Growth variations in OF1 mice following chronic exposure of parental and filial generations to a 15 μT, 50 Hz magnetic field

References

• Al-Akras M. A., Darmani H., Elbetieha A.. 2006. Influence of 50 Hz magnetic field on sex hormones and other fertility parameters of adult male rats. Bioelectromagnetics. 27:127–131.
   PubMed Web of Science ®Google Scholar
• Aksen F., Akdag M. Z., Ketani A., Yokus B., Kaya A., Dasdag S.. 2006. Effect of 50-Hz 1-mT magnetic field on the uterus and ovaries of rats (Electron microscopy evaluation). Med. Sci. Monit.. 12:BR2. 15–BR2. 20.
   Google Scholar
• Auger N., Park A. L., Yacouba S., . Stillbirth and residential proximity to extremely low frequency power transmission lines: a retrospective cohort study. Occup. Environ. Med. (Epub ahead of print). 2011.
   Google Scholar
• Babbitt J. T., Kharazi A. L., Taylor J. M. G., . 2001. Increased body weight in C57BL/6 femalie mice after exposure to ionizing radiation or 60 Hz magnetic fields. Int. J. Rad. Biol.. 77:875–882.
   PubMed Web of Science ®Google Scholar
• Bellossi A.. 1992. Effect of a pulsed magnetic field on AKR female mice offspring. Panminerva Med.. 34:40–44.
   PubMed Web of Science ®Google Scholar
• Bellossi A., Rocher C., Ruelloux M.. 1996. Exposure of mice to pulsed magnetic fields: long-term observations. In Vivo. 10:357–360.
   PubMed Web of Science ®Google Scholar
• Berman E., Chacon L., House D., . 1990. Developmen of chicken embryos in a pulsed magnetic field. Bioelectromagnetics. 11:169–187.
   PubMed Web of Science ®Google Scholar
• Biondini P. E., Sutherland T. M., Haverland L. H.. 1968. Body composition of mice selected for rapid growth rate. J. Anim. Sci.. 27:5–12.
   PubMed Web of Science ®Google Scholar
• Boorman G. A., Gauger J. R., Johnson T. R., . 1997. Eight-week toxicity study of 60 Hz magnetic fields in F344 rats and B6C3F1 mice. Fundamen. Appl. Toxicol.. 35:55–63.
   PubMedGoogle Scholar
• Bross R., Storer T., Bhasin S.. 1999. Aging and muscle loss. Trends Endocrinol. Metab.. 10:194–198.
   PubMed Web of Science ®Google Scholar
• Caceci M. S., Cacheris W. P.. 1984. Fitting curves to data. The simplex algorithm is the answer. Byte. 9:340–362.
   Google Scholar
• Cameron H., Hunter K. E., Winyers W. D.. 1985. Retardation of embryogenesis by extremely low frequency 60 Hz electromagnetic fields. Physiol. Chem. Phys. Med. NME. 17:135–138.
   PubMed Web of Science ®Google Scholar
• Cañedo L., García Cantú R., Hernández R. J.. 2003. Magnetic field exposure during gestation: Pineal and cerebral cortex serotonin in the rat. J. Magnet. Resonance Imag. 12:263–266.
   Google Scholar
• Chung M. K., Kim J. C., Myung S. H.. 2004. Lack of adverse effects in pregnant/lactating female rats and their offspring following pre- and postnatal exposure to ELF magnetic fields. Bioelectromagnetics. 25:236–244.
   PubMed Web of Science ®Google Scholar
• Dasdag S., Akdag M. Z., Ayyildiz O., Demirtas O. C., Yayla M., Sert C.. 2000. Do cellular phones alter blood parameters and the birth weight of rats?. Electro. Magnetobiology. 19:107–113.
   Google Scholar
• Delgado J. M. R., Leal J., Monteagudo J. L., . 1982. Embryological changes induced by weak, extremely low frequency electromagnetic fields. J. Anat.. 134:533–551.
   PubMed Web of Science ®Google Scholar
• Elbetieha A., Al-Akhras M. A., Darmani H.. 2002. Long-term exposure of male and female mice to 50 Hz magnetic field: effects on fertility. Bioelectromagnetics. 23:168–172.
