CONTEXT: - Novel therapeutics often target complex cellular mechanisms. Increasingly, quantitative methods like digital tissue image analysis (tIA) are required to evaluate correspondingly complex biomarkers to elucidate subtle phenotypes that can inform treatment decisions with these targeted therapies. These tIA systems need a gold standard, or reference method, to establish analytical validity. Conventional, subjective histopathologic scores assigned by an experienced pathologist are the gold standard in anatomic pathology and are an attractive reference method. The pathologist's score can establish the ground truth to assess a tIA solution's analytical performance. The paradox of this validation strategy, however, is that tIA is often used to assist pathologists to score complex biomarkers because it is more objective and reproducible than manual evaluation alone by overcoming known biases in a human's visual evaluation of tissue, and because it can generate endpoints that cannot be generated by a human observer. OBJECTIVE: - To discuss common visual and cognitive traps known in traditional pathology-based scoring paradigms that may impact characterization of tIA-assisted scoring accuracy, sensitivity, and specificity. DATA SOURCES: - This manuscript reviews the current literature from the past decades available for traditional subjective pathology scoring paradigms and known cognitive and visual traps relevant to these scoring paradigms. CONCLUSIONS: - Awareness of the gold standard paradox is necessary when using traditional pathologist scores to analytically validate a tIA tool because image analysis is used specifically to overcome known sources of bias in visual assessment of tissue sections.
CONTEXT: - Novel therapeutics often target complex cellular mechanisms. Increasingly, quantitative methods like digital tissue image analysis (tIA) are required to evaluate correspondingly complex biomarkers to elucidate subtle phenotypes that can inform treatment decisions with these targeted therapies. These tIA systems need a gold standard, or reference method, to establish analytical validity. Conventional, subjective histopathologic scores assigned by an experienced pathologist are the gold standard in anatomic pathology and are an attractive reference method. The pathologist's score can establish the ground truth to assess a tIA solution's analytical performance. The paradox of this validation strategy, however, is that tIA is often used to assist pathologists to score complex biomarkers because it is more objective and reproducible than manual evaluation alone by overcoming known biases in a human's visual evaluation of tissue, and because it can generate endpoints that cannot be generated by a human observer. OBJECTIVE: - To discuss common visual and cognitive traps known in traditional pathology-based scoring paradigms that may impact characterization of tIA-assisted scoring accuracy, sensitivity, and specificity. DATA SOURCES: - This manuscript reviews the current literature from the past decades available for traditional subjective pathology scoring paradigms and known cognitive and visual traps relevant to these scoring paradigms. CONCLUSIONS: - Awareness of the gold standard paradox is necessary when using traditional pathologist scores to analytically validate a tIA tool because image analysis is used specifically to overcome known sources of bias in visual assessment of tissue sections.
Authors: Famke Aeffner; Hibret A Adissu; Michael C Boyle; Robert D Cardiff; Erik Hagendorn; Mark J Hoenerhoff; Robert Klopfleisch; Susan Newbigging; Dirk Schaudien; Oliver Turner; Kristin Wilson Journal: ILAR J Date: 2018-12-01
Authors: Lauren E Himmel; Troy A Hackett; Jessica L Moore; Wilson R Adams; Giju Thomas; Tatiana Novitskaya; Richard M Caprioli; Andries Zijlstra; Anita Mahadevan-Jansen; Kelli L Boyd Journal: ILAR J Date: 2018-12-01
Authors: James Saller; Sameer Al Diffalha; Kevin Neill; Rahill A Bhaskar; Cecilia Oliveri; David Boulware; Henry Levine; Isaac Kalvaria; F Scott Corbett; Arun Khazanchi; Jason Klapman; Domenico Coppola Journal: Dig Dis Sci Date: 2019-11-05 Impact factor: 3.199
Authors: Susan A Elmore; Famke Aeffner; Dinesh S Bangari; Torrie A Crabbs; Stacey Fossey; Shayne C Gad; Wanda M Haschek; Jessica S Hoane; Kyathanahalli Janardhan; Ramesh C Kovi; Gail Pearse; Lyn M Wancket; Erin M Quist Journal: Toxicol Pathol Date: 2017-11-07 Impact factor: 1.902
Authors: Meghan Hupp; Sarah Williams; Brian Dunnette; Katelyn M Tessier; Elizabeth L Courville Journal: Hum Pathol Date: 2018-08-30 Impact factor: 3.466
Authors: Kristin Wilson; Crystal Faelan; Janet C Patterson-Kane; Daniel G Rudmann; Steven A Moore; Diane Frank; Jay Charleston; Jon Tinsley; G David Young; Anthony J Milici Journal: Toxicol Pathol Date: 2017-10-03 Impact factor: 1.902
Authors: Famke Aeffner; Crystal Faelan; Steven A Moore; Alexander Moody; Joshua C Black; Jay S Charleston; Diane E Frank; Johannes Dworzak; J Kris Piper; Manish Ranjitkar; Kristin Wilson; Suzanne Kanaly; Daniel G Rudmann; Holger Lange; G David Young; Anthony J Milici Journal: Arch Pathol Lab Med Date: 2018-08-31 Impact factor: 5.534
Authors: Marylène Lejeune; Benoît Plancoulaine; Nicolas Elie; Ramon Bosch; Laia Fontoura; Izar de Villasante; Anna Korzyńska; Andrea Gras Navarro; Esther Sauras Colón; Carlos López Journal: Histochem Cell Biol Date: 2021-08-12 Impact factor: 4.304