A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence

IMPORTANCE: Substantial heterogeneity exists in treatment recommendations across molecular tumor boards (MTBs), especially for biomarkers with low evidence levels; therefore, the learning program is essential. OBJECTIVE: To determine whether a learning program sharing treatment recommendations for b...

Descripción completa

Detalles Bibliográficos
Autores principales: Sunami, Kuniko, Naito, Yoichi, Saigusa, Yusuke, Amano, Toraji, Ennishi, Daisuke, Imai, Mitsuho, Kage, Hidenori, Kanai, Masashi, Kenmotsu, Hirotsugu, Komine, Keigo, Koyama, Takafumi, Maeda, Takahiro, Morita, Sachi, Sakai, Daisuke, Hirata, Makoto, Ito, Mamoru, Kozuki, Toshiyuki, Sakashita, Hiroyuki, Horinouchi, Hidehito, Okuma, Yusuke, Takashima, Atsuo, Kubo, Toshio, Hironaka, Shuichi, Segawa, Yoshihiko, Yakushijin, Yoshihiro, Bando, Hideaki, Makiyama, Akitaka, Suzuki, Tatsuya, Kinoshita, Ichiro, Kohsaka, Shinji, Ohe, Yuichiro, Ishioka, Chikashi, Yamamoto, Kouji, Tsuchihara, Katsuya, Yoshino, Takayuki
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Medical Association 2023
Materias:
Original Investigation
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10690580/
https://www.ncbi.nlm.nih.gov/pubmed/38032680
http://dx.doi.org/10.1001/jamaoncol.2023.5120
_version_ 1785152551217266688
author Sunami, Kuniko
Naito, Yoichi
Saigusa, Yusuke
Amano, Toraji
Ennishi, Daisuke
Imai, Mitsuho
Kage, Hidenori
Kanai, Masashi
Kenmotsu, Hirotsugu
Komine, Keigo
Koyama, Takafumi
Maeda, Takahiro
Morita, Sachi
Sakai, Daisuke
Hirata, Makoto
Ito, Mamoru
Kozuki, Toshiyuki
Sakashita, Hiroyuki
Horinouchi, Hidehito
Okuma, Yusuke
Takashima, Atsuo
Kubo, Toshio
Hironaka, Shuichi
Segawa, Yoshihiko
Yakushijin, Yoshihiro
Bando, Hideaki
Makiyama, Akitaka
Suzuki, Tatsuya
Kinoshita, Ichiro
Kohsaka, Shinji
Ohe, Yuichiro
Ishioka, Chikashi
Yamamoto, Kouji
Tsuchihara, Katsuya
Yoshino, Takayuki
author_facet Sunami, Kuniko
Naito, Yoichi
Saigusa, Yusuke
Amano, Toraji
Ennishi, Daisuke
Imai, Mitsuho
Kage, Hidenori
Kanai, Masashi
Kenmotsu, Hirotsugu
Komine, Keigo
Koyama, Takafumi
Maeda, Takahiro
Morita, Sachi
Sakai, Daisuke
Hirata, Makoto
Ito, Mamoru
Kozuki, Toshiyuki
Sakashita, Hiroyuki
Horinouchi, Hidehito
Okuma, Yusuke
Takashima, Atsuo
Kubo, Toshio
Hironaka, Shuichi
Segawa, Yoshihiko
Yakushijin, Yoshihiro
Bando, Hideaki
Makiyama, Akitaka
Suzuki, Tatsuya
Kinoshita, Ichiro
Kohsaka, Shinji
Ohe, Yuichiro
Ishioka, Chikashi
Yamamoto, Kouji
Tsuchihara, Katsuya
Yoshino, Takayuki
author_sort Sunami, Kuniko
collection PubMed
description IMPORTANCE: Substantial heterogeneity exists in treatment recommendations across molecular tumor boards (MTBs), especially for biomarkers with low evidence levels; therefore, the learning program is essential. OBJECTIVE: To determine whether a learning program sharing treatment recommendations for biomarkers with low evidence levels contributes to the standardization of MTBs and to investigate the efficacy of an artificial intelligence (AI)–based annotation system. DESIGN, SETTING, AND PARTICIPANTS: This prospective quality improvement study used 50 simulated cases to assess concordance of treatment recommendations between a central committee and participants. Forty-seven participants applied from April 7 to May 13, 2021. Fifty simulated cases were randomly divided into prelearning and postlearning evaluation groups to assess similar concordance based on previous investigations. Participants included MTBs at hub hospitals, treating physicians at core hospitals, and AI systems. Each participant made treatment recommendations for each prelearning case from registration to June 30, 2021; participated in the learning program on July 18, 2021; and made treatment recommendations for each postlearning case from August 3 to September 30, 2021. Data were analyzed from September 2 to December 10, 2021. EXPOSURES: The learning program shared the methodology of making appropriate treatment recommendations, especially for biomarkers with low evidence levels. MAIN OUTCOMES AND MEASURES: The primary end point was the proportion of MTBs that met prespecified accreditation criteria for postlearning evaluations (approximately 90% concordance with high evidence levels and approximately 40% with low evidence levels). Key secondary end points were chronological enhancements in the concordance of treatment recommendations on postlearning evaluations from prelearning evaluations. Concordance of treatment recommendations by an AI system was an exploratory end point. RESULTS: Of the 47 participants who applied, 42 were eligible. The accreditation rate of the MTBs was 55.6% (95% CI, 35.3%-74.5%; P < .001). Concordance in MTBs increased from 58.7% (95% CI, 52.8%-64.4%) to 67.9% (95% CI, 61.0%-74.1%) (odds ratio, 1.40 [95% CI, 1.06-1.86]; P = .02). In postlearning evaluations, the concordance of treatment recommendations by the AI system was significantly higher than that of MTBs (88.0% [95% CI, 68.7%-96.1%]; P = .03). CONCLUSIONS AND RELEVANCE: The findings of this quality improvement study suggest that use of a learning program improved the concordance of treatment recommendations provided by MTBs to central ones. Treatment recommendations made by an AI system showed higher concordance than that for MTBs, indicating the potential clinical utility of the AI system.
