Magnetic field and tissue dependencies of human brain longitudinal 1 H 2 O relaxation in vivo
Brookhaven National Laboratory · New York University · +9 more institutions
Abstract
Brain water proton (1H2O) longitudinal relaxation time constants (T1) were obtained from three healthy individuals at magnetic field strengths (B0) of 0.2 Tesla (T), 1.0T, 1.5T, 4.0T, and 7.0T. A 5-mm midventricular axial slice was sampled using a modified Look-Locker technique with 1.5 mm in-plane resolution, and 32 time points post-adiabatic inversion. The results confirmed that for most brain tissues, T1 values increased by more than a factor of 3 between 0.2T and 7T, and over this range were well fitted by T1 (s)=0.583(B0)0.382, T1(s)=0.857(B0)0.376, and T1(s)=1.35(B0)0.340 for white matter (WM), internal GM, and blood 1H2O, respectively. The ventricular cerebrospinal fluid (CSF) 1H2O T1 value did not…
Citation impact
- FWCI
- 15.20
- Percentile
- 100%
- References
- 46
Authors
7- WDWilliam D. RooneyCorresponding
Brookhaven National Laboratory
- GJGlyn Johnson
New York University
- XLXin Li
Oregon Health & Science University, Brookhaven National Laboratory, Advanced Imaging Research (United States)
- EREric R. Cohen
University of Minnesota, Twin Cities Orthopedics, Resonance Research (United States)
- SKSeong‐Gi Kim
University of Minnesota, University of Pittsburgh, Twin Cities Orthopedics, Resonance Research (United States)
Topics & keywords
- Nuclear magnetic resonance
- Chemistry
- Magnetic field
- Relaxation (psychology)
- Spin–lattice relaxation
- White matter
- Magnetic resonance imaging
- Analytical Chemistry (journal)
- Clean water and sanitation