1. TISSUES ARE HEALED BY PHOTONS BASTYR UNIVERSITY BASTYR UNIVERSITY SEATTLE, WASHINGTON STATE, USA SEATTLE, WASHINGTON STATE, USA June 1, 2009 June 1, 2009 Wolf-Dieter Kessler MD, PhD Wolf-Dieter Kessler MD, PhD

2. The Facts The Facts Behind a Successful Medical Clinic Behind a Successful Medical Clinic

3. Biophoton Emisson from Leaf Professor Fritz-Alfred Popp

4. Dispersion of light through a prism

5. Spectroscopy

6. Tissues are mainly composed of spinning Tissues are mainly composed of spinning hydrogen atoms which build up a specific hydrogen atoms which build up a specific electromagnetic field. electromagnetic field.

7. Nuclear magnetic resonance property has Nuclear magnetic resonance property has been used in the medical community since been used in the medical community since 1970 1970

8. Spinning hydrogen atoms of a tissue and Focus

9. When these hydrogen atoms are excited by an external or internal resonance energy field, two things happen: When these hydrogen atoms are excited by an external or internal resonance energy field, two things happen:

10. 1) Hydrogen atoms emit a photon when 1) Hydrogen atoms emit a photon when their axis is shifting their axis is shifting 2) Their electrons emit a photon 2) Their electrons emit a photon

11. Photon emission and focus

12. Gilbert Newton Lewis, 1875 -1946

13. Nuclear Magnetic Resonance Depends on strength of the field Depends on strength of the field depends on Larmor precession frequency depends on Larmor precession frequency of the nucleus. of the nucleus.

14. Because in each tissue the Larmor precession frequencies are specific, emitted photons would also have a specific wavelength and color matching that tissue. Because in each tissue the Larmor precession frequencies are specific, emitted photons would also have a specific wavelength and color matching that tissue.

15. Larmor, Sir Joseph (1857-1942)

16. Honours awarded to Joseph Larmor Fellow of the Royal Society 1892 Lucasian Professor 1903 Royal Society Bakerian lecturer 1909 Fellow of the Royal Society of Edinburgh 1910 Speaker at International Congress 1912 LMS De Morgan Medal 1914 Royal Society Royal Medal 1915 London Maths Society President 1914 - 1916 Speaker at International Congress 1920 Royal Society Copley Medal 1921 Fellow of the Royal Society 1892 Lucasian Professor 1903 Royal Society Bakerian lecturer 1909 Fellow of the Royal Society of Edinburgh 1910 Speaker at International Congress 1912 LMS De Morgan Medal 1914 Royal Society Royal Medal 1915 London Maths Society President 1914 - 1916 Speaker at International Congress 1920 Royal Society Copley Medal 1921 Fellow of the Royal SocietyLucasian ProfessorRoyal Society Bakerian lecturerFellow of the Royal Society of EdinburghSpeaker at International Congress LMS De Morgan MedalRoyal Society Royal MedalLondon Maths Society PresidentSpeaker at International CongressRoyal Society Copley Medal Fellow of the Royal SocietyLucasian ProfessorRoyal Society Bakerian lecturerFellow of the Royal Society of EdinburghSpeaker at International Congress LMS De Morgan MedalRoyal Society Royal MedalLondon Maths Society PresidentSpeaker at International CongressRoyal Society Copley Medal

17. Color and wavelength of these biophotons are highly specific in each tissue. Color and wavelength of these biophotons are highly specific in each tissue. They quasi match their tissue They quasi match their tissue The phenomenon is firmly established in spectroscopy The phenomenon is firmly established in spectroscopy

19. In emission spectroscopy light (photons) are emitted when you excite the atoms/molecules of a substance by heat. The emitted photons are specific to that substance. In emission spectroscopy light (photons) are emitted when you excite the atoms/molecules of a substance by heat. The emitted photons are specific to that substance.

20. ONDAMED If you excite the hydrogen atoms of a tissue by pemf, both the hydrogen atoms and their electrons will emit photons. Their colors and wavelength are also specific to the tissue because they correlate with the Larmor frequencies of the hydrogen atoms of the tissue. If you excite the hydrogen atoms of a tissue by pemf, both the hydrogen atoms and their electrons will emit photons. Their colors and wavelength are also specific to the tissue because they correlate with the Larmor frequencies of the hydrogen atoms of the tissue.

21. Absorption spectroscopy refers to the interaction of electromagnetic radiation with matter. Absorption spectroscopy refers to the interaction of electromagnetic radiation with matter.

22. Matter, substances, tissues absorb and emit light according to their atoms and molecules. Matter, substances, tissues absorb and emit light according to their atoms and molecules.

