Machine learning for rhabdomyosarcoma histopathology

Frankel, Arthur O; Lathara, Melvin; Shaw, Celine Y; Wogmon, Owen; Jackson, Jacob M; Clark, Mattie M; Eshraghi, Navah; Keenen, Stephanie E; Woods, Andrew D; Purohit, Reshma; Ishi, Yukitomo; Moran, Nirupama; Eguchi, Mariko; Ahmed, Farhat Ul Ain; Khan, Sara; Ιωάννου, Μαρία; Perivoliotis, Konstantinos; Пин, Ли; Zhou, Huixia; Alkhaledi, Ahmad; Davis, Elizabeth J.; Galipeau, Danielle; Randall, R. Lor; Woźniak, Agnieszka; Schöffski, Patrick; Lee, Che-Jui; Huang, Paul H.; Jones, Robin L.; Rubin, Brian P.; Darrow, Morgan A.; Srinivasa, Ganapati; Rudzinski, Erin R.; Chen, Sonja; Berlow, Noah; Keller, Charles

doi:10.1038/s41379-022-01075-x

Cited by 11 publications

(11 citation statements)

References 21 publications

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“…8 Beyond imaging, AI models have led to the development of convolutional neuronal networks that have successfully classified sarcoma subtypes, showing high accuracy in STS among pediatric and young adults. 9 In a multicenter trial, Foersch et al utilized 506 histological slides from 291 patients with STS to develop a deep-learning model that accurately diagnosed common STS pathologies, the most common being leiomyosarcoma. 10 Machine learning was also shown to define sarcoma classifications for diagnosis by utilizing tumor methylation profiles.…”

Section: Ai and Machine Learningmentioning

confidence: 99%

“…Another application included utilizing algorithms to read MR images, which successfully predicted the grading of some STS 8 . Beyond imaging, AI models have led to the development of convolutional neuronal networks that have successfully classified sarcoma subtypes, showing high accuracy in STS among pediatric and young adults 9 . In a multicenter trial, Foersch et al utilized 506 histological slides from 291 patients with STS to develop a deep‐learning model that accurately diagnosed common STS pathologies, the most common being leiomyosarcoma 10 .…”

Section: Emerging Technologymentioning

confidence: 99%

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Emerging innovations and advancements in the treatment of extremity and truncal soft tissue sarcomas

Walker,

Simister,

Carr‐Ascher

et al. 2023

Journal of Surgical Oncology

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In this special edition update on soft tissue sarcomas (STS), we cover classifications, emerging technologies, prognostic tools, radiation schemas, and treatment disparities in extremity and truncal STS. We discuss the importance of enhancing local control and reducing complications, including the role of innovative imaging, surgical guidance, and hypofractionated radiation. We review advancements in systemic and immunotherapeutic treatments and introduce disparities seen in this vulnerable population that must be considered to improve overall patient care.

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Section: Ai and Machine Learningmentioning

confidence: 99%

Section: Emerging Technologymentioning

confidence: 99%

Emerging innovations and advancements in the treatment of extremity and truncal soft tissue sarcomas

Walker,

Simister,

Carr‐Ascher

et al. 2023

Journal of Surgical Oncology

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show abstract

“…The AI-based techniques on radiological images have been only applied in extremity tumors and the diagnostic potential of AI-based strategies needs further exploration in other tumors, such as abdominal and chest tumors. Zhang et al [55] and Frankel et al [56] developed DL-CNN differential diagnosis system with an AUC of 0.889 for pre-pathologist screening and quantifying diagnosis likelihood of trained soft-tissue sarcoma subtypes based on whole histopathology tissue slides. Considering the limited worldwide availability of sarcoma pathology expertise, this AI-based approach suggested assistance for local pathologists to quickly narrow the differential diagnosis of the sarcoma subtype in children, adolescents, and young adults.…”

Section: Extracranial Tumor Diagnosismentioning

confidence: 99%

Artificial intelligence applications in pediatric oncology diagnosis

Zhang

2023

Exploration of Targeted Anti-Tumor Therapy

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Artificial intelligence (AI) algorithms have been applied in abundant medical tasks with high accuracy and efficiency. Physicians can improve their diagnostic efficiency with the assistance of AI techniques for improving the subsequent personalized treatment and surveillance. AI algorithms fundamentally capture data, identify underlying patterns, achieve preset endpoints, and provide decisions and predictions about real-world events with working principles of machine learning and deep learning. AI algorithms with sufficient graphic processing unit power have been demonstrated to provide timely diagnostic references based on preliminary training of large amounts of clinical and imaging data. The sample size issue is an inevitable challenge for pediatric oncology considering its low morbidity and individual heterogeneity. However, this problem may be solved in the near future considering the exponential advancements of AI algorithms technically to decrease the dependence of AI operation on the amount of data sets and the efficiency of computing power. For instance, it could be a feasible solution by shifting convolutional neural networks (CNNs) from adults and sharing CNN algorithms across multiple institutions besides original data. The present review provides important insights into emerging AI applications for the diagnosis of pediatric oncology by systematically overviewing of up-to-date literature.

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“…Berlow co-developed an automated screening tool that ranks by diagnosis likelihood all the possible cancers a person could have. This helps pathologists to decide quickly which confirmatory tests to conduct, and could prove especially useful in rural areas and developing countries that lack pathologists 2 . Trained on 424 tissue slides of sarcoma tumours, the model is more than 88% effective at detecting all tested sarcoma subtypes.…”

Section: An Engineer's Perspectivementioning

confidence: 99%

How engineers and drug developers are working to change childhood cancer’s deadly calculus

Landhuis¹

2022

Nature

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Machine learning for rhabdomyosarcoma histopathology

Cited by 11 publications

References 21 publications

Emerging innovations and advancements in the treatment of extremity and truncal soft tissue sarcomas

Emerging innovations and advancements in the treatment of extremity and truncal soft tissue sarcomas

Artificial intelligence applications in pediatric oncology diagnosis

How engineers and drug developers are working to change childhood cancer’s deadly calculus

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