Identifying the Best Machine Learning Algorithms for Brain Tumor Segmentation, Progression Assessment, and Overall Survival Prediction in the BRATS Challenge

Bakas Spyridon,Reyes Mauricio,Jakab Andras,Bauer Stefan,Rempfler Markus,Crimi Alessandro,Shinohara Russell Takeshi,Berger Christoph,Ha Sung Min,Rozycki Martin,Prastawa Marcel,Alberts Esther,Lipkova Jana,Freymann John,Kirby Justin,Bilello Michel,Fathallah-Shaykh Hassan,Wiest Roland,Kirschke Jan,Wiestler Benedikt,Colen Rivka,Kotrotsou Aikaterini,Lamontagne Pamela,Marcus Daniel,Milchenko Mikhail,Nazeri Arash,Weber Marc-Andre,Mahajan Abhishek,Baid Ujjwal,Gerstner Elizabeth,Kwon Dongjin,Acharya Gagan,Agarwal Manu,Alam Mahbubul,Albiol Alberto,Albiol Antonio,Albiol Francisco J.,Alex Varghese,Allinson Nigel, Amorim Pedro H. A.,Amrutkar Abhijit, Anand Ganesh,Andermatt Simon,Arbel Tal,Arbelaez Pablo, Avery Aaron,Azmat Muneeza, B. Pranjal,Bai W,Banerjee Subhashis, Barth Bill,Batchelder Thomas,Batmanghelich Kayhan,Battistella Enzo,Beers Andrew,Belyaev Mikhail,Bendszus Martin,Benson Eze,Bernal Jose,Bharath Halandur Nagaraja,Biros George,Bisdas Sotirios,Brown James,Cabezas Mariano,Cao Shilei,Cardoso Jorge M.,Carver Eric N,Casamitjana Adrià, Castillo Laura Silvana,Catà Marcel,Cattin Philippe,Cerigues Albert, Chagas Vinicius S.,Chandra Siddhartha, Chang Yi-Ju,Chang Shiyu,Chang Ken,Chazalon Joseph,Chen Shengcong,Chen Wei,Chen Jefferson W,Chen Zhaolin,Cheng Kun,Choudhury Ahana Roy, Chylla Roger,Clérigues Albert, Colleman Steven, Colmeiro Ramiro German Rodriguez,Combalia Marc,Costa Anthony, Cui Xiaomeng,Dai Zhenzhen, Dai Lutao,Daza Laura Alexandra,Deutsch Eric,Ding Changxing, Dong Chao, Dong Shidu,Dudzik Wojciech,Eaton-Rosen Zach,Egan Gary,Escudero Guilherme,Estienne Théo, Everson Richard,Fabrizio Jonathan,Fan Yong, Fang Longwei,Feng Xue,Ferrante Enzo,Fidon Lucas,Fischer Martin,French Andrew P., Fridman Naomi,Fu Huan,Fuentes David,Gao Yaozong, Gates Evan,Gering David,Gholami Amir,Gierke Willi,Glocker Ben,Gong Mingming,González-Villá Sandra,Grosges T., Guan Yuanfang,Guo Sheng, Gupta Sudeep, Han Woo-Sup,Han Il Song, Harmuth Konstantin,He Huiguang,Hernández-Sabaté Aura,Herrmann Evelyn,Himthani Naveen,Hsu Winston, Hsu Cheyu, Hu Xiaojun,Hu Xiaobin, Hu Yan, Hu Yifan, Hua Rui, Huang Teng-Yi,Huang Weilin, Van Huffel Sabine, Huo Quan,HV Vivek,Iftekharuddin Khan M.,Isensee Fabian,Islam Mobarakol,Jackson Aaron S.,Jambawalikar Sachin R.,Jesson Andrew, Jian Weijian, Jin Peter,Jose V Jeya Maria,Jungo Alain,Kainz B,Kamnitsas Konstantinos,Kao Po-Yu,Karnawat Ayush,Kellermeier Thomas,Kermi Adel,Keutzer Kurt,Khadir Mohamed Tarek,Khened Mahendra,Kickingereder Philipp,Kim Geena,King Nik, Knapp Haley, Knecht Urspeter, Kohli Lisa, Kong Deren, Kong Xiangmao,Koppers Simon,Kori Avinash,Krishnamurthi Ganapathy,Krivov Egor,Kumar Piyush,Kushibar Kaisar, Lachinov Dmitrii,Lambrou Tryphon, Lee Joon, Lee Chengen,Lee Yuehchou,Lee M,Lefkovits Szidonia,Lefkovits Laszlo,Levitt James,Li Tengfei,Li Hongwei,Li Wenqi, Li Hongyang, Li Xiaochuan,Li Yuexiang, Li Heng, Li Zhenye, Li Xiaoyu,Li Zeju, Li XiaoGang,Li Wenqi, Lin Zheng-Shen,Lin Fengming,Lio Pietro, Liu Chang, Liu Boqiang, Liu Xiang,Liu