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Long-term biological effects of air ions and D.C. electric fields on Namru mice: First year report (1985)

Kellogg, E. W. ; Yost, M. G. ; Reed, E. J. ; [et al.]

Springer

International journal of biometeorology 29 (1985), S. 253-268

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ISSN: 1432-1254

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract This report describes for the first time the effects of long-term continuous exposures of animals to small air ions and D.C. electric fields. In this study we exposed 200 female NAMRU mice (25/cage) to the following conditions: ± high ions (2×105/cm3), ± low ions (2×103/cm3), ± field only and ground (ion depleted, no field). Specially designed cages provided a defined D.C. field of about 2 kV/meter in ionized environments, with somewhat lower values in the field only cages. Detailed mapping of ion flux originating from a tritium foil generating system (multiple sources in an overhead plate) indicated a well defined, but heterogenous pattern with eight peak areas. Using a 100 cm2 probe, ion flux values ranged from 10−12–10−14 A/cm2, with an average flux of 8.7±6.8×10−13 A/cm2 in high negative ion cages, with good reproducibility between cages. Measurements of serum glucose, cholesterol, and urea nitrogen (samples taken every three months) showed a number of small but consistent and statistically significant differences between animals maintained in different environments during the first year of exposure. Serum globulin and whole blood serotonin, however, did not show any significant environmental effects. Interestingly, pairwise comparisons between high negative and low negative ion conditions, or between high positive and low positive ion conditions, or between the two ground conditions, revealed no significant differences between cages. This argues for a similarity of environmental responses for the mice maintained in each of the compared conditions. The results of a multiple classification analysis for the entire first year showed a preponderence of effects for the ionized cages, although other conditions also had highly significant differences as compared to the grand mean value. While this study has shown effects of only small magnitude (compared to normal physiological variations) in the female NAMRU mice studied here, the significance of these results strongly validates the precept of long-term air ion effects in animals. Given the known variability of different species and strains, future studies will have to determine the actual range of responsiveness of animals exposed on a long-term basis to defined air ion and electromagnetic environments.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02189657

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Design and construction of cage environments for air ion and electric field research (1987)

Yost, M. G. ; Kellogg, E. W.

Springer

International journal of biometeorology 31 (1987), S. 109-125

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ISSN: 1432-1254

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract This report describes the design and construction of cage environments suitable for chronic exposures of large groups of mice to air ions and electric fields. These environments provide defined and reproducible ion densities, ion flux, DC electric fields, sound levels, air temperature and air quality. When used during a 2 year study, these cage environments served as a durable and reliable continuous exposure system. Three environmental chambers (cubicles) housed a total of 12 cages and provided control of air temperature, air purity and lighting. Exposure cages had grounded metal exterior walls, a plexiglass door and interior walls lined with formica. An internal isolated field plate supplemented with guard wires, energized with ca 1000 VDC, created about a 2 kV/m electric field at the grounded cage floor. Air ions resulted from the beta emission of sealed tritium foils mounted on the field plate. Cages provided high ion (1.3×105 ions/cc), low ion (1.6×103 ions/cc) and field only (ion depleted 〈 50 ions/cc) conditions for both polarities with similar electric fields in ionized and field only cages. Detailed mapping of the floor level ion flux using 100 cm2 flat probes gave average fluxes of 880 fA cm−2 in high ion cages and 10 fA cm−2 in low ion cages. Whole body currents measured using live anesthethized mice in high ion cages averaged 104±63 pA. Both ion flux and whole body currents remained constant over time, indicating no charge accumulation on body fur or cage wall surfaces in this exposure system.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02202930

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Long-term biological effects of air ions and D.C. electric fields on Namru mice: Second year report (1985)

Kellogg, E. W. ; Yost, M. G. ; Reed, E. J. ; [et al.]

Springer

International journal of biometeorology 29 (1985), S. 269-283

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ISSN: 1432-1254

Source: Springer Online Journal Archives 1860-2000

Topics: Geography , Physics

Notes: Abstract This report describes the second year of long-term continuous exposures of female NAMRU mice to small air ions and D.C. electric fields in the following conditions: ± high ions ((2×105/cm3), ± low ions (2×103/cm3), ± field (2 kV/m) only and ground (ion depleted, no field). Using an isolated anesthesized mouse, whole body ion flux values averaged 1.04±0.63×10−10 A in high ion cages for different positions on the cage floor, with about a hundred-fold reduction for low ion cages. During the second year (sample periods 5–8) of exposure serum chemistry variability increased, due to increased pathology and decreased numbers of animals as our experimental population died off. The fifth sample period yielded results consistent with those seen earlier, but later sample periods had many fewer significant differences between cages than did those of the first year. Nevertheless, MCA statistics for serum glucose for the second year found a pattern remarkably similar to the first, with the low ion cages (LN and LP) having the lowest levels. MCA statistics for both years emphasized this possible “window” effect of low level ionized conditions. Also, a comparison between the combined values for ionized (HN, LN, HP and LP) and ion depleted cages (NF, PF, G1 and G2) showed a highly significant difference (p〈10−6) for serum glucose for both years of exposure, with lower glucose values seen for animals in the ionized cages overall. Animals of all conditions also showed a highly significant decrease in serum glucose with age. Comparison of mice in ionized cages vs. the non-ionized cages also resulted in a significant difference (p〈.013) for survival characteristics between groups, with ion exposed animals having a shorter lifespan. These statistics argue strongly for significant effects of long-term exposure of NAMRU mice to the ionized environment.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF02189658

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