Title: Real time micro-fiberoptic monitoring of endogenous fluorescence in the rat conceptus during hypoxia.
Authors: Thorsrud, B A; Harris, C
Published In Teratology, (1993 Oct)
Abstract: A micro-fiberoptic methodology has been developed for non-invasive, real time measurement of endogenous pyridine nucleotide fluorescence from the surface of the visceral yolk sac (VYS) in intact, viable rat conceptuses. Gestational day (GD) 10-12 conceptuses are maintained in a customized perifusion system, which allows for control of oxygenation, as well as the continuous measurement of pH and oxygen concentration in the effluent perifusate. Miniaturized light guides were constructed by drawing 250 microns ESKA acrylic optical fibers through a stainless steel sheath with a high strength epoxy polymer. A single fiber supplied the excitation signal from a mercury arc lamp at a wavelength of 366 nm. The emission signal was returned via three additional fibers, electronically amplified, processed, and recorded, using a dual channel lamp-compensated fluorometer, optimized for detection of reduced pyridine nucleotides at 455 nm. Endogenous fluorescence in the conceptus was monitored by placing the polished tip of the sensor directly on the surface of the VYS. Oxygen-equilibrated conceptuses, exposed to 100% nitrogen, produced a reproducible biphasic surface fluorescence peak, which returned to baseline levels upon reoxygenation of the perifusate. This biphasic response consisted of an initial rapid rise in fluorescence (phase I), followed by an attenuated rate in fluorescence signal increase (phase II). The hypoxia produced age-dependent rates of fluorescence change during phase I, while phase II remained relatively unchanged throughout GD 10-12. These results demonstrate the ability to monitor endogenous fluorescence, non-invasively and in real time, during the period of organogenesis in the intact rat conceptus and will provide valuable information in studies of embryonic metabolism and response to chemical embryotoxicants.
PubMed ID: 8278934
MeSH Terms: Animals; Fetal Hypoxia/metabolism*; Fiber Optics; Fluorescence*; Fluorometry/instrumentation; Fluorometry/methods*; Gestational Age; Microchemistry/instrumentation; NAD/analysis*; Nitrogen/administration & dosage; Organ Culture Techniques; Oxygen/administration & dosage; Rats; Rats, Sprague-Dawley; Reproducibility of Results; Yolk Sac/metabolism*