format Online
Article
Text
id pubmed-10690580
institution National Center for Biotechnology Information
language English
publishDate 2023
publisher American Medical Association
record_format MEDLINE/PubMed
spelling pubmed-106905802023-12-02 A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence Sunami, Kuniko Naito, Yoichi Saigusa, Yusuke Amano, Toraji Ennishi, Daisuke Imai, Mitsuho Kage, Hidenori Kanai, Masashi Kenmotsu, Hirotsugu Komine, Keigo Koyama, Takafumi Maeda, Takahiro Morita, Sachi Sakai, Daisuke Hirata, Makoto Ito, Mamoru Kozuki, Toshiyuki Sakashita, Hiroyuki Horinouchi, Hidehito Okuma, Yusuke Takashima, Atsuo Kubo, Toshio Hironaka, Shuichi Segawa, Yoshihiko Yakushijin, Yoshihiro Bando, Hideaki Makiyama, Akitaka Suzuki, Tatsuya Kinoshita, Ichiro Kohsaka, Shinji Ohe, Yuichiro Ishioka, Chikashi Yamamoto, Kouji Tsuchihara, Katsuya Yoshino, Takayuki JAMA Oncol Original Investigation IMPORTANCE: Substantial heterogeneity exists in treatment recommendations across molecular tumor boards (MTBs), especially for biomarkers with low evidence levels; therefore, the learning program is essential. OBJECTIVE: To determine whether a learning program sharing treatment recommendations for biomarkers with low evidence levels contributes to the standardization of MTBs and to investigate the efficacy of an artificial intelligence (AI)–based annotation system. DESIGN, SETTING, AND PARTICIPANTS: This prospective quality improvement study used 50 simulated cases to assess concordance of treatment recommendations between a central committee and participants. Forty-seven participants applied from April 7 to May 13, 2021. Fifty simulated cases were randomly divided into prelearning and postlearning evaluation groups to assess similar concordance based on previous investigations. Participants included MTBs at hub hospitals, treating physicians at core hospitals, and AI systems. Each participant made treatment recommendations for each prelearning case from registration to June 30, 2021; participated in the learning program on July 18, 2021; and made treatment recommendations for each postlearning case from August 3 to September 30, 2021. Data were analyzed from September 2 to December 10, 2021. EXPOSURES: The learning program shared the methodology of making appropriate treatment recommendations, especially for biomarkers with low evidence levels. MAIN OUTCOMES AND MEASURES: The primary end point was the proportion of MTBs that met prespecified accreditation criteria for postlearning evaluations (approximately 90% concordance with high evidence levels and approximately 40% with low evidence levels). Key secondary end points were chronological enhancements in the concordance of treatment recommendations on postlearning evaluations from prelearning evaluations. Concordance of treatment recommendations by an AI system was an exploratory end point. RESULTS: Of the 47 participants who applied, 42 were eligible. The accreditation rate of the MTBs was 55.6% (95% CI, 35.3%-74.5%; P < .001). Concordance in MTBs increased from 58.7% (95% CI, 52.8%-64.4%) to 67.9% (95% CI, 61.0%-74.1%) (odds ratio, 1.40 [95% CI, 1.06-1.86]; P = .02). In postlearning evaluations, the concordance of treatment recommendations by the AI system was significantly higher than that of MTBs (88.0% [95% CI, 68.7%-96.1%]; P = .03). CONCLUSIONS AND RELEVANCE: The findings of this quality improvement study suggest that use of a learning program improved the concordance of treatment recommendations provided by MTBs to central ones. Treatment recommendations made by an AI system showed higher concordance than that for MTBs, indicating the potential clinical utility of the AI system. American Medical Association 2023-11-30 /pmc/articles/PMC10690580/ /pubmed/38032680 http://dx.doi.org/10.1001/jamaoncol.2023.5120 Text en Copyright 2023 Sunami K et al. JAMA Oncology. https://creativecommons.org/licenses/by-nc-nd/4.0/This is an open access article distributed under the terms of the CC-BY-NC-ND License.
