18th Annual World Congress on Anti-Aging Medicine and Regenerative Biomedical Technologies December 9 – 12, 2010 December 9 – 12, 2010 Mandalay Bay Hotel and Convention Center Mandalay Bay Hotel and Convention Center Las Vegas, Nevada USA Las Vegas, Nevada USA

Successful healing and anti - aging with Successful healing and anti - aging with specific low frequency specific low frequency Electro Magnetic fields. Electro Magnetic fields. Wolf-Dieter Kessler MD, PhD Wolf-Dieter Kessler MD, PhD

SPECIFIC PHOTONS FOR ANTI-AGING SPECIFIC PHOTONS FOR ANTI-AGING

Spectroscopy and Specificity Light travels in packages

Cyanobacteria -- Blue green algae Cyanobacteria -- Blue green algae

Photosynthesis one molecule of the pigment chlorophyll absorbs one photon and loses one electron allowing the start of a flow of electrons that leads to NADPH. ATP is built and organic sugars are created with carbon dioxyde and water one molecule of the pigment chlorophyll absorbs one photon and loses one electron allowing the start of a flow of electrons that leads to NADPH. ATP is built and organic sugars are created with carbon dioxyde and water

Program 39: Program 39: Circulation frequencies Circulation frequencies Spleen/pancreas frequencies Spleen/pancreas frequencies Stomach frequencies Stomach frequencies Hormonal (Triple warmer) frequencies Hormonal (Triple warmer) frequencies

Tunnel effect It is affecting the bladder, prostate the bladder, prostate hormonal status including erectile dysfunctions hormonal status including erectile dysfunctions brain alertness, lungs, headache brain alertness, lungs, headache

Numerous health disorders can be successfully improved by specific pulsing em fields Tinnitus Brain disorders Any infections/parasites AutismAllergiesBladderProstate Eye problems Cancer (much better tolerance of chemotherapy) chemotherapy)Pre-operationPost-operation Back problems GoiterOsteporosis Bone healing /non jointed bone fractures Erectile dysfunctions etc

Schematic representation of quantum tunnelling through a barrier. The energy of the tunneled particle is the same, only the quantum amplitude (and hence the probability of the process) is decreased. Schematic representation of quantum tunnelling through a barrier. The energy of the tunneled particle is the same, only the quantum amplitude (and hence the probability of the process) is decreased.

Schrödinger‘s wave-equation The tunnel effect in quantum mechanics: The tunnel effect in quantum mechanics: All wave equations exhibit evanescent All wave equations exhibit evanescent wave coupling effects if the conditions wave coupling effects if the conditions are right. are right.

Anti aging, antioxydants and free radicals Anti aging, antioxydants and free radicals

With permission of James Oschman PhD

Von Fraunhofer in 1800

Photon absorption: Fraunhofer lines of solar spectrum

Each tissue is very specific Has a specific Larmor spin Can be contrasted in the MRI

Guidance for the therapist Where to go (Main Focus) Where to go (Main Focus) How to treat (Frequency Field) How to treat (Frequency Field) What to treat (Microorganisms) What to treat (Microorganisms)

Field Intensity, Field Strength 50 – 500 Gaus 50 – 500 Gaus 5 – 50 milli Tesla 5 – 50 milli Tesla

Field intensities used in medicine: MRI 1.5 – 4.5 Tesla MRI 1.5 – 4.5 Tesla Shock therapy in psychiatry 2 Tesla Shock therapy in psychiatry 2 Tesla

Specific pulsing em fields produce specific Specific pulsing em fields produce specific photons in the aging tissue through nuclear photons in the aging tissue through nuclear magnetic resonance magnetic resonance

Gilbert Newton Lewis, named light quanta “photons”

Why specific? Hydrogens of different tissues have Hydrogens of different tissues have different spins different spins

ORGANS ARE LIKE BELLS

Dielectric constant (kappa) Dielectric constant (kappa)

Tissue in pain is emitting less photons. Dead cells do not emit photons What happens if the number of cellular photons reaches a critical low number? What happens if the number of cellular photons reaches a critical low number?

