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  Literatur zu Elektromagnetischen Feldern 

 

Electromagnetic Pollution-Literature

 

1.       Adair-RK Biological effects on the cellular level of electric field pulses/Comment in: Health Phys 1993 Oct;65(4):437-9,  Health-Phys. 1991 Sep; 61(3): 395-9

 

2.       Akoev-IG; Kolomytkin-OV; Kuznetsov-VI [Effect of ultra-high frequency electromagnetic waves on a postsynaptic membrane model] Radiobiologiia. 1983 Sep-Oct; 23(5): 670-2

 

3.      Alekseev-SI; Tiazhelov-VV; Faizova-LKh; Chertishchev-VV [Effect of high-frequency electromagnetic field on tetraphenylborate transport through bilayer lipid membranes] Biofizika. 1982 Jan-Feb; 27(1): 162-3

 

4.  Anderson-LE: ELF: exposure levels, bioeffects, and epidemiology. Health-Phys. 1991 Jul; 61(1): 41-6

 

5.       Andre-J; Barthelemy-R; Lefeuvre-S; Priou-A; Morucci-JP Heating blood in extracorporal circulation with a high-frequency electromagnetic field: effect of microwaves on blood. Prog-Clin-Biol-Res. 1982; 107: 257-68

 

6.       Annino-G; Cassettari-M; Fittipaldi-M; Longo-I; Martinelli-M; Massa-CA; Pardi-LA High-field, multifrequency EPR spectroscopy using whispering gallery dielectric resonators. J-Magn-Reson. 2000 Mar; 143(1): 88-94

 

7.       Antonov-P; Pancheva-R; Naplatarova-M Membrane-related thermo-osmotic effect as measured by medium conductivity in isotonic cell suspensions. J-Biochem-Biophys-Methods. 1990 Nov-Dec; 21(4): 285-8

 

8.       Aoyama-Y; Ueda-Y; Kurita-M; Ohashi-H; Torigata-C; Maejima-K : Biological effects of exposure to high frequency electromagnetics on rabbits and guinea pigs, Jikken-Dobutsu. 1992 Oct; 41(4): 421-35

 

9.       Aoyama-Y; Ueda-Y; Kurita-M; Ohashi-H; Torigata-C; Maejima-K [Biological effects of exposure to high frequency electromagnetics on rabbits and guinea pigs]  Jikken-Dobutsu. 1992 Oct; 41(4): 421-35

 

10.     Arlinger-S; Elberling-C; Bak-C; Kofoed-B; Lebech-J; Saermark-K Cortical magnetic fields evoked by frequency glides of a continuous tone. Electroencephalogr-Clin-Neurophysiol. 1982 Dec; 54(6): 642-53

 

11.  Armstrong-BG; Deadman-JE; Theriault-G Comparison of indices of ambient exposure to 60-hertz electric and magnetic fields. Bioelectromagnetics. 1990; 11(4): 337-47

 

12.  Balanovski-E; Taylor-JG Can electromagnetism account for extra-sensory phenomena?, Nature. 1978 Nov 2; 276(5683): 64-7,

 

13.  Balanovski-E; Taylor-JG Can electromagnetism account for extra-sensory phenomena? Nature. 1978 Nov 2; 276(5683): 64-7

 

14.     Balutina-AP  [Experimental injury to the eye with an ultra-high frequency electromagnetic field] Biull-Eksp-Biol-Med. 1965 Dec; 60(12): 41-3

 

15.     Barker-AT Electricity, magnetism and the body: some uses and abuses. J-R-Soc-Health. 1994 Apr; 114(2): 91-7

 

16.     Barker-AT: An introduction to the basic principles of magnetic nerve stimulation. J-Clin-Neurophysiol. 1991 Jan; 8(1): 26-37

 