Mingyuan, Liu Ju, Liu Luyan,Llado Xavier,Lopez Marc Moreno,Lorenzo Pablo Ribalta, Lu Zhentai, Luo Lin, Luo Zhigang,Ma Jun,Ma Kai,Mackie Thomas, Madabushi Anant,Mahmoudi Issam,Maier-Hein Klaus H.,Maji Pradipta, Mammen CP,Mang Andreas,Manjunath B. S.,Marcinkiewicz Michal,McDonagh S,McKenna Stephen,McKinley Richard, Mehl Miriam,Mehta Sachin, Mehta Raghav,Meier Raphael,Meinel Christoph,Merhof Dorit,Meyer Craig, Miller Robert,Mitra Sushmita, Moiyadi Aliasgar,Molina-Garcia David, Monteiro Miguel A. B.,Mrukwa Grzegorz,Myronenko Andriy,Nalepa Jakub, Ngo Thuyen,Nie Dong, Ning Holly, Niu Chen,Nuechterlein Nicholas K,Oermann Eric,Oliveira Arlindo, Oliveira Diego D. C.,Oliver Arnau,Osman Alexander F. I.,Ou Yu-Nian,Ourselin Sebastien,Paragios Nikos, Park Moo Sung,Paschke Brad,Pauloski J. Gregory,Pawar Kamlesh,Pawlowski Nick,Pei Linmin, Peng Suting, Pereira Silvio M.,Perez-Beteta Julian,Perez-Garcia Victor M., Pezold Simon, Pham Bao,Phophalia Ashish,Piella Gemma, Pillai G. N.,Piraud Marie,Pisov Maxim,Popli Anmol,Pound Michael P.,Pourreza Reza,Prasanna Prateek,Prkovska Vesna,Pridmore Tony P., Puch Santi,Puybareau Élodie, Qian Buyue, Qiao Xu,Rajchl Martin,Rane Swapnil,Rebsamen Michael,Ren Hongliang,Ren Xuhua, Revanuru Karthik,Rezaei Mina,Rippel Oliver,Rivera Luis Carlos,Robert Charlotte,Rosen Bruce,Rueckert Daniel, Safwan Mohammed,Salem Mostafa, Salvi Joaquim, Sanchez Irina, Sánchez Irina, Santos Heitor M.,Sartor Emmett, Schellingerhout Dawid,Scheufele Klaudius,Scott Matthew R., Scussel Artur A., Sedlar Sara,Serrano-Rubio Juan Pablo,Shah N. Jon, Shah Nameetha,Shaikh Mazhar,Shankar B. Uma,Shboul Zeina, Shen Haipeng,Shen Dinggang,Shen Linlin,Shen Haocheng,Shenoy Varun,Shi Feng, Shin Hyung Eun,Shu Hai,Sima Diana,Sinclair M,Smedby Orjan,Snyder James M.,Soltaninejad Mohammadreza, Song Guidong, Soni Mehul, Stawiaski Jean,Subramanian Shashank,Sun Li,Sun Roger, Sun Jiawei, Sun Kay, Sun Yu, Sun Guoxia, Sun Shuang,Suter Yannick R,Szilagyi Laszlo,Talbar Sanjay,Tao Dacheng, Teng Zhongzhao,Thakur Siddhesh, Thakur Meenakshi H,Tharakan Sameer,Tiwari Pallavi,Tochon Guillaume,Tran Tuan, Tsai Yuhsiang M., Tseng Kuan-Lun,Tuan Tran Anh,Turlapov Vadim,Tustison Nicholas,Vakalopoulou Maria,Valverde Sergi,Vanguri Rami, Vasiliev Evgeny,Ventura Jonathan, Vera Luis,Vercauteren Tom, Verrastro C. A.,Vidyaratne Lasitha,Vilaplana Veronica,Vivekanandan Ajeet,Wang Guotai, Wang Qian, Wang Chiatse J.,Wang Weichung,Wang Duo, Wang Ruixuan, Wang Yuanyuan,Wang Chunliang,Wang Guotai, Wen Ning, Wen Xin,Weninger Leon,Wick Wolfgang, Wu Shaocheng,Wu Qiang, Wu Yihong,Xia Yong,Xu Yanwu, Xu Xiaowen, Xu Peiyuan, Yang Tsai-Ling, Yang Xiaoping,Yang Hao-Yu, Yang Junlin,Yang Haojin,Yang Guang, Yao Hongdou,Ye Xujiong,Yin Changchang, Young-Moxon Brett, Yu Jinhua,Yue Xiangyu, Zhang Songtao,Zhang Angela,Zhang Kun, Zhang Xuejie,Zhang Lichi,Zhang Xiaoyue, Zhang Yazhuo,Zhang Lei,Zhang Jianguo, Zhang Xiang, Zhang Tianhao,Zhao Sicheng,Zhao Yu, Zhao Xiaomei,Zhao Liang,Zheng Yefeng,Zhong Liming,Zhou Chenhong, Zhou Xiaobing,Zhou Fan,Zhu Hongtu, Zhu Jin, Zhuge Ying,Zong Weiwei,Kalpathy-Cramer Jayashree,Farahani Keyvan,Davatzikos Christos,van Leemput Koen,Menze Bjoern

