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Literature DB >> 3714975

Effects of 100-Hz magnetic fields with various waveforms on the development of chick embryos.

J Juutilainen, M Harri, K Saali, T Lahtinen.

Abstract

Chick embryos were exposed during their 52 first hours of development to 100-Hz magnetic fields. Sinusoidal, square and pulsed waveforms were used at average field strengths from 0.1 A/m to 80 A/m. After exposure, the embryos were examined for abnormalities and classified by the developmental stages. When bipolar oscillations (oscillating at both sides of the zero-level) were used, the percentage of abnormal embryos was significantly increased above 1 A/m. In exposure to unipolar square waves, no significant effect on the percentage of abnormalities could be demonstrated. The developmental stage was possibly affected by unipolar square waves at 0.1 A/m, all other field strengths and waveforms being apparently ineffective.

Entities: Disease Species

Mesh：

Year: 1986 PMID： 3714975 DOI： 10.1007/bf01209686

Source DB: PubMed Journal: Radiat Environ Biophys ISSN： 0301-634X Impact factor: 1.925

22 in total

1. Biological effects of magnetic fields: studies with microorganisms.

Authors: R L Moore
Journal: Can J Microbiol Date: 1979-10 Impact factor: 2.419

2. Thirty-eight blood, tissue and consumptive measures from rats exposed perinatally and as adults to 0.5 Hz magnetic fields.

Authors: M A Persinger; N C Carrey; G F Lafrenière; A Mazzuchin
Journal: Int J Biometeorol Date: 1978-09 Impact factor: 3.787

3. A series of normal stages in the development of the chick embryo.

Authors: V HAMBURGER; H L HAMILTON
Journal: J Morphol Date: 1951-01 Impact factor: 1.804

Review 4. The role of the surface electrical transmembrane potential in normal and malignant mitogenesis.

Authors: C D Cone
Journal: Ann N Y Acad Sci Date: 1974 Impact factor: 5.691

5. Strong electrical currents leave the primitive streak of chick embryos.

Authors: L F Jaffe; C D Stern
Journal: Science Date: 1979-11-02 Impact factor: 47.728

6. Pulse shape of magnetic fields influences chick embryogenesis.

Authors: A Ubeda; J Leal; M A Trillo; M A Jimenez; J M Delgado
Journal: J Anat Date: 1983-10 Impact factor: 2.610

7. Cytofluorometry of electromagnetically controlled cell dedifferentiation.

Authors: A Chiabrera; M Hinsenkamp; A A Pilla; J Ryaby; D Ponta; A Belmont; F Beltrame; M Grattarola; C Nicolini
Journal: J Histochem Cytochem Date: 1979-01 Impact factor: 2.479

8. Time-varying magnetic fields: effect on DNA synthesis.

Authors: A R Liboff; T Williams; D M Strong; R Wistar
Journal: Science Date: 1984-02-24 Impact factor: 47.728

9. A theoretical basis for self-electrophoresis.

Authors: R Larter; P Ortoleva
Journal: J Theor Biol Date: 1981-02-21 Impact factor: 2.691

10. Magnetic field effects on mitotic cycle length in Physarum.

Authors: B Greenebaum; E M Goodman; M T Marron
Journal: Eur J Cell Biol Date: 1982-06 Impact factor: 4.492

5 in total

1. Epilepsy and electromagnetic fields: effects of simulated atmospherics and 100-Hz magnetic fields on audiogenic seizure in rats.

Authors: J Juutilainen; E Björk; K Saali
Journal: Int J Biometeorol Date: 1988-04 Impact factor: 3.787

5. Biological effects of power frequency magnetic fields: Neurochemical and toxicological changes in developing chick embryos.

Authors: P Rajendra; HN Sujatha; D Devendranath; B Gunasekaran; RB Sashidhar; C Subramanyam
Journal: Biomagn Res Technol Date: 2004-01-31