17.  Baumgartner-C; Sutherling-WW; Di-S; Barth-DS: Spatiotemporal modeling of cerebral evoked magnetic fields to median nerve stimulation. Electroencephalogr-Clin-Neurophysiol. 1991 Jul; 79(1): 27-35

 

18.     Becker-RO Electromagnetism and the revolution in medicine. Acupunct-Electrother-Res. 1987; 12(1): 75-9

 

19.     Becker-RO: Electromagnetism and the revolution in medicine, Acupunct-Electrother-Res. 1987; 12(1): 75-9 

 

20.     Behr-KP; Tiffe-HW; Hinz-KH; Luders-H; Friederichs-M; Ryll-M; Hundeshagen-H  [The effect of magnetic resonance treatment on chicken embryos] DTW-Dtsch-Tierarztl-Wochenschr. 1991 Apr; 98(4): 149-52

 

21.  Beliakov-VA; Arzumanian-ShO; Lifshits-IuI; Elkina-SI; Lebedeva-LV  [Disinfection of small volumes of feed and litter material for laboratory animals in vivaria] Zh-Mikrobiol-Epidemiol-Immunobiol. 1984 Feb(2): 52-5

 

22.  Belousova-TE; Kargina-Terent'eva-RA  [Adrenergic nerve plexuses of heart and adrenal and myocardial catecholamines of spontaneously hypertensive rats under the influence of electromagnetic irradiation in the millimeter range] Morfologiia. 1999; 115(1): 16-8

 

23.  Bernhardt-J The direct influence of electromagnetic fields on nerve- and muscle cells of man within the frequency range of 1 Hz to 30 MHz. Radiat-Environ-Biophys. 1979; 16(4): 309-23

 

24.  Bernhardt-JH The establishment of frequency dependent limits for electric and magnetic fields and evaluation of indirect effects. Radiat-Environ-Biophys. 1988; 27(1): 1-27

 

25.  Bernhardt-JH: [Nonionizing radiation and electromagnetic fields], Offentl-Gesundheitswes. 1991 Aug-Sep; 53(8-9): 409-14

26.  Bitushkina-SM  [Electric ultra-high frequency field in the combined treatment of thrombophlebitis] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1965 Jul-Aug; 30(4): 338-41

 

27.  Bogoliubova-VM; Utkin-SI  [The patterns of the changes in the indices of the immune and endocrine systems in elderly subjects under the transcerebral action of an ultra-high-frequency electrical field] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1990 Mar-Apr(2): 16-20

 

28.  Bogolyubov-VM; Karpukhin-IV; Bobkova-AS; Razuvayev-AV; Kozhinova-EV Dynamics of spermatogenesis, hormonal and immune response of patients suffering from chronic prostatitis and sterility under bitemporal treatment with an ultra-high frequency electric field. Int-Urol-Nephrol. 1986; 18(1): 89-97

 

29.  Bol'shakov-MA  [Effect of a high-frequency electromagnetic field on the isolated snail brain] Biofizika. 1985 Mar-Apr; 30(2): 354-6

 

30.     Borbely-AA; Huber-R; Graf-T; Fuchs-B; Gallmann-E; Achermann-P Pulsed high-frequency electromagnetic field affects human sleep and sleep electroencephalogram. Neurosci-Lett. 1999 Nov 19; 275(3): 207-10

 

31.     Borges-AR; Lufkin-RB; Huang-AY; Farahani-K; Arnold-AC Frequency-selective fat suppression MR imaging. Localized asymmetric failure of fat suppression mimicking orbital disease. J-Neuroophthalmol. 1997 Mar; 17(1): 12-7

 

32.     Borges-AR; Lufkin-RB; Huang-AY; Farahani-K; Arnold-AC: Frequency-selective fat suppression MR imaging. Localized asymmetric failure of fat suppression mimicking orbital disease J-Neuroophthalmol. 1997 Mar; 17(1): 12-7

 