23. UV-visible spectroscopy refers to techniques where one measures how much light of a particular wavelength (color) is absorbed by a sample. UV-visible spectroscopy refers to techniques where one measures how much light of a particular wavelength (color) is absorbed by a sample.

24. DNA absorbs light in the UV range (which is partly why sunlight is dangerous) so the amount of DNA in a sample can be determined by measuring the absorbance of UV light. DNA absorbs light in the UV range (which is partly why sunlight is dangerous) so the amount of DNA in a sample can be determined by measuring the absorbance of UV light.

25. In absorption spectroscopy, the intensity of a beam of light measured before and after interaction with a sample is compared. In absorption spectroscopy, the intensity of a beam of light measured before and after interaction with a sample is compared.

26. Fraunhofer lines of solar spectrum

27. It was later discovered that each chemical element was associated with a set of spectral lines, and deduced that the dark lines in the solar spectrum were caused by absorption by those elements in the upper layers of the sun. It was later discovered that each chemical element was associated with a set of spectral lines, and deduced that the dark lines in the solar spectrum were caused by absorption by those elements in the upper layers of the sun.chemical elementabsorptionchemical elementabsorption Kirchhoff and Bunsen

29. Photosynthesis chlorophyll is activated by absorbing a photon, then forms ATP (adenosine triphosphate) and TPNH (the reduced form of triphosphopyridine nucleotide – TPN) They provide the energy for the assimilation of carbon dioxide gas, yielding a variety of sugars from which other sugars and carbohydrates, including starch can be built up. chlorophyll is activated by absorbing a photon, then forms ATP (adenosine triphosphate) and TPNH (the reduced form of triphosphopyridine nucleotide – TPN) They provide the energy for the assimilation of carbon dioxide gas, yielding a variety of sugars from which other sugars and carbohydrates, including starch can be built up. chlorophyllcarbon dioxidestarch chlorophyllcarbon dioxidestarch

30. 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

31. Pigment positions and orientations (green pigments=chlorophylls, red pigments = carotenoids) in Photosystem I, Photosystem II and a trimer of light-harvesting complex LHC II. Pigment positions and orientations (green pigments=chlorophylls, red pigments = carotenoids) in Photosystem I, Photosystem II and a trimer of light-harvesting complex LHC II.

32. WAVE SPECTRA WAVE SPECTRA AND WAVE LENGTHS AND WAVE LENGTHS OF EMITTED PHOTONS OF EMITTED PHOTONS ARE TISSUE SPECIFIC ARE TISSUE SPECIFIC

33. Professor F. Popp morphogenesis, growth, differentiation and regeneration are explained by the structuring and regulating activity of the coherent bio- photon field. morphogenesis, growth, differentiation and regeneration are explained by the structuring and regulating activity of the coherent bio- photon field.

34. In 1995, Sisken & Walker listed some of the healing frequencies being tested in medical research laboratories and the types of tissues they affect. Frequencies are specific for: In 1995, Sisken & Walker listed some of the healing frequencies being tested in medical research laboratories and the types of tissues they affect. Frequencies are specific for:

35. 2 Hz nerve regeneration, neurite outgrowth from 2 Hz nerve regeneration, neurite outgrowth from cultured ganglia cultured ganglia 7 Hz bone growth 7 Hz bone growth 10 Hz ligament healing 10 Hz ligament healing 15, 20,72 Hz decreased skin necrosis, stimulation of 15, 20,72 Hz decreased skin necrosis, stimulation of capillary formation and fibroblast capillary formation and fibroblast proliferation proliferation 25, 50 Hz synergistic effects with nerve growth factor 25, 50 Hz synergistic effects with nerve growth factor From James Oschman, Energy Medicine

36. ONDAMED IS HEALING THE FOCUS ONDAMED IS HEALING THE FOCUS THROUGH PHOTON ACTIVITY THROUGH PHOTON ACTIVITY THROUGH SPECIFIC COLOR THROUGH SPECIFIC COLOR AND RESONANCE AND RESONANCE

37. The word "color" is placed in quotes to indicate that absorbance spectroscopy deals not only with light in the visible range - photons with a wavelength of roughly 400 to 700 nanometers, but also with wavelengths that lie outside of the range of human vision (IR, UV, X-rays). However, the principles are quite similar for both visible and nonvisible light. The word "color" is placed in quotes to indicate that absorbance spectroscopy deals not only with light in the visible range - photons with a wavelength of roughly 400 to 700 nanometers, but also with wavelengths that lie outside of the range of human vision (IR, UV, X-rays). However, the principles are quite similar for both visible and nonvisible light.

