondary Vessels (Uelzen: Medizinisch Literarische Verlagsgesellshaft mbH 1983)
27. Voll, Reinhold, Topical Positions of the Measurement Points in Electro-Acupuncture, Volume I-IV (Uelzen: Medizinisch Literarische Verlagsgesellshaft mbH 1977)
28. Werner, Fritz, Electro-acupuncture Primer (Uelzen: Medizinisch Litarische Verlagsgesellschaft mbH 1979)
29. Wolfgang, Larry D., Understanding Basic Electronics (USA: The American Radio Relay League 1992)
30. Yeargers, Edward K. Basic Physics for Biology (Boca Raton: CRC Press 1992)

15. What would I learn if I took your training program?

The following is an outline of the proposed training program:

Biological Conductance Training Outline

1. Introduction:
1. Strategy for learning-Crawl/Walk/Run
2. Avoid the pitfalls
1. Diagnosis
1. Legal definition
2. Consensus medical usage of "diagnosis"
2. Electrodermal detection
3. The complex human biological system
1. Code recognition
1. A form of information technology in biology
2. Chronology of Development
1. Acupuncture
1. History
2. Theory of acupuncture
1. Qi
2. Flow of Qi in channels
1. Diurnal variations in flow of Qi
3. Types of channels
3. Technique
1. Needle puncture
2. Electro-diagnosis-EKG, EMG and EEG
1. Theory
2. Technique
3. Electro-acupuncture
1. Meridians
2. Acupuncture points
3. Needles
4. Skin resistance
1. Modified by substances placed in an aluminum "honeycomb" in series with the test subject.
5. Meter readings
1. Indicator balance
1. Level of balance
1. A population or Gaussian curve distribution
2. Indicator drop
1. Amount of drop
1. A population or Gaussian curve
4. Electrodermal Detection
1. Digitized computer information in series with the test subject
2. A more accurate description of electrodermal technology
1. Detection arrays
2. Detection sites
1. Codes for detection sites
2. How detection sites are determined
3. Rapid Method for Locating Detection Sites
4. Location of Detection sites on the skin surface
1. By bone anatomy
2. Finger-breadth or cun
3. Arranged by Organs and Systems
1. Allergies
2. Arteries
3. Association Points
4. Blood
5. Breast
6. Connective Tissue
7. Degeneration
8. Ear
9. Endocrine
10. Eye
11. Fat Tissue
12. Gallbladder and Bile Ducts
13. Gastrointestinal Tract
14. Heart
15. Hormones
16. Immune System
17. Joints
18. Liver
19. Lymphatic System
20. Mucous Membranes
21. Musculoskeletal System
22. Nasopharynx
23. Nervous System
24. Odontons
25. Pancreas
26. Respiratory System
27. Skin
28. Spleen
29. Urogenital System
1. Male
2. Female
30. Veins
31. Secondary Arrays, Palmar
32. Secondary Arrays, Non-Palmar
3. Detection signals (codes)
1. How they are determined
2. Codes are converted to plain language for recognition
3. Categories of detection signals (codes)
1. Tissues
1. Benign
2. Malignant
2. Bacteria
3. Chemical and drugs
4. Viruses
5. Fungi
6. Protozoa
7. Metals
8. Helminths
9. Homeopathics
10. Constitutionals
11. Cytokines
12. Dental
13. Miasms
14. Insects
15. Plants
16. Imponderables
17. Anima
18. Foods
19. Prions
20. Metabolites
3. Detection Devices
1. Power Unit
1. DC battery
2. Output : 1.25 volts, 10-12 micro-amps, 95 kilo-ohms
3. An analog to digital integrated circuit
4. Voltmeter-analog and digital meters
5. Detection probes with Cramer needle
2. b. Computer
1. Software program includes codes for:
1. More than 20 categories of signals
3. Computer-Power Unit arranged in series
4. Case Studies
1. Medical Profile
2. Electrodermal
3. Completing a case
4. Process of iteration
5. Definition of iteration