Biophoton Emisson from Leaf Professor Fritz-Alfred Popp

Myungshik Kim and Marco Bellini Istituto Nazionale di Ottica Applicata Florence, Italy European Laboratory for Non-linear Spectroscopy Subtracting one photon from the light field

Specific pulsing em fields Specific pulsing em fields cause a dramatic pain relief in patients with severe osteoporosis. People become motile again. osteoporosis. People become motile again. How does this work? How does this work?

Spinning hydrogen atoms of our tissues and focus University of Boulder, Colorado

Photon emission and focus University of Boulder Colorado

spin is a fundamental characteristic property of spin is a fundamental characteristic property of elementary particles elementary particles in particle physics and quantum physics in particle physics and quantum physics

One can exert a kind of “torque" on an electron or (hydrogen) by putting it in a magnetic field One can exert a kind of “torque" on an electron or (hydrogen) by putting it in a magnetic field (the field acts upon the electron's intrinsic magnetic dipole moment. The result is that the spin vector undergoes precession, just like a classical gyroscope. (the field acts upon the electron's intrinsic magnetic dipole moment. The result is that the spin vector undergoes precession, just like a classical gyroscope.

PRECESSION

Any nucleus that contains an odd number of protons and/or of neutrons has an intrinsic magnetic moment and angular momentum, in other words a spin > 0. Any nucleus that contains an odd number of protons and/or of neutrons has an intrinsic magnetic moment and angular momentum, in other words a spin > 0.

MAGNETIC DIPOLE

The magnetic moment of a system is a measure of the magnitude and the direction of its magnetism. For example, a loop of electric current, a bar magnet, an electron, a molecule, and a planet all have their own magnetic moments. The magnetic moment of a system is a measure of the magnitude and the direction of its magnetism. For example, a loop of electric current, a bar magnet, an electron, a molecule, and a planet all have their own magnetic moments. Magnetic moment usually refers to its magnetic dipole moment, and quantifies the contribution of the system's internal magnetism to the external dipolar magnetic field produced by the system Magnetic moment usually refers to its magnetic dipole moment, and quantifies the contribution of the system's internal magnetism to the external dipolar magnetic field produced by the system

The energy to put life in order comes from photons. It is the photon pump which condenses photons to laser like light. The process is based on resonance. Like spectra are attracted by like spectra.Like photons are attracted by like photons. Erwin Schrödinger Nobel Prize in Physics 1933

In physics, resonance is the tendency of a system In physics, resonance is the tendency of a system to oscillate at maximum amplitude at certain to oscillate at maximum amplitude at certain frequencies frequencies

Photons are attracted to any protein, DNA site, molecule, electron if their spectral waves match that one of the protein or electron. Matching means resonance takes place and sublte energies would build up enormous energies needed to dynamise aging or ailing tissues or to build up food. Photons are attracted to any protein, DNA site, molecule, electron if their spectral waves match that one of the protein or electron. Matching means resonance takes place and sublte energies would build up enormous energies needed to dynamise aging or ailing tissues or to build up food.

Left: Energie level diagram of the ground and excited states of chlorophyll a and β -carotene. Right: Two-Photon excitation spectroscopy (red line with red dots) enables the measurement of spectra of the carotenoid dark state within intact pigment-protein complexes. The example shows spectra of Photosystem I: Absorption spectrum (green line), Fluorescence spectrum (black line) and the already mentioned two-photon excitation spectrum (red line). For details see M. Hilbert, A. Wehling, E. Schlodder and P. J. Walla

Steroid receptors are zinc finger proteins

Photolyases are DNA repair enzymes that repair damage caused by exposure to ultraviolet light. This enzyme mechanism requires visible light, preferentially from the violet/blue end of the spectrum, and is known as photoreactivation. ultravioletvisible lightultravioletvisible light

Fundamental chemical law In order to activate the receptor protein, it In order to activate the receptor protein, it must be excited must be excited În the living matrix this is done by Photon În the living matrix this is done by Photon Resonance with the protein Resonance with the protein

The idea that energy within a living system may be transported within semiconductive bands of proteins was suggested by SZENT-GYÖRGYI in 1941.