38. Electromagnetic spectrum

40. DNA is absorbing light Measure DNA quantity through absorbed Measure DNA quantity through absorbed photons photons

41. ONDAMED IS HEALING THE FOCUS ONDAMED IS HEALING THE FOCUS THROUGH PHOTON ACTIVITY THROUGH PHOTON ACTIVITY MATCHING COLOR AND RESONANCE MATCHING COLOR AND RESONANCE

42. 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

43. Resonance increases amplitude and Resonance increases amplitude and energy energy In wave mechanics, two identical In wave mechanics, two identical resonating waves would triple the energy, resonating waves would triple the energy, would triple the amplitude. would triple the amplitude.

44. Field Intensity Field Strength 50 – 500 Gaus 50 – 500 Gaus 5 – 50 milli Tesla 5 – 50 milli Tesla

45. Erwin Schrödinger The Nobel Prize in Physics 1933

46. Harmonics Hamprecht showed that Schroedinger’s equation Hamprecht showed that Schroedinger’s equation is the basis of modern quantum mechanics. is the basis of modern quantum mechanics. All conditions of matter and light follow the laws All conditions of matter and light follow the laws of acustics such as keynotes and harmonics. of acustics such as keynotes and harmonics. They produce the same quantum conditions (tone They produce the same quantum conditions (tone sequences) without other forms in between as sequences) without other forms in between as matter and light. matter and light. However, here it is not the string and the air However, here it is not the string and the air which is vibrating but the vacuum. which is vibrating but the vacuum.

47. ONDAMED Follows the laws of acustics such Follows the laws of acustics such as keynotes and harmonics. as keynotes and harmonics.

48. Erwin Schroedinger Photon pump Photon pump

49. one photon has been subtracted from the field: see Figure 1(a). When the initial field is composed of a small number of photons, the effect is dramatic and may even completely change the characteristics of the field.

50. 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

51. ONDAMED Finds the ailing tissues Finds the ailing tissues Tells us where to treat Tells us where to treat Tells us how to treat Tells us how to treat

52. The National Osteoporosis Foundation in the USA reported that : The National Osteoporosis Foundation in the USA reported that :

53. Osteoporosis and low bone mass are currently estimated to be a major public health threat for almost 44 million U.S. women and men aged 50 and older. The 44 million people with either osteoporosis or low bone mass represent 55 percent of the people aged 50 and older in the United States. Additional efforts must be made to stem this disease, which may be largely prevented with lifestyle considerations and appropriate treatment.

54. Appropriate treatment ONDAMED program 58 ONDAMED program 58

55. WAVE SPECTRA WAVE SPECTRA AND WAVE LENGTHS AND WAVE LENGTHS OF PHOTONS OF PHOTONS ARE TISSUE SPECIFIC FOR REPAIR ARE TISSUE SPECIFIC FOR REPAIR

56. DNA repair is done at 380 nanometer in the DNA repair is done at 380 nanometer in the ultraviolett range. ultraviolett range. Benzo-a-pyren absorbes ultraviolett and passes Benzo-a-pyren absorbes ultraviolett and passes infrared light. infrared light. This prevents repair and is carcinogenic This prevents repair and is carcinogenic

57. Benzpyren twin substances absorb different “colors” Benzo-(a)-pyren is carcinogenic Benzo-(a)-pyren is carcinogenic Benzo-(e)-pyren non carcinogenic Benzo-(e)-pyren non carcinogenic

58. Wavelength

59. Low frequencies have long waves lengths wavelength = wave speed / frequency. wavelength = wave speed / frequency. wavelength is therefore inversely wavelength is therefore inversely proportional to frequency. proportional to frequency.

61. This is an electron. It is a harmonious standing wave.

62. Specific spectra and interference

63. Interference and harmonisation after therapy

64. Morbus Perthes Necrosis of the femoral head

65. Hip sonography, ventral. Irregular contours, right femoral head with irregular echo pattern with areas of high echogenicity and low echogenicity. Femoral head is altogether lower in height. Epiphyseal gap is fuzzy with increased echogenicity. Slight joint effusion to the right.

66. M.Perthes before treatment

67. M.Perthes after first treatment

68. M.Perthes after second treatment

69. M.Perthes after third treatment

70. Healthy tissue: constructive Interference: Ideal, harmonious in phase vibration of regularly arranged atoms maximizes energy (Itzhak Bentov)

71. Destructive interference

74. Hormonal balancing with nuclear magnetic resonance Liver is at the core of hormonal balancing Liver is at the core of hormonal balancing Main Focus is draining the liver Main Focus is draining the liver Stress is draining the liver Stress is draining the liver

75. Three types of stress Inflammation Inflammation Emotion Emotion Metabolism Metabolism

76. Hormonal balancing with nuclear magnetic resonance Elimination of 3 stress factors with Elimination of 3 stress factors with ONDAMED ONDAMED Find Main Focus and treat with specific Find Main Focus and treat with specific programs and microorganisms/parasites programs and microorganisms/parasites

