A computational/experimental platform for investigating three-dimensional puzzle solving of comminuted articular fractures

Thomas, Thaddeus P.; Anderson, Donald D.; Willis, Andrew; Liu, Pengcheng; Frank, Matthew C.; Marsh, J. Lawrence; Brown, Thomas

doi:10.1080/10255841003762042

Cited by 34 publications

(21 citation statements)

References 22 publications

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“…Additionally, the robustness of the algorithm to partial geometry could be useful in 3D puzzle solving for reconstructing comminuted fractures (Thomas et al 2011). In conclusion, the spin-image algorithm has been shown to tolerate substantial, continuous regions of omitted/missing geometry and should be considered a valuable tool for image analysts and biomechanists for registration and image-based motion capture.…”

Section: Discussionmentioning

confidence: 99%

Relative accuracy of spin-image-based registration of partial capitate bones in 4DCT of the wrist

Breighner

Holmes

Leng

et al. 2014

Computer Methods in Biomechanics and Biomedical Engineering: Im

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In image-based biomechanical analyses, registration transformations are the data of interest. In dynamic 4DCT imaging the capitate is often partially imaged. While alignment of incomplete objects poses a significant registration challenge, the established spin-image surface-matching algorithm can be utilized to align two surfaces representing disparate but overlapping portions of an object. For this reason the spin-image algorithm was chosen for the registration of partial bone geometry in 4DCT of the wrist. Registrations were performed on eleven 4DCT datasets using complete and partial capitate meshes generated by cropping complete meshes. Relative accuracy was assessed as the difference between partial- and complete-geometry registrations. Accurate registration of partial capitates geometry was achieved with 55% of the proximal capitate geometry on average, and in some cases as little as 35%. Requisite geometry depends on feature salience and imaging resolution, however the spin-image algorithm should be considered a valuable tool for biomechanists and image analysts.

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Section: Discussionmentioning

confidence: 99%

Relative accuracy of spin-image-based registration of partial capitate bones in 4DCT of the wrist

Breighner

Holmes

Leng

et al. 2014

Computer Methods in Biomechanics and Biomedical Engineering: Im

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“…Identification of the fracture surfaces was accomplished with a region-growing algorithm that propagated discrete surface patches up to boundaries of high curvature (Thomas et al, 2010). Fracture surfaces tended to have significant surface variations, causing the algorithm to segment them into many smaller surface patches.…”

Section: Methodsmentioning

confidence: 99%

“…Novel methods for 3D “puzzle solving” reconstruction of intra-articular fractures have recently been developed, with benchtop application to a surrogate model (Thomas et al, 2010). Matching native fragment bone surfaces to an intact template proved to be an effective and computationally tractable methodology.…”

Section: Introductionmentioning

confidence: 99%

ASB Clinical Biomechanics Award Paper 2010

Thomas

Anderson

Willis

et al. 2011

Clinical Biomechanics

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Background-Highly comminuted intra-articular fractures are complex and difficult injuries to treat. Once emergent care is rendered, the definitive treatment objective is to restore the original anatomy while minimizing surgically induced trauma. Operations that use limited or percutaneous approaches help preserve tissue vitality, but reduced visibility makes reconstruction more difficult. A pre-operative plan of how comminuted fragments would best be re-positioned to restore anatomy helps in executing a successful reduction.

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“…An innovative rapid machining technology 5 was used to recreate the distal tibia geometry, working off models generated from CT segmentations of intact anatomy. A 7.5-kg mass was dropped from a height of 0.5 m in a drop tower to fracture the tibia replica using a talus surrogate impactor (cast from polymethylmethacrylate [PMMA]) to deliver the impact 6 . A silicone rubber mold (TinSil 70 Series RTV; U.S. Composites, West Palm Beach, Florida) of the fracture fragments was negative-cast and was then used to positive-cast identical replica fragments.…”

Section: The Modelmentioning

confidence: 99%