NMR spin–lattice relaxation time measurements in organochalcogen compounds

In vivo T1 measurements are usually made from images. In this paper we describe an alternative method in which data are collected from a strip instead of from an entire plane. We will compare the signal-to-noise ratios, the time to make a measurement, and the error in T1 as well as other aspects of

Calculation of tissue TI in double spin-echo imaging (90"-T-I 80"-2T-1 SO0) using two repetition times (6, and b2) has entailed an approximation that ignores the two 180" pulses. The theoretical consequence of the simplification is to overestimate TI with a fractional error that increases with incre

The activation enthalpy and entropy for ligand exchange in the weak complex Ni(glycerol)i+ were estimated by variable-temperature proton spin-lattice relaxation time measurements at 9.4 and 6.3 T on a 0.044 molal solution of NiCI, in glyceroL A description of the dynamic process in terms of a simple

## Abstract T1 values of phosphorus metabolites visible in human cardiac ^31^P‐MR spectra were determined in 12 volunteers at 1.5 T. Consecutive spectra were acquired with varying pulse repetition time (TR) from 1.6 to 24 s; volume selection was achieved with ISIS. T 1's of creatine phosphate (CP),