View This Study - Citation No: 23
|
Title | DIFFERENTIATION OF MURINE ERYTHROLEUKEMIC CELLS DURING EXPOSURE TO MICROWAVE RADIATION |
Reference | Radiat. Res., Vol. 108, Pg. 12 - 22, 1986 |
Author(s) | Brown R. F., Marshall S. V. |
PubMed UID |
3464992 |
Project ID | 452 |
|
View This Study - Citation No: 32
|
Title | EXPERIMENTAL METHOD FOR THE HYPERTHERMIC TREATMENT OF CELLS IN TISSUE CULTURE: INITIAL APPLICATION TO PANCREATIC CANCER |
Reference | Bioelectromagnetics, Vol. 8, Pg. 195 - 202, 1987 |
Author(s) | Chang B. K., Joines W. T., Gregory J. A. |
PubMed UID |
3619953 |
Project ID | 1302 |
|
View This Study - Citation No: 41
|
Title | GLIOMA PROLIFERATION MODULATED IN VITRO BY ISOTHERMAL RADIOFREQUENCY RADIATION EXPOSURE |
Reference | Radiat. Res., Vol. 121, Pg. 38 - 45, 1990 |
Author(s) | Cleary S. F., Liu L. M., Merchant R. E. |
PubMed UID |
2300667 |
Project ID | 109 |
|
View This Study - Citation No: 42
|
Title | IN VITRO LYMPHOCYTE PROLIFERATION INDUCED BY RADIO-FREQUENCY ELECTROMAGNETIC RADIATION UNDER ISOTHERMAL CONDITIONS |
Reference | Bioelectromagnetics, Vol. 11, Pg. 47 - 56, 1990 |
Author(s) | Cleary S. F., Liu L. M., Merchant R. E. |
PubMed UID |
2346507 |
Project ID | 109 |
|
View This Study - Citation No: 46
|
Title | EFFECTS OF CONTINUOUS AND PULSED 2450-MHz RADIATION ON SPONTANEOUS LYMPHOBLASTOID TRANSFORMATION OF HUMAN LYMPHOCYTES IN VITRO |
Reference | Bioelectromagnetics, Vol. 13, Pg. 247 - 259, 1992 |
Author(s) | Czerska E. M., Elson E. C., Davis C. C., Swicord M. L., Czerski P. |
PubMed UID |
1510735 |
Project ID | 79 |
|
View This Study - Citation No: 297
|
Title | RESONANT-LIKE DEPENDENCE OF YEAST GROWTH RATE ON MICROWAVE FREQUENCIES |
Reference | Brit. J. Cancer Suppl., Vol. 45, Pg. 206 - 208, 1982 |
Author(s) | Grundler W., Keilmann F., Putterlik V., Strube D. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 303
|
Title | COHERENT EXCITATION IN BIOLOGY |
Reference | Nature, Vol. 301, Pg. 656 - 657, 1983 |
Author(s) | Keilmann F., Kell D. B. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 325
|
Title | INHIBITION OF DNA SYNTHESIS AND ENHANCEMENT OF THE UPTAKE AND ACTION OF METHOTREXATE BY LOW-POWER-DENSITY MICROWAVE RADIATION IN L1210 LEUKEMIA CELLS |
Reference | Cancer Res., Vol. 40, Pg. 1002 - 1005, 1980 |
Author(s) | Chang B. K., Huang A. T., Joines W. T. |
PubMed UID |
7357530 |
Project ID | 1302 |
|
View This Study - Citation No: 343
|
Title | THERMAL ASPECTS OF BIOLOGICAL EFFECTS OF MICROWAVES IN SACCHAROMYCES CEREVISIAE |
Reference | Int J Radiat Biol, Vol. 48, Pg. 987 - 996, 1985 |
Author(s) | Dardalhon M., Averbeck D., Bertaud A. J., Ravary V. |
PubMed UID |
|
Project ID | 913 |
|
View This Study - Citation No: 399
|
Title | EXPERIMENTAL EVIDENCE FOR COHERENT EXCITATIONS CORRELATED WITH CELL GROWTH |
Reference | Nanobiology, Vol. 1, Pg. 163 - 176, 1992 |
Author(s) | Grundler W., Kaiser F. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 440
|
Title | NONTHERMAL EFFECTS OF MILLIMETER MICROWAVES ON YEAST GROWTH |
Reference | Z. Naturforsch., Vol. 33C, Pg. 15 - 22, 1978 |
Author(s) | Grundler W., Keilmann F. |
PubMed UID |
149448 |
Project ID | 1298 |
|
View This Study - Citation No: 441
|
Title | RESONANT MICROWAVE EFFECT ON LOCALLY FIXED YEAST MICROCOLONIES |
Reference | Z. Naturforsch., Vol. 44C, Pg. 863 - 866, 1989 |
Author(s) | Grundler W., Keilmann F. |
PubMed UID |
2686673 |
Project ID | 1298 |
|
View This Study - Citation No: 536
|
Title | EFFECT OF MICROWAVE RADIATION ON INACTIVATION OF CLOSTRIDIUM SPOROGENES PA 3679 SPORES |
Reference | Appl. Environ. Microbiol., Vol. 60, Pg. 482 - 488, 1994 |
Author(s) | Welt B. A., Tong C. H., Rossen J. L., Lund D. B. |
PubMed UID |
8135512 |
Project ID | 1349 |
|
View This Study - Citation No: 602
|
Title | EFFECTS OF 2.6-4.0 GHz MICROWAVE RADIATION ON E-COLI B |
Reference | J. Microwave Power, Vol. 12, Pg. 141 - 144, 1977 |
Author(s) | Corelli J. C., Gutmann R. J., Kohazi S., Levy J. |
PubMed UID |
336894 |
Project ID | 1363 |
|
View This Study - Citation No: 603
(Non-Peer Reviewed Book Chapters / Reports)
|
Title | MICROWAVE EFFECTS ON THE BLOOD-FORMING SYSTEM WITH PARTICULAR REFERENCE TO THE LYMPHOCYTE |
Reference | Biologic Effects of Nonionizing Radiation, Vol. 247, Pg. 232 - 242, 1975 |
Author(s) | Czerski P. |
PubMed UID |
1090230 |
Project ID | 79 |
|
View This Study - Citation No: 607
|
Title | DETERMINATION OF A THERMAL EQUIVALENT OF MILLIMETER MICROWAVES IN LIVING CELLS |
Reference | J. Microwave Power, Vol. 14, Pg. 307 - 312, 1979 |
Author(s) | Dardalhon M., Averbeck D., Berteaud A. J. |
PubMed UID |
397348 |
Project ID | 913 |
|
View This Study - Citation No: 608
|
Title | STUDIES ON POSSIBLE GENETIC EFFECTS OF MICROWAVES IN PROCARYOTIC AND EUCARYOTIC CELLS |
Reference | Radiat. Environ. Biophys., Vol. 20, Pg. 37 - 51, 1981 |
Author(s) | Dardalhon M., Averbeck D., Berteaud A. J. |
PubMed UID |
7034038 |
Project ID | 913 |
|
View This Study - Citation No: 609
|
Title | THERMAL ACTION OF 2.45 GHz MICROWAVES ON THE CYTOPLASM OF CHINESE HAMSTER CELLS |
Reference | Bioelectromagnetics, Vol. 5, Pg. 247 - 261, 1984 |
Author(s) | Dardalhon M., More C., Averbeck D., Berteaud A. J. |
PubMed UID |
6732880 |
Project ID | 913 |
|
View This Study - Citation No: 653
|
Title | RESONANT GROWTH RATE RESPONSE OF YEAST CELLS IRRADIATED BY WEAK MICROWAVES |
Reference | Phys. Lett., Vol. 62A, Pg. 463 - 466, 1977 |
Author(s) | Grundler W., Keilmann F., Froehlich H. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 755
|
Title | EFFECT OF CONTROLLED ELECTROMAGNETIC RADIATION ON THE GROWTH OF CELLS IN TISSUE CULTURE |
Reference | J. Surg. Res., Vol. 27, Pg. 8 - 13, 1979 |
Author(s) | Peters W. J., Jackson R. W., Iwano K. |
PubMed UID |
109700 |
Project ID | 1384 |
|
View This Study - Citation No: 974
|
Title | THE EFFECTS OF MICROWAVES ON CELL SURVIVAL AT ELEVATED TEMPERATURES |
Reference | Radiation Research, Vol. 88, Pg. 542 - 551, 1981 |
Author(s) | Robinson J. E., Harrison G. H., McCulloch D., McCready W. E., Cheung A. Y. |
PubMed UID |
7031755 |
Project ID | 1427 |
|
View This Study - Citation No: 980
|
Title | LYMPHOBLASTOID TRANSFORMATION OF LYMPHOCYTES IN VITRO AFTER MICROWAVE IRRADIATION |
Reference | Nature, Vol. 214, Pg. 102 - 103, 1967 |
Author(s) | Stodolnik-Baranska W. |
PubMed UID |
6033326 |
Project ID | 419 |
|
View This Study - Citation No: 1014
|
Title | MICROWAVE IRRADIATION AND THE CIRCADIAN RHYTHM OF BONE MARROW CELL MITOSIS |
Reference | J. Microwave Power, Vol. 9, Pg. 31 - 37, 1974 |
Author(s) | Czerski P., Paprocka-Slonka E., Stolarska A. |
PubMed UID |
|
Project ID | 79 |
|
View This Study - Citation No: 1051
|
Title | CELL CYCLE ALTERTIONS INDUCED BY ISOTHERMAL 27 MHz RADIO-FREQUENCY RADIATION EXPOSURE |
Reference | Bioelectrochem. Bioenerg., Vol. 37, Pg. 140 - 1995, 1995 |
Author(s) | Cao G., Liu L. M., Cleary S. F. |
PubMed UID |
|
Project ID | 109 |
|
View This Study - Citation No: 1058
|
