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W2116738715 abstract "In minimally invasive procedures guided by magnetic resonance (MR) imaging instruments usually are made of titanium or titanium alloys (e.g., nitinol), because other more MR-compatible materials often cannot provide sufficient mechanical properties. Artifacts depending on susceptibility arise in MR images due to incorrect spatial encoding and intravoxel dephasing and thereby hamper the surgeon's view onto the region of interest. To overcome the artifact problem, compensation of the paramagnetic properties by diamagnetic coating or filling of the instruments has been proposed in the literature. We used a numerical modeling procedure to estimate the effect of compensation. Modeling of the perturbation of the static magnetic field close to the instruments reflects the underlying problem and is much faster and cost efficient than manufacturing prototypes and measuring artifact behavior of these prototypes in the MR scanner. A numerical model based on the decomposition of the susceptibility distribution in elementary dipoles was developed by us. The program code was written object oriented to allow for both maximum computational speed and minimum random access memory. We used System International units throughout the modeling for the magnetic field, allowing absolute quantification of the magnetic field disturbance. The field outside a simulated needlelike instrument, modeled by a paramagnetic cylinder (out of titan, chi =181.1) of length 8.0 mm and of diameter 1.0 mm, coated with a diamagnetic layer (out of bismuth, chi=-165.0) of thickness 0, 0.1, 0.2, 0.3, and 0.4 mm, was found to be best compensated if the cross-sectional area of the cylinder, multiplied by the absolute susceptibility value of the cylinder material, is equal to the cross-sectional area of the coating, multiplied by the absolute susceptibility value of the coating material. At the extremity of the coated cylinder an uncompensated field distortion was found to remain. We studied various tip shapes and geometries using our computational model: Suitable diamagnetic coating or filling of paramagnetic instruments clearly reduced tip artifacts and diminished the dependency of artifact size on orientation of the instrument with respect to B0 in the numerical studies. We verified the results of the simulations by measuring coated and uncoated titanium wires in a 1.5 T MR scanner." @default.
W2116738715 created "2016-06-24" @default.
W2116738715 creator A5004797235 @default.
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W2116738715 date "2004-12-16" @default.
W2116738715 modified "2023-10-05" @default.
W2116738715 title "Compensation of magnetic field distortions from paramagnetic instruments by added diamagnetic material: Measurements and numerical simulations" @default.
W2116738715 cites W1964318214 @default.
W2116738715 cites W1964535958 @default.
W2116738715 cites W1966286604 @default.
W2116738715 cites W1969115045 @default.
W2116738715 cites W1970634831 @default.
W2116738715 cites W1988006619 @default.
W2116738715 cites W1988327366 @default.
W2116738715 cites W1988580437 @default.
W2116738715 cites W1989580437 @default.
W2116738715 cites W1990555924 @default.
W2116738715 cites W1990958729 @default.
W2116738715 cites W1997272974 @default.
W2116738715 cites W2003216596 @default.
W2116738715 cites W2009554489 @default.
W2116738715 cites W2012640161 @default.
W2116738715 cites W2012763325 @default.
W2116738715 cites W2014443942 @default.
W2116738715 cites W2019354752 @default.
W2116738715 cites W2027348140 @default.
W2116738715 cites W2029706824 @default.
W2116738715 cites W2033148469 @default.
W2116738715 cites W2033490856 @default.
W2116738715 cites W2037115441 @default.
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W2116738715 cites W2043210867 @default.
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W2116738715 cites W2059696048 @default.
W2116738715 cites W2062469963 @default.
W2116738715 cites W2064533924 @default.
W2116738715 cites W2081572090 @default.
W2116738715 cites W2085896759 @default.
W2116738715 cites W2096938058 @default.
W2116738715 cites W2107607278 @default.
W2116738715 cites W2124120793 @default.
W2116738715 cites W2145522782 @default.
W2116738715 cites W2152860137 @default.
W2116738715 cites W2152990557 @default.
W2116738715 cites W2154244103 @default.
W2116738715 cites W2333214651 @default.
W2116738715 cites W2916847574 @default.
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W2116738715 doi "https://doi.org/10.1118/1.1828674" @default.
W2116738715 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15719957" @default.
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