Acridine orange staining method to reveal the characteristic features of an intravascular threadlike structure.

A threadlike structure in blood vessels that is considered part of the Bohghan duct system was first reported about 40 years ago. This structure has remained elusive since then due to the inability of other researchers to duplicate the original identification. In this study we identified the characteristic features of this threadlike structure in rats by the use of fluorescent microscope imaging of nuclei stained by acridine orange perfusion. The nuclei of the tissue that comprises the structure are rod-shaped, 10-20 microm long, and aligned in a broken-line striped fashion. The novel technique reported here can differentiate the intravascular threadlike structure from the fibrin strings that normally form during perfusion and can confound the observation procedure. The physiological function of the threadlike structure remains to be elucidated; however, further study may provide a new understanding of mammalian biology in general, and of acupuncture and Oriental medicine in particular.

Effects of extremely low frequency magnetic field on the antioxidant defense system in mouse brain: a chemiluminescence study.

Among the putative mechanisms, by which extremely low frequency (ELF) magnetic field (MF) may affect biological systems is that of increasing free radical life span in organisms. To test this hypothesis, we investigated whether ELF (60 Hz) MF can modulate antioxidant system in mouse brain by detecting chemiluminescence and measuring superoxide dismutase (SOD) activity in homogenates of the organ. Compared to sham exposed control group, lucigenin-initiated chemiluminescence in exposed group was not significantly increased. However, lucigenin-amplified t-butyl hydroperoxide (TBHP)-initiated brain homogenates chemiluminescence, was significantly increased in mouse exposed to 60 Hz, MF, 12 G for 3 h compared to sham exposed group. We also measured SOD activity, that plays a critical role of the antioxidant defensive system in brain. In the group exposed to 60 Hz, MF, 12 G for 3 h, brain SOD activity was significantly increased. These results suggest that 60 Hz, MF could deteriorate antioxidant defensive system by reactive oxygen species (ROS), other than superoxide radicals. Further studies are needed to identify the kind of ROS generated by the exposure to 60 Hz, MF and elucidate how MF can affect biological system in connection with oxidative stress.