Motion compensation in a tomographic ultrasound imaging system: Toward volumetric scans of a limb for prosthetic socket design

机译：断层扫描超声成像系统中的运动补偿：进行肢体容积扫描以修复假体

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Current methods of prosthetic socket fabrication remain subjective and ineffective at creating an interface to the human body that is both comfortable and functional. Though there has been recent success using methods like magnetic resonance imaging and biomechanical modeling, a low-cost, streamlined, and repeatable process has not been fully demonstrated. Medical ultrasonography, which has significant potential to expand its clinical applications, is being pursued to acquire data that may quantify and improve the design process and fabrication of prosthetic sockets. This paper presents a new multi-modal imaging approach for acquiring volumetric images of a human limb, specifically focusing on how motion of the limb is compensated for using optical imagery.

机译：当前的假体承窝制造方法在创建舒适且实用的与人体的界面方面仍然是主观的且无效的。尽管最近使用磁共振成像和生物力学建模等方法获得了成功，但低成本，精简和可重复的过程尚未得到充分证明。正在寻求具有扩大其临床应用潜力的医学超声检查技术，以获取可量化和改善假牙套的设计过程和制造的数据。本文提出了一种新的多模态成像方法，用于获取人肢体的体积图像，特别着重于如何使用光学图像来补偿肢体的运动。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2015年|7204-7207|共4页
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Ranger Bryan J.; Feigin Micha; Pestrov Nikita; Xiang Zhang; Lempitsky Victor; Herr Hugh M.; Anthony Brian W.;
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biomechanics; biomedical optical imaging; biomedical ultrasonics; medical image processing; motion compensation; prosthetics; biomechanical modeling; limb volumetric scans; magnetic resonance imaging; medical ultrasonography; motion compensation; optical imagery; prosthetic socket design; prosthetic socket fabrication; tomographic ultrasound imaging system; Magnetic resonance imaging; Phantoms; Prosthetics; Sockets; Three-dimensional displays; Ultrasonic imaging;

机译：生物力学;生物医学光学成像;生物医学超声;医学图像处理;运动补偿;假肢;生物力学建模;肢体体积扫描;磁共振成像;医学超声;运动补偿;光学成像;假体设计;假体制造;断层超声成像系统磁共振成像人体模型假肢插座三维显示器超声成像;

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专利

1. Interface Stress in Socket/Residual Limb with Transtibial Prosthetic Suspension Systems During Locomotion on Slopes and Stairs [J] . Eshraghi Arezoo, Abu Osman Noor Azuan, Gholizadeh Hossien, American Journal of Physical Medicine and Rehabilitation . 2015,第1期

机译：在斜坡和楼梯上运动时，在胫骨假体悬吊系统中，承窝/残肢的界面应力
2. Modeling and design of fast steering mirror in image motion compensation for backscanning step and stare imaging systems [J] . Lin Wang, Xuelian Liu, Chunyang Wang Optical engineering . 2019,第10期

机译：用于反向扫描步距和凝视成像系统的图像运动补偿中的快速转向镜的建模和设计
3. Comparison study of the prosthetics interface pressure profile of air splint socket and ICRC polypropylene socket for upper limb prosthetics [J] . Abd Razak N. A., Abu Osman N. A., Ali S., Biocybernetics and biomedical engineering . 2015,第2期

机译：空气夹板和ICRC聚丙烯上肢假肢的假肢界面压力分布的比较研究
4. Motion compensation in a tomographic ultrasound imaging system: Toward volumetric scans of a limb for prosthetic socket design [C] . Ranger Bryan J., Feigin Micha, Pestrov Nikita, Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2015

机译：断层监测超声成像系统中的运动补偿：对假体套接字设计的肢体体积扫描
5. Quantification of transhumeral prosthetic socket residual limb interface movement using motion capture and a slip detection sensor. [D] . Wernke, Matthew Michael. 2013

机译：使用运动捕捉和滑动检测传感器对肱骨假体窝残肢界面运动进行量化。
6. A Sensor Array for the Measurement of Relative Motion in Lower Limb Prosthetic Sockets [O] . Veronika Noll, Sigrid Whitmore, Philipp Beckerle, 2019

机译：用于测量下肢假肢相对运动的传感器阵列
7. Selecting Appropriate 3D Scanning Technologies for Prosthetic Socket Design and Transtibial Residual Limb Shape Characterization [O] . Alexander S. Dickinson, Maggie K. Donovan-Hall, Sisary Kheng, 2020

机译：选择适用于假体套接字设计和串易残留的肢体形状表征的适当的3D扫描技术

Motion compensation in a tomographic ultrasound imaging system: Toward volumetric scans of a limb for prosthetic socket design

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