Segmentation of small animal PET/CT mouse brain scans using an MRI-based 3D digital atlas

被引:2
作者
Delzescaux, Thierry
Lebenberg, Jessica
Raguet, Hugo
Hantraye, Philippe
机构
来源
2010 ANNUAL INTERNATIONAL CONFERENCE OF THE IEEE ENGINEERING IN MEDICINE AND BIOLOGY SOCIETY (EMBC) | 2010年
关键词
IMAGES;
D O I
10.1109/IEMBS.2010.5626106
中图分类号
R318 [生物医学工程];
学科分类号
0831 ;
摘要
The work reported in this paper aimed at developing and testing an automated method to calculate the biodistribution of a specific PET tracer in mouse brain PET/CT images using an MRI-based 3D digital atlas. Surface-based registration strategy and affine transformation estimation were considered. Such an approach allowed overcoming the lack of anatomical information in the inner regions of PET/CT brain scans. Promising results were obtained in one mouse (on two scans) and will be extended to a neuroinflammation mouse model to characterize the pathology and its evolution. Major improvements are expected regarding automation, time computation, robustness and reproducibility of mouse brain segmentation. Due to its generic implementation, this method could be successfully applied to PET/CT brain scans of other species (rat, primate) for which 3D digital atlases are available.
引用
收藏
页码:3097 / 3100
页数:4
相关论文
共 50 条
[41]   3D Brain MRI GAN-Based Synthesis Conditioned on Partial Volume Maps [J].
Rusak, Filip ;
Cruz, Rodrigo Santa ;
Bourgeat, Pierrick ;
Fookes, Clinton ;
Fripp, Jurgen ;
Bradley, Andrew ;
Salvado, Olivier .
SIMULATION AND SYNTHESIS IN MEDICAL IMAGING, SASHIMI 2020, 2020, 12417 :11-20
[42]   CPS-based fully automatic cardiac left ventricle and left atrium segmentation in 3D MRI [J].
Ahmad, Ibtihaj ;
Hussain, Farhan ;
Khan, Shoab Ahmad ;
Akram, Usman ;
Jeon, Gwanggil .
JOURNAL OF INTELLIGENT & FUZZY SYSTEMS, 2019, 36 (05) :4153-4164
[43]   A low cost approach for brain tumor segmentation based on intensity modeling and 3D Random Walker [J].
Kanas, Vasileios G. ;
Zacharaki, Evangelia I. ;
Davatzikos, Christos ;
Sgarbas, Kyriakos N. ;
Megalooikonomou, Vasileios .
BIOMEDICAL SIGNAL PROCESSING AND CONTROL, 2015, 22 :19-30
[44]   Multi stream 3D hyper-densely connected network for multi modality isointense infant brain MRI segmentation [J].
Qamar, Saqib ;
Jin, Hai ;
Zheng, Ran ;
Ahmad, Parvez .
MULTIMEDIA TOOLS AND APPLICATIONS, 2019, 78 (18) :25807-25828
[45]   Rib Detection in 3D MRI Using Dynamic Programming Based on Vesselness and Ridgeness [J].
Noorda, Yolanda H. ;
Bartels, Lambertus W. ;
Viergever, Max A. ;
Pluim, Josien P. W. .
ABDOMINAL IMAGING: COMPUTATION AND CLINICAL APPLICATIONS, 2013, 8198 :212-220
[46]   A 3D Probabilistic Deep Learning System for Detection and Diagnosis of Lung Cancer Using Low-Dose CT Scans [J].
Ozdemir, Onur ;
Russell, Rebecca L. ;
Berlin, Andrew A. .
IEEE TRANSACTIONS ON MEDICAL IMAGING, 2020, 39 (05) :1419-1429
[47]   Multi-object 3D segmentation of brain structures using a geometric deformable model with a priori knowledge [J].
Baghdadi, Mohamed ;
Benamrane, Nacera ;
Boukadoum, Mounir ;
Sais, Lakhdar .
IMAGING SCIENCE JOURNAL, 2024, 72 (08) :1169-1190
[48]   Accuracy and reliability of digital craniofacial measurements using a small-format, handheld 3D camera [J].
Kim, A. J. ;
Gu, D. ;
Chandiramani, R. ;
Linjawi, I. ;
Deutsch, I. C. K. ;
Allareddy, V. ;
Masoud, M. I. .
ORTHODONTICS & CRANIOFACIAL RESEARCH, 2018, 21 (03) :132-139
[49]   Brain Tumor Segmentation Using an Ensemble of 3D U-Nets and Overall Survival Prediction Using Radiomic Features [J].
Feng, Xue ;
Tustison, Nicholas J. ;
Patel, Sohil H. ;
Meyer, Craig H. .
FRONTIERS IN COMPUTATIONAL NEUROSCIENCE, 2020, 14
[50]   Brain Tumor Segmentation Using an Ensemble of 3D U-Nets and Overall Survival Prediction Using Radiomic Features [J].
Feng, Xue ;
Tustison, Nicholas J. ;
Meyer, Craig H. .
BRAINLESION: GLIOMA, MULTIPLE SCLEROSIS, STROKE AND TRAUMATIC BRAIN INJURIES, BRAINLES 2018, PT II, 2019, 11384 :279-288
12345