spellingShingle Original Investigation
Sunami, Kuniko
Naito, Yoichi
Saigusa, Yusuke
Amano, Toraji
Ennishi, Daisuke
Imai, Mitsuho
Kage, Hidenori
Kanai, Masashi
Kenmotsu, Hirotsugu
Komine, Keigo
Koyama, Takafumi
Maeda, Takahiro
Morita, Sachi
Sakai, Daisuke
Hirata, Makoto
Ito, Mamoru
Kozuki, Toshiyuki
Sakashita, Hiroyuki
Horinouchi, Hidehito
Okuma, Yusuke
Takashima, Atsuo
Kubo, Toshio
Hironaka, Shuichi
Segawa, Yoshihiko
Yakushijin, Yoshihiro
Bando, Hideaki
Makiyama, Akitaka
Suzuki, Tatsuya
Kinoshita, Ichiro
Kohsaka, Shinji
Ohe, Yuichiro
Ishioka, Chikashi
Yamamoto, Kouji
Tsuchihara, Katsuya
Yoshino, Takayuki
A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title_full A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title_fullStr A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title_full_unstemmed A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title_short A Learning Program for Treatment Recommendations by Molecular Tumor Boards and Artificial Intelligence
title_sort learning program for treatment recommendations by molecular tumor boards and artificial intelligence
topic Original Investigation
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC10690580/
https://www.ncbi.nlm.nih.gov/pubmed/38032680
http://dx.doi.org/10.1001/jamaoncol.2023.5120
work_keys_str_mv AT sunamikuniko alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT naitoyoichi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT saigusayusuke alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT amanotoraji alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT ennishidaisuke alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT imaimitsuho alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kagehidenori alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kanaimasashi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kenmotsuhirotsugu alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kominekeigo alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT koyamatakafumi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT maedatakahiro alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT moritasachi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT sakaidaisuke alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT hiratamakoto alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT itomamoru alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kozukitoshiyuki alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT sakashitahiroyuki alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT horinouchihidehito alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT okumayusuke alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT takashimaatsuo alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kubotoshio alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT hironakashuichi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT segawayoshihiko alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yakushijinyoshihiro alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT bandohideaki alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT makiyamaakitaka alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT suzukitatsuya alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kinoshitaichiro alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kohsakashinji alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT oheyuichiro alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT ishiokachikashi alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yamamotokouji alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT tsuchiharakatsuya alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yoshinotakayuki alearningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT sunamikuniko learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT naitoyoichi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT saigusayusuke learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT amanotoraji learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT ennishidaisuke learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT imaimitsuho learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kagehidenori learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kanaimasashi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kenmotsuhirotsugu learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kominekeigo learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT koyamatakafumi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT maedatakahiro learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT moritasachi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT sakaidaisuke learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT hiratamakoto learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT itomamoru learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kozukitoshiyuki learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT sakashitahiroyuki learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT horinouchihidehito learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT okumayusuke learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT takashimaatsuo learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kubotoshio learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT hironakashuichi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT segawayoshihiko learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yakushijinyoshihiro learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT bandohideaki learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT makiyamaakitaka learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT suzukitatsuya learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kinoshitaichiro learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT kohsakashinji learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT oheyuichiro learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT ishiokachikashi learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yamamotokouji learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT tsuchiharakatsuya learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence
AT yoshinotakayuki learningprogramfortreatmentrecommendationsbymoleculartumorboardsandartificialintelligence

Ejemplares similares