Biblio | Department of Radiology

Department of Radiology

Found 28 results

Filters: Keyword is Gadolinium [Clear All Filters]

2023

Kiser K, Zhang J, Qayyum S, W Bracken C, Kim SGene. 2023. Simultaneous estimation of the cellular water exchange rate, intracellular volume fraction, and longitudinal relaxation rate in cancer cells.. NMR Biomed. 36(7):e4914.

2022

Das ABharadwaj, Tranos JAndrew, Zhang J, Wadghiri YZaim, Kim SGene. 2022. Estimation of Contrast Agent Concentration in DCE-MRI Using 2 Flip Angles.. Invest Radiol. 57(5):343-351.

2021

Sweeney EM, Nguyen TD, Kuceyeski A, Ryan SM, Zhang S, Zexter L, Wang Y, Gauthier SA. 2021. Estimation of Multiple Sclerosis lesion age on magnetic resonance imaging.. Neuroimage. 225:117451.

2020

Dyke JP, Xu HS, Verma A, Voss HU, J Chazen L. 2020. MRI characterization of early CNS transport kinetics post intrathecal gadolinium injection: Trends of subarachnoid and parenchymal distribution in healthy volunteers.. Clin Imaging. 68:1-6.

Wang Y, Prince MR. 2020. Quantitative Susceptibility Mapping Is Superior to T1-weighted Imaging for Detecting and Measuring Gadolinium.. Radiology. 297(1):151-153.

2019

Deh K, Kawaji K, Bulk M, Van Der Weerd L, Lind E, Spincemaille P, Gillen KMcCabe, Van Auderkerke J, Wang Y, Nguyen TD. 2019. Multicenter reproducibility of quantitative susceptibility mapping in a gadolinium phantom using MEDI+0 automatic zero referencing.. Magn Reson Med. 81(2):1229-1236.

2018

Li J, Lin H, Liu T, Zhang Z, Prince MR, Gillen K, Yan X, Song Q, Hua T, Zhao X et al.. 2018. Quantitative susceptibility mapping (QSM) minimizes interference from cellular pathology in R2* estimation of liver iron concentration.. J Magn Reson Imaging. 48(4):1069-1079.

2017

Kale SS, Burga RA, Sweeney EE, Zun Z, Sze RW, Tuesca A, J Subramony A, Fernandes R. 2017. Composite iron oxide-Prussian blue nanoparticles for magnetically guided T-weighted magnetic resonance imaging and photothermal therapy of tumors.. Int J Nanomedicine. 12:6413-6424.

Kee Y, Deh K, Dimov A, Spincemaille P, Wang Y. 2017. Primal-dual and forward gradient implementation for quantitative susceptibility mapping.. Magn Reson Med. 78(6):2416-2427.

Gupta A, Al-Dasuqi K, Xia F, Askin G, Zhao Y, Delgado D, Wang Y. 2017. The Use of Noncontrast Quantitative MRI to Detect Gadolinium-Enhancing Multiple Sclerosis Brain Lesions: A Systematic Review and Meta-Analysis.. AJNR Am J Neuroradiol. 38(7):1317-1322.

2014

Mikati AGhani, Tan H, Shenkar R, Li L, Zhang L, Guo X, Larsson HBW, Shi C, Liu T, Wang Y et al.. 2014. Dynamic permeability and quantitative susceptibility: related imaging biomarkers in cerebral cavernous malformations.. Stroke. 45(2):598-601.

Chen W, Gauthier SA, Gupta A, Comunale J, Liu T, Wang S, Pei M, Pitt D, Wang Y. 2014. Quantitative susceptibility mapping of multiple sclerosis lesions at various ages.. Radiology. 271(1):183-92.

2013

Xu B, Spincemaille P, Chen G, Agrawal M, Nguyen TD, Prince MR, Wang Y. 2013. Fast 3D contrast enhanced MRI of the liver using temporal resolution acceleration with constrained evolution reconstruction.. Magn Reson Med. 69(2):370-81.

Chandarana H, Amarosa A, Huang WC, Kang SK, Taneja S, Melamed J, Kim S. 2013. High temporal resolution 3D gadolinium-enhanced dynamic MR imaging of renal tumors with pharmacokinetic modeling: preliminary observations.. J Magn Reson Imaging. 38(4):802-8.

2011

Wu CW-H, Vasalatiy O, Liu N, Wu H, Cheal S, Chen D-Y, Koretsky AP, Griffiths GL, Tootell RBH, Ungerleider LG. 2011. Development of a MR-visible compound for tracing neuroanatomical connections in vivo.. Neuron. 70(2):229-43.

Miller AN, Prasarn ML, Dyke JP, Helfet DL, Lorich DG. 2011. Quantitative assessment of the vascularity of the talus with gadolinium-enhanced magnetic resonance imaging.. J Bone Joint Surg Am. 93(12):1116-21.

2010

Prasarn ML, Miller AN, Dyke JP, Helfet DL, Lorich DG. 2010. Arterial anatomy of the talus: a cadaver and gadolinium-enhanced MRI study.. Foot Ankle Int. 31(11):987-93.

Kim S, Loevner LA, Quon H, Kilger A, Sherman E, Weinstein G, Chalian A, Poptani H. 2010. Prediction of response to chemoradiation therapy in squamous cell carcinomas of the head and neck using dynamic contrast-enhanced MR imaging.. AJNR Am J Neuroradiol. 31(2):262-8.

2009

Kim S, Pickup S, Hsu O, Poptani H. 2009. Enhanced delineation of white matter structures of the fixed mouse brain using Gd-DTPA in microscopic MRI.. NMR Biomed. 22(3):303-9.

2008

de Rochefort L, Nguyen T, Brown R, Spincemaille P, Choi G, Weinsaft J, Prince MR, Wang Y. 2008. In vivo quantification of contrast agent concentration using the induced magnetic field for time-resolved arterial input function measurement with MRI.. Med Phys. 35(12):5328-39.

Sigurdsson EM, Wadghiri YZ, Mosconi L, Blind JA, Knudsen E, Asuni A, Scholtzova H, Tsui WH, Li Y, Sadowski M et al.. 2008. A non-toxic ligand for voxel-based MRI analysis of plaques in AD transgenic mice.. Neurobiol Aging. 29(6):836-47.

2007

Spincemaille P, Brown R, Qian Y, Wang Y. 2007. Optimal coil array design: the two-coil case.. Magn Reson Imaging. 25(5):671-7.

2006

Nguyen TD, Spincemaille P, Vaidya A, Prince MR, Lu Z-R, Wang Y. 2006. Contrast-enhanced magnetic resonance angiography with biodegradable (Gd-DTPA)-cystamine copolymers: comparison with MS-325 in a swine model.. Mol Pharm. 3(5):558-65.

2003

Prince MR, Erel HE, Lent RW, Blumenfeld J, K Kent C, Bush HL, Wang Y. 2003. Gadodiamide administration causes spurious hypocalcemia.. Radiology. 227(3):639-46.

Tung C-H, Ho N-H, Zeng Q, Tang Y, Jaffer FA, Reed GL, Weissleder R. 2003. Novel factor XIII probes for blood coagulation imaging.. Chembiochem. 4(9):897-9.