High resolution pHe imaging of rat glioma using pH‐dependent relaxivity

Abstract

Previous studies using MR spectroscopy have shown that the extracellular pH (pH_e) of tumors is acidic compared to normal tissues. This has a number of important sequelae that favor the emergence of more aggressive and therapy‐resistant tumors. New MRI methods based on pH‐sensitive T₁ relaxivity are an attractive alternative to previous spectroscopic methods, as they allow improvements in spatial and temporal resolution. Recently, pH‐dependent GdDOTA‐4AmP^5‐ and a pH‐independent analog, GdDOTP^5‐, were used to image renal pH in mice. The current study has used a similar approach to image pH_e in rat gliomas. Significant differences were observed compared to the renal study. First, the relaxivity of GdDOTP^5‐ was found to be affected by the higher extracellular protein content of tumors. Second, the pixel‐by‐pixel analysis of the GdDOTP^5‐ and GdDOTA‐4AmP^5‐ pharmacokinetics showed significant dispersion, likely due to the temporal fluctuations in tumor perfusion. However, there was a robust correlation between the maximal enhancements produced by the two boluses. Therefore, to account for the local time‐courses differences, pH_e maps were calculated at the time of maximal enhancement in each pixel. Finally, the comparison of the pH_e and the time to maximal intensity maps revealed an inverse relationship between pH_e and tumor perfusion. Magn Reson Med, 2006.