33.  Bottomley-PA; Charles-HC; Roemer-PB; Flamig-D; Engeseth-H; Edelstein-WA; Mueller-OM Human in vivo phosphate metabolite imaging with 31P NMR. Magn-Reson-Med. 1988 Jul; 7(3): 319-36

 

34.     Boyd-BM; Prausnitz-JM; Blanch-HW High-frequency alternating-crossed-field gel electrophoresis with neutral or slightly charged interpenetrating networks to improve DNA separation. Electrophoresis. 1998 Dec; 19(18): 3137-48

 

35.     Bracken-TD: Experimental. macroscopic dosimetry for extremely-low-frequency electric and magnetic fields, Bioelectromagnetics. 1992; Suppl 1: 15-26

 

36.     Bragin-A; Engel-J Jr; Wilson-CL; Fried-I; Buzsaki-G High-frequency oscillations in human brain. Hippocampus. 1999; 9(2): 137-42

 

37.  Charpier-S; Behrends-JC; Chang-YT; Sur-C; Korn-H Synchronous bursting in a subset of interneurons inhibitory to the goldfish Mauthner cell: synaptic mediation and plasticity. J-Neurophysiol. 1994 Aug; 72(2): 531-41

 

38.  Chernoff-N; Rogers-JM; Kavet-R A review of the literature on potential reproductive and developmental toxicity of electric and magnetic fields, Toxicology. 1992 Sep; 74(2-3): 91-126

 

39.  Chizhenkova-RA  [Background and evoked activity of rabbit visual cortex neurons following the application of an ultra-high frequency field] Zh-Vyssh-Nerv-Deiat-Im-I-P-Pavlova. 1969 May-Jun; 19(3): 495-501

 

40.     Cohen-LG; Roth-BJ; Nilsson-J; Dang-N; Panizza-M; Bandinelli-S; Friauf-W; Hallett-M: Effects of coil design on delivery of focal magnetic stimulation. Technical considerations. Electroencephalogr-Clin-Neurophysiol. 1990 Apr; 75(4): 350-7

 

41.     Cook-MR; Graham-C; Cohen-HD; Gerkovich-MM: A replication study of human exposure to 60-Hz fields: effects on neurobehavioral measures, Bioelectromagnetics. 1992; 13(4): 261-85

 

42.  Danilenko-SR  [The efficacy in using an extremely high-frequency electromagnetic field in the combined treatment of chronic bronchitis patients] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1997 Nov-Dec(6): 16-8

43.  Danilenko-SR; Shatrov-AA; Gerasimovich-OI  [The efficacy of using an electromagnetic field of extremely high frequency (54-78 GHz) in treating patients with chronic nonspecific lung disease] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1995 Nov-Dec(6): 16-8

 

44.  Diusembaev-AA; Diusembaev-KA; Zhakupbaev-AA [Experience in the treatment of open fractures of shin bones by means of bitemporal ultra-high frequency electric field and transcerebral electrophoresis]  Ortop-Travmatol-Protez. 1991 Sep(9): 43-4

 

45.  Dumanskii-IuD; Nogachevskaia-SI  [Hygienic evaluation of the effect of high-frequency electromagnetic field on the immunologic reactivity of the body] Gig-Sanit. 1992 May-Jun(5-6): 34-7

 

46.  Dunscombe-PB; Fox-K; Ryder-S A proposal for the classification of field placement errors in radiotherapy. Med-Dosim. 1991 Mar; 16(1): 1-5

 

47.     Elberling-C; Bak-C; Kofoed-B; Lebech-J; Saermark-K Auditory magnetic fields: source location and 'tonotopical organization' in the right hemisphere of the human brain. Scand-Audiol. 1982; 11(1): 61-5

 

48.  Electromagnetism and bone [editorial] in Lancet. 1981 Apr 11; 1(8224): 815-6

 

49.  Electromagnetism and bone [editorial] Lancet. 1981 Apr 11; 1(8224): 815-6

 