arXiv: Computer Vision and Pattern Recognition（2018）

引用 1251|浏览36

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摘要

Gliomas are the most common primary brain malignancies, with different degrees of aggressiveness, variable prognosis and various heterogeneous histologic sub-regions, i.e., peritumoral edematous/invaded tissue, necrotic core, active and non-enhancing core. This intrinsic heterogeneity is also portrayed in their radio-phenotype, as their sub-regions are depicted by varying intensity profiles disseminated across multi-parametric magnetic resonance imaging (mpMRI) scans, reflecting varying biological properties. Their heterogeneous shape, extent, and location are some of the factors that make these tumors difficult to resect, and in some cases inoperable. The amount of resected tumoris a factor also considered in longitudinal scans, when evaluating the apparent tumor for potential diagnosis of progression. Furthermore, there is mounting evidence that accurate segmentation of the various tumor sub-regions can offer the basis for quantitative image analysis towards prediction of patient overall survival. This study assesses thestate-of-the-art machine learning (ML) methods used for brain tumor image analysis in mpMRI scans, during the last seven instances of the International Brain Tumor Segmentation (BraTS) challenge, i.e., 2012-2018. Specifically, we focus on i) evaluating segmentations of the various glioma sub-regions in pre-operative mpMRI scans, ii) assessing potential tumor progression by virtue of longitudinal growth of tumor sub-regions, beyond use of the RECIST/RANO criteria, and iii) predicting the overall survival from pre-operative mpMRI scans of patients that underwent gross tota lresection. Finally, we investigate the challenge of identifying the best ML algorithms for each of these tasks, considering that apart from being diverse on each instance of the challenge, the multi-institutional mpMRI BraTS dataset has also been a continuously evolving/growing dataset.

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