Title | STIMULATING EFFECTS OF MODULATED 150 MHz ELECTROMAGNETIC FIELDS ON THE GROWTH OF ESCHERICHIA COLI IN A CAVITY RESONATOR |
Reference | Bioelectrochem. Bioenerg., Vol. 37, Pg. 23 - 28, 1995 |
Author(s) | Grospietsch T., Schulz O., Holzel R., Lamprecht I., Kramer K. D. |
PubMed UID |
|
Project ID | 1445 |
|
View This Study - Citation No: 1067
|
Title | BEHAVIOUR OF MONOLAYER CULTURES EXPOSED TO A LOW-FREQUENCY MODULATED RADIOFREQUENCY ELECTRIC FIELD |
Reference | Bioelectrochem. Bioenerg., Vol. 37, Pg. 11 - 16, 1995 |
Author(s) | Muller M., Maile S., Merker H. J., Kramer K. D. |
PubMed UID |
|
Project ID | 1445 |
|
View This Study - Citation No: 1070
|
Title | INFLUENCE OF MODULATED HIGH-FREQUENCY ELECTROMAGNETIC FIELDS ON THE FUNCTIONAL ORGANIZATION AND DYNAMICS OF THE COMMON BRAINSTEM SYSTEM |
Reference | Bioelectrochem. Bioenerg., Vol. 37, Pg. 31 - 37, 1995 |
Author(s) | Rittweger J., Lambertz M., Kluge W., Kramer K., Langhorst P. |
PubMed UID |
|
Project ID | 1445 |
|
View This Study - Citation No: 1078
|
Title | EFFECTS OF MICROWAVE RADIATION ON BACTERIA ESCHERICHIA COLI B/R AND ESCHERICHIA COLI BS-1 |
Reference | Electro-Magnetobiology, Vol. 14, Pg. 149 - 153, 1995 |
Author(s) | Morozov I. I., Petin V. G., Dubovick B. V. |
PubMed UID |
|
Project ID | 1450 |
|
View This Study - Citation No: 1125
|
Title | EFFECT OF ISOTHERMAL RADIOFREQUENCY RADIATION ON CYTOLYTIC T LYMPHOCYTES |
Reference | FASEB J., Vol. 10, Pg. 913 - 919, 1996 |
Author(s) | Cleary S. F., Du Z., Cao G., Liu L. M., McCrady C. |
PubMed UID |
8666169 |
Project ID | 109 |
|
View This Study - Citation No: 1126
|
Title | EFFECTS OF ISOTHERMAL 2.45 GHz MICROWAVE RADIATION ON THE MAMMALIAN CELL CYCLE: COMPARISON WITH EFFECTS OF ISOTHERMAL 27 MHz RADIOFREQUENCY RADIATION EXPOSURE |
Reference | Bioelectrochem. & Bioenerg., Vol. 39, Pg. 167 - 173, 1996 |
Author(s) | Cleary S. F., Cao G., Liu L. M. |
PubMed UID |
|
Project ID | 109 |
|
View This Study - Citation No: 1140
|
Title | DNA SYNTHESIS AND CELL PROLIFERATION IN C6 GLIOMA AND PRIMARY GLIAL CELLS EXPOSED TO A 836.55 MHz MODULATED RADIOFREQUENCY FIELD |
Reference | Bioelectromagnetics, Vol. 18, Pg. 230 - 236, 1997 |
Author(s) | Stagg R. B., Thomas W. J., Jones R. A., Adey W. R. |
PubMed UID |
9096841 |
Project ID | 100 |
|
View This Study - Citation No: 1201
|
Title | INTENSITY- AND FREQUENCY-DEPENDENT EFFECTS OF MICROWAVES ON CELL GROWTH RATES |
Reference | Bioelectrochem Bioenerg, Vol. 27, Pg. 361 - 365, 1992 |
Author(s) | Grundler W. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 1233
|
Title | ELECTROMAGNETIC RADIATION AT 835 MHz CHANGES THE MORPHOLOGY AND INHIBITS PROLIFERATION OF A HUMAN ASTROCYTOMA CELL LINE |
Reference | Bioelectrochem. & Bioenerg., Vol. 43, Pg. 13 - 18, 1997 |
Author(s) | French P. W., Donnellan M., McKenzie D. R. |
PubMed UID |
|
Project ID | 103 |
|
View This Study - Citation No: 1276
|
Title | THE EFFECTS OF RADIOFREQUENCY FIELDS ON CELL PROLIFERATION ARE NONTHERMAL |
Reference | Bioelectrochem. & Bioenerg., Vol. 48, Pg. 177 - 180, 1999 |
Author(s) | Velizarov S., Raskmark P., Kwee S. |
PubMed UID |
|
Project ID | 102 |
|
View This Study - Citation No: 1396
|
Title | CHANGES IN CELL PROLIFERATION DUE TO ENVIRONMENTAL NON-IONIZING RADIATION 2. MICROWAVE RADIATION |
Reference | Bioelectrochem. & Bioenerg., Vol. 44, Pg. 251 - 255, 1998 |
Author(s) | Kwee S., Raskmark P. |
PubMed UID |
|
Project ID | 102 |
|
View This Study - Citation No: 1431
|
Title | EXPOSURE OF BACTERIA TO 2450 MHz MICROWAVE RADIATION |
Reference | J. Microwave Power, Vol. 8, Pg. 227 - 233, 1973 |
Author(s) | Hamrick P. E., Butler B. T. |
PubMed UID |
|
Project ID | 1485 |
|
View This Study - Citation No: 1465
|
Title | EFFECTS OF EXPOSURE TO ELECTROMAGNETIC RADIATION AT 835 MHz ON GROWTH, MORPHOLOGY AND SECRETORY CHARACTERISTICS OF A MAST CELL ANALOGUE, RBL-2H3 |
Reference | Cell Biol. Int., Vol. 21, Pg. 427 - 439, 1997 |
Author(s) | Donnellan M., McKenzie D. R., French P. W. |
PubMed UID |
9313343 |
Project ID | 103 |
|
View This Study - Citation No: 1508
|
Title | MILLIMETER-WAVE EFFECTS ON CANDIDA ALBICANS CELLS |
Reference | J. Bioelectricity, Vol. 4, Pg. 171 - 176, 1985 |
Author(s) | Dardanoni L., Torregrossa M. V., Zanforlin L. |
PubMed UID |
|
Project ID | 1491 |
|
View This Study - Citation No: 1509
|
Title | ELECTROSTIMULATION OF YEAST PROLIFERATION |
Reference | Bioelectrochem. & Bioenergy, Vol. 38, Pg. 423 - 425, 1995 |
Author(s) | Fiedler U., Grobner U., Berg H. |
PubMed UID |
|
Project ID | 1492 |
|
View This Study - Citation No: 1510
|
Title | ELECTROSTIMULATION OF MACROPHAGE NADPH OXIDASE BY MODULATED HIGH-FREQUENCY ELECTROMAGNETIC FIELDS |
Reference | Bioelectrochem. Bioenerg., Vol. 38, Pg. 415 - 418, 1995 |
Author(s) | Gamaley I., Augsten K., Berg H. |
PubMed UID |
|
Project ID | 1492 |
|
View This Study - Citation No: 1529
|
Title | REACTIONS OF KERATINOCYTES TO IN VITRO MILLIMETER WAVE EXPOSURE |
Reference | Bioelectromagnetics, Vol. 22, Pg. 358 - 364, 2001 |
Author(s) | Szabo I., Rojavin M. A., Rogers T. J., Ziskin M. C. |
PubMed UID |
11424160 |
Project ID | 591 |
|
View This Study - Citation No: 1577
|
Title | COMPARISON OF DOSE-DEPENDENCES FOR BIOEFFECTS OF CONTINUOUS-WAVE AND HIGH-PEAK POWER MICROWAVE EMISSIONS USING GEL-SUSPENDED CELL CULTURES |
Reference | Bioelectromagnetics, Vol. 23, Pg. 158 - 167, 2002 |
Author(s) | Pakhomov A. G., Gajsek P., Allen L., Stuck B. E., Murphy M. R. |
PubMed UID |
11835262 |
Project ID | 814 |
|
View This Study - Citation No: 1580
|
Title | ULTRASTRUCTURAL CHANGES FOLLOWING TREATMENT WITH A MICROWAVE PULSE IN THE OOCYST OF EIMERIA MAGNA PERARD, 1925 |
Reference | Parasitol Res, Vol. 77, Pg. 585 - 589, 1991 |
Author(s) | Bouchet F., Boulard Y. |
PubMed UID |
1792228 |
Project ID | 902 |
|
View This Study - Citation No: 1627
|
Title | HIGH-FREQUENCY ELECTRIC FIELD TRAPPING OF INDIVIDUAL HUMAN SPERMATOZOA |
Reference | Hum Reprod, Vol. 13, Pg. 136 - 141, 1998 |
Author(s) | Fuhr G., Muller T., Baukloh V., Lucas K. |
PubMed UID |
9512245 |
Project ID | 385 |
|
View This Study - Citation No: 1867
|
Title | CANCER CELL STUDY REVIVES CELLPHONE SAFETY FEARS |
Reference | New Scientist, October 2002 (http://www.newscientist.com/news/news.jsp?id=ns99992959), , Pg. - , 2002 |
Author(s) | Marinelli F., La Sala D., Cicciotti G., Cinti C. |
PubMed UID |
|
Project ID | 973 |
|
View This Study - Citation No: 1868
(Non-Peer Reviewed Book Chapters / Reports)
|
Title | BIOLOGICAL EFFECT OF EXPOSURE TO ELECTROMAGNETIC FIELDS OF 900 MHZ ARE REDUCED BY USE OF RAYMASTER EQUIPMENT. EXPERIMENTAL STUDY ON CCRF-CEM CELLS IN CULTURE |
Reference | Biological Effects of EMFs 2nd Intl wrkshp, Rhodes Greece, , Pg. - , 2002 |
Author(s) | Marinelli F., La Sala D., Cicciotti G., Cinti C. |
PubMed UID |
|
Project ID | 973 |
|
View This Study - Citation No: 1869
|
Title | EXPOSURE TO 900 MHZ ELECTROMAGNETIC FIELD INDUCES AN UNBALANCE BETWEEN PRO-APOPTOTIC AND PRO-SURVIVAL SIGNALS IN T-LYMPHOBLASTOID LEUKEMIA CCRF-CEM CELLS |
Reference | Journal of Cellular Physiology