50.  Electromagnetism and cancer [editorial]  Lancet. 1983 Jan 29; 1(8318): 224

 

51.  Electromagnetism and cancer [editorial]in Lancet. 1983 Jan 29; 1(8318): 224

 

52.     Elster-AD Sellar susceptibility artifacts: theory and implications. AJNR-Am-J-Neuroradiol. 1993 Jan-Feb; 14(1): 129-36

 

53.     Elster-AD: Sellar susceptibility artifacts: theory and implications, AJNR-Am-J-Neuroradiol. 1993 Jan-Feb; 14(1): 129-36 

 

54.  Engelhardt-H; Sackmann-E On the measurement of shear elastic moduli and viscosities of erythrocyte plasma membranes by transient deformation in high frequency electric fields. Biophys-J. 1988 Sep; 54(3): 495-508

 

55.  Ermankov-EV; Murashov-BF  [Etiology of neuroendocrine disturbances in the prolonged effects of an ultra-high frequency electromagnetic field] Sov-Med. 1970 Sep; 33(9): 138

 

56.     Erne-SN; Scheer-HJ; Hoke-M; Pantew-C; Lutkenhoner-B Brainstem auditory evoked magnetic fields in response to stimulation with brief tone pulses. Int-J-Neurosci. 1987 Dec; 37(3-4): 115-25

 

57.     Eulitz-C; Ullsperger-P; Freude-G; Elbert-T Mobile phones modulate response patterns of human brain activity. Neuroreport. 1998 Oct 5; 9(14): 3229-32

 

58.  Extremely low-frequency electric and magnetic fields and risk of human cancer. Ad Hoc Working Group. Bioelectromagnetics. 1990; 11(1): 91-9

 

59.     Ezzat-AA; Ibrahim-EM; Raja-MA; Al-Sobhi-S; Rostom-A; Stuart-RK Locally advanced breast cancer in Saudi Arabia: high frequency of stage III in a young population. Med-Oncol. 1999 Jul; 16(2): 95-103

 

60.  Faitel'berg-Blank-VR; Kosykh-VI  [Permeability of eye tissues under the effect of ultra-high-frequency electric field] Oftalmol-Zh. 1975; 30(4): 299-301

 

61.  Farndale-RW; Maroudas-A; Marsland-TP Effects of low-amplitude pulsed magnetic fields on cellular ion transport. Bioelectromagnetics. 1987; 8(2): 119-34

 

62.     Florig-HK; Hoburg-JF Power-frequency magnetic fields from electric blankets. Health-Phys. 1990 Apr; 58(4): 493-502

63.     Fuhr-G; Glaser-R; Hagedorn-R Rotation of dielectrics in a rotating electric high-frequency field. Model experiments and theoretical explanation of the rotation effect of living cells. Biophys-J. 1986 Feb; 49(2): 395-402

 

64.     Fuhr-G; Muller-T; Baukloh-V; Lucas-K High-frequency electric field trapping of individual human spermatozoa. Hum-Reprod. 1998 Jan; 13(1): 136-41

 

65.  Gamberale-F Physiological and psychological effects of exposure to extremely low-frequency electric and magnetic fields on humans. Scand-J-Work-Environ-Health. 1990; 16 Suppl 1: 51-4

 

66.     Garden-KL; Bones-PJ; Bates-RH From living being to medical image--bridging the dimensionality gap. Australas-Phys-Eng-Sci-Med. 1989 Dec; 12(4): 186-204

 

67.     Gass-GV; Chernomordik-LV; Margolis-LB Local deformation of human red blood cells in high frequency electric field. Biochim-Biophys-Acta. 1991 Jul 10; 1093(2-3): 162-7

 

68.     Gonda-T; Daniel-EE; Kostolanska-F; Oki-M; Fox-JE Neural control of canine colon motor function: studies in vitro. Can-J-Physiol-Pharmacol. 1988 Apr; 66(4): 359-68

