The effects of isoflurane and halothane on blood flow and 31P NMR spectra in murine RIF‐1 tumors

Abstract

The principal aim of these studies was to evaluate the utility of isoflurane and halothane for NMR investigations of tumor physiology. In vivo³¹P and ²H NMR were used to examine RIF‐1 tumors before, during, and (for ³¹P) after anesthesia. In tumors, halothane decreases blood flow, [PCR]:[NTP], and pH indicated by the P₁ chemical shift (pH_nmr), while it increases [P₁:[NTP]; effects consistent with well‐established cardiovascular effects of halothane. Isoflurane does not affect tumor blood flow or [PCr]:[NTP], but increases tumor [P₁:[NTP] and decreases tumor pH_nmr. In vivo³¹P NMR measurements of normal mouse liver (upper abdomen) indicate that isoflurane has a similar effect in the liver. Although the mechanism for these effects is unknown, observation of a split P₁ peak during isoflurane anesthesia suggests that a pool of P₁ in a lower pH environment may become evident under isoflurane anesthesia. Regardless of the cause for increased [P₁:[NTP] and decreased pH_nmr the utility of isoflurane anesthesia for ³¹P NMR studies of energy metabolism is limited.