, Vol. 198, Pg. 324 - 332, 2004 |
Author(s) | Marinelli F., La Sala D., Cattini L., Tomassetti G., Cicciotti G., Cinti C. |
PubMed UID |
14603534 |
Project ID | 973 |
|
View This Study - Citation No: 1914
|
Title | RADIOFREQUENCY ELECTROMAGNETIC FIELDS DO NOT ALTER THE CELL CYCLE PROGRESSION OF C3H 10T1/2 AND U87MG CELLS |
Reference | Radiation Research, Vol. 156, Pg. 786 - 795, 2001 |
Author(s) | Higashikubo R., Ragouzis M., Moros E. G., Straube W. L., Roti Roti J. L. |
PubMed UID |
|
Project ID | 99 |
|
View This Study - Citation No: 1915
|
Title | RAT LYMPHOCYTES IN CELL CULTURE EXPOSED TO 2450 MHZ (CW) MICROWAVE RADIATION |
Reference | J Microw Power, Vol. 12, Pg. 125 - 132, 1977 |
Author(s) | Hamrick P. E., Fox S. S. |
PubMed UID |
243542 |
Project ID | 430 |
|
View This Study - Citation No: 1984
|
Title | LOW POWER MILLIMETERWAVE IRRADIATION EXERTS NO HARMFUL EFFECT ON HUMAN KERATINOCYTES IN VITRO |
Reference | Bioelectromagnetics, Vol. 24, Pg. 165 - 173, 2003 |
Author(s) | Szabo I., Manning M. R., Radzievsky A. A., Wetzel M. A., Rogers T. J., Ziskin M. C. |
PubMed UID |
|
Project ID | 591 |
|
View This Study - Citation No: 2005
(Literature Review)
|
Title | Thermal Effects of Microwave Radiation on Biogenic Magnetite Particles and Circuits: Theoretical Evaluation of Cell Phone Safety. |
Reference | Electro Magnetobiol., Vol. 17, Pg. 351 - 359, 1998 |
Author(s) | Dobson J., St. Pierre T. G. |
PubMed UID |
|
Project ID | 1076 |
|
View This Study - Citation No: 2049
(Non-Peer Reviewed Book Chapters / Reports)
|
Title | CELL MORTALITY IN MAGNETITE-PRODUCING BACTERIA EXPOSED TO GSM RADIATION |
Reference | Proceedings of the 15th International Symposium on Electromagnetic Compatibility, Zurich, Switzerland, , Pg. - , 2003 |
Author(s) | Dobson J., Cranfield C. G., Madden Al. J., Wieser H. G. |
PubMed UID |
|
Project ID | 1076 |
|
View This Study - Citation No: 2050
|
Title | EVALUATION OF FERROMAGNETIC TRANSDUCTION MECHANISMS FOR MOBILE PHONE BIOEFFECTS |
Reference | IEEE Transaction on NanoBioscience, Vol. 2, Pg. 40 - 43, 2003 |
Author(s) | Cranfield C., Wieser H. G., Maddan J. Al., Dobson J. |
PubMed UID |
|
Project ID | 1076 |
|
View This Study - Citation No: 2102
|
Title | EXPOSURE OF MAGNETIC BACTERIA TO SIMULATED MOBILE PHONE-TYPE RF RADIATION HAS NO IMPACT ON MORTALITY |
Reference | IEEE Trans NanoBioscience, Vol. 2, Pg. 146 - 149, 2003 |
Author(s) | Cranfield C., Wieser H. G., Dobson J. |
PubMed UID |
15376948 |
Project ID | 1076 |
|
View This Study - Citation No: 2210
|
Title | 1800 MHZ RADIOFREQUENCY (MOBILE PHONES,
DIFFERENT GLOBAL SYSTEM FOR MOBILE COMMUNICATION MODULATIONS) DOES NOT AFFECT APOPTOSIS AND HEAT SHOCK PROTEIN 70 LEVEL IN PERIPHERAL BLOOD MONONUCLEAR CELLS FROM YOUNG AND OLD DONORS |
Reference | Int J Rad Biol
, Vol. 80, Pg. 389 - 397, 2004 |
Author(s) | Capri M., Scarcella E., Bianchi E., Kuster N., Bersani F., et al . |
PubMed UID |
|
Project ID | 343 |
|
View This Study - Citation No: 2224
|
Title | CHANGES IN CELLULAR PROTEINS DUE TO ENVIRONMENTAL NON-IONIZING RADIATION 1. HEATSHOCK PROTEINS |
Reference | Electro Magnetobiol , Vol. 20, Pg. 141 - 152, 2001 |
Author(s) | Kwee S., Rasmark P., Velizarov S. |
PubMed UID |
|
Project ID | 102 |
|
View This Study - Citation No: 2245
|
Title | IN VITRO EXPOSURE OF HUMAN LYMPHOCYTES TO 900 MHZ CW AND GSM MODULATED RADIOFREQUENCY: STUDIES OF PROLIFERATION, APOPTOSIS, AND MITOCHONDRIAL MEMBRANE POTENTIAL |
Reference | Radiation Research, Vol. 162, Pg. 211 - 218, 2004 |
Author(s) | Capri M., Scarcella E., Fumelli C., Bersani F., Franceschi C., et al . |
PubMed UID |
15387149 |
Project ID | 343 |
|
View This Study - Citation No: 2323
(Literature Review)
|
Title | MECHANISMS OF ELECTROMAGNETIC INTERACTION WITH CELLULAR SYSTEMS |
Reference | Naturwissenschaften, Vol. 79, Pg. 551 - 559, 1992 |
Author(s) | Grundler W., Kaiser F., Keilmann F., Walleczek J. |
PubMed UID |
1480219 |
Project ID | 1298 |
|
View This Study - Citation No: 2324
|
Title | MICROWAVE TREATMENT OF INTRACEREBRAL L1210 LEUKEMIA: SCHEDULE-DEPENDENT PARTIAL REVERSAL OF THE EFFECTS OF METHOTREXATE |
Reference | Bioelectromagnetics, Vol. 2, Pg. 77 - 80, 1981 |
Author(s) | Chang B. K., Huang A. T., Joines W. T. |
PubMed UID |
7284044 |
Project ID | 1302 |
|
View This Study - Citation No: 2411
|
Title | THIN LAYER LIQUID CRYSTAL THERMOMETRY OF CELLS IN VITRO DURING HYPERTHERMAL MICROWAVE IRRADIATION |
Reference | Bioelectromagnetics, Vol. 3, Pg. 237 - 245, 1982 |
Author(s) | Robinson A. Y., McCulloch D., Harrison J. E., Cheung G. |
PubMed UID |
6751334 |
Project ID | 1427 |
|
View This Study - Citation No: 2412
|
Title | BOLUSING TECHNIQUE FOR BATCH MICROWAVE IRRADIATION OF TUMORS IN THE FAR FIELD |
Reference | J Microw Power, Vol. 12, Pg. 42 - 43, 1977 |
Author(s) | Cheung A. Y., McCulloch D., Robinson J. E., Samaras G. |
PubMed UID |
|
Project ID | 1427 |
|
View This Study - Citation No: 2420
|
Title | INFLUENCE OF TONICITY AND CHLORAMPHENICOL ON HYPERTHERMIC CYTOTOXICITY AND CELL PERMEABILITY UNDER VARIOUS HEATING RATES |
Reference | Int J Hyperthermia, Vol. 13, Pg. 49 - 57, 1997 |
Author(s) | Morozov I. I., Petin V. G., Dubovick B. V. |
PubMed UID |
9024926 |
Project ID | 1450 |
|
View This Study - Citation No: 2466
|
Title | BIOGENIC MAGNETITE IN THE NEMATODE CAENORHABDITIS ELEGANS |
Reference | Proc Royal Soc London: B Biological Sciences (2005) 271(Suppl 6):S436-9, Vol. 271(Suppl 6), Pg. S436 - S439, 2005 |
Author(s) | Cranfield C. G., Dawe A., Karloukovski V., Dunin-Borkowski R. E., de Pomerai D., Dobson J. |
PubMed UID |
|
Project ID | 1076 |
|
View This Study - Citation No: 2667
|
Title | PROLIFERATION AND APOPTOSIS IN A NEUROBLASTOMA CELL LINE EXPOSED TO 900 MHZ MODULATED RADIOFREQUENCY FIELD |
Reference | Bioelectromagnetics, Vol. 27, Pg. 164 - 171, 2006 |
Author(s) | Merola P., Marino C., Lovisolo G. A., Pinto R., Laconi C., Negroni A. |
PubMed UID |
16437547 |
Project ID | 1595 |
|
View This Study - Citation No: 2756
|
Title | MICROWAVE EXPOSURE OF NEURONAL CELLS IN VITRO: STUDY OF APOPTOSIS |
Reference | Int J Radiat Biol, Vol. 82, Pg. 267 - 275, 2006 |
Author(s) | Joubert V., Leveque P., Rametti A., Collin A., Bourthaumieu S., Yardin C. |
PubMed UID |
|
Project ID | 1630 |
|
View This Study - Citation No: 2868
|
Title | COMPARISON OF 864 MHZ AND 935 MHZ MICROWAVE RADIAITON EFFECTS ON CELL CULTURE |
Reference | Arh Hig Rada Toksikol, Vol. 57, Pg. 149 - 154, 2006 |
Author(s) | Pavicic I., Trosic I., Sarolic A. |
PubMed UID |
|
Project ID | 1663 |
|
View This Study - Citation No: 2889
|
Title | NO APOPTOSIS IS INDUCED IN CORTICAL NEURONS EXPOSED TO GSM PHONE FIELDS |
Reference | Bioelectromagnetics, Vol. 28, Pg. 115 - 121, 2007 |
Author(s) | Joubert V., Leveque P., Cueille M., Bourthoumieu S., Yardin C. |
PubMed UID |
|
Project ID | 1630 |
|
View This Study - Citation No: 3055
|
Title | ATHERMAL PULSED MICROWAVE EXPOSURE INDUCES THE HEAT SHOCK RESPONSE. |
Reference | J Theoretical Biol., , Pg. - , 1999 |