 

69.     Gonda-T; Daniel-EE; Kostolanska-F; Oki-M; Fox-JE Neural control of canine colon motor function: studies in vivo. Can-J-Physiol-Pharmacol. 1988 Apr; 66(4): 350-8

 

70.  Gorbunov-FE; Vinnikov-AA; Strelkova-NI; Krupennikov-AI  [The use of pulsed and continuous UHF electrical fields in the rehabilitation of patients with the Guillain-Barre syndrome and other peripheral myelinopathies] Zh-Nevropatol-Psikhiatr-Im-S-S-Korsakova. 1995; 95(5): 22-6

 

71.     Gourret-JP Modelling the mitotic apparatus. From the discovery of the bipolar spindle to modern concepts. Acta-Biotheor. 1995 Jun; 43(1-2): 127-42

 

72.     Gourret-JP: Modelling the mitotic apparatus. From the discovery of the bipolar spindle to modern concepts, Acta-Biotheor. 1995 Jun; 43(1-2): 127-42

 

73.     Grace-KL; Revell-WJ; Brookes-M The effects of pulsed electromagnetism on fresh fracture healing: osteochondral repair in the rat femoral groove. Orthopedics. 1998 Mar; 21(3): 297-302

 

74.     Grace-KL; Revell-WJ; Brookes-M: The effects of pulsed electromagnetism on fresh fracture healing: osteochondral repair in the rat femoral groove, Orthopedics. 1998 Mar; 21(3): 297-302

 

75.     Gusarov-DV  [Effect of an ultra-high frequency field on the physical trainability of experimental animals] Voen-Med-Zh. 1971 Mar; 3: 61-6

 

76.  Hakkinen-AM; Blomqvist-K; Spring-E; Valtonen-E Simultaneous application of pulsed high frequency currents and gamma-rays to cultured melanoma cells. Strahlentherapie. 1975 Feb; 149(2): 205-7

 

77.  Hamalainen-MS; Sarvas-J Feasibility of the homogeneous head model in the interpretation of neuromagnetic fields. Phys-Med-Biol. 1987 Jan; 32(1): 91-7

 

78.     Han-L Interspecific hybridization of Streptomyces by electrofusion. Chin-J-Biotechnol. 1991; 7(4): 285-91

 

79.     Hari-R; Aittoniemi-K; Jarvinen-ML; Katila-T; Varpula-T Auditory evoked transient and sustained magnetic fields of the human brain. Localization of neural generators. Exp-Brain-Res. 1980; 40(2): 237-40

 

80.     Hart-FX: Electric fields induced in rat and human models by 60-Hz magnetic fields: comparison of calculated and measured value, Bioelectromagnetics. 1992; 13(4): 313-6 

 

81.     Hayashi-E; Maeda-T; Shinozuka-K Adenosine and dipyridamole: actions and interactions on the contractile response of guinea-pig ileum to high frequency electrical field stimulation. Br-J-Pharmacol. 1985 Mar; 84(3): 765-71

82.  Heppner-F The glioblastoma multiforme: a lifelong challenge to the neurosurgeon. Neurochirurgia-Stuttg. 1986 Jan; 29(1): 9-14

 

83.  Heppner-F; Schuy-S; Ascher-PW; Holzer-P; Wiesspeiner-G  [Local hyperthermia of malignant brain tumors] Wien-Klin-Wochenschr. 1987 May 29; 99(11): 393-7

 

84.     Heroux-P 60-Hz electric and magnetic fields generated by a distribution network. Bioelectromagnetics. 1987; 8(2): 135-48

 

85.  Houtkooper-JM; Schienle-A; Stark-R; Vaitl-D Geophysical variables and behavior: LXXXVIII. Atmospheric electromagnetism: the possible disturbing influence of natural sferics on ESP. Percept-Mot-Skills. 1999 Dec; 89(3 Pt 2): 1179-92

