Reported Health Effects From Non-Ionizing RF Radiation
[I seguenti studi indicano l’esistenza di effetti biologici per livelli di esposizione a radiazioni in Radiofrequenza del telefono cellulare che sono molto al di sotto di quello che può essere spiegato con i cosiddetti “effetti termici”, e ben all’interno del range cui le persone sono comunemente esposte quotidianamente durante l’uso dei loro telefoni cellulari.
NOTA: La maggior parte dei livelli di esposizione indicati qui sotto sono ben al di sotto degli attuali standard per la sicurezza negli Stati Uniti, che si basano solo sugli “effetti termici”.]
Reported Biological Effects From Non-Ionizing Radio-frequency RF Radiation
Low Level RF Radiation Health Concern
The following studies indicate biological effects at cell phone rf radiation exposure levels which are far below what can be explained by “thermal effects”, and well within the range people are commonly exposed to every day on their cell phones.
NOTE: Most of these below exposures levels are FAR BELOW the current advisory exposure standards in the US, which are based on thermal effects only. Click here to learn why SAR levels should not be used as a safety standard
Studies by Increasing Power Density
Studies by Increasing Specific Absorption Rate
Standards and Background Levels
Note: For an effect to be considered truly “nonthermal”, that is, a “microwave effect”, they must be experimentally distinguishable from heating effects due to absorbed RF energy as measured with SAR Testing.
With SAR testing, Dummy heads are filled with solutions to simulate brain conductivity and probed to measure depth and intensity. Amazingly enough regulatory agencies have not deemed it necessary to measure exposure to eyes. Eye’s are unprotected by the skull and comprised of cells that are extremely sensitive to electromagnetic energy.
RF Radiation Hazards
Studies by Increasing Power Density
Power Density | Reported Biological Effects | References |
0.1 µW/cm2 (0.001 W/Kg SAR) |
EEG brain waves are altered when exposed to cell phone signal | Von Klitzing, 1995 |
0.16 µW/cm2 | Motor function, memory and attention of school children affected (Latvia) | Kolodynski, 1996 |
0.168 – 1.053 µW/cm2 | Irreversible infertility in mice after 5 generations of exposure to cell phone signals from antenna park | Magras & Xenos, 1997 |
0.2 – 8 µW/cm2 | Two-fold increase in childhood leukemia from AM-FM exposure | Hocking, 1996 |
1.3 – 5.7 µW/cm2 | Two-fold increase in leukemia in adults from AM RF exposure | Dolk, 1997 |
2.4 µW/cm2 | Interference with medical devices at least up to 1000 MHz | Joyner, 1996 |
2 – 4 µW/cm2 | Direct effect of RFR on ion channels in cells/opening of acetycholine channels | D’Inzeo, 1988 |
4 – 10 µW/cm2 | Visual reaction time in children is slowed//lower memory function in tests | Chiang, 1989 |
5 – 10 µW/cm2 | Impaired nervous system activity | Dumanski, 1974 |
10 µW/cm2 | Significant differences in visual reaction time and reduced memory function | Chiang, 1989 |
10 – 25 µW/cm2 | Changes in the hippocampus of the brain | Belokrinitskiy, 1982 |
30 µW/cm2 (0.015 W/Kg SAR) |
Immune system effects – elevation of PFC count (antibody producing cells) | Veyret, 1991 |
50 µW/cm2 | An 18% reduction in REM sleep (important to memory and learning functions) | Mann, 1996 |
100 µW/cm2 | Changes in immune system function | Elekes, 1996 |
100 µW/cm2 | A 26% drop in insulin | Navakatikian, 1994 |
120 µW/cm2 | A pathological change in the blood brain barrier (915 MHz) | Salford, 1993 |
RF Radiation Hazards
Studies by Increasing Specific Absorption Rate
SAR | Reported Biological Effects | References |
0.000021 – .0021 W/Kg | Changes in cell cycle and cell proliferation (960 MHz GSM cell phone signal) | Kwee, 1997 |