   PubMed Web of Science ®Google Scholar
• Frölén H., Svedenstål B. M., Paulsson L. E.. 1993. Effects of pulsed magnetic fields on the developing mouse embryo. Bioelectromagnetics. 14:197–204.
   PubMed Web of Science ®Google Scholar
• Gall G. A. E., Kyle W. H.. 1968. Growth of the laboratory mouse. Theoret. Appl. Genet.. 38:304–308.
   PubMedGoogle Scholar
• Graham J. H., Fletcher D., Tigue J., . 2000. Growth and developmental stability of Drosophila melanogaster in low frequency magnetic fields. Bioelectromagnetics. 21:465–472.
   PubMed Web of Science ®Google Scholar
• Hernández J. M., Vallejo D., Hidalgo M. A.. 2005. An analysis of postnatal growth in OF1 mice within an interval of 1-220 days of age. Growth, Dev. Aging. 69:13–30.
   PubMedGoogle Scholar
• Huuskonen H., Juutilainen J., Komulainen H.. 1993. Effects of low–frequency magnetic fields on fetal development in rats. Bioelectromagnetics. 14:205–213.
   PubMed Web of Science ®Google Scholar
• Huuskonen H., Juutilainen J., Julkunen A., . Effects of gestational exposure to a video display terminal-like magnetic field (20-kHz) on CBA/S mice. Teratology. 1998a; 58:190–196.
   PubMedGoogle Scholar
• Huuskonen H., Juutilainen J., Julkunen A., . Effects of low-frequency magnetic fields on fetal development in CBA/Ca mice. Bioelectromagnetics. 1998b; 19:477–485.
   PubMed Web of Science ®Google Scholar
• Juutilainen J.. 1986. Effects of low frequency magnetic fields on chick embryos: Dependence on incubation temperature and storage of the eggs. Z Naturforsch. 41c:1111–1115.
   Google Scholar
• Juutilainen J., Saali K.. 1986. Development of chick embryos in 1 Hz to 100 kHz magnetic fields. Radiat. Environ. Biophys.. 25:135–140.
   PubMed Web of Science ®Google Scholar
• Juutilainen J., Harri M., Saali K., . 1986. Effects of 100-Hz magnetic fields with various wavefroms on the developmentof chick embryos. Radiat. Environ. Biophys.. 25:65–74.
   PubMed Web of Science ®Google Scholar
• Juutilainen J., Läärä E., Saali K.. 1987. Relationchip beween field strength and abnormal development in chick embryos exposed to 50 Hz magnetic fields. Int. J. Radiat. Biol.. 52:787–793.
   Web of Science ®Google Scholar
• Juutilainen J.. 2003. Developmental effects of extremely low frequency electric and magnetic fields. Rad. Protect. Dosim.. 106:385–390.
   PubMed Web of Science ®Google Scholar
• Juutilainen J.. 2005. Developmental effects of electromagnetic fields. Bioelectromagnetics Suppl.. 7:S107–S115.
   PubMed Web of Science ®Google Scholar
• Klingenberg C. P.. 1998. Heterocrony and allometry: the analysis of evolutionary change in ontogeny. Biol. Rev.. 73:79–123.
   PubMed Web of Science ®Google Scholar
• Kováč V.. 2002. Synchrony and heterochrony in ontogeny (of fish). J. Theor. Biol.. 217:499–507.
   PubMed Web of Science ®Google Scholar
• Kowalczuk C. I., Robbins L., Thomas J. M., . 1994. Effects of prenatal exposure to 50 Hz magnetic fields on development in mice: I: Implantation rate and fetal development. Bioelectromagnetics. 15:349–361.
   PubMed Web of Science ®Google Scholar
• Maffeo S., Miller M. W., Carstensen E. L.. 1984. Lack of effect of weak low frequency electromagnetic fields on chick embryogenesis. J. Anal.. 139:613–618.
   Google Scholar
• Milani S.. 2000. Kinetic models for normal and impaired growth. Ann. Hum. Biol.. 27:1–18.
   PubMed Web of Science ®Google Scholar
• Picazo M. L., Sanz P., Vallejo D., . Effects of ELF magnetic fields on haematological parameters: an experimental model. Electro- Magnetobiol.. 1995a; 14:75–89.
