2D plasmon excitation and nonthermal effects of microwaves on biological membranes

Previous studies have indicated that laser can selectively affect the biological functions of cells. In the present study, the role of a thermal component in laserinduced alterations in the biology of human skin fibroblasts was examined. Cells were cultured on 96-well tissue culture plates, subjecte

The role of cell membranes in stimulating and inhibiting the effects of microwaves was investigated in experiments carried out with a suspension of murine bone marrow cells irradiated with microwaves in vitro [f = 2.45 GHz, CW, specific absorption rate (SAR) = 12 W/kg]. Results obtained by means of

Cyclodextrins have proven themselves to be useful functional excipients. Cyclodextrin derivatives can be hydrophilic or relatively lipophilic based on their substitution and these properties can give insight into their ability to act as permeability enhancers. Lipophilic cyclodextrins such as the me

Time-resolved fluorescence spectra of DaCO were measured as a function of sample prcssutc. The result tttdtutcs the occurrence of rolat~onal and vtbrational relaution between ewrted states. The magnetic lield effect on fluoresccncc from DzCO excited by a N2 laser depends on the nature of the vlbroru