In vivo1H-magnetic resonance spectroscopy of the spinal cord in humans

## Abstract A movable, actively decoupled surface coil has been employed to obtain a localized ^1^H NMR spectrum from the lumbosacral spinal cord of a live Lewis rat. A volume selective ‘VOSY’ normally spelled out as ‘volume selective spectroscopy’ spectroscopy pulse sequence that incorporates “pha

## Purpose: To demonstrate the feasibility of obtaining high-quality magnetic resonance (mr) images of the human cervical spinal cord in vivo at a magnetic field strength of 3 t and to optimize the signal contrast between gray matter, white matter, and cerebrospinal fluid (csf) on 2d gradient recal

## Purpose: To evaluate cerebral metabolism in clinical hydrocephalus with (1)h magnetic resonance spectroscopy (mrs). ## Materials and methods: In 24 children and adults with progressive, arrested, or normal pressure hydrocephalus, long-echo time (1)h mr spectra were acquired from periventricula

## Abstract Measuring in vivo spinal cord injury and repair remains elusive. Using magnetic resonance spectroscopy (MRS) we examined brainstem N‐acetyl‐aspartate (NAA) as a surrogate for spinal cord injury in two mouse strains with different reparative phenotypes following virus‐induced demyelinati

## Abstract An inductively coupled, chronically implanted short‐solenoid coil was used to obtain in vivo localized ^1^H NMR spectra and diffusion‐weighted images from a rat spinal cord. A 5 × 8 mm two‐turn elliptically shaped solenoid coil was implanted in rats at the site of a T‐12 vertebral‐level