Author(s) | Laurence J. A., McKenzie D. R., French P. W., Kwan A. |
PubMed UID |
|
Project ID | 103 |
|
View This Study - Citation No: 3088
|
Title | NON THERMAL EFFECTS OF CONTINUOUS 2.45 GHz MICROWAVES ON FAS INDUCED APOPTOSIS IN HUMAN JURKAT T-CELL LINE |
Reference | Bioelectrochemistry, Vol. 51, Pg. 157 - 161, 2000 |
Author(s) | Peinnequin A., Piriou A., Mathieu J., Dabouis V., Debouzy J. C., et al . |
PubMed UID |
10910164 |
Project ID | 1721 |
|
View This Study - Citation No: 3131
|
Title | EFFECTS OF CONTINUOUS AND INTERMITTENT EXPOSURE TO RF FIELDS WITH A WIDE RANGE OF SARs ON CELL GROWTH, SURVIVAL, AND CELL CYCLE DISTRIBUTION |
Reference | Bioelectromagnetics, Vol. 27, Pg. 392 - 400, 2006 |
Author(s) | Takashima Y., Hirose H., Koyama S., Suzuki Y., Taki M., Miyakoshi J. |
PubMed UID |
16615058 |
Project ID | 1604 |
|
View This Study - Citation No: 3352
|
Title | APOPTOSIS IS INDUCED BY RADIOFREQUENCY FIELDS THROUGH THE CASPASE INDEPENDENT MITOCHONDRIAL PATHWAY IN CORTICAL NEURONS |
Reference | Radiation Research, Vol. 169, Pg. 38 - 45, 2008 |
Author(s) | Joubert V., Bourthoumieu S., Leveque P., Yardin C. |
PubMed UID |
18159956 |
Project ID | 1630 |
|
View This Study - Citation No: 3748
|
Title | EXPOSURE TO LOW LEVEL GSM 935 MHz RADIOFREQUENCY FIELDS DOES NOT INDUCE APOPTOSIS IN PROLIFERATING OR DIFFERENTIATED MURINE NEUROBLASTOMA CELLS |
Reference | Radiat Prot Dosimetry, Vol. 131, Pg. 287 - 296, 2008 |
Author(s) | Moquet J., Ainsbury E., Bouffler S., Lloyd D. |
PubMed UID |
18550513 |
Project ID | 1806 |
|
View This Study - Citation No: 3761
|
Title | IN VITRO TESTING OF CELLULAR RESPONSE TO ULTRA HIGH FREQUENCY ELECTROMAGNETIC RADIATION |
Reference | Toxicol In Vitro, Vol. 22, Pg. 1344 - 1348, 2008 |
Author(s) | Pavicic I., Trosic I. |
PubMed UID |
18513921 |
Project ID | 1663 |
|
View This Study - Citation No: 3808
|
Title | SPINDLE DISTURBANCES IN HUMAN HAMSTER HYBRID (AL) CELLS INDUCED BY MOBILE COMMUNICATION FREQUENCY RANGE SIGNALS |
Reference | Bioelectromagnetics, Vol. 29, Pg. 626 - 639, 2008 |
Author(s) | Schrader T., Munter K., Kleine-Ostmann T., Schmid E. |
PubMed UID |
18512695 |
Project ID | 1867 |
|
View This Study - Citation No: 3820
|
Title | EXPOSURE TO 900 MHz RADIOFREQUENCY RADIATION INDUCES CASPASE 3 ACTIVATION IN PROLIFERATING HUMAN LYMPHOCYTES |
Reference | Radiat Res, Vol. 170, Pg. 327 - 334, 2008 |
Author(s) | Palumbo R., Brescia F., Capasso D., Capri M., Scarfi M. R., et al . |
PubMed UID |
18763855 |
Project ID | 1869 |
|
View This Study - Citation No: 4012
|
Title | DISTURBANCE OF CELL PROLIFERATION IN RESPONSE TO MOBILE PHONE FREQUENCY RADIATION. |
Reference | Arh Hig Rada Toksikol., Vol. 60, Pg. 109 - 115, 2009 |
Author(s) | Trosic I., Pavicic I. |
PubMed UID |
19329382 |
Project ID | 1663 |
|
View This Study - Citation No: 4566
|
Title | EVALUATION OF THE POTENTIAL IN VITRO ANTIPROLIFERATIVE EFFECTS OF MILLIMETER WAVES AT SOME THERAPEUTIC FREQUENCIES ON RPMI 7932 HUMAN SKIN MALIGNANT MELANOMA CELLS |
Reference | Cell Biochem Biophys, Vol. 55, Pg. 25 - 32, 2009 |
Author(s) | Beneduci A. |
PubMed UID |
19536459 |
Project ID | 2088 |
|
View This Study - Citation No: 4604
|
Title | EXPOSURE TO ELF-PULSE MODULATED X BAND MICROWAVES INCREASES IN VITRO HUMAN ASTROCYTOMA CELL PROLIFERATION |
Reference | Histol Histopathol, Vol. 24, Pg. 1551 - 1561, 2009 |
Author(s) | Perez-Castejon C., Perez-Bruzon R. N., Llorente M., Pes N., Azanza M. J., et al . |
PubMed UID |
19795354 |
Project ID | 2104 |
|
View This Study - Citation No: 4676
|
Title | CYTOGENETIC EFFECTS OF 18.0 AND 16.5 GHz MICROWAVE RADIATION ON HUMAN LYMPHOCYTES IN VITRO |
Reference | Anticancer Res, Vol. 29, Pg. 2885 - 2892, 2009 |
Author(s) | Hansteen I. L., Lageide L., Clausen K. O., Haugan V., Kure E. H., et al . |
PubMed UID |
19661291 |
Project ID | 2136 |
|
View This Study - Citation No: 4900
|
Title | MILLIMETER WAVE TREATMENT INHIBITS NO-INDUCED APOPTOSIS OF CHONDROCYTES THROUGH THE p38MAPK PATHWAY |
Reference | Int J Mol Med, Vol. 25, Pg. 393 - 399, 2010 |
Author(s) | Li X., Du M., Liu X., Wu M., Chen W., et al . |
PubMed UID |
20127044 |
Project ID | 2221 |
|
View This Study - Citation No: 4912
|
Title | CYTOGENETIC EFFECTS OF EXPOSURE TO 2.3 GHz RADIOFREQUENCY RADIATION ON HUMAN LYMPHOCYTES IN VITRO |
Reference | Anticancer Res, Vol. 29, Pg. 4323 - 4330, 2009 |
Author(s) | Hansteen I. L., Clausen K. O., Haugan V., Svendsen M. V., Kure E. H., et al . |
PubMed UID |
20032374 |
Project ID | 2136 |
|
View This Study - Citation No: 5691
|
Title | Cell oxidation-reduction imbalance after modulated radiofrequency radiation. |
Reference | Electromagn Biol Med., Vol. 34, Pg. 381 - 386, 2015 |
Author(s) | Marjanovic A. M., Pavicic I., Trosic I. |
PubMed UID |
25119294 |
Project ID | 1663 |
|
View This Study - Citation No: 5767
|
Title | Mobile phone radiation alters proliferation of hepatocarcinoma cells. |
Reference | Cell Biochem Biophys., Vol. 70, Pg. 983 - 991, 2014 |
Author(s) | Ozgur E., Guler G., Kismali G., Seyhan N. |
PubMed UID |
24817642 |
Project ID | 2419 |
|
View This Study - Citation No: 5769
|
Title | Mutagenic and morphologic impacts of 1.8GHz radiofrequency radiation on human peripheral blood lymphocytes (hPBLs) and possible protective role of pre-treatment with Ginkgo biloba (EGb 761). |
Reference | Sci Total Environ., Vol. 410-411, Pg. 59 - 64, 2011 |
Author(s) | Esmekaya M. A., Ozgur E., Guler G., Ergun M. A., Seyhan N., et al. . |
PubMed UID |
22014767 |
Project ID | 2419 |
|
View This Study - Citation No: 5811
|
Title | Evaluation of the co-genotoxic effects of 1800 MHz GSM radiofrequency exposure and a chemical mutagen in cultured human cells. |
Reference | Comptes Rendus Physique., Vol. 11, Pg. 613 - 621, 2010 |
Author(s) | Perrin A., Freire M., Bachelet C., Collin S., Debouzy J. C., et al. . |
PubMed UID |
|
Project ID | 1721 |
|
View This Study - Citation No: 5899
|
Title | Inhibition of Cellular Proliferation and
Enhancement of Hydrogen Peroxide Production in Fibrosarcoma Cell Line by Weak Radio Frequency Magnetic Fields. |
Reference | Bioelectromagnetics., Vol. 35, Pg. 598 - 602, 2014 |
Author(s) | Castello P. R., Hill I., Sivo F., Barnes F., Martino C. F., et al. . |
PubMed UID |
|
Project ID | 2454 |
|
View This Study - Citation No: 5940
|
Title | Effects of Pulsed 2.856 GHz Microwave Exposure on BM-MSCs Isolated from C57BL/6 Mice. |
Reference | PLoS ONE., Vol. 10(2): e0117550., Pg. - , 2015 |
Author(s) | Wang C., Wang X., Zhou H., Dong G., Hu X., et al. . |
PubMed UID |
|
Project ID | 2464 |
|
View This Study - Citation No: 5949
(Literature Review)
|
Title | Biological indicators in response to radiofrequency/microwave exposure. |
Reference | Arh Hig Rada Toksikol., Vol. 63, Pg. 407 - 416, 2012 |
Author(s) | Marjanovic A. M., Pavicic I., Trosic I. |
PubMed UID |
|
Project ID | 1663 |
|
View This Study - Citation No: 5980
|
Title | Exposure to 1800 MHz radiofrequency radiation impairs neurite outgrowth of embryonic neural stem cells. |
Reference | Sci Rep. , Vol. 4, Pg. - (10 pages), 2014 |
