Brain Tumor Segmentation on MRI with Missing Modalities

被引:61
作者
Shen, Yan [1 ]
Gao, Mingchen [1 ]
机构
[1] SUNY Buffalo, Dept Comp Sci & Engn, Buffalo, NY 14214 USA
来源
INFORMATION PROCESSING IN MEDICAL IMAGING, IPMI 2019 | 2019年 / 11492卷
关键词
Brain tumor segmentation; Multi-modality; Domain adaptation; Self-supervised learning;
D O I
10.1007/978-3-030-20351-1_32
中图分类号
TP [自动化技术、计算机技术];
学科分类号
0812 ;
摘要
Brain Tumor Segmentation from magnetic resonance imaging (MRI) is a critical technique for early diagnosis. However, rather than having complete four modalities as in BraTS dataset, it is common to have missing modalities in clinical scenarios. We design a brain tumor segmentation algorithm that is robust to the absence of any modality. Our network includes a channel-independent encoding path and a feature-fusion decoding path. We use self-supervised training through channel dropout and also propose a novel domain adaptation method on feature maps to recover the information from the missing channel. Our results demonstrate that the quality of the segmentation depends on which modality is missing. Furthermore, we also discuss and visualize the contribution of each modality to the segmentation results. Their contributions are along well with the expert screening routine.
引用
收藏
页码:417 / 428
页数:12
相关论文
共 50 条
[21]   Brain Tumor Segmentation Based on 2D U-Net Using MRI Multi-modalities Brain Images [J].
Tene-Hurtado, Daniela ;
Almeida-Galarraga, Diego A. ;
Villalba-Meneses, Gandhi ;
Alvarado-Cando, Omar ;
Cadena-Morejon, Carolina ;
Salazar, Valeria Herrera ;
Orozco-Lopez, Onofre ;
Tirado-Espin, Andres .
SMART TECHNOLOGIES, SYSTEMS AND APPLICATIONS, SMARTTECH-IC 2021, 2022, 1532 :345-359
[22]   GMDNet: Grouped Encoder-Mixer-Decoder Architecture Based on the Role of Modalities for Brain Tumor MRI Image Segmentation [J].
Yang, Peng ;
Zhang, Ruihao ;
Hu, Can ;
Guo, Bin .
ELECTRONICS, 2025, 14 (08)
[23]   Multimodal invariant feature prompt network for brain tumor segmentation with modalities [J].
Diao, Yueqin ;
Fang, Huihui ;
Yu, Hanyi ;
Li, Fan ;
Xu, Yanwu .
NEUROCOMPUTING, 2025, 616
[24]   Dilated Convolutions for Brain Tumor Segmentation in MRI Scans [J].
Lopez, Marc Moreno ;
Ventura, Jonathan .
BRAINLESION: GLIOMA, MULTIPLE SCLEROSIS, STROKE AND TRAUMATIC BRAIN INJURIES, BRAINLES 2017, 2018, 10670 :253-262
[25]   Automated Segmentation and Detection of Brain Tumor from MRI [J].
Shelke, Sanjay M. ;
Mohod, Sharad W. .
2018 INTERNATIONAL CONFERENCE ON ADVANCES IN COMPUTING, COMMUNICATIONS AND INFORMATICS (ICACCI), 2018, :2120-2126
[26]   Augmented Transformer network for MRI brain tumor segmentation [J].
Zhang, Muqing ;
Liu, Dongwei ;
Sun, Qiule ;
Han, Yutong ;
Liu, Bin ;
Zhang, Jianxin ;
Zhang, Mingli .
JOURNAL OF KING SAUD UNIVERSITY COMPUTER AND INFORMATION SCIENCES, 2024, 36 (01)
[27]   Brain Tumor Segmentation via Multi-Modalities Interactive Feature Learning [J].
Wang, Bo ;
Yang, Jingyi ;
Peng, Hong ;
Ai, Jingyang ;
An, Lihua ;
Yang, Bo ;
You, Zheng ;
Ma, Lin .
FRONTIERS IN MEDICINE, 2021, 8
[28]   Multimodal Transformer of Incomplete MRI Data for Brain Tumor Segmentation [J].
Ting, Hsienchih ;
Liu, Manhua .
IEEE JOURNAL OF BIOMEDICAL AND HEALTH INFORMATICS, 2024, 28 (01) :89-99
[29]   Automated Brain Tumor Segmentation and Classification Through MRI Images [J].
Gull, Sahar ;
Akbar, Shahzad ;
Hassan, Syed Ale ;
Rehman, Amjad ;
Sadad, Tariq .
EMERGING TECHNOLOGY TRENDS IN INTERNET OF THINGS AND COMPUTING, TIOTC 2021, 2022, :182-194
[30]   Enhancing MRI Brain Tumor Segmentation with an Additional Classification Network [J].
Nguyen, Hieu T. ;
Le, Tung T. ;
Nguyen, Thang V. ;
Nguyen, Nhan T. .
BRAINLESION: GLIOMA, MULTIPLE SCLEROSIS, STROKE AND TRAUMATIC BRAIN INJURIES (BRAINLES 2020), PT I, 2021, 12658 :503-513
12345