PURPOSE: To establish the extent to which test set reading can represent actual clinical reporting in screening mammography. MATERIALS AND METHODS: Institutional ethics approval was granted, and informed consent was obtained from each participating screen reader. The need for informed consent with respect to the use of patient materials was waived. Two hundred mammographic examinations were selected from examinations reported by 10 individual expert screen readers, resulting in 10 reader-specific test sets. Data generated from actual clinical reports were compared with three test set conditions: clinical test set reading with prior images, laboratory test set reading with prior images, and laboratory test set reading without prior images. A further set of five expert screen readers was asked to interpret a common set of images in two identical test set conditions to establish a baseline for intraobserver variability. Confidence scores (from 1 to 4) were assigned to the respective decisions made by readers. Region-of-interest (ROI) figures of merit (FOMs) and side-specific sensitivity and specificity were described for the actual clinical reporting of each reader-specific test set and were compared with those for the three test set conditions. Agreement between pairs of readings was performed by using the Kendall coefficient of concordance. RESULTS: Moderate or acceptable levels of agreement were evident (W = 0.69-0.73, P < .01) when describing group performance between actual clinical reporting and test set conditions that were reasonably close to the established baseline (W = 0.77, P < .01) and were lowest when prior images were excluded. Higher median values for ROI FOMs were demonstrated for the test set conditions than for the actual clinical reporting values; this was possibly linked to changes in sensitivity. CONCLUSION: Reasonable levels of agreement between actual clinical reporting and test set conditions can be achieved, although inflated sensitivity may be evident with test set conditions.
PURPOSE: To establish the extent to which test set reading can represent actual clinical reporting in screening mammography. MATERIALS AND METHODS: Institutional ethics approval was granted, and informed consent was obtained from each participating screen reader. The need for informed consent with respect to the use of patient materials was waived. Two hundred mammographic examinations were selected from examinations reported by 10 individual expert screen readers, resulting in 10 reader-specific test sets. Data generated from actual clinical reports were compared with three test set conditions: clinical test set reading with prior images, laboratory test set reading with prior images, and laboratory test set reading without prior images. A further set of five expert screen readers was asked to interpret a common set of images in two identical test set conditions to establish a baseline for intraobserver variability. Confidence scores (from 1 to 4) were assigned to the respective decisions made by readers. Region-of-interest (ROI) figures of merit (FOMs) and side-specific sensitivity and specificity were described for the actual clinical reporting of each reader-specific test set and were compared with those for the three test set conditions. Agreement between pairs of readings was performed by using the Kendall coefficient of concordance. RESULTS: Moderate or acceptable levels of agreement were evident (W = 0.69-0.73, P < .01) when describing group performance between actual clinical reporting and test set conditions that were reasonably close to the established baseline (W = 0.77, P < .01) and were lowest when prior images were excluded. Higher median values for ROI FOMs were demonstrated for the test set conditions than for the actual clinical reporting values; this was possibly linked to changes in sensitivity. CONCLUSION: Reasonable levels of agreement between actual clinical reporting and test set conditions can be achieved, although inflated sensitivity may be evident with test set conditions.
Authors: David Gur; Howard E Rockette; Derek R Armfield; Arye Blachar; Jennifer K Bogan; Giuseppe Brancatelli; Cynthia A Britton; Manuel L Brown; Peter L Davis; James V Ferris; Carl R Fuhrman; Sara K Golla; Sanj Katyal; Joan M Lacomis; Barry M McCook; F Leland Thaete; Thomas E Warfel Journal: Radiology Date: 2003-07 Impact factor: 11.105
Authors: Patrick C Brennan; Mark McEntee; Michael Evanoff; Peter Phillips; William T O'Connor; David J Manning Journal: AJR Am J Roentgenol Date: 2007-02 Impact factor: 3.959
Authors: Patrick C Brennan; John Ryan; Mike Evanoff; Rachel Toomey; Aaron O'Beirne; David Manning; Dev P Chakraborty; Mark McEntee Journal: Acad Radiol Date: 2008-04 Impact factor: 3.173
Authors: David Gur; Andriy I Bandos; Cathy S Cohen; Christiane M Hakim; Lara A Hardesty; Marie A Ganott; Ronald L Perrin; William R Poller; Ratan Shah; Jules H Sumkin; Luisa P Wallace; Howard E Rockette Journal: Radiology Date: 2008-08-05 Impact factor: 11.105
Authors: Joann G Elmore; Andrea J Cook; Andy Bogart; Patricia A Carney; Berta M Geller; Stephen H Taplin; Diana S M Buist; Tracy Onega; Christoph I Lee; Diana L Miglioretti Journal: Clin Imaging Date: 2016-07-01 Impact factor: 1.605
Authors: Wasfi I Suleiman; Sarah J Lewis; Dianne Georgian-Smith; Michael G Evanoff; Mark F McEntee Journal: J Med Imaging (Bellingham) Date: 2014-05-07
Authors: Alistair Mackenzie; Lucy M Warren; Matthew G Wallis; Julie Cooke; Rosalind M Given-Wilson; David R Dance; Dev P Chakraborty; Mark D Halling-Brown; Padraig T Looney; Kenneth C Young Journal: Eur Radiol Date: 2015-06-25 Impact factor: 5.315
Authors: Diana L Miglioretti; Laura Ichikawa; Robert A Smith; Diana S M Buist; Patricia A Carney; Berta Geller; Barbara Monsees; Tracy Onega; Robert Rosenberg; Edward A Sickles; Bonnie C Yankaskas; Karla Kerlikowske Journal: Acad Radiol Date: 2017-05-24 Impact factor: 3.173
Authors: Abdulaziz S Alshabibi; Moayyad E Suleiman; Salman M Albeshan; Robert Heard; Patrick C Brennan Journal: Br J Radiol Date: 2021-11-04 Impact factor: 3.039
Authors: Gabriela Torres-Mejía; Robert A Smith; María de la Luz Carranza-Flores; Andy Bogart; Louis Martínez-Matsushita; Diana L Miglioretti; Karla Kerlikowske; Carolina Ortega-Olvera; Ernesto Montemayor-Varela; Angélica Angeles-Llerenas; Sergio Bautista-Arredondo; Gilberto Sánchez-González; Olga G Martínez-Montañez; Santos R Uscanga-Sánchez; Eduardo Lazcano-Ponce; Mauricio Hernández-Ávila Journal: BMC Cancer Date: 2015-05-16 Impact factor: 4.430