Author(s) | Chen C., Ma Q., Liu C., Yu Z., Zhou Z., et al. . |
PubMed UID |
24869783 |
Project ID | 2479 |
|
View This Study - Citation No: 5997
|
Title | Differential pro-inflammatory responses of astrocytes and microglia involve STAT3 activation in response to 1800 MHz radiofrequency fields. |
Reference | PLoS One., Vol. 9, Pg. - , 2014 |
Author(s) | Lu Y., He M., Zhang Y., Chen C., Zhou Z., et al. . |
PubMed UID |
25275372 |
Project ID | 2479 |
|
View This Study - Citation No: 6003
|
Title | Electromagnetic Fields Mediate Efficient Cell Reprogramming into a Pluripotent State |
Reference | ACS Nano., Vol. 8(10), Pg. 10125 - 10138, 2014 |
Author(s) | Baek S., Quan X., Kim S., Lengner C., Park J. K., Kim J. |
PubMed UID |
25248035 |
Project ID | 2488 |
|
View This Study - Citation No: 6057
|
Title | Effects of non-thermal mobile phone radiation
on breast adenocarcinoma cells. |
Reference | South African Journal of Science., Vol. 107, Pg. (Article #525) - (9 pages), 2011 |
Author(s) | Stander B. A., Marais S., Huyser C., Fourie Z., Leszczynski D., Joubert A. M. |
PubMed UID |
|
Project ID | 2501 |
|
View This Study - Citation No: 6277
|
Title | Effect of millimetre waves on phosphatidylcholine membrane models: a non-thermal mechanism of interaction. |
Reference | Soft Matter., Vol. 10, Pg. 5559 - 5567, 2014 |
Author(s) | Beneduci A., Cosentino K., Romeo S., Massa R., Chidichimo G. |
PubMed UID |
24959858 |
Project ID | 2088 |
|
View This Study - Citation No: 6284
(Literature Review)
|
Title | Non-thermal biomarkers of exposure to radiofrequency/microwave radiation. |
Reference | Arh Hig Rada Toksikol., Vol. 63 Suppl 1., Pg. 67 - 73, 2012 |
Author(s) | Trosic I., Pavicic I., Marjanovic A. M., Busljeta I. |
PubMed UID |
22548854 |
Project ID | 1663 |
|
View This Study - Citation No: 6306
|
Title | Effects of radiation from a radiofrequency identification (RFID) microchip on human cancer cells. |
Reference | Int J Radiat Biol., Vol. 92, Pg. 156 - 161, 2016 |
Author(s) | Lai H. C., Chan H. W., Singh N. P. |
PubMed UID |
26872622 |
Project ID | 2560 |
|
View This Study - Citation No: 6365
|
Title | Exposure to 3G mobile phone signals does not
affect the biological features of brain tumor cells. |
Reference | BMC Public Health, Vol. 15, Pg. 764 - , 2015 |
Author(s) | Liu Y. X., Li G. Q., Fu X. P., Zhang Y., Li A. M. |
PubMed UID |
|
Project ID | 2590 |
|
View This Study - Citation No: 6556
|
Title | Inhibition of STAT3- and MAPK-dependent PGE2 synthesis ameliorates phagocytosis of fibrillar ²-amyloid peptide (1-42) via EP2 receptor in EMF-stimulated N9 microglial cells. |
Reference | Journal of Neuroinflammation., Vol. 13, Pg. 296 - , 2016 |
Author(s) | He G. L., Luo Z., Shen T. T., Gao P., Yang X. S., et al. . |
PubMed UID |
27871289 |
Project ID | 2479 |
|
View This Study - Citation No: 6667
|
Title | Effects of RF-EMF Exposure from GSM
Mobile Phones on Proliferation Rate of Human Adipose-derived Stem Cells: An In-vitro Study. |
Reference | J Biomed Phys Eng., Vol. 6, Pg. 243 - 252, 2016 |
Author(s) | Shahbazi-Gahrouei D., Hashemi-Beni B., Ahmadi Z. |
PubMed UID |
28144594 |
Project ID | 2686 |
|
View This Study - Citation No: 6677
|
Title | Evaluation of the Effect of Radiofrequency Radiation Emitted From Wi-Fi Router and Mobile Phone Simulator on the Antibacterial Susceptibility of Pathogenic Bacteria Listeria monocytogenes and Escherichia coli. |
Reference | Dose Response., Vol. 15(1), Pg. 1 - 8, 2017 |
Author(s) | Taheri M., Mortazavi S. M., Moradi M., Mansouri S., Halam G. R., Nouri F. |
PubMed UID |
28203122 |
Project ID | 2690 |
|
View This Study - Citation No: 6791
|
Title | Effects of radiofrequency exposure emitted from a GSM mobile phone on proliferation, differentiation, and apoptosis of neural stem cells. |
Reference | Anat Cell Biol., Vol. 50, Pg. 115 - 123, 2017 |
Author(s) | Eghlidospour M., Ghanbari A., Mortazavi S. MJ., Azari H. |
PubMed UID |
28713615 |
Project ID | 2710 |
|
View This Study - Citation No: 6801
|
Title | In vitro non-thermal oxidative stress response after 1800 MHz radiofrequency radiation. |
Reference | Gen Physiol Biophys., Vol. 36, Pg. 407 - 414, 2017 |
Author(s) | Marjanovic Cermak A. M., Pavicic I., Lovakovic B. T., Pizent A., Trosic I. |
PubMed UID |
28836500 |
Project ID | 1663 |
|
View This Study - Citation No: 6844
|
Title | The response of human bacteria to static magnetic field and radiofrequency electromagnetic field. |
Reference | J Microbiol., Vol. 55, Pg. 809 - 815, 2017 |
Author(s) | Crabtree D. P., Herrera B. J., Kang S. |
PubMed UID |
28956351 |
Project ID | 2736 |
|
View This Study - Citation No: 6875
|
Title | Oxidative stress response in SH-SY5Y cells exposed to short-term 1800 MHz radiofrequency radiation. |
Reference | J Environ Sci Health A Tox Hazard Subst Environ Eng., Vol. 53, Pg. 132 - 138, 2018 |
Author(s) | Marjanovic Cermak A. M., Pavicic I., Trosic I. |
PubMed UID |
29148897 |
Project ID | 1663 |
|
View This Study - Citation No: 7083
|
Title | Millimeter wave promotes the synthesis of extracellular matrix and the proliferation of chondrocyte by regulating the voltage-gated K+ channel. |
Reference | J Bone Miner Metab., Vol. 32, Pg. 367 - 377, 2014 |
Author(s) | Li X., Liu C., Liang W., Ye H., Chen W., et al. . |
PubMed UID |
|
Project ID | 2221 |
|
View This Study - Citation No: 7084
|
Title | Investigation of the non-thermal effects of exposing cells to 70300 GHz irradiation using a widely tunable source. |
Reference | Journal of Radiation Research., Vol. 59, Pg. 116 - 121, 2018 |
Author(s) | Yaekashiwa N., Otsuki s., Hayashi S., Kawase K. |
PubMed UID |
|
Project ID | 2793 |
|
View This Study - Citation No: 7092
|
Title | Exposure to Global System for Mobile Communication 900 MHz Cellular Phone Radiofrequency Alters Growth, Proliferation and Morphology of Michigan Cancer Foundation-7 Cells and Mesenchymal Stem Cells. (TO READ PAPER GO TO PUBMED LINK 30034669) |
Reference | Int J Prev Med. , Vol. 9, Pg. 51 - , 2018 |
Author(s) | Shahbazi-Gahrouei D., Hashemi-Beni B., Moradi A., Aliakbari M., Shahbazi-Gahrouei S. |
PubMed UID |
30034669 |
Project ID | 2686 |
|
View This Study - Citation No: 7096
|
Title | Frequency and irradiation time dependant antiproliferative effect of low-power millimeter waves on RPMI 7932 human melanoma cell line. |
Reference | Anticancer Research., Vol. 25, Pg. 1023 - 1028, 2005 |
Author(s) | Beneduci A., Chidichimo G., De Rose R., Filippelli L., Straface S. V., Venuta S. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7097
|
Title | Transmission electron microscopy study of the effects produced by wide-band low-power millimeter waves on MCF-7 human breast cancer cells in culture. |
Reference | Anticancer Research., Vol. 25, Pg. 1009 - 1014, 2005 |
Author(s) | Beneduci A., Chidichimo G., Tripepi S., Perrotta E. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7098
|
