Development of PainFace software to simplify, standardize, and scale up mouse grimace analyses

Eric S. McCoy; Sang Kyoon Park; Rahul P. Patel; Dan F. Ryan; Zachary J. Mullen; Jacob J. Nesbitt; Josh E. Lopez; Bonnie Taylor‐Blake; Kelly A. Vanden; James L. Krantz; Wenxin Hu; Rosanna L. Garris; Magdalyn G. Snyder; Lucas Vieira Lima; Susana G. Sotocinal; Jean-Sébastien Austin; Adam D. Kashlan; Sanya Shah; Abigail K. Trocinski; Samhitha S. Pudipeddi; Rami M. Major; Hannah Bazick; Morgan R. Klein; Jeffrey S. Mogil; Guorong Wu; Mark J. Zylka

doi:10.1097/j.pain.0000000000003187

Development of PainFace software to simplify, standardize, and scale up mouse grimace analyses

Eric S. McCoy(University of North Carolina at Chapel Hill), Sang Kyoon Park(University of North Carolina at Chapel Hill), Rahul P. Patel(University of North Carolina at Chapel Hill), Dan F. Ryan(University of North Carolina at Chapel Hill), Zachary J. Mullen(Apple (Israel)), Jacob J. Nesbitt(Apple (Israel)), Josh E. Lopez(University of North Carolina at Chapel Hill), Bonnie Taylor‐Blake(University of North Carolina at Chapel Hill), Kelly A. Vanden(University of North Carolina at Chapel Hill), James L. Krantz(University of North Carolina at Chapel Hill), Wenxin Hu(University of North Carolina at Chapel Hill), Rosanna L. Garris(University of North Carolina at Chapel Hill), Magdalyn G. Snyder(University of North Carolina at Chapel Hill), Lucas Vieira Lima(Apple (Israel)), Susana G. Sotocinal(Apple (Israel)), Jean-Sébastien Austin(Apple (Israel)), Adam D. Kashlan(University of North Carolina at Chapel Hill), Sanya Shah(University of North Carolina at Chapel Hill), Abigail K. Trocinski(University of North Carolina at Chapel Hill), Samhitha S. Pudipeddi(University of North Carolina at Chapel Hill), Rami M. Major(University of North Carolina at Chapel Hill), Hannah Bazick(University of North Carolina at Chapel Hill), Morgan R. Klein(University of North Carolina at Chapel Hill), Jeffrey S. Mogil(Apple (Israel)), Guorong Wu(University of North Carolina at Chapel Hill), Mark J. Zylka(University of North Carolina at Chapel Hill)

Pain

February 12, 2024

10.1097/j.pain.0000000000003187

Cited by 31Open Access

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Abstract

ABSTRACT: Facial grimacing is used to quantify spontaneous pain in mice and other mammals, but scoring relies on humans with different levels of proficiency. Here, we developed a cloud-based software platform called PainFace (http://painface.net) that uses machine learning to detect 4 facial action units of the mouse grimace scale (orbitals, nose, ears, whiskers) and score facial grimaces of black-coated C57BL/6 male and female mice on a 0 to 8 scale. Platform accuracy was validated in 2 different laboratories, with 3 conditions that evoke grimacing-laparotomy surgery, bilateral hindpaw injection of carrageenan, and intraplantar injection of formalin. PainFace can generate up to 1 grimace score per second from a standard 30 frames/s video, making it possible to quantify facial grimacing over time, and operates at a speed that scales with computing power. By analyzing the frequency distribution of grimace scores, we found that mice spent 7x more time in a "high grimace" state following laparotomy surgery relative to sham surgery controls. Our study shows that PainFace reproducibly quantifies facial grimaces indicative of nonevoked spontaneous pain and enables laboratories to standardize and scale-up facial grimace analyses.

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