In vivo1H, 31P‐{1H} and 13C‐{1H} magnetic resonance spectroscopy of malignant histiocytoma and skeletal muscle tissue in man

Abstract

Human tumor and skeletal muscle tissue was studied by means of in vivo¹H, ³¹P, and ¹³C MRS. The examinations were performed with a 1.5 T whole‐body MR scanner equipped with a second RF system. Localized ¹H and broadband proton‐decoupled ³¹P and ¹³C MR spectra were obtained in measurement times of 5, 10 and 33 min, respectively, from a malignant fibrous histiocytoma in a patient and from gastrocnemius muscle tissue in healthy volunteers. Proton decoupling enhanced the sensitivity (via the nuclear Overhauser effect) and the information available from in vivo³¹P and ¹³C MR spectra significantly. The most information was obtained from ¹H‐decoupled ³¹P spectra. Observation of more than one spin species allows peak assignments to be verified mutually. The spectral data of the histiocytoma differ largely from that of muscle tissue and show a tumor with elevated pH value, normal level of nucleoside 5′‐triphosphates, and high level of compounds involved in phospholipid turnover. The multinuclear in vivo MRS experiment may allow the non‐invasive observation of almost the complete pathway of phospholipid synthesis and degradation in intact human tissue.