2021
DOI: 10.1186/s41205-021-00103-x
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3D-printed saw guides for lower arm osteotomy, a comparison between a synthetic CT and CT-based workflow

Abstract: Background Three-dimensional (3D)-printed saw guides are frequently used to optimize osteotomy results and are usually designed based on computed tomography (CT), despite the radiation burden, as radiation-less alternatives like magnetic resonance imaging (MRI) have inferior bone visualization capabilities. This study investigated the usability of MR-based synthetic-CT (sCT), a novel radiation-less bone visualization technique for 3D planning and design of patient-specific saw guides. … Show more

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Cited by 12 publications
(21 citation statements)
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“…The geometrical accuracy of bone segmentation has been evaluated on long bones and vertebrae in ex vivo studies so that MR segmentation could be compared to the physical bone shape using 3D printing, 47 mechanical contact/optical scanners, 18,[31][32][33] or micro-CT. 31,82 Bone specimens were processed to remove soft tissues, resulting in a potential shrinkage of the gold standard compared to the bone as scanned using MRI and CT. 18,25,33,82 On average, CT segmentation overestimated the actual bone shape, whereas MR segmentation mostly underestimated it, [31][32][33]47 although not consistently. 25,82 Nevertheless, surface distances between the MR-based segmentation and the cadaveric specimen were on average submillimeter, 17,25,31,33,82 with mean absolute surface distances ranging from 0.23 mm to 0.41 mm for MR-segmentations and from 0.15 mm to 0.51 mm for CT-based segmentations. 17,25,31,33 Similarly, root mean square error (RMSE) was mainly submillimeter, 18,31,33 although it could reach 1.2 mm 32 in the knee for MRI models (vs. 0.5 mm for CT models).…”
Section: Bone Geometrical Accuracymentioning
confidence: 99%
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“…The geometrical accuracy of bone segmentation has been evaluated on long bones and vertebrae in ex vivo studies so that MR segmentation could be compared to the physical bone shape using 3D printing, 47 mechanical contact/optical scanners, 18,[31][32][33] or micro-CT. 31,82 Bone specimens were processed to remove soft tissues, resulting in a potential shrinkage of the gold standard compared to the bone as scanned using MRI and CT. 18,25,33,82 On average, CT segmentation overestimated the actual bone shape, whereas MR segmentation mostly underestimated it, [31][32][33]47 although not consistently. 25,82 Nevertheless, surface distances between the MR-based segmentation and the cadaveric specimen were on average submillimeter, 17,25,31,33,82 with mean absolute surface distances ranging from 0.23 mm to 0.41 mm for MR-segmentations and from 0.15 mm to 0.51 mm for CT-based segmentations. 17,25,31,33 Similarly, root mean square error (RMSE) was mainly submillimeter, 18,31,33 although it could reach 1.2 mm 32 in the knee for MRI models (vs. 0.5 mm for CT models).…”
Section: Bone Geometrical Accuracymentioning
confidence: 99%
“…Three‐dimensional bone renderings are gaining popularity in orthopedic care as they provide an overview of the bone morphology, enable kinematic analyses, 30,41 and allow for the patient‐specific design of surgical guides and implants 63,82 . Hence, 3D bone models facilitate the clinical diagnosis and improve surgical outcomes, 26,43,70,83–85 motivating their use in the treatment management of pathologies in the skull, shoulder, and hip 43,83–85 .…”
Section: Mri For Three‐dimensional Bone Modelingmentioning
confidence: 99%
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“…One such recent example is the so-called synthetic CT (sCT) derived from post-processed MRI images, which is in no way inferior to standard CT. The bone models printed off sCT have been shown to have excellent agreement with ground truth based on distance mapping of the surface, and surgical cutting guide placement error (both x–y–z translation and x–y–z rotation) was also shown to be no different when compared between CT and sCT [ 176 ].…”
Section: Discussionmentioning
confidence: 99%
“…In the last decade, the development of synthetic CT (sCT), i.e., deriving CT-like images from MRI scans, has enabled an MRI-based visualization of osseous tissues for radiotherapy [14] and orthopedic care [15][16][17][18]. In the MRI-HIFU context, such sCT images could be generated from MR images acquired during the treatment session to depict the bone distribution in the treatment position.…”
Section: Introductionmentioning
confidence: 99%