Selective Inverse Correlation by Using Chemical-Shift-Selective Filters and Selective Pulses

## Abstract The elucidation of ^1^H‐^13^C connectivities is one of the most powerful NMR tools for the determination of unknown structures, and a new one‐dimensional correlation technique is presented, based on a modified INEPT sequence. Omission of the first two 180° refocusing pulses and randomiz

## Abstract The application of a chemical shift selective filter in 1D INADEQUATE and HCC relay experiments is proposed. It is demonstrated that highly selective filtering can be the equivalent of low‐power excitations. Applications to the selective detection of carbon–carbon connectivities are p

## Abstract Standard 1D TOCSY and NOE experiments have limitations where signals are severely overlapped. Here, two recently published selective excitation methods are evaluated, the first of which uses a chemical shift selective filter to select a single resonance based on its chemical shift, and

## Abstract ## Purpose To examine new sequences that restrict acquisition of spins to those excited by both of the RF pulses in missing pulse steady state free precession (MP‐SSFP) MRI. ## Materials and Methods New MP‐SSFP sequences were created by replacing one of the slice selective pulses (SS

## Abstract ## Purpose: To test a newly developed fat suppression magnetic resonance imaging (MRI) prepulse that synergistically uses the principles of fat suppression via inversion recovery (STIR) and spectral fat saturation (CHESS), relative to pure CHESS and STIR. This new technique is termed d