 

86.  Houtkooper-JM; Schienle-A; Stark-R; Vaitl-D: Geophysical variables and behavior: LXXXVIII. Atmospheric electromagnetism: the possible disturbing influence of natural sferics on ESP, Percept-Mot-Skills. 1999 Dec; 89(3 Pt 2): 1179-92

 

87.  Iakovleva-MI  [Efferent impulsation in postganglionic sympathetic fibers under the influence of an ultra-high frequency electromagnetic field] Biull-Eksp-Biol-Med. 1968 Sep; 66(9): 9-11

 

88.     Iatsenko-MI  [Effect of an ultra high frequency electromagnetic field (microwaves) on temperature and rate of blood flow in a joint] -Kurortol-Fizioter-Lech-Fiz-Kult. 1970 Sep-Oct; 35(5): 420-3

 

89.     Izrael-M  [Changes in arterial elasticity after high-frequency electromagnetic field irradiation] Probl-Khig. 1980; 5: 22-7

 

90.  Jacobson-JI A look at the possible mechanism and potential of magneto therapy. J-Theor-Biol. 1991 Mar 7; 149(1): 97-119

 

91.  Jacobson-JI Electromagnetism in medicine. Indian-J-Med-Sci. 1992 Nov; 46(11): 321-7

 

92.  Jacobson-JI Influence of electromagnetism on genes and associated structures. Isr-J-Med-Sci. 1994 Mar; 30(3): 245-8

 

93.  Jacobson-JI Influence of electromagnetism on genomic and associated structures [editorial] Recenti-Prog-Med. 1995 Sep; 86(9): 355-8

 

94.  Jacobson-JI Influence of electromagnetism on genomic and other biological structures. J-Indian-Med-Assoc. 1997 Jul; 95(7): 429-33

 

95.  Jacobson-JI On the electro-magnetic nature of life. Panminerva-Med. 1989 Oct-Dec; 31(4): 151-65

 

96.  Jacobson-JI Speculations on the influence of electromagnetism on genomic and associated structures. J-Int-Med-Res. 1996 Jan-Feb; 24(1): 1-11

 

97.  Jacobson-JI The influence of electromagnetism on genes. Chin-Med-Sci-J. 1993 Mar; 8(1): 44-7

 

98.  Jacobson-JI The intrinsic electro-gravitational mechanism of life, the basis of neoplasia, and the clinical method of repair. Panminerva-Med. 1990 Oct-Dec; 32(4): 159-71

 

99.  Jacobson-JI, Influence of electromagnetism on genes and associated structures, Isr-J-Med-Sci. 1994 Mar; 30(3): 245-8

 

100.  Jacobson-JI: A look at the possible mechanism and potential of magneto therapy, J-Theor-Biol. 1991 Mar 7; 149(1): 97-119

 

101.  Jacobson-JI: Electromagnetism in medicine, Indian-J-Med-Sci. 1992 Nov; 46(11): 321-7

 

102.  Jacobson-JI: Influence of electromagnetism on genomic and associated structures [editorial], Recenti-Prog-Med. 1995 Sep; 86(9): 355-8

 

103.  Jacobson-JI: Influence of electromagnetism on genomic and other biological structures, J-Indian-Med-Assoc. 1997 Jul; 95(7): 429-33 

 

104.  Jacobson-JI: On the electro-magnetic nature of life, Panminerva-Med. 1989 Oct-Dec; 31(4): 151-65 

 

105.  Jacobson-JI: Speculations on the influence of electromagnetism on genomic and associated structures, J-Int-Med-Res. 1996 Jan-Feb; 24(1): 1-11

 

106.  Jacobson-JI: The influence of electromagnetism on genes, Chin-Med-Sci-J. 1993 Mar; 8(1): 44-7

 

