• Title/Summary/Keyword: surgical instruments positioning

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Constrained High Accuracy Stereo Reconstruction Method for Surgical Instruments Positioning

  • Wang, Chenhao;Shen, Yi;Zhang, Wenbin;Liu, Yuncai
    • KSII Transactions on Internet and Information Systems (TIIS)
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    • v.6 no.10
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    • pp.2679-2691
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    • 2012
  • In this paper, a high accuracy stereo reconstruction method for surgery instruments positioning is proposed. Usually, the problem of surgical instruments reconstruction is considered as a basic task in computer vision to estimate the 3-D position of each marker on a surgery instrument from three pairs of image points. However, the existing methods considered the 3-D reconstruction of the points separately thus ignore the structure information. Meanwhile, the errors from light variation, imaging noise and quantization still affect the reconstruction accuracy. This paper proposes a method which takes the structure information of surgical instruments as constraints, and reconstructs the whole markers on one surgical instrument together. Firstly, we calibrate the instruments before navigation to get the structure parameters. The structure parameters consist of markers' number, distances between each markers and a linearity sign of each instrument. Then, the structure constraints are added to stereo reconstruction. Finally, weighted filter is used to reduce the jitter. Experiments conducted on surgery navigation system showed that our method not only improve accuracy effectively but also reduce the jitter of surgical instrument greatly.

A Study on the Space Composition of Hybrid Operating Unit in General Hospital (1) (종합병원 하이브리드수술유니트의 공간구성에 관한 연구 (1))

  • Kim, Byeong Soo;Chai, Choul Gyun
    • Journal of The Korea Institute of Healthcare Architecture
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    • v.30 no.2
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    • pp.23-34
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    • 2024
  • Purpose: The Hybrid care environment, combining interventional procedures and surgeries in one space, is crucial for managing complex diseases, responding to emergencies, and reducing recovery times and pain. This study provides foundational data for creating architectural guidelines for a Hybrid Operating Unit in a general hospital's surgical department, focusing on cardiovascular care. Methods: The study analyzed the spatial and configuration types of the Vascular Angiography Unit and the Cardiac Operating Unit, which are the basic components of the Hybrid Operating Unit, through a literature review. Based on the initial research findings, interviews with experts were conducted. Results: In the Hybrid Operating Process, the study proposed spatial configuration alternatives that consider the positioning of medical staff and the types and arrangement changes of equipment, including Angiography, Heart-lung machines, and other surgical tools and instruments. Implications: The integration of the two units leads to increased diversity and demand for medical staff, equipment, and supplies during surgical and interventional procedures. Therefore, strategic spatial configurations and equipment placement are necessary to effectively respond to these needs.

An Image-Guided Robotic Surgery System for Spinal Fusion

  • Chung Goo Bong;Kim Sungmin;Lee Soo Gang;Yi Byung-Ju;Kim Wheekuk;Oh Se Min;Kim Young Soo;So Byung Rok;Park Jong Il;Oh Seong Hoon
    • International Journal of Control, Automation, and Systems
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    • v.4 no.1
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    • pp.30-41
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    • 2006
  • The goal of this work is to develop and test a robot-assisted surgery system for spinal fusion. The system is composed of a robot, a surgical planning system, and a navigation system. It plays the role of assisting surgeons for inserting a pedicle screw in the spinal fusion procedure. Compared to conventional methods for spinal fusion, the proposed surgical procedure ensures minimum invasion and better accuracy by using robot and image information. The robot plays the role of positioning and guiding needles, drills, and other surgical instruments or conducts automatic boring and screwing. Pre-operative CT images intra-operative fluoroscopic images are integrated to provide the surgeon with information for surgical planning. Some experiments employing the developed robotic surgery system are conducted. The experimental results confirm that the system is not only able to guide the surgical tools by accurately pointing and orienting the specified location, but also successfully compensate the movement of the patient due to respiration.

Development of An Image-Guided Robotic Surgery System for Spinal Fusion (영상 지원 척추 융합 수술 로봇 시스템의 개발)

  • Chung Goo-Bong;Lee Soo-Gang;Kim Sung-Min;Oh Se-Min;Yi Byung-Ju;Kim Young-Soo;Park Jong-Il;Oh Seong-Hoon;Kim Whee-Kuk
    • Proceedings of the Korean Society of Precision Engineering Conference
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    • 2005.10a
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    • pp.144-148
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    • 2005
  • The goal of this work is to develop and test a robot-assisted surgery system for spinal fusion. The system is composed of a robot, a surgical planning system, and a navigation system. It plays the role of assisting surgeons for inserting a pedicle screw in the spinal fusion procedure. Compared to conventional methods fer spinal fusion, the proposed surgical procedure ensures minimum invasion and better accuracy by using robot and image information. The robot plays the role of positioning and guiding needles, drills, and other surgical instruments or conducts automatic boring and screwing. Pre-operative CT images and intra-operative fluoroscopic images are integrated to provide the surgeon with information for surgical planning. Several experiments employing the developed robotic surgery system are conducted. The experimental results confirmed that the system is not only able to guide the surgical tools by accurately pointing and orienting the specified location, but also successfully compensate the movement of the patient due to his/her respiration.

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