The System Design and Evaluation of a 7-DOF Image-Guided Venipuncture Robot
Accessing the venous bloodstream to deliver fluids or obtain a blood sample is the most common clinical routine practiced in the U.S. Practitioners continue to rely on manual venipuncture techniques, but success rates are heavily dependent on clinician skill and patient physiology. In the U.S., fail...
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| Veröffentlicht in: | IEEE transactions on robotics 2015-08, Vol.31 (4), p.1044-1053 |
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| creator | Balter, Max L. Chen, Alvin I. Maguire, Timothy J. Yarmush, Martin L. |
| description | Accessing the venous bloodstream to deliver fluids or obtain a blood sample is the most common clinical routine practiced in the U.S. Practitioners continue to rely on manual venipuncture techniques, but success rates are heavily dependent on clinician skill and patient physiology. In the U.S., failure rates can be as high as 50% in difficult patients, making venipuncture the leading cause of medical injury. To improve the rate of first-stick success, we have developed a portable autonomous venipuncture device that robotically servos a needle into a suitable vein under image guidance. The device operates in real time, combining near-infrared and ultrasound imaging, image analysis, and a 7-degree-of-freedom (DOF) robotic system to perform the venipuncture. The robot consists of a 3-DOF gantry to image the patient's peripheral forearm veins and a miniaturized 4-DOF serial arm to guide the cannula into the selected vein under closed-loop control. In this paper, we present the system architecture of the robot and evaluate the accuracy and precision through tracking, free-space positioning, and in vitro phantom cannulation experiments. The results demonstrate submillimeter accuracy throughout the operating workspace of the manipulator and a high rate of success when cannulating phantom veins in a skin-mimicking tissue model. |
| doi_str_mv | 10.1109/TRO.2015.2452776 |
| format | Article |
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In the U.S., failure rates can be as high as 50% in difficult patients, making venipuncture the leading cause of medical injury. To improve the rate of first-stick success, we have developed a portable autonomous venipuncture device that robotically servos a needle into a suitable vein under image guidance. The device operates in real time, combining near-infrared and ultrasound imaging, image analysis, and a 7-degree-of-freedom (DOF) robotic system to perform the venipuncture. The robot consists of a 3-DOF gantry to image the patient's peripheral forearm veins and a miniaturized 4-DOF serial arm to guide the cannula into the selected vein under closed-loop control. In this paper, we present the system architecture of the robot and evaluate the accuracy and precision through tracking, free-space positioning, and in vitro phantom cannulation experiments. 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In the U.S., failure rates can be as high as 50% in difficult patients, making venipuncture the leading cause of medical injury. To improve the rate of first-stick success, we have developed a portable autonomous venipuncture device that robotically servos a needle into a suitable vein under image guidance. The device operates in real time, combining near-infrared and ultrasound imaging, image analysis, and a 7-degree-of-freedom (DOF) robotic system to perform the venipuncture. The robot consists of a 3-DOF gantry to image the patient's peripheral forearm veins and a miniaturized 4-DOF serial arm to guide the cannula into the selected vein under closed-loop control. In this paper, we present the system architecture of the robot and evaluate the accuracy and precision through tracking, free-space positioning, and in vitro phantom cannulation experiments. The results demonstrate submillimeter accuracy throughout the operating workspace of the manipulator and a high rate of success when cannulating phantom veins in a skin-mimicking tissue model.</description><subject>Accuracy</subject><subject>Closed loop systems</subject><subject>Computer vision</subject><subject>Control systems</subject><subject>Devices</subject><subject>Imaging</subject><subject>Kinematics</subject><subject>Manipulators</subject><subject>mechanism design</subject><subject>medical robots and systems</subject><subject>Medical technology</subject><subject>Needles</subject><subject>Patients</subject><subject>Robot kinematics</subject><subject>Robotics</subject><subject>Robots</subject><subject>Systems design</subject><subject>Ultrasonic imaging</subject><subject>Veins</subject><subject>visual servoing</subject><issn>1552-3098</issn><issn>1941-0468</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2015</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><recordid>eNqFkctr3DAQh0VpaR7tvVAogl568XY0etmXQsmbBhaSTa5C1sobBdvaWHYg_3217GZpe-lJgvnmJ818hHxiMGMMqu-Lm_kMgckZColaqzfkkFWCFSBU-TbfpcSCQ1UekKOUHgFQVMDfkwNUKLUsy0Pya_Hg6e1LGn1HT30Kq57afknPnm072THEnsaGWqqL0_k5versyhcXU1j6Jb33fVhPvRunwdObWMfxA3nX2Db5j7vzmNydny1OLovr-cXVyc_rwimmx8Iq4BwcOgGNqDkilpV1DmwjsZRCNAp1Yz0K5VyDrG4qxdHVGirFSqw1PyY_trnrqe780vl-HGxr1kPo7PBiog3m70ofHswqPpvNkpRiOeDbLmCIT5NPo-lCcr5tbe_jlEx-RilkHOD_qObAmECsMvr1H_QxTkOfN5EpQFXm6TeBsKXcEFMafLP_NwOzkWqyVLORanZSc8uXP-fdN7xazMDnLRC89_uyZqqSGvlv4M6jWQ</recordid><startdate>20150801</startdate><enddate>20150801</enddate><creator>Balter, Max L.</creator><creator>Chen, Alvin I.</creator><creator>Maguire, Timothy J.</creator><creator>Yarmush, Martin L.</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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| subjects | Accuracy Closed loop systems Computer vision Control systems Devices Imaging Kinematics Manipulators mechanism design medical robots and systems Medical technology Needles Patients Robot kinematics Robotics Robots Systems design Ultrasonic imaging Veins visual servoing |
| title | The System Design and Evaluation of a 7-DOF Image-Guided Venipuncture Robot |
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