   Web of Science ®Google Scholar
• Picazo M. L., De-Miguel M. P., Leyton V., . Long-term effects of ELF magnetic fields on the mouse testis and serum testosterone levels. Electro- Magnetobiol.. 1995b; 14:127–134.
   Web of Science ®Google Scholar
• Picazo M. L., De-Miguel M. P., Royuela M., . 1996. ELF magnetic fields and protein changes in mouse skeletal muscle. Electro- Magnetobiol.. 15:197–207.
   Google Scholar
• Pitts G. C.. 1986. Cellular aspects of growth and catch-up growth in the rat: a reevaluation. Growth. 50:419–436.
   PubMedGoogle Scholar
• Ryan B. M., Mallet E.Jr., Johnson T. R., . 1996. Developmental toxicity study of 60 Hz (power frequency) magnetic fields in rats. Teratology. 54:73–74.
   PubMedGoogle Scholar
• Ryan B. M., Symanski R. R., Pomeranz L. E., . 1999. Multigeneration reproductive toxicity assessment of 60-Hz magnetic fields using a continuous breeding protocol in rats. Teratology. 59:156–162.
   PubMedGoogle Scholar
• Ryan B. M., Pollen M., Gauger J. R., . 2000. Evaluation of the developmental toxicity of 60 Hz magnetic fields and harmonic frequencies in Sprague-Dawley rats. Radiat. Res.. 153:637–641.
   PubMed Web of Science ®Google Scholar
• Rivas L., Rius C., Tello I., . 1985. Effects of chronic exposure to weak electromagnetic fields in mice. IRCS Med. Sci.. 13:661–662.
   Google Scholar
• Sienkiewicz Z. J., Robbins L., Haylock R. G. E., . 1994. Effects of prenatal exposure to 50 Hz magnetic fields on development in mice: II. Postnatal development and behavior. Bioelectromagnetics. 15:363–375.
   PubMed Web of Science ®Google Scholar
• Sinclair D., Dangerfield P.. 1998. Human Growth after Birth. New York: Oxford University Press Inc.1–23.
   Google Scholar
• Skauli K. S., Reitan J. B., Walther B. T.. 2000. Hatching in zebrafish (Danio rerio) embryos exposed to a 50 Hz magnetic field. Bioelectromagnetics. 21:407–410.
   PubMed Web of Science ®Google Scholar
• Stewart S. A., German R. Z.. 1999. Sexual dimorphism and ontogenetic allometry of soft tissues in Rattus norvegicus. J. Morphol.. 242:57–66.
   PubMed Web of Science ®Google Scholar
• Svedentål B.-M., Johanson K.-J.. 1995. Fetal loss in mice exposed to magnetic fields during early pregnancy. Bioelectromagnetics. 16:284–289.
   PubMed Web of Science ®Google Scholar
• Timon V. M., Eisen E. J., Leatherwood J. M.. 1970. Comparisons of ad libitum and restricted feeding of mice selected and unselected for postweaning gain II. Carcass composition and energetic efficiency. Genetics. 65:145–155.
   PubMed Web of Science ®Google Scholar
• Vallejo D., Sanz P., Picazo M. L.. 2001. A hematological study in mice for evaluation of leukemogenesis by extremely low frequency magnetic fields. Electro- Magnetobiol.. 20:281–298.
   Web of Science ®Google Scholar
• Vallejo D., Torre M., Sanz P., . 2003. Effects of extremely low frequency magnetic fields on blood coagulation in mice: an initial study. Electromagn. Biol. Med.. 22:133–147.
   Web of Science ®Google Scholar
• Winick N., Noble A.. 1965. Quantitative changes in DNA, RNA, and protein during prenatal and postnatal growth in the rat. Develop. Biol.. 12:451–466.
   PubMed Web of Science ®Google Scholar
• Winick N., Noble A.. 1966. Cellular response in rats during malnutrition at various ages. J. Nutr.. 89:300–306.
   PubMed Web of Science ®Google Scholar
• Wolpert L., Beddington R., Brockes J., . 1998. Growth and post-embryonic developmentPrinciples of development. Oxford: Oxford University Press417–441.
   Google Scholar
• Zimmerman S., Zimmerman A. M., Winters W. D., . 1990. Influence of 60-Hz magnetic fields on sea urchin development. Bioelectromagnetics. 11:37–45.
   PubMed Web of Science ®Google Scholar