NONINVASIVE EVALUATION OF THE EFFECTS OF OPENING AND CLOSING OF EYES,AND OF EXPOSURE TO A MINUTE LIGHT-BEAM, AS WELL AS TO ELECTRICAL OR MAGNETIC-FIELD ON THE MELATONIN, SEROTONIN, AND OTHER NEURO-TRANSMITTERS OF HUMAN PINEAL-GLAND REPRESENTATION AREAS AND THE HEART

Using the Bi-Digital O-Ring Test electromagnetic resonance phenomena b etween 2 identical substances, first the pineal gland representational (rep.) areas were localized on the 5 different locations on the surfa ce of the head using microscope slides of the pineal gland or Melatoni n (while the eyes are closed) as a reference control substance. The 3 pineal rep. areas along the mid-line of the head always showed two lob es connected as a ''Dumbbell'' shape, with one round or oval area at e ach side of the mid-line. From each side of the head, anterior and sup erior to the ear, it appeared in a shape resembling the side view of a pineal gland. When both eyes were open, Melatonin, Norepinephrine (NE ), and Acetylcholine (ACh) markedly decreased, while Serotonin, Dopami ne, and GABA increased significantly in the outer part of the pineal g land rep. areas. When both eyes were closed, Melatonin, NE and ACh inc reased markedly, with marked decrease in Serotonin, Dopamine and GABA in the outer part of the pineal gland rep. areas. However, in the inne r core of the pineal gland rep. area, an opposite response was found. Thus, the pineal gland has 2 main lobes, and functionally each lobe se ems to have two concentric areas with an inverse relationship, i.e., a ''Functional Cortex'' area and a ''Functional Core'' area. The bioche mical changes between the cortex and the core are in an inverse relati onship. Melatotin was also found in the S-A node & right side of norma l heart when the eyes were closed. When the eyes were open, Melatonin was found in the left side of the heart, as well as the salivary gland s, stomach, colon, etc. While both eyes were closed, when a weak li-ht beam was exposed at different parts of the body, such as any part of the upper and lower extremities, Melatonin, NE, and ACh decreased, wit h an increase in Serotonin, GABA and Dopamine only in the functional c ortices of the pineal gland lobes on the same side of the body. Even w hen both eyes were open, if a very weak narrow beam of light was expos ed on any part of the body, Melatonin, NE and ACh decreased, while Ser otonin, Dopamine and GABA increased compared with pre-exposure level i n only the functional cortices of the pineal gland lobes in the same s ide of the light exposure, and the opposite effect was also observed i n the functional core of the light exposed side only. When the eyes we re closed, exposure to (+) electrical field from a small 1.5V DC batte ry or magnetic field from die South pole of a small permanent magnet ( 200-800 gauss ) on any one of die pineal gland rep.areas markedly incr eased Melatonin, NE and ACh in the functional cortices, as well as a m arked increase in Serotonin, Dopamine and GABA at the functional cores of the rest of all the remaining pineal gland rep. areas, while (-) e lectrical field or magnetic field from the North Pole completely inhib ited all of these changes in both the functional cortices and function al cores regardless of whether the eyes were open or closed. While the eyes were closed, when the right wrist was exposed to (+) electrical field from a small wristwatch battery, Melatonin, NE, ACh, Serotonin, Dopamine, and GABA disappeared in the right side of the pineal gland r ep. areas. When any one of the 5 pineal gland rep. areas were exposed to 60Hz electrical field, from an electric cord plugged into a 110-1 1 5 V. AC wall socket with no current flowing through the cord, if the d istance from the cord to the head was shorter than 29-30 cm (electrica l field: 20-30 V/m) all the Melatonin, NE, and ACh in the functional c ortices, as well as Serotonin, Dopamine, GABA, and L-Tryptophan which existed in die functional core of the pineal gland while eyes were clo sed completely disappeared. When the pineal gland rep. area was covere d by aluminum foil, which prevents electrical field exposure of 60Hz e lectrical field, effects were almost completely eliminated, even when the rest of the brain was exposed to this electrical field. Since a li ght beam is electromagnetic waves, the above findings indicated that o ur human skin not only detects an electromagnetic field (EMF), but exp osure of the EMF to the skin also influences Serotonin and Melatonin o f the pineal gland, and particularly EMF exposure to pineal gland rep. areas was found to be most sensitive.The electrical field coming from a 110-115V electric cord placed less than 30 cm. from the head may con tribute to some insomnia, hypertension, ischemic heart, arrythmia, and growth or spread of cancer cells in some cancer patients by markedly reducing Melatonin and ACh in the human pineal gland & other organs.