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Magnet/magnetism Magnetic resonance imaging

The great diversity of applications of magnetic resonance imaging (MRI) has resulted in a plethora of teclnhques which at first sight can seem bemusmg. However, at heart they are built on a series of connnon... [Pg.1519]

The classical description of magnetic resonance suffices for understanding the most important concepts of magnetic resonance imaging. The description is based upon the Bloch equation, which, in the absence of relaxation, may be written as... [Pg.1520]

Morris P G 1986 Nuclear Magnetic Resonance Imaging in Medicine and Biology (Oxford Ciarendon)... [Pg.1544]

Stehiing M K, Turner R and Mansfieid P 1991 Echo-pianar imaging magnetic-resonance-imaging in a fraction of a second Science 254 43-50... [Pg.1544]

McDonald P J 1997 Stray field magnetic resonance imaging Prog. Nucl. Magn. Reson. Spectrosc. 30 69-99... [Pg.1545]

Ahn C B and Cho Z H 1989 A generalized formulation of diffusion effects in pm resolution nuclear magnetic-resonance imaging Med. Rhys. 16 22-8... [Pg.1545]

Tzalmona A, Armstrong R L, Menzinger M, Cross A and Lemaire C 1990 Detection of chemical waves by magnetic resonance imaging Chem. Rhys. Lett. 174 199-202... [Pg.1545]

Liquid helium s use in magnetic resonance imaging (MRI) continues to increase as the medical profession accepts and develops new uses for the equipment. This equipment has eliminated some need for exploratory surgery by accurately diagnosing patients. Another medical application uses MRE to determine (by blood analysis) whether a patient has any form of cancer. [Pg.8]

Magnetic resonance imaging (MRI) (Section 13 13) A diag nostic method in medicine in which tissues are examined by NMR... [Pg.1288]

Ring Currents Aromatic and Antiaromatic Magnetic Resonance Imaging Spectra by the Thousands Gas Chromatography GC/MS and MS/MS... [Pg.1329]

Future Applications. The use of gadolinium complexes as contrast agents in magnetic resonance imaging (mri) is growing (40). [Pg.548]

Mag netic Resonance Magnetic resonance imaging (MRI) is a tomographic imaging modaHty. The basis of MRI, equation 6,... [Pg.54]

D. D. Stark and W. G. Bradly, Magnetic Resonance Imaging Mosby, Lanham, Md., 1988. [Pg.58]

The resolution of the y-camera is determined by both the collimator and the crystal/photomultipher tube combination. In general, the resolution is significantly poorer than that of other modaUties such as magnetic resonance imaging (mri) and x-ray computerized tomography (ct). For single-photon... [Pg.481]

Sucralfate [54182-58-0] an aluminum salt of sucrose octasulfate, is used as an antacid and antiulcer medication (59). Bis- and tris-platinum complexes of sucrose show promise as antitumor agents (60). Sucrose monoesters are used in some pharmaceutical preparations (21). A sucrose polyester is under evaluation as a contrast agent for magnetic resonance imaging (mri) (61). Oral adrninistration of this substance opacifies the gastrointestinal tract and eliminates the need for purging prior to mri. [Pg.6]

See other pages where Magnet/magnetism Magnetic resonance imaging is mentioned: [Pg.1474]    [Pg.1519]    [Pg.1545]    [Pg.2422]    [Pg.546]    [Pg.546]    [Pg.546]    [Pg.588]    [Pg.263]    [Pg.324]    [Pg.12]    [Pg.14]    [Pg.321]    [Pg.383]    [Pg.398]    [Pg.48]    [Pg.53]    [Pg.53]    [Pg.53]    [Pg.54]    [Pg.56]    [Pg.56]    [Pg.58]    [Pg.58]    [Pg.58]    [Pg.204]    [Pg.332]    [Pg.340]    [Pg.132]    [Pg.295]    [Pg.473]    [Pg.485]    [Pg.360]    [Pg.394]   


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Agents for Magnetic Resonance Imaging

Agents for Magnetic Resonance Imaging (MRI)

Applications magnetic resonance imaging coils

B Magnetic Resonance Imaging

Blood oxygen-level-dependent magnetic resonance imaging

Cancer magnetic resonance imaging

Cardiovascular disease magnetic resonance imaging

Computed tomography comparison with magnetic resonance imaging

Contrast media in magnetic resonance imaging

Contrast media magnetic resonance imaging

Dynamic magnetic resonance imaging

Epilepsy magnetic resonance imaging

Field gradient magnetic resonance imaging

Function magnetic resonance imaging

Functional Magnetic Resonance Imaging fMRI), brain function study

Functional imaging with magnetic resonance

Functional magnetic resonance imaging

Functional magnetic resonance imaging fMRI)

Gadolinium-enhanced magnetic resonance imaging

Heart magnetic resonance imaging

Image acquisition techniques magnetic resonance imaging

Intravascular magnetic resonance imaging

Introduction magnetic resonance imaging

Kidney magnetic resonance imaging

Leiomyoma magnetic resonance imaging

Light magnetic resonance imaging

Liver magnetic resonance imaging

Magnetic Resonance Imaging , brain function study

Magnetic Resonance Imaging Techniques and Their Application to Silicone Degradation

