What type of study is this?

This is a Quantitative Study study.

September 17, 2025

Quantification of NAD+ proton cross-relaxation with water using downfield 1H MRS in the human brain at 7 T

Key Points

An average 7.6-fold increase in apparent T1 relaxation enhances detection sensitivity for NAD+.
The cross-relaxation rate for the H2 and H6 protons of NAD+ was determined to be 3.9±1.5 Hz.
Utilizing downfield 1H MRS offers insights into NAD+ behavior and metabolite binding in human brain tissues.
This technique may provide a new avenue for understanding health and disease through NAD+ quantification.

Abstract

Motivation: NAD+ plays a pivotal role in metabolism and its cross-relaxation with water has the potential to be a biomarker of health and disease. Goal(s): Our goal was to determine the rate of NAD+ cross-relaxation in the human brain in vivo at 7T. Approach: We utilized spectrally-selective downfield spectroscopy in paired saturation recovery experiments and fit two models of longitudinal recovery. Results: We measured an average 7.6-fold increase in apparent T1 relaxation when utilizing a broadband saturation pulse compared to a selective saturation pulse and a cross-relaxation rate of 3.9±1.5 Hz for the H2 and H6 protons of NAD+. Impact: NAD+ cross-relaxation in human brain can be exploited to increase sensitivity through T1-shortening, and its quantification may provide insights into metabolite binding in vivo.

Quantification of NAD+ proton cross-relaxation with water using downfield 1H MRS in the human brain at 7 T

Key Points

Abstract

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