107.   Joy-M; Scott-G; Henkelman-M In vivo detection of applied electric currents by magnetic resonance imaging. Magn-Reson-Imaging. 1989 Jan-Feb; 7(1): 89-94

 

108.   Kavet-R; Tell-RA: VDTs: field levels, epidemiology, and laboratory studies. Health-Phys. 1991 Jul; 61(1): 47-57

 

109.   Kavet-RI; Banks-RS Emerging issues in extremely-low-frequency electric and magnetic field health research. Environ-Res. 1986 Apr; 39(2): 386-404

 

110.   Kay-CW; Feicht-R; Schulz-K; Sadewater-P; Sancar-A; Bacher-A; Mobius-K; Richter-G; Weber-S EPR, ENDOR, and TRIPLE resonance spectroscopy on the neutral flavin radical in Escherichia coli DNA photolyase. Biochemistry. 1999 Dec 21; 38(51): 16740-8

 

111.   Kishi-R; Miyake-H [Association between parental occupational exposure and childhood malignancy. A review of epidemiological studies]  Sangyo-Igaku. 1989 May; 31(3): 121-35

 

112.   Kishi-R; Miyake-H: Association between parental occupational exposure and childhood malignancy. A review of epidemiological studies, Sangyo-Igaku. 1989 May; 31(3): 121-35 

 

113.  Kobayashi-T; Kida-Y Interstitial hyperthermia of malignant brain tumors by an implant heating system using stereotactic techniques. Stereotact-Funct-Neurosurg. 1992; 59(1-4): 123-7

 

114.  Kobayashi-T; Kida-Y; Matsui-M; Amemiya-Y  [Interstitial hyperthermia of malignant brain tumors using implant heating system (IHS)] No-Shinkei-Geka. 1990 Mar; 18(3): 247-52

 

115.   Koci-M; Kral-V  [Use of a high-frequency electromagnetic field for the evaluation of heart activity] Cesk-Fysiol. 1975; 24(4): 315-8

 

116.  Komarova-LA  [Changes in arterial pressure and external respiration of animals when subjected to an ultra-high frequency electromagnetic field (microwave)] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1968 Nov-Dec; 33(6): 503-6

 

117.  Komissarova-IV  [Effect of ultra-high frequency electromagnetic field in continuous and pulse regimens on the indicators of serotonin metabolism in patients with ulcer disease] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1975 Mar-Apr(2): 170-4

 

118.  Korepanov-AM  [Level of pancreatic enzymes in the blood of patients with some digestive system diseases and their change in relation to use of an ultra-high-frequency electrical field] Ter-Arkh. 1971 Jul; 43(6): 45-8

 

119.   Kozlov-MM; Kuzmin-PI; Popov-SV Formation of cell protrusions by an electric field: a thermodynamic analysis. Eur-Biophys-J. 1992; 21(1): 35-45

 

120.   Kramer-I; Vienken-K; Vienken-J; Zimmermann-U Magneto-electro-fusion of human erythrocytes. Biochim-Biophys-Acta. 1984 May 30; 772(3): 407-10

121.   Kromov-AV; Kal'kaev-MZ; Mastriukov-VA; Obrosov-AN; Pitsevich-GB  [Mechanism of the therapeutic effect of pulsating ultra-high frequency electric field in lumbosacral radiculitis] Vopr-Kurortol-Fizioter-Lech-Fiz-Kult. 1969 Nov-Dec; 34(6): 488-92

 

122.   Lakes-RS; Saha-S A noncontacting electromagnetic device for the determination of in vivo properties of bone. Med-Instrum. 1978 Mar-Apr; 12(2): 106-9

 

123.   Lang-L; Sjoberg-E; Skoglund-CR Conductance recording of ionic outflow from frog skin glands during nerve stimulation. Acta-Physiol-Scand. 1975 Jan; 93(1): 67-76

 

