Measurement of Spin‐Lattice Relaxation Times in Double Spin‐Echo Imaging

Abstract

Calculation of tissue T₁ in double spin‐echo imaging (90°–T‐180°–2T‐180°) using two repetition times (b₁ and b₂) has entailed an approximation that ignores the two 180° pulses. The theoretical consequence of the simplification is to overestimate T₁ with a fractional error that increases with increasing T₁ faster than linearly in a manner dependent on the sequence parameters. With b₁, b₂, and T as parameters, the theory gives a family of curves relating T₁ to the predicted ratio of signals acquired at b₂ versus b₁ intervals. Tissue T₁ can be determined from the observed signal ratio with no approximation. Consideration of noise effect on the precision of T₁ so determined favors the use, within limits, of higher b₂/b₁ ratio for the same b₁ + b₂ time. At constant b₂/b₁, using longer b₁ + b₂ permits wider range of T₁ to be measurable with a specified minimum precision.