Living cells are emitting light Living cells are emitting light Living cells absorb light Living cells absorb light Professor Fritz Popp, Germany

Very weak electromagnetic fields at the appropriate frequencies can be as effective, or even better, than other approaches for reducing inflammation, counteracting diseases, and enhancing longevity. The mechanism involves resonance, the process by which a field of a particular frequency or wavelength can transfer vibrational energy to an object. Very weak electromagnetic fields at the appropriate frequencies can be as effective, or even better, than other approaches for reducing inflammation, counteracting diseases, and enhancing longevity. The mechanism involves resonance, the process by which a field of a particular frequency or wavelength can transfer vibrational energy to an object.

Clinical applications of electromagnetic resonance have the advantage that they can act at a distance using tiny fields that excite or energize natural processes taking place deep within the body. Clinical applications of electromagnetic resonance have the advantage that they can act at a distance using tiny fields that excite or energize natural processes taking place deep within the body. James Oschman, PhD James Oschman, PhD

Specific Pulsing Electromagnetic Fields Specific Pulsing Electromagnetic Fields (SPEMF) adjust treatment to the individual patient and the process can take place in the Main Focus Area (SPEMF) adjust treatment to the individual patient and the process can take place in the Main Focus Area

The question is: Which mechanism produces photons which Which mechanism produces photons which match ailing tssue structures? match ailing tssue structures?

You select the resonating pemf by a simple pulse reaction. You select the resonating pemf by a simple pulse reaction. Then nuclear magnetic resonance takes place Then nuclear magnetic resonance takes place and activates photons which match the spectra and activates photons which match the spectra of the ailing tissue of the ailing tissue

SPECIFIC EM FIELDS Find the ailing tissues Find the ailing tissues Tell us where to treat Tell us where to treat Tell us how to treat Tell us how to treat Based on Resonance Based on Resonance

RESONANCE Kernspintomograph (MRT)

The Facts The Facts Behind a Successful Medical Clinic Behind a Successful Medical Clinic

Specific pulsing electromagnetic fields

Footnotes: Footnotes: 1. Bischof, Marco: Biophotonen. Das Licht in unseren 1. Bischof, Marco: Biophotonen. Das Licht in unseren Zellen, 1995, Zweitausendeins Verlag Zellen, 1995, Zweitausendeins Verlag 2. Popp, F.A./Nagl, W./Li, K.H./Scholz, W./ Weingärtner, O./ Wolf, R.: 2. Popp, F.A./Nagl, W./Li, K.H./Scholz, W./ Weingärtner, O./ Wolf, R.: Biophoton emission: New evidence for coherence and DNA as Biophoton emission: New evidence for coherence and DNA as source (1984) source (1984) 3. Cittert, P.H. van: Physica, Vol 1 (1934), S.201; Zernike, F.: 3. Cittert, P.H. van: Physica, Vol 1 (1934), S.201; Zernike, F.: Physica, Vol. 5 (1938), S.785 Physica, Vol. 5 (1938), S Popp, F.A. : Biology of Light (1984) S : Li/Popp, F.A.: Non- 4. Popp, F.A. : Biology of Light (1984) S : Li/Popp, F.A.: Non- exponential decay law of radiation systems(1983) ; Li, K.H., Popp, exponential decay law of radiation systems(1983) ; Li, K.H., Popp, F.A.,/ Nagl,W/ Klima, H. : Indications of optical coherence F.A.,/ Nagl,W/ Klima, H. : Indications of optical coherence

Thank you, Rolf Binder

Cheers to Rolf Binder