124.   Lang-W; Cheyne-D; Kristeva-R; Beisteiner-R; Lindinger-G; Deecke-L: Three-dimensional localization of SMA activity preceding voluntary movement. A study of electric and magnetic fields in a patient with infarction of the right supplementary motor area. Exp-Brain-Res. 1991; 87(3): 688-95

 

125.   Leflon-P; Plaquet-R Rapid determination of iron in urine, in the presence of deferoxamine, by inductively coupled plasma emission spectrometry. Clin-Chem. 1986 Mar; 32(3): 521-2

 

126.   Levin-RM; Das-AK; Haugaard-N; Novitsky-Y; Horan-P; Leggett-RE; Riffaud-JP; Longhurst-PA Beneficial effects of Tadenan therapy after two weeks of partial obstruction in the rabbit. Neurourol-Urodyn. 1997; 16(6): 583-99

 

127.   List-AF; Doll-DC; Greco-FA Lung cancer in Hodgkin's disease: association with previous radiotherapy J-Clin-Oncol. 1985 Feb; 3(2): 215-21.

 

128.   Lopez-L; Chan-CY; Okada-YC; Nicholson-C: Multimodal characterization of population responses evoked by applied electric field in vitro: extracellular potential, magnetic evoked field, transmembrane potential, and current-source density analysis. J-Neurosci. 1991 Jul; 11(7): 1998-2010

 

129.   Lucker-PW; Venitz-J; Adolph-S; Hey-B Measurement of the effect of cardiovascular drugs by impedance cardiography in healthy subjects. Methods-Find-Exp-Clin-Pharmacol. 1986 Jul; 8(7): 443-8

 

130.  MacMillan-F; Hanley-J; van-der-Weerd-L; Knupling-M; Un-S; Rutherford-AW Orientation of the phylloquinone electron acceptor anion radical in photosystem I. Biochemistry. 1997 Aug 5; 36(31): 9297-303

 

131.   Mager-A  [Magnetic shielded room to measure very low magnetic and electric fields] Naturwissen-schaften. 1982 Aug; 69(8): 383-8

 

132.   Makela-JP Contra- and ipsilateral auditory stimuli produce different activation patterns at the human auditory cortex. A neuromagnetic study. Pflugers-Arch. 1988 Jul; 412(1-2): 12-6

 

133.   Makela-JP; Hari-R; Linnankivi-A Different analysis of frequency and amplitude modulations of a continuous tone in the human auditory cortex: a neuromagnetic study. Hear-Res. 1987; 27(3): 257-64

 

134.  Malmstrom-RE; Lundberg-JM Neuropeptide Y accounts for sympathetic vasoconstriction in guinea-pig vena cava: evidence using BIBP 3226 and 3435. Eur-J-Pharmacol. 1995 Dec 29; 294(2-3): 661-8

 

135.   Manaka-H; Manaka-Y; Kostolanska-F; Fox-JE; Daniel-EE Release of VIP and substance P from isolated perfused canine ileum. Am-J-Physiol. 1989 Aug; 257(2 Pt 1): G182-90

 

136.   Maske-R; Orlandi-B; Dowdle-EB Conractile responses of guinea-pig ileum to high-frequency electrical field stimulation. Eur-J-Pharmacol. 1980 Oct 3; 67(1): 47-52

 

137.  Masubuchi-Y; Oana-H; Matsumoto-M; Doi-M; Yoshikawa-K Conformational dynamics of DNA during biased sinusoidal field gel electrophoresis. Electrophoresis. 1996 Jun; 17(6): 1065-74 

 

138.  McClellan-AD A differential displacement transducer for measuring relative movement in biological systems. J-Neurosci-Methods. 1982 May; 5(4): 309-16

 

139.  McRobbie-D; Foster-MA Thresholds for biological effects of time-varying magnetic fields. Clin-Phys-Physiol-Meas. 1984 May; 5(2): 67-78

 

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Dr. rer. nat. Ulrich Warnke, Stand März 2001

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