0.0004 W/Kg | Pulsed cell phone RF caused changes in blood-brain barrier that protects brain from outside harmful chemicals and toxins (915 MHz GSM cell phone) | Salford, 1997 |
0.001 W/Kg | EEG brain waves are altered when exposed to cell phone signal at 0.1 µW/cm2 | Von KIitzing, 1995 |
0.0317 W/Kg | Decrease in eating and drinking | Ray & Behari, 1990 |
.005 to .05 W/Kg | Calcium efflux | Dutta et al, 1989 |
0.14 W/Kg | Elevation of immune response at 100 µW/cm2 | Elekes, 1996 |
0.13 – 1.4 W/Kg | Lymphoma cancer rate is 2.4 times normal with two 1/2 hour exposures per day of cell phone exposure (pulsed digital mobile phone signal 900 MHz) | Repacholi, 1997 |
0.26 W/Kg | Harmful effects to the eyes/ certain drugs can sensitize eyes to RFR | Kues, 1992 |
0.4 W/Kg | Statistically significant increase in malignant tumors at 480 µW/cm2 | Guy, 1984 |
0.58 – 0.75 W/Kg | Biological effect on the development of brain tumors at 18% of standard (836 MHz TDMA digital cell phone signal) | Adey, 1996 |
0.6 and 1.2 W/Kg | DNA single and double strand breaks from RF exposure (2450 MHz) | Lai, 1995 |
2.4 mW/Kg to 24 mW/Kg | Digital cell phone (836 TDMA) at very low intensities cause DNA effects in human cells. DNA effects are direct DNA damage and the rate at which DNA is repaired. Is equal to about 800 µW/cm2 power density | Phillips, 1998 |
2-3 W/Kg | Cancer acceleration in skin and breast tumors at 50 – 75% of standard | Szmigielski, 1982 |
RF Radiation Hazards
Standards and Background Levels
SAR | Standards | |
0.2 W/Kg | IEEE standard for whole body SAR for general public (1/6 of an hour) | IEEE |
1.6 W/Kg | FCC (IEEE) SAR limit over 1 gram of tissue (cell phone to ear) | FCC, 1996 |
Power Density | Standards | |
579µW/cm2 | 800-900 MHz Cell Phone Signal Standard | ANSI/IEEE |
1000µW/cm2 | PCS STANDARD for public exposure (as of September 1, 1997) | FCC, 1996 |
5000µW/cm2 | PCS STANDARD for occupational exposure (as of September 11997) | FCC, 1996 |
Background Levels | ||
0.003 µW/cm2 | Ambient background RF exposure in cities and suburbs in the 1990’s | Mantiply, 1997 |
1 – 10 µW/cm2 | Ambient RF exposure within 100-200 feet of cell/PCS antenna array (or roughly 0.2 to 0.5 mW/Kg SAR in the human body’) | Sage, 1998, unpublished |
RF Radiation Hazards
Listing of Full Citations Referenced Above
Study | Description |
Adey, WR., et. al., 1996. | Brain tumor incidence in rats chronically exposed to digital cellular telephone fields in an initiation-promotion model. Bioelectromagnetics Society 18th Annual Meeting, Proceedings, Abstract A-7-3. |
Belokrinitskiy, VS., 1982. | “Destructive and reparative processes in hippocampus with long-term exposure to nonionizing radiation.” In U.S.S.R. Report, Effects of Nonionizing Microwave Radiation, No. 7, JPRS 81865, pp. 15-20. |
Chiang, H., et. al., 1989. | Health effects of environmental electromagnetic fields. Journal of Bioelectricity, 8: 127-131 |
Chou, CK., & Guy, AW., 1992. | Long-term low level microwave irradiation of rats. Bioelectormagnetics 13:469-496 |
D’Inzeo, G., et. al., 1988. | Microwave effects on acetycholine-induced channels in cultured chick myotubes. Bioelectromagnetics 9; 363-372. |
Dolk, H., et. al., 1997. | Cancer incidence near radio and television transmitters in Great Britain. Am J Epidemiology 145(1) P 1-9 Jan 1997. |
Dumanski, J.D., and Shandala, M.G., 1974 | “The Biological Action and Hygenic Significance of Elecromagnetic Fields of Superhigh and Ultrahigh frequencies in Densely Populated Areas,” from Biological Effects and Health Hazards of Microwave Radiation. Proceedings of an International Symposium, Warsaw 15-18 October, 1973, Polish Medical Publishers, Warsaw, 1974. |
Dutta, SK., et. al., 1989. | Radiofrequency radiation-induced calcium ion efflux enhancement from human and other neuroblastoma cells in culture. Bioelectromagnetics 10: 197-202. |
