Purpose: Repeated injections of linear gadolinium-based contrast agent (GBCA) have shown correlations with increased signal intensities (SI) on unenhanced T1-weighted (T1w) images. Assessment is usually performed manually on a single slice and the SI as an average of a freehand region-of-interest is reported. We aim to develop a fully automated software that segments and computes SI ratio of dentate nucleus (DN) to pons (DN/P) and globus pallidus (GP) to thalamus (GP/T) for the assessment of gadolinium presence in the brain after a serial GBCA administrations. Approach: All patients ( N = 113 ) underwent at least eight GBCA enhanced scans. The modal SI in the DN, GP, pons, and thalamus were measured volumetrically on unenhanced T1w images and corrected based on the reference protocol (measurement 1) and compared to the SI-uncorrected-modal-volume (measurement 2), SI-corrected-mean-volume (measurement 3), as well as SI-corrected-modal-single slice (measurement 4) approaches. Results: Automatic processing worked on all 2119 studies (1150 at 1.5 T and 969 at 3 T). DN/P were 1.085 ± 0.048 (1.5 T) and 0.979 ± 0.061 (3 T). GP/T were 1.084 ± 0.039 (1.5 T) and 1.069 ± 0.042 (3 T). Modal DN/P ratios from volumetric assessment at 1.5 T failed to show a statistical difference with or without SI corrections ( p = 0.71 ). All other t -tests demonstrated significant differences (measurement 2, 3, 4 compared to 1, p < 0.001 ). Conclusion: The fully automatic method is an effective powerful tool to streamline the analysis of SI ratios in the deep brain tissues. Divergent SI ratios using different approaches reinforces the need to standardize the measurement for the research in this field.
Purpose: Repeated injections of linear gadolinium-based contrast agent (GBCA) have shown correlations with increased signal intensities (SI) on unenhanced T1-weighted (T1w) images. Assessment is usually performed manually on a single slice and the SI as an average of a freehand region-of-interest is reported. We aim to develop a fully automated software that segments and computes SI ratio of dentate nucleus (DN) to pons (DN/P) and globus pallidus (GP) to thalamus (GP/T) for the assessment of gadolinium presence in the brain after a serial GBCA administrations. Approach: All patients ( N = 113 ) underwent at least eight GBCA enhanced scans. The modal SI in the DN, GP, pons, and thalamus were measured volumetrically on unenhanced T1w images and corrected based on the reference protocol (measurement 1) and compared to the SI-uncorrected-modal-volume (measurement 2), SI-corrected-mean-volume (measurement 3), as well as SI-corrected-modal-single slice (measurement 4) approaches. Results: Automatic processing worked on all 2119 studies (1150 at 1.5 T and 969 at 3 T). DN/P were 1.085 ± 0.048 (1.5 T) and 0.979 ± 0.061 (3 T). GP/T were 1.084 ± 0.039 (1.5 T) and 1.069 ± 0.042 (3 T). Modal DN/P ratios from volumetric assessment at 1.5 T failed to show a statistical difference with or without SI corrections ( p = 0.71 ). All other t -tests demonstrated significant differences (measurement 2, 3, 4 compared to 1, p < 0.001 ). Conclusion: The fully automatic method is an effective powerful tool to streamline the analysis of SI ratios in the deep brain tissues. Divergent SI ratios using different approaches reinforces the need to standardize the measurement for the research in this field.
Authors: Alexander Radbruch; Lukas D Weberling; Pascal J Kieslich; Johanna Hepp; Philipp Kickingereder; Wolfgang Wick; Heinz-Peter Schlemmer; Martin Bendszus Journal: Invest Radiol Date: 2016-11 Impact factor: 6.016
Authors: Yuri Errante; Vincenzo Cirimele; Carlo Augusto Mallio; Vincenzo Di Lazzaro; Bruno Beomonte Zobel; Carlo Cosimo Quattrocchi Journal: Invest Radiol Date: 2014-10 Impact factor: 6.016
Authors: Robert J McDonald; Jennifer S McDonald; David F Kallmes; Mark E Jentoft; David L Murray; Kent R Thielen; Eric E Williamson; Laurence J Eckel Journal: Radiology Date: 2015-03-05 Impact factor: 11.105
Authors: Carlo C Quattrocchi; Joana Ramalho; Aart J van der Molen; Àlex Rovira; Alexander Radbruch Journal: Eur Radiol Date: 2018-11-09 Impact factor: 5.315
Authors: Robert J McDonald; Jennifer S McDonald; David F Kallmes; Mark E Jentoft; Michael A Paolini; David L Murray; Eric E Williamson; Laurence J Eckel Journal: Radiology Date: 2017-06-27 Impact factor: 11.105
Authors: J Diedrichsen; S Maderwald; M Küper; M Thürling; K Rabe; E R Gizewski; M E Ladd; D Timmann Journal: Neuroimage Date: 2010-10-18 Impact factor: 6.556