Magnetic Resonance Imaging complexes

Magnetic Resonance Imaging devices

Magnetic Resonance Imaging mechanical waves

Magnetic Resonance Imaging overview

Magnetic Resonance Spectroscopic Imaging (MRSI)

Magnetic Resonance Spectroscopy and Imaging

Magnetic equivalence resonance imaging

Magnetic imaging

Magnetic resonance imagers

Magnetic resonance imagers

Magnetic resonance images

Magnetic resonance images advantages

Magnetic resonance imaging

Magnetic resonance imaging

Magnetic resonance imaging (MRI

Magnetic resonance imaging (MRI contrast agents

Magnetic resonance imaging , brain

Magnetic resonance imaging , brain edema

Magnetic resonance imaging , cell-based

Magnetic resonance imaging , gels

Magnetic resonance imaging , medical uses

Magnetic resonance imaging -based

Magnetic resonance imaging 1588 urology

Magnetic resonance imaging 324, Plate

Magnetic resonance imaging Fourier transform

Magnetic resonance imaging INDEX

Magnetic resonance imaging Larmor frequency

Magnetic resonance imaging Overhauser

Magnetic resonance imaging advantages

Magnetic resonance imaging agents

Magnetic resonance imaging analysis

Magnetic resonance imaging applications

Magnetic resonance imaging basic principles

Magnetic resonance imaging brain scans

Magnetic resonance imaging cerebrospinal fluid

Magnetic resonance imaging chemical exchange saturation transfer

Magnetic resonance imaging clinical applications

Magnetic resonance imaging contrast agent

Magnetic resonance imaging contrast mechanisms

Magnetic resonance imaging definition

Magnetic resonance imaging dendrimer

Magnetic resonance imaging development

Magnetic resonance imaging diagnostic applications

Magnetic resonance imaging diffusion

Magnetic resonance imaging diffusion tensor

Magnetic resonance imaging drawbacks

Magnetic resonance imaging echo time

Magnetic resonance imaging endohedral fullerenes

Magnetic resonance imaging enhancement

Magnetic resonance imaging ferritin

Magnetic resonance imaging foods

Magnetic resonance imaging gadolinium

Magnetic resonance imaging gadolinium salts

Magnetic resonance imaging high spatial resolution

Magnetic resonance imaging image contrast

Magnetic resonance imaging image weighting

Magnetic resonance imaging implants

Magnetic resonance imaging in multiple sclerosis

Magnetic resonance imaging in stroke

Magnetic resonance imaging luminescence

Magnetic resonance imaging magnet

Magnetic resonance imaging magnet

Magnetic resonance imaging magnetization transfer

Magnetic resonance imaging manipulator

Magnetic resonance imaging methods

Magnetic resonance imaging motional contrast

Magnetic resonance imaging multiple sclerosis

Magnetic resonance imaging nanocomposites

Magnetic resonance imaging nanomaterials

Magnetic resonance imaging nervous system lesions

Magnetic resonance imaging observational studies

Magnetic resonance imaging paramagnetic contrast agent

Magnetic resonance imaging perfusion

Magnetic resonance imaging polymers

Magnetic resonance imaging polymorphism

Magnetic resonance imaging precision

Magnetic resonance imaging principle

Magnetic resonance imaging probes

Magnetic resonance imaging relaxation agents

Magnetic resonance imaging relaxation time

Magnetic resonance imaging relaxivity

Magnetic resonance imaging relaxometry

Magnetic resonance imaging repetition time

Magnetic resonance imaging resolution

Magnetic resonance imaging results

Magnetic resonance imaging scans

Magnetic resonance imaging spectroscopy

Magnetic resonance imaging spin-echo signal

Magnetic resonance imaging studies

Magnetic resonance imaging systems

Magnetic resonance imaging theory

Magnetic resonance imaging water distribution, fuel cell

Magnetic resonance imaging, contrast

Magnetic resonance imaging, superconductors

Magnetic resonance microscopy imaging

Magnetic resonance spectroscopic imaging

Medical magnetic resonance imaging

Medical polymers magnetic resonance imaging

Medicine magnetic resonance imaging

Microstructure studies magnetic resonance imaging

Multiple sclerosis magnetic resonance imaging studies

Nanoparticles magnetic resonance imaging

Neuroimaging magnetic resonance imaging

Nuclear Magnetic Resonance NMR) imaging

Nuclear magnetic resonance imaging

Nuclear magnetic resonance imaging features

Nuclear magnetic resonance imaging overview

Nuclear magnetic resonance imaging polymer processing

Nuclear magnetic resonance imaging structural models

Nuclear magnetic resonance micro-imaging

Nuclear magnetic resonance spectroscopy imaging

Nuclear spin, magnetic resonance imaging

Perfusion-weighted magnetic resonance imaging

Pictures with NMR Magnetic Resonance Imaging

Pure Phase Encode Magnetic Resonance Imaging of Concrete Building Materials

Renal magnetic resonance imaging

Resonance Imaging

Rupture magnetic resonance imaging

Signal and Noise in Magnetic Resonance Imaging

Upconversion and Magnetic Resonance Imaging

Venous magnetic resonance imaging

Whole magnetic resonance imaging

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