Paul A Bottomley
Paul A Bottomley
Department of Radiology, Johns Hopkins University
Verified email at - Homepage
Cited by
Cited by
Spatial localization in NMR spectroscopy in vivo
PA Bottomley
Ann NY Acad Sci 508 (1), 333-348, 1987
A review of normal tissue hydrogen NMR relaxation times and relaxation mechanisms from 1–100 MHz: dependence on tissue type, NMR frequency, temperature, species, excision, and age
PA Bottomley, TH Foster, RE Argersinger, LM Pfeifer
Medical physics 11 (4), 425-448, 1984
A review of 1H nuclear magnetic resonance relaxation in pathology: Are T1 and T2 diagnostic?
PA Bottomley, CJ Hardy, RE Argersinger, G Allen‐Moore
Medical physics 14 (1), 1-37, 1987
Fluorine (19F) MRS and MRI in biomedicine
J Ruiz‐Cabello, BP Barnett, PA Bottomley, JWM Bulte
NMR in Biomedicine 24 (2), 114-129, 2011
RF magnetic field penetration, phase shift and power dissipation in biological tissue: implications for NMR imaging
PA Bottomley, ER Andrew
Physics in Medicine & Biology 23 (4), 630, 1978
Radiographic thin-section image of the human wrist by nuclear magnetic resonance
WS Hinshaw, PA Bottomley, GN Holland
Nature 270 (5639), 722-723, 1977
Depth-resolved surface-coil spectroscopy (DRESS) for in vivo 1H, 31P, and 13C NMR
PA Bottomley, TB Foster, RD Darrow
Journal of Magnetic Resonance (1969) 59 (2), 338-342, 1984
Methods for in vivo magnetic resonance imaging
E Atalar, PA Bottomley, E Zerhouin, H Halperin, E McVeigh, AC Lardo
US Patent 6,549,800, 2003
Regional myocardial metabolism of high-energy phosphates during isometric exercise in patients with coronary artery disease
RG Weiss, PA Bottomley, CJ Hardy, G Gerstenblith
New England Journal of Medicine 323 (23), 1593-1600, 1990
Human in vivo NMR spectroscopy in diagnostic medicine: Clinical tool or research probe?
PA Bottomley
Radiology 170 (1), 1-15, 1989
ATP flux through creatine kinase in the normal, stressed, and failing human heart
RG Weiss, G Gerstenblith, PA Bottomley
Proceedings of the National Academy of Sciences 102 (3), 808-813, 2005
Systems and methods for magnetic-resonance-guided interventional procedures
RC Susil, G Susil, E Atalar, AC Lardo, HR Halperin, RD Berger, H Calkins, ...
US Patent 7,844,319, 2010
Apparatus, systems, and methods for in vivo magnetic resonance imaging
E Atalar, PA Bottomley, P Karmarkar, AC Lardo, E Zerhouni
US Patent 6,628,980, 2003
Tissue Sodium Concentration in Human Brain Tumors as Measured with 23Na MR Imaging1
R Ouwerkerk, KB Bleich, JS Gillen, MG Pomper, PA Bottomley
Radiology 227 (2), 529-537, 2003
A signal‐to‐noise calibration procedure for NMR imaging systems
WA Edelstein, PA Bottomley, LM Pfeifer
Medical Physics 11 (2), 180-185, 1984
Altered myocardial high-energy phosphate metabolites in patients with dilated cardiomyopathy
CJ Hardy, RG Weiss, PA Bottomley, G Gerstenblith
American heart journal 122 (3), 795-801, 1991
Selective volume method for performing localized NMR spectroscopy
PA Bottomley
US Patent 4,480,228, 1984
Signal, noise, and contrast in nuclear magnetic resonance (NMR) imaging
WA Edelstein, PA Bottomley, HR Hart, LS Smith
J Comput Assist Tomogr 7 (3), 391-401, 1983
Methods and apparatus for fabricating leads with conductors and related flexible lead configurations
PA Bottomley, PV Karmarkar, JM Allen, WA Edelstein, P Piferi, B Gore, ...
US Patent App. 12/047,832, 2008
Noninvasive study of high-energy phosphate metabolism in human heart by depth-resolved 31P NMR spectroscopy
PA Bottomley
Science 229 (4715), 769-772, 1985
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