Elekes, E., 1996. | Effect on the immune system of mice exposed chronically to 50 Hz amplitude-modulated 2.45 GHz microwaves. Bioelectromagnetics 17:246-8. |
Hocking, B., et. al., 1996. | Cancer incidence and mortality and proximity to TV towers Med J Aust 165(11-12) P. 601-5 Dec 2-16, 1996. |
Joyner, K., et. al., 1996. | Mobile telephones interfere with medical electrical equipment. Australas Phys Eng Sci Med 1994 Mar. 17(1). P 23-7. |
Kolodynski, AA., Kolodynska VV, 1996. | Motor and psychological functions of school children living in the area of the Skrunda radio location station in Latvia. Sci Total Environ 1996;180:87-93 |
Kues, HA., 1992. | Increased sensitivity of the non-human primate eye to radiation following opthalmic drug pretreatment. Bioelectromagnetics 13:379-93. |
Kwee, 1997 | The biological effects of microwave radiation. Abstract in Proceedings of the Second World Congress for Electricity and Magnetism in Biology and Medicine, Bologna, Italy, June 1997. |
L. Salford (1993) | “Experimental studies of brain tumor development during exposure to continuous and pulsed 915 MHz radio frequency radiation,” in Bioelectrochemistry and Bioenergetics, Vol. 30: pg. 313-318. |
L. Von Klitzing | “Low-Frequency pulsed electromagnetic fields influence EEG of man.” Physica Medica, Vol. 11, No. 2, pps 77-80, April-June 1995. |
Lai, H., and Singh, NP., 1995. | Acute low intensity microwave exposure increases DNA single strand breaks in rat brain cells, Bioelectromagnetics 1995;16:207-10. |
Lai, H., & Singh, NP., 1996. | Single and double strand DNA breaks in rat brain cells after acute exposure to radiofrequency electromagnetic radiation. Int J Radiat Biol 1996;69:513-21. |
M.A. Navakatikian and L.A. Tomashevskaya | “Phasic Behavioral and Endocrine Effects of Microwaves of Nonthermal Intensity,” by Carpenter DO and Ayrapetyan S, editors. Biological Effects of Electric and Magnetic Fields. Volume 1, published by Academic Press |
Magras, IN., & Zenos, TD., 1997. | RF Radiation-induced changes in the prenatal development of mice. Bioelectromagnetics 18:455-461. |
Mann, K., et. al., 1996. | Effects of pulsed high-frequency electromagnetic fields on human sleep. Neuropsychobiology 1996;33:41-7. |
Phillips, J., et. al., 1998. | DNA damage in molt-4 lymphoblastoid cells exposed to cellular telephone radiofrequency fields in vitro. Bioelectrochemistry and Bioenergetics 45:103-110. |
Ray, S., & Behari, J., 1990. | Physiological changes in rats after exposure to low levels of microwaves. Radiat Res 123: 190-202 |
Repacholi, M., et. al., 1997. | Lymphomas in Eµ-Pim1 transgenic mice exposed to pulsed 900 MHz electromagnetic fields. Radiat Res. 1997; 147:31-40. |
Salford, 1997 | Blood brain barrier permeability in rats exposed to electromagnetic fields from a GSM wireless communication transmitter. Abstract in Proceedings of the Second World Congress for Electricity and Magnetism in Biology and Medicine, Bologna, Italy, June 1997. |
Salford, LG., et. al., 1993. | Permeability of the blood brain barrier induced by 915 MHz electromagnetic radiation;continuous wave and modulated at 8, 16, 50 and 200 Hz. Bioelectrochem Bioenerg 1993;30:293-301. |
Szmigielski, S., et. al., 1982. | Accelerated development of spontaneous and benzpyrene-induced skin cancer in mice exposed to 2350 MHz microwave radiation. Bioelectromagnetics 3: 179-192. |
Szmigielski, S., et. al., 1982. | Cancer morbidity in subjects occupationally exposed to high frequency (radiofrequency and microwave) electromagnetic radiation. Sci Total Environ 1996; 180:9-17 |
Veyret, B., et. al., 1991. | “Antibody responses of mice exposed to low-power microwaves under combined, pulse and amplitude modulation,” Bioelectromagnetics 12: P 47-56. |
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