Title | Antiproliferative effect of millimeter radiation on human erythromyeloid leukemia cell line K562 in culture: ultrastructural- and metabolic-induced changes. |
Reference | Bioelectrochemistry., Vol. 70, Pg. 214 - 220, 2007 |
Author(s) | Beneduci A., Chidichimo G., Tripepi S., Perrotta E., Cufone F. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7099
|
Title | Microwave induced shift of the main phase transition in phosphatidylcholine membranes. |
Reference | Bioelectrochemistry., Vol. 84, Pg. 18 - 24, 2012 |
Author(s) | Beneduci A., Filippelli L., Cosentino K., Calabrese M. L., Massa R., Chidichimo G. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7100
|
Title | Millimeter wave radiations affect membrane hydration in phosphatidylcholine vesicles. |
Reference | Materials (Basel)., Vol. 6, Pg. 2701 - 2712, 2013 |
Author(s) | Beneduci A., Cosentino K., Chidichimo G. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7101
|
Title | The effect of millimeter-band radiation of nonthermal intensity on sensitivity of Staphylococcus to various antibiotics. (Paper in Russian; abstract in English) |
Reference | Biofizika., Vol. 41, Pg. 1289 - 1293, 1996 |
Author(s) | Bulgakova V. G., Grushina V. A., Orlova T. I., Petrykina Z. M., Polin A. N., et al. . |
PubMed UID |
|
Project ID | 2797 |
|
View This Study - Citation No: 7102
|
Title | ). Selective inhibition of tumoral cells growth by low power millimeter waves. |
Reference | Anticancer Res., Vol. 22, Pg. 1681 - 1688, 2002 |
Author(s) | Chidichimo G., Beneduci A., Nicoletta M., Critelli M., De Rose R., et al. . |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7103
|
Title | Effect of 99 GHz continuous millimeter wave electro-magnetic radiation on E. coli viability and metabolic activity. |
Reference | Int J Radiat Biol., Vol. 86, Pg. 390 - 399., 2010 |
Author(s) | Cohen I., Cahan R., Shani G., Cohen E., Abramovich A. |
PubMed UID |
|
Project ID | 2798 |
|
View This Study - Citation No: 7104
|
Title | The influence of millimeter waves on the physical properties of large and giant unilamellar vesicles. |
Reference | Journal of Biological Physics., Vol. 39, Pg. 395 - 410, 2013 |
Author(s) | Cosentino K., Beneduci A., Ramundo-Orlando A., Chidichimo G. |
PubMed UID |
|
Project ID | 2088 |
|
View This Study - Citation No: 7108
|
Title | Millimeter wave treatment promotes chondrocyte proliferation by upregulating the expression of cyclin-dependent kinase 2 and cyclin A. |
Reference | Int. J. Mol. Med. , Vol. 26, Pg. 77 - 84, 2010 |
Author(s) | Li X., Du M., Liu X., Chen W., Wu G., et al. . |
PubMed UID |
|
Project ID | 2221 |
|
View This Study - Citation No: 7116
|
Title | Millimeter waves or extremely high frequency electromagnetic fields in the environment: what are their effects on bacteria? |
Reference | Appl Microbiol Biotechnol., Vol. 100, Pg. 4761 - 4771, 2016 |
Author(s) | Soghomonyan D., Trchounian K., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7117
|
Title | Extremely high frequency electromagnetic radiation enforces bacterial effects of inhibitors and antibiotics. |
Reference | Cell Biochemistry and Biophysics., Vol. 51, Pg. 97 - 103, 2008 |
Author(s) | Tadevosyan H., Kalantaryan V., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7118
|
Title | Electromagnetic irradiation of Enterococcus hirae at low-intensity 51.8- and 53.0-GHz frequencies: changes in bacterial cell membrane properties and enhanced antibiotics effects. |
Reference | FEMS Microbiology Letters 329:131-137., Vol. 329, Pg. 131 - 137, 2012 |
Author(s) | Torgomyan H., Ohanyan V., Blbulyan S., Kalantaryan V., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7119
|
Title | Extremely high frequency electromagnetic irradiation in combination with antibiotics enhances antibacterial effects on Escherichia coli. |
Reference | Current Microbiology., Vol. 62, Pg. 962 - 967, 2011 |
Author(s) | Torgomyan H., Tadevosyan H., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7120
|
Title | The enhanced effects of antibiotics irradiated of extremely high frequency electromagnetic field on Escherichia coli growth properties. |
Reference | Cell Biochemistry and Biophysics., Vol. 71, Pg. 419 - 424, 2015 |
Author(s) | Torgomyan H., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7215
|
Title | Radiofrequency radiation at 2.856 GHz does not affect key cellular endpoints in neuron-like PC12 cells. |
Reference | Electromagnetic Biology and Medicine., Vol. 38, Pg. 102 - 110, 2019 |
Author(s) | Zhou H., Dong G., Zheng W., Zhi W., Wang C., et al. . |
PubMed UID |
|
Project ID | 2822 |
|
View This Study - Citation No: 7245
|
Title | Direct and indirect effects of exposure to 900/MHz GSM radiofrequency electromagnetic fields on CHO cell line: Evidence of bystander effect by non-ionizing radiation. |
Reference | Environ Res., Vol. 174, Pg. 176 - 187, 2019 |
Author(s) | Jooyan N., Goliaei B., Faraji-Dana R., Zamani A., Mortazavi S. MJ., et al. . |
PubMed UID |
|
Project ID | 2710 |
|
View This Study - Citation No: 7251
|
Title | Assessment of the effects of radiofrequency radiation on human colon epithelium cells. |
Reference | Bratisl Med J 2019; 120 (4)
299 308, Vol. 120, Pg. 299 - 308, 2019 |
Author(s) | Tomruk A., Terzi Y. K., Guler G. O. |
PubMed UID |
|
Project ID | 2419 |
|
View This Study - Citation No: 7288
|
Title | Significant cellular viability dependence on time exposition at ELF-EMF and RF-EMF in vitro studies. |
Reference | Int J Environ Res Public Health. , , Pg. E2085 - (8 pages), 2019 |
Author(s) | López O. GM., Valbuena A. J., Unturbe C. M. |
PubMed UID |
|
Project ID | 2839 |
|
View This Study - Citation No: 7308
|
Title | Effects of radiofrequency electromagnetic field exposure on neuronal differentiation and mitochondrial function in SH-SY5Y cells. |
Reference | Toxicol In Vitro., Vol. 61, Pg. 104609 - doi: 10.1016/j.tiv.2019.104609, 2019 |
Author(s) | von Niederhäusern N., Ducray A., Zielinski J., Murbach M., Mevissen M. |
PubMed UID |
31351122 |
Project ID | 2843 |
|
View This Study - Citation No: 7357
|
Title | Millimeter wave treatment promotes chondrocyte proliferation via G 1/S cell cycle transition. |
Reference | Int. J. Mol. Med. 2012, 29, 823831., Vol. 29, Pg. 823 - 831, 2012 |
Author(s) | Li X., Ye H., Yu F., Cai L., Chen J., et al. . |
PubMed UID |
|
Project ID | 2221 |
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View This Study - Citation No: 7374
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Title | Millimeter wave treatment inhibits the mitochondrion-dependent apoptosis pathway in chondrocytes. |
Reference | Mol. Med. Rep. 2011, 4, 10011006., Vol. 4, Pg. 1001 - 1006, 2011 |
Author(s) | Wu G., Sferra T., Chen X., Chen Y., Wu M., et al. . |
PubMed UID |
|
Project ID | 2221 |
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View This Study - Citation No: 7375
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Title | Experimental study of millimeter wave-induced differentiation of bone marrow mesenchymal stem cells into chondrocytes. |
Reference | Int. J. Mol. Med.