77. MC EARLY BREAST CANCER

78. MF EARLY BREAST CANCER

79. A hormone receptor is a receptor protein on the surface of a cell or in its interior that binds to a specific hormone. The hormone causes many changes to take place in the cell. A hormone receptor is a receptor protein on the surface of a cell or in its interior that binds to a specific hormone. The hormone causes many changes to take place in the cell. Binding of hormones to hormone receptors often trigger the start of a biophysical signal that can lead to further signal transduction pathways, or trigger the activation or inhibition of genes.[ Binding of hormones to hormone receptors often trigger the start of a biophysical signal that can lead to further signal transduction pathways, or trigger the activation or inhibition of genes.[[

80. Steroid receptors are zinc finger proteins

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

82. In mammals, progesterone, like all other steroid hormones, is synthesized from pregnenolone, which in turn is derived from cholesterol In mammals, progesterone, like all other steroid hormones, is synthesized from pregnenolone, which in turn is derived from cholesterol

83. progesterone

85. Testosterone into DHT dihydro-testosterone 5 alpha reductase 5 alpha reductase Progesterone better than 5 alpha Progesterone better than 5 alpha reductase inhibitors reductase inhibitors

86. estrogen production Follicles in the ovaries, the corpus luteum and Follicles in the ovaries, the corpus luteum and the placenta. Follicle- stimulating hormone the placenta. Follicle- stimulating hormone (FSH) and luteinizing hormone (LH) stimulate (FSH) and luteinizing hormone (LH) stimulate the production of estrogen in the ovaries. the production of estrogen in the ovaries. liver, adrenal glands, and the breasts. liver, adrenal glands, and the breasts.

87. Synthesis of estrogen Synthesis of estrogens starts in theca interna cells in the ovary, by the synthesis of androstenedione from cholesterol. Androstenedione has androgenic activity. This compound crosses the basal membrane into the surrounding granulosa cells, where it is converted to estrone or estradiol, either immediately or through testosterone. The conversion of testosterone to estradiol, and of androstenedione to estrone, is catalyzed by the enzyme aromatase Synthesis of estrogens starts in theca interna cells in the ovary, by the synthesis of androstenedione from cholesterol. Androstenedione has androgenic activity. This compound crosses the basal membrane into the surrounding granulosa cells, where it is converted to estrone or estradiol, either immediately or through testosterone. The conversion of testosterone to estradiol, and of androstenedione to estrone, is catalyzed by the enzyme aromatase

88. Balance of hormones Liver Liver

89. Deranged estrogen metabolism the level of an estrogen metabolite associated with breast and endometrial cancer (16-alpha- hydroxyestrone) fell. DIM changes "strong" estrogen to "weak" estrogen, it stops human cancer cells from growing and provokes the cells to self-destruct (apoptosis). Subsequent studies done at the University of California at Berkeley show that DIM inhibits some human breast cancer cells from growing by as much as 90% in culture. the level of an estrogen metabolite associated with breast and endometrial cancer (16-alpha- hydroxyestrone) fell. DIM changes "strong" estrogen to "weak" estrogen, it stops human cancer cells from growing and provokes the cells to self-destruct (apoptosis). Subsequent studies done at the University of California at Berkeley show that DIM inhibits some human breast cancer cells from growing by as much as 90% in culture.

90. indole-3-carbinol, sulforaphane, and beta carotene. Sulforaphane increases levels of enzymes that block cancer (IC3, or DIM), increases the conversion of estradiol to estriol by 50% indole-3-carbinol, sulforaphane, and beta carotene. Sulforaphane increases levels of enzymes that block cancer (IC3, or DIM), increases the conversion of estradiol to estriol by 50%

91. The increased DNA binding condenses DNA structure, preventing transcription. histone deacetylase histone deacetylasehistone deacetylase

92. The manipulation of nuclear spins by The manipulation of nuclear spins by radiofrequency waves (nuclear magnetic radiofrequency waves (nuclear magnetic resonance is important in chemical resonance is important in chemical spectroscopy and medical imaging. spectroscopy and medical imaging. Manipulation of nuclear spins by low Manipulation of nuclear spins by low frequency electromagnetic waves is an frequency electromagnetic waves is an important tool for ailing tissues. Tissue important tool for ailing tissues. Tissue energy is increased by the laws of energy is increased by the laws of resonance. resonance. It is the anti aging tool „par excellence“. It is the anti aging tool „par excellence“.

93. Hormonal balancing with nuclear magnetic resonance Find the Focus which is draining the liver Find the Focus which is draining the liver

94. 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.785 4. Popp, F.A. : Biology of Light (1984) S. 75-76: Li/Popp, F.A.: Non- 4. Popp, F.A. : Biology of Light (1984) S. 75-76: 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