5349294 Two and three-dimensionally selective RF pulses for magnetic resonance imaging

## Abstract __T__‐weighted functional MR images are plagued by signal loss artifacts caused by susceptibility‐induced through‐plane dephasing. We present major advances to the original three‐dimensional tailored RF (3DTRF) pulse method that pre‐compensates the dephasing using three‐dimensional sele

Recently, we introduced a new numerical approach to the design and optimization of NMR selective pulses, which we have christened "SPINCALC" (J. T. Ngo and P. G. Morris, Biochem. Soc. Trans. 14, 1271 (1986); J. T. Ngo and P. G. Morris, Magn. Reson. Med. 5, 217 (1987]. The first practical application

## Abstract ## Purpose To compare two‐dimensional and three‐dimensional techniques in the detection of myocardial infarction (MI) and in the grading transmural extent (TE). ## Materials and Methods Twelve patients with clinically proven MI were examined using two‐dimensional and three‐dimensiona

## Abstract Magnetic resonance imaging (MRI) of nuclei that have very short relaxation times is conveniently based on spherical sampling. We have presented a least squares framework for reconstructing three‐dimensional (3D) source distribution images from such data. In this paper, we describe a pra

## Abstract MR thermometry can be a very challenging application, as good resolution may be needed along spatial, temporal, and temperature axes. Given that the heated foci produced during thermal therapies are typically much smaller than the anatomy being imaged, much of the imaged field‐of‐view i