2009, 23, 461467., Vol. 23, Pg. 461 - 467, 2009 |
Author(s) | Wu G. W., Liu X. X., Wu M. X., Zhao J. Y., Chen W. L., et al. . |
PubMed UID |
|
Project ID | 2221 |
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View This Study - Citation No: 7527
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Title | Apoptotic Effect of 1800 MHz Electromagnetic Radiation on NIH/3T3 Cells. |
Reference | Int J Environ Res Public Health., Vol. 17, Pg. 819 - , 2020 |
Author(s) | Li D. Y., Song J. D., Liang Z. Y., Oskouei K., Murbach M., et al. . |
PubMed UID |
|
Project ID | 2885 |
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View This Study - Citation No: 7532
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Title | Antibacterial susceptibility pattern of the pseudomonas aeruginosa and staphylococcus aureus after exposure to electromagnetic waves emitted from mobile phone simulator. |
Reference | J Biomed Phys Eng., Vol. 9, Pg. 637 - 646, 2019 |
Author(s) | Movahedi M. M., Nouri F., Tavakoli Golpaygani A., Ataee L., Amani S., Taheri M. |
PubMed UID |
|
Project ID | 2690 |
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View This Study - Citation No: 7534
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Title | Dynamic changes in cytoskeleton proteins of olfactory ensheathing cells [OECs] induced by radiofrequency electromagnetic fields. |
Reference | J Exp Biol., Vol. 223, Pg. pii: jeb217190 - , 2020 |
Author(s) | Grasso R., Pellitteri R., Caravella S. A., Triglia A., Campisi A., et al. . |
PubMed UID |
|
Project ID | 2887 |
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View This Study - Citation No: 7607
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Title | Effects of Pulse-Modulated Radiofrequency Magnetic Field (RF-EMF) Exposure on Apoptosis, Autophagy, Oxidative Stress and Electron Chain Transport Function in Human Neuroblastoma and Murine Microglial Cells. |
Reference | Toxicology in Vitro., Vol. 68, Pg. 104963 - , 2020 |
Author(s) | Zielinski J., Ducray A. D., Moeller A. M., Murbach M., Kuster N., Mevissen M. |
PubMed UID |
https://doi.org/10.1016/j.tiv.2020.104963 |
Project ID | 2843 |
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View This Study - Citation No: 7630
(Dosimetry)
|
Title | A Compact, Wide Bandwidth Real-Time RF Exposure Setup Based on Microelectrode Array. |
Reference | IEEE Microw Wireless Compon Lett., Vol. 30, Pg. 1205 - 1208, 2020 |
Author(s) | Zhao X., Liu Q., Dong G., Sun Y., Zhou H., Wang C. |
PubMed UID |
|
Project ID | 2822 |
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View This Study - Citation No: 7632
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Title | Microtubular Structure Impairment After GSM-modulated RF Radiation Exposure. |
Reference | Arh Hig Rada Toksikol., Vol. 71, Pg. 205 - 210, 2020 |
Author(s) | Cermak AM. M., Ilic K., Pavicic I. |
PubMed UID |
33074167 |
Project ID | 1663 |
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View This Study - Citation No: 7646
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Title | W-Band Millimeter Waves Targeted Mortality of H1299 Human Lung Cancer Cells Without Affecting Non-Tumorigenic Mcf-10a Human Epithelial Cells in Vitro. |
Reference | Applied Sciences., Vol. 10, Pg. 4813 - doi.org/10.3390/app10144813, 2020 |
Author(s) | Komoshvili K., Israel K., Levitan J., Yahalom A., Barbora A., Liberman-Aronov S. |
PubMed UID |
|
Project ID | 2901 |
|
View This Study - Citation No: 7665
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Title | Klebsiella pneumonia, a Microorganism that Approves the Non-linear Responses to Antibiotics and Window Theory after Exposure to Wi-Fi 2.4 GHz Electromagnetic Radiofrequency Radiation. |
Reference | Journal of Biomedical Physics & Engineering., Vol. 5, Pg. 115 - 120, 2015 |
Author(s) | Taheri M., Mortazavi SM. J., Moradi M., Nouri F., Bahmanzadegan F., et al. . |
PubMed UID |
|
Project ID | 2690 |
|
View This Study - Citation No: 7683
|
Title | 8-oxoG DNA Glycosylase-1 Inhibition Sensitizes Neuro-2a Cells to Oxidative DNA Base Damage Induced by 900 MHz Radiofrequency Electromagnetic Radiation. |
Reference | Cell Physiol Biochem., Vol. 37, Pg. 1075 - 1088, 2015 |
Author(s) | Wang X., Liu C., Ma Q., Yu Z., Zhang L., et al. . |
PubMed UID |
|
Project ID | 2479 |
|
View This Study - Citation No: 7686
|
Title | Extremely Low-Frequency Electromagnetic Fields Promote In Vitro Neuronal Differentiation and Neurite Outgrowth of Embryonic Neural Stem Cells via UpRegulating TRPC1. |
Reference | PLoS One. 2016 Mar 7;11(3):., Vol. 11, Pg. e0150923 - , 2016 |
Author(s) | Ma Q., Chen C., Liu C., Zhou Z., Yu Z., et al. . |
PubMed UID |
|
Project ID | 2479 |
|
View This Study - Citation No: 7735
|
Title | Influence of low intensity coherent electromagnetic millimeter radiation (EMR) on aqua solution of DNA. |
Reference | Prog Electromag Res., Vol. 13, Pg. 1 - 9, 2010 |
Author(s) | Kalantaryan V. P., Vardevanyan P. O., Babayan Y. S., Gevorgyan E. S., Hakobyan S. N., Antonyan A. P. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7736
|
Title | Terahertz radiation induces spindle disturbances in human-hamster hybrid cells. |
Reference | Radiat Res., Vol. 175, Pg. 569 - 574, 2011 |
Author(s) | Hintzsche H., Jastrow C., Kleine-Ostmann T. |
PubMed UID |
|
Project ID | 1867 |
|
View This Study - Citation No: 7742
|
Title | Low-intensity electromagnetic irradiation of 70.6 and 73 GHz frequencies enhances the effects
of disulfide bonds reducer on Escherichia coli growth and affects the bacterial surface oxidationreduction state. |
Reference | Biochem Biophys Res Commun., Vol. 414, Pg. 265 - 269, 2011 |
Author(s) | Torgomyan H., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7743
|
Title | Low intensity electromagnetic irradiation with 70.6 and 73 GHz frequencies affects Escherichia coli growth and changes water properties. |
Reference | Cell Biochem Biophys., Vol. 60, Pg. 275 - 281, 2011 |
Author(s) | Torgomyan HV., Kalantaryan ., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7744
|
Title | Escherichia coli growth changes by the mediated effects after low-intensity electromagnetic irradiation of extremely high frequencies. |
Reference | Cell Biochem Biophys., Vol. 65, Pg. 445 - 454, 2012 |
Author(s) | Torgomyan H., Hovnanyan K., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7745
|
Title | Comparable effects of low-intensity electromagnetic irradiation at the frequency of 51.8 and 53 GHz and antibiotic ceftazidime on Lactobacillus acidophilus.
