A novel bone registration method using impression molding and structured‐light 3D scanning technology
Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X‐ray‐f...
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| Published in | Journal of orthopaedic research Vol. 40; no. 10; pp. 2340 - 2349 |
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| Main Authors | , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
United States
01.10.2022
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| Subjects | |
| Online Access | Get full text |
| ISSN | 0736-0266 1554-527X 1554-527X |
| DOI | 10.1002/jor.25275 |
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| Abstract | Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X‐ray‐free structured‐light 3D scanner. However, this technique is not always practical in a real surgical setting where soft tissue and blood can obstruct the continuous line‐of‐sight required for structured‐light technology. We sought to remedy these limitations using a novel technique using rapid‐setting impression molding to capture bone surface features and scan the undersurface of the mold with a structured‐light scanner. The photonegative of this mold is compared to the preoperative computed tomography (CT)‐scan to register the bone. A registration accuracy study was conducted on 36 CT‐scanned femur sawbones, simulating typical exposure in hip/knee arthroplasty and bone tumor surgery. A cadaver experiment was also conducted to evaluate the feasibility of using the impression molding in a more realistic operating room setting. The registration accuracy of the proposed technique was 0.50 ± 0.19 mm. This was close to the reported accuracy of 0.43 ± 0.18 mm using a structured‐light scanner without impression molding (p = 0.085). In comparison, historical values for “paired‐point” and intraoperative CT image‐based registration methods currently used in modern robotic/computer‐navigation systems were 0.68 ± 0.14 mm (p = 0.004) and 0.86 ± 0.38 mm, respectively. The registration accuracy of the cadaver experiment was consistent with that of sawbone experiments. Although future studies are needed to extend to human subjects, this study shows that the impression molding method can produce comparable or better registration accuracy than the existing techniques. |
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| AbstractList | Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X‐ray‐free structured‐light 3D scanner. However, this technique is not always practical in a real surgical setting where soft tissue and blood can obstruct the continuous line‐of‐sight required for structured‐light technology. We sought to remedy these limitations using a novel technique using rapid‐setting impression molding to capture bone surface features and scan the undersurface of the mold with a structured‐light scanner. The photonegative of this mold is compared to the preoperative computed tomography (CT)‐scan to register the bone. A registration accuracy study was conducted on 36 CT‐scanned femur sawbones, simulating typical exposure in hip/knee arthroplasty and bone tumor surgery. A cadaver experiment was also conducted to evaluate the feasibility of using the impression molding in a more realistic operating room setting. The registration accuracy of the proposed technique was 0.50 ± 0.19 mm. This was close to the reported accuracy of 0.43 ± 0.18 mm using a structured‐light scanner without impression molding (p = 0.085). In comparison, historical values for “paired‐point” and intraoperative CT image‐based registration methods currently used in modern robotic/computer‐navigation systems were 0.68 ± 0.14 mm (p = 0.004) and 0.86 ± 0.38 mm, respectively. The registration accuracy of the cadaver experiment was consistent with that of sawbone experiments. Although future studies are needed to extend to human subjects, this study shows that the impression molding method can produce comparable or better registration accuracy than the existing techniques. Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X‐ray‐free structured‐light 3D scanner. However, this technique is not always practical in a real surgical setting where soft tissue and blood can obstruct the continuous line‐of‐sight required for structured‐light technology. We sought to remedy these limitations using a novel technique using rapid‐setting impression molding to capture bone surface features and scan the undersurface of the mold with a structured‐light scanner. The photonegative of this mold is compared to the preoperative computed tomography (CT)‐scan to register the bone. A registration accuracy study was conducted on 36 CT‐scanned femur sawbones, simulating typical exposure in hip/knee arthroplasty and bone tumor surgery. A cadaver experiment was also conducted to evaluate the feasibility of using the impression molding in a more realistic operating room setting. The registration accuracy of the proposed technique was 0.50 ± 0.19 mm. This was close to the reported accuracy of 0.43 ± 0.18 mm using a structured‐light scanner without impression molding ( p = 0.085). In comparison, historical values for “paired‐point” and intraoperative CT image‐based registration methods currently used in modern robotic/computer‐navigation systems were 0.68 ± 0.14 mm ( p = 0.004) and 0.86 ± 0.38 mm, respectively. The registration accuracy of the cadaver experiment was consistent with that of sawbone experiments. Although future studies are needed to extend to human subjects, this study shows that the impression molding method can produce comparable or better registration accuracy than the existing techniques. Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X-ray-free structured-light 3D scanner. However, this technique is not always practical in a real surgical setting where soft tissue and blood can obstruct the continuous line-of-sight required for structured-light technology. We sought to remedy these limitations using a novel technique using rapid-setting impression molding to capture bone surface features and scan the undersurface of the mold with a structured-light scanner. The photonegative of this mold is compared to the preoperative computed tomography (CT)-scan to register the bone. A registration accuracy study was conducted on 36 CT-scanned femur sawbones, simulating typical exposure in hip/knee arthroplasty and bone tumor surgery. A cadaver experiment was also conducted to evaluate the feasibility of using the impression molding in a more realistic operating room setting. The registration accuracy of the proposed technique was 0.50 ± 0.19 mm. This was close to the reported accuracy of 0.43 ± 0.18 mm using a structured-light scanner without impression molding (p = 0.085). In comparison, historical values for "paired-point" and intraoperative CT image-based registration methods currently used in modern robotic/computer-navigation systems were 0.68 ± 0.14 mm (p = 0.004) and 0.86 ± 0.38 mm, respectively. The registration accuracy of the cadaver experiment was consistent with that of sawbone experiments. Although future studies are needed to extend to human subjects, this study shows that the impression molding method can produce comparable or better registration accuracy than the existing techniques.Accurate bone registration is critical for computer navigation and robotic surgery. Existing registration systems are expensive, cumbersome, limited in accuracy and/or require intraoperative radiation. We recently reported a novel method of registration utilizing an inexpensive, compact, and X-ray-free structured-light 3D scanner. However, this technique is not always practical in a real surgical setting where soft tissue and blood can obstruct the continuous line-of-sight required for structured-light technology. We sought to remedy these limitations using a novel technique using rapid-setting impression molding to capture bone surface features and scan the undersurface of the mold with a structured-light scanner. The photonegative of this mold is compared to the preoperative computed tomography (CT)-scan to register the bone. A registration accuracy study was conducted on 36 CT-scanned femur sawbones, simulating typical exposure in hip/knee arthroplasty and bone tumor surgery. A cadaver experiment was also conducted to evaluate the feasibility of using the impression molding in a more realistic operating room setting. The registration accuracy of the proposed technique was 0.50 ± 0.19 mm. This was close to the reported accuracy of 0.43 ± 0.18 mm using a structured-light scanner without impression molding (p = 0.085). In comparison, historical values for "paired-point" and intraoperative CT image-based registration methods currently used in modern robotic/computer-navigation systems were 0.68 ± 0.14 mm (p = 0.004) and 0.86 ± 0.38 mm, respectively. The registration accuracy of the cadaver experiment was consistent with that of sawbone experiments. Although future studies are needed to extend to human subjects, this study shows that the impression molding method can produce comparable or better registration accuracy than the existing techniques. |
| Author | Mustahsan, Vamiq M. Khan, Fazel A. Bielski, Michael R. Dai, Amos Z. He, Guangyu Kao, Imin Cai, Yanming Ricca, Jacob M. |
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| Cites_doi | 10.1016/j.surge.2017.12.003 10.1016/j.dental.2004.06.004 10.1016/j.cuor.2007.03.002 10.1007/s11548-014-1146-1 10.1109/CVPR.2010.5540108 10.3389/fsurg.2015.00066 10.1016/j.arth.2011.09.021 10.1016/j.jor.2021.01.010 10.1016/j.jcot.2013.11.005 10.1302/2058-5241.4.180088 10.1016/j.joms.2007.12.019 10.1007/s11999-012-2529-7 10.3171/2019.8.FOCUS19621 |
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| Title | A novel bone registration method using impression molding and structured‐light 3D scanning technology |
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