000			02135nam a2200337 i 4500
008			100112t20102010paum b a001 0 eng
010			_a2010001237
020			_a9781608311156
020			_a1608311155
040			_aDNLM/DLC _cDLC _dYDX _dBTCTA _dNLM _dYDXCP _dCDX _dCUX _dSOI _dIG# _dBDX _dUtOrBLW _dBAUN
049			_aBAUN_MERKEZ
050	0	0	_aRC78.7.N83 _bH44 2010
060	1	0	_aWN18.2 _bH348 2010
082	0	0	_222
100	1		_aHashemi, Ray H.
245	1	0	_aMRI : _bthe basics / _cRay Hashman Hashemi, William G. Bradley Jr., Christopher J. Lisanti.
246	3		_aMagnetic resonance imaging.
250			_aThird edition.
264		1	_aPhiladelphia, PA : _bLippincott Williams & Wilkins, _c[2010]
264		4	_c©2010.
300			_aix, 385 pages : _billustrations ; _c26 cm.
504			_aIncludes bibliographical references and index.
505	0	0	_tIntroductory math _t-- Basic principles of MRI _t-- Radio frequency pulse _t-- T1, T2, and T2* _t-- TR, TE, and tissue contrast _t-- Tissue contrast: some clinical applications _t-- Pulse sequences: part I (Saturation, partial saturation, inversion recovery) _t-- Pulse sequences: part II (Spin echo) _t-- Fourier transform _t-- Image construction: part I (Slice selection) _t-- Image construction: part II (Spatial encoding) _t-- Signal processing _t-- Data space _t-- Pulse sequence diagram _t-- Field of view _t-- k-Space: the final frontier! _t-- Scan parameters and image optimization _t-- Artifacts in MRI _t-- Fast spin echo _t-- Gradient echo: part I (Basic principles) _t-- Gradient echo: part II (Fast scanning techniques) _t-- Echo planar imaging _t-- New scanning features _t-- Parallel imaging (by Mark Bydder, Ph.D.) _t-- Tissue suppression techniques _t-- Flow phenomena _t-- MR angiography (contributions by Jiang Du, Ph.D.) _t-- Cardiac MRI _t-- MR spectroscopy in the brain _t-- High performance gradients _t-- The many combinations of MRI.
650		0	_aMagnetic resonance imaging.
650	1	2	_aMagnetic Resonance Imaging.
650	2	2	_aMathematics.
650	2	2	_aPhysics.
700	1		_aBradley, William G.
700	1		_aLisanti, Christopher J.
942			_2lcc _cKT
999			_c49496 _d49496