growth and survival. |
Reference | Cell Biochem Biophys., Vol. 67, Pg. 829 - 835, 2013 |
Author(s) | Soghomonyan D., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7746
|
Title | The distinguishing effects of lowintensity electromagnetic radiation of different
extremely high frequencies on Enterococcus hirae: growth rate inhibition and scanning electron microscopy analysis. |
Reference | Lett Appl microbiol., Vol. 65, Pg. 220 - 225, 2017 |
Author(s) | Hovnanyan K., Kalantaryan V., Trchounian A. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7747
|
Title | Sharp resonances in yeast growth prove nonthermal sensitivity to microwaves. |
Reference | Phys Rev Lett., Vol. 51, Pg. 1214 - , 1983 |
Author(s) | Grundler W., Keilmann F. |
PubMed UID |
|
Project ID | 1298 |
|
View This Study - Citation No: 7748
|
Title | Lethal effect of electromagnetic radiation of the millimeter wavelength range on cell cultures of chicken embryo. |
Reference | Dokl Biochem Biophys., Vol. 377, Pg. 94 - 95, 2001 |
Author(s) | Badzhinyan S. A., Sayadyan A. B., Sarkisyan N. K., Grigoryan R. M., Gasparyan G. G. |
PubMed UID |
|
Project ID | 2912 |
|
View This Study - Citation No: 7749
|
Title | Effect of two-times 24 h exposures to 60 GHz millimeter-waves on neurite outgrowth in PC12VG cells in consideration of polarization. |
Reference | IEEE Int Sympo Electromag Compat., Vol. 13, Pg. 166 - 169, 2014 |
Author(s) | Shiina T., Suzuki Y., Kasai Y., Inami Y., Taki M., Wake K. |
PubMed UID |
|
Project ID | 1604 |
|
View This Study - Citation No: 7759
|
Title | Effects of the action of microwave-frequency
electromagnetic radiation on the spike activity of neurons in the supraoptic nucleus of the hypothalamus in rats. |
Reference | Neurosci Behav Physiol., Vol. 37, Pg. 175 - 180, 2007 |
Author(s) | Minasyan S. M., Grigoryan G. Y., Saakyan S. G., Akhumyan A. A., Kalantaryan V. P. |
PubMed UID |
|
Project ID | 2801 |
|
View This Study - Citation No: 7930
|
Title | Pulsed 3.5 GHz High Power Microwaves Irradiation on Physiological Solution and Their Biological Evaluation on Human Cell Lines. |
Reference | Sci Rep., Vol. 11, Pg. 8475 - , 2021 |
Author(s) | Bhartiya P., Mumtaz S., Kaushik N., Nguyen L. N., Choi E. H., et al. . |
PubMed UID |
|
Project ID | 2937 |
|
View This Study - Citation No: 7955
|
Title | Morphological and cytophysiological changes in selected lines of normal and cancer human cells under the influence of a radio-frequency electromagnetic field. |
Reference | Ann Agric Environ Med., Vol. 28, Pg. 163 - 171, 2021 |
Author(s) | Górski R., Nowak-TerpiBowska A., ZledziDski P., Baranowski M., WosiDski S. |
PubMed UID |
|
Project ID | 2943 |
|
View This Study - Citation No: 7995
|
Title | 1800 MHz Radiofrequency Electromagnetic Field Impairs Neurite Outgrowth Through Inhibiting EPHA5 Signaling |
Reference | Front. Cell Dev. Biol., Vol. doi.org/10.3389/fcell.2021.657623, Pg. - , 2021 |
Author(s) | Chen C., Ma Q., Deng P., Yu Z., Zhang L., et al. . |
PubMed UID |
|
Project ID | 2479 |
|
View This Study - Citation No: 8372
|
Title | Exposure to 1950-MHz TD-SCDMA electromagnetic fields (5.36 W/kg) affects the apoptosis of astrocytes via caspase-3-dependent pathway. |
Reference | PloS one., Vol. 7, Pg. e42332 - , 2012 |
Author(s) | Liu Y. -x., Tai J. -l., Li G. -q., Zhang Z. -w., Xue J. -h., et al, . |
PubMed UID |
22870319 |
Project ID | 3010 |
|
View This Study - Citation No: 8434
|
Title | Spindle disturbances in human-hamster hybrid (A(L) ) cells induced by the electrical component of the mobile communication frequency range signal. |
Reference | Bioelectromagnetics., Vol. 32, Pg. 291 - 301, 2011 |
Author(s) | Schrader T., Kleine-Ostmann T., Munter K., Jastrow C., Schmid E. |
PubMed UID |
21452359 |
Project ID | 1867 |
|
View This Study - Citation No: 8506
|
Title | Enhancement of X-ray Induced Apoptosis by Mobile Phone-Like Radio-Frequency Electromagnetic Fields in Mouse Spermatocyte-Derived Cells. |
Reference | International journal of environmental research and public health., Vol. 14, Pg. 616 - , 2017 |
Author(s) | Zhang K-Y., Xu H., Du L., Xing J-L., Bai Q-S., et al. . |
PubMed UID |
28590418 |
Project ID | 3023 |
|
View This Study - Citation No: 8624
|
Title | Effects of Radiofrequency Radiation on Colorectal Cancer Cell Proliferation and Inflammation. |
Reference | Turkish Journal of Biochemistry.
, Vol. 46, Pg. 525 - 532, 2021 |
Author(s) | Ozgur E., Kayhan H., Kismali G., Senturk F., Sensoz M., et al. . |
PubMed UID |
https://doi.org/10.1515/tjb-2020-0148 |
Project ID | 2419 |
|
View This Study - Citation No: 8650
|
Title | 1,800 MHz Radiofrequency Electromagnetic Irradiation Impairs Neurite Outgrowth With a Decrease in Rap1-GTP in Primary Mouse Hippocampal Neurons and Neuro2a Cells. |
Reference | Front. Public Health.
, Vol. 9, Pg. 771508 - (13 pages), 2021 |
Author(s) | Li Y., Deng P., Chen C., Ma Q., Zhang L., et al. . |
PubMed UID |
doi: 10.3389/fpubh.2021.771508 |
Project ID | 2479 |
|
View This Study - Citation No: 8770
|
Title | A Systematic Method to Explore Radio-Frequency Non-Thermal Effect on the Growth of Saccharomyces Cerevisiae. |
Reference | IEEE J Electromagn RF Microw Med Biol., Vol. 6, Pg. 52 - 60, 2022 |
Author(s) | Ye D., Cutter G., Caldwell T. P., Harcum S. W., Wang P. |
PubMed UID |
doi: 10.1109/JERM.2021.3101408. |
Project ID | 3060 |
|
View This Study - Citation No: 8786
|
Title | The Effect of Exposure to Non-ionising Radiofrequency Field on Escherichia Coli, Klebsiella Oxytoca and Pseudomonas Aeruginosa Biofilms. |
Reference | Environ Technol., DOI: 10.1080/09593330.2022.2074317, Pg. 1 - 7, 2022 |
Author(s) | Bujnakova D., Bucko S., Ceskovic M., Kmet V., Karahutova L. |
PubMed UID |
35506486 |
Project ID | 3069 |
|
View This Study - Citation No: 8916
|
Title | Effects of Radiofrequency Radiation on Apoptotic and Antiapoptotic Factors in Colorectal Cancer Cells. |
Reference | Electromagn Biol Med.
, Vol. 41, Pg. 325 - 334, 2022 |
Author(s) | Gökcen S., Kurt B., Kucukbagr1ac1k Y., Ozgur-Buyukatalay E., Kismali G. |
PubMed UID |
https://doi.org/10.1080/15368378.2022.2095643 |
Project ID | 2419 |
|
View This Study - Citation No: 8981
|
Title | Evaluation of non-thermal effect of microwave radiation and its mode of action in bacterial cell inactivation. |
Reference | Sci Rep., Vol. 11, Pg. 14003 - , 2021 |
Author(s) | Shaw P., Kumar N., Mumtaz S., Bogaerts A., Choi E. H., et al. . |
PubMed UID |
34234197 |
Project ID | 3107 |
|
View This Study - Citation No: 8985
(Literature Review)
|
Title | The non-thermal biological effects and mechanisms of microwave exposure. |
Reference | Int. J. Radiat. Res., Vol. 19, Pg. 483 - 494, 2021 |
Author(s) | Zhao X., Dong G., Wang C. |
PubMed UID |
DOI: 10.29252/ijrr.19.2.483 |
Project ID | 2822 |
|
View This Study - Citation No: 8989
|
Title | A Comparative Study on the Viability of Normal
and Cancerous Cells upon Irradiation with a Steady Beam of THz Rays. |
Reference | Life., Vol. 12, Pg. 376 - , 2022 |
Author(s) | Kovalevska L., Golenkov O., Kulahina Y., Callender T., Sizov F., Kashuba E. |
PubMed UID |
doi.org/10.3390/life12030376 |
Project ID | 3109 |
|
View This Study - Citation No: 8993
|
Title | Microwave radiation induces neuronal autophagy through miR-30a-5p/AMPK(alpha)2 signal pathway. |
Reference | Biosci. Rep., Vol. 42, Pg. - , 2022 |
Author(s) | Hao Y., Li W., Wang H., Zhang J., Wang H., et al. . |
PubMed UID |
35322852 |
Project ID | 3111 |
|
View This Study - Citation No: 9031
|
Title | Effects of Radiofrequency Electromagnetic Fields Emitted from Mobile Phones and Wi-Fi Router on the Growth Rate and Susceptibility of Enterococcus Faecalis to Antibiotics. |
Reference | J Biomed Phys Eng., Vol. 12, Pg. 387 - 394, 2022 |
Author(s) | Mortazavi SM. J., Taheri M., Paknahad M., Khandadash S. |
PubMed UID |
36059281 |
Project ID | 2690 |
|