4D ultrasound image processing for computer aided diagnostic applications

用于计算机辅助诊断应用的 4D 超声图像处理

• 批准号: 203828-2011
• 负责人: Stergiopoulos, Stergios
• 金额: $ 1.6万
• 依托单位: University of Toronto
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2011
• 资助国家: 加拿大
• 起止时间: 2011-01-01 至 2012-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=477327
• 关键词: 4D; ultrasound; image; processing; computer

Thousands of Canadians die each year from non-visible internal injuries resulting from automobile & sports accidents, and - especially of late - military and peacekeeping engagement. Pinpointing the location and nature of these internal injuries as rapidly and precisely as possible dramatically improves patient outcomes. However, rapid diagnosis of internal injuries in an austere and possibly hostile front-line environment remains a challenge for medical and search and rescue personnel. Moreover, portable and easy-to-use 4D (i.e. real time 3D) non-invasive medical imaging systems are not yet commercially available, primarily because of unresolved major technological and engineering challenges. To address these challenges, it is proposed to develop a 4D ultrasound computer aided diagnostic imaging capability that will have minimal requirements for training, thus allowing medical practitioners to freely use the new 4D ultrasound concept in Emergency and Trauma diagnostic operations. This proposal addresses the recommendation of the NSERC Review Committee - 1510, relevant with the previous application, 203828-2010. The proposed investigations under this NSERC Discovery Grant will support only Graduate Students to be involved in algorithmic development of (1) adaptive 3D beaforming algorithms with volumetric visualization, which will extend the applicant's previous developments in the same area, (2) computer aided organ segmentation integrated with decision support processing for providing automated diagnostic capabilities for non-invasively detecting internal injuries and facilitating image guided surgery, in intensive care & emergency units and in remote areas with minimum requirements for training on ultrasound imaging. The two graduate (MASc, PhD) students that will be trained in the interdisciplinary fusion of 3D ultrasound imaging and advanced 3D beamforming processing will benefit also from over $10 million dollars in state-of-the-art equipment already in place. Ultimately, the project will lead to improvement of care for Canadians, and will also train a new generation of researchers and engineers who can further advance such life-critical technologies.

每年有成千上万的加拿大人死于汽车和运动事故造成的不可见的内伤，特别是最近的军事和维和行动。尽可能快速、准确地查明这些内伤的位置和性质，可以极大地改善患者的治疗效果。 然而，在严峻和可能敌对的前线环境中快速诊断内伤仍然是医疗和搜救人员面临的挑战。此外，便携式且易于使用的4D（即，真实的3D）非侵入式医学成像系统还没有商业上可获得，这主要是因为未解决的主要技术和工程挑战。 为了应对这些挑战，建议开发一种4D超声计算机辅助诊断成像能力，该能力对培训的要求最低，从而使医疗从业者能够在急诊和创伤诊断操作中自由使用新的4D超声概念。该提案涉及NSERC审查委员会- 1510的建议，与先前的申请203828-2010相关。根据该NSERC发现补助金的拟议研究将仅支持研究生参与（1）具有体积可视化的自适应3D beforming算法的算法开发，这将扩展申请人在同一领域的先前开发，（2）与决策支持处理集成的计算机辅助器官分割，用于为非-在重症监护室和急诊室以及对超声成像培训要求最低的偏远地区，可以侵入性地检测内部损伤并促进图像引导手术。将接受3D超声成像和先进3D波束成形处理跨学科融合培训的两名研究生（MASc，PhD）也将受益于超过1000万美元的最先进设备。最终，该项目将改善对加拿大人的护理，并将培训新一代研究人员和工程师，他们可以进一步推进这些生命关键技术。