3D MRI Models of the Musculoskeletal System

Samim, Mohammad

doi:10.1055/s-0041-1730912

Cited by 4 publications

(2 citation statements)

References 56 publications

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“…Recently, advancements in three‐dimensional magnetic resonance imaging (3D MRI) technology have facilitated high‐quality non‐orthogonal multiplanar reconstructions with superior isotropic quality, offering a marked improvement over the commonly utilised CT scans [22]. These novel applications of 3D MRI have successfully illustrated the size and location of the ACL femoral footprint, which provided a clear differentiation between the ACL native fibres and adjacent tissues, thereby eliminating the disadvantages of potentially biassed anatomical assessment [4, 7, 23].…”

Section: Introductionmentioning

confidence: 99%

Anterior cruciate ligament femoral footprint is oblong‐ovate, triangular, or two‐tears shaped in healthy young adults: three‐dimensional MRI analysis

Lin,

Zhang,

Xin

et al. 2023

Knee surg. sports traumatol. arthrosc.

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Purpose This study aimed to evaluate the morphology of the anterior cruciate ligament (ACL) femoral footprint with threedimensional magnetic resonance imaging (3D MRI) in healthy knees. Methods Fifty subjects with healthy knees were recruited, utilising 3D-SPACE sequences for ACL evaluation. The ACL was manually segmented, and the shape, size and location of the ACL femoral footprint were evaluated on a reformatted oblique-sagittal plane, which aligned closely with the ACL attachment. Statistical analysis included one-way ANOVA for continuous variables and Fisher's exact test for categorical variables, with a P value < 0.05 considered significant. Results Three types of ACL femoral footprint shape were identified, namely, oblong-ovate (OO) in 33 knees (66%), triangular (Tr) in 12 knees (24%) and two-tears (TT) in 5 knees (10%), with the mean areas being 58, 47 and 68 mm 2 , respectively. Within group TT, regions with similar sizes but different locations were identified: high tear (TT-H) and low tear (TT-L). Notably, group OO demonstrated a larger notch height index, whilst group TT was characterised by a larger α angle and lateral femoral condyle index. A noticeable variation was observed in the location of the femoral footprint centre across groups, with group TT-L and group Tr showing a more distal position relative to the apex of the deep cartilage. According to the Bernard and Hertel (BH) grid, the ACL femoral footprint centres in group TT-L exhibited a shallower and higher position than other groups. Furthermore, compared to group OO and TT-H, group Tr showed a significantly higher position according to the BH grid. Conclusion In this study, the morphology of the ACL femoral footprint in healthy young adults was accurately evaluated using 3D MRI, revealing three distinct shapes: OO, Tr and TT. The different ACL femoral footprint types showed similar areas but markedly different locations. These findings emphasise the necessity of considering both the shape and precise location of the ACL femoral footprint during clinical assessments, which might help surgeons enhance patient-specific surgical plans before ACL reconstruction. Level of evidence IV. Keywords Anterior cruciate ligament • 3D MRI • Femoral footprint • Anterior cruciate ligament reconstructionJinrong Lin, Shurong Zhang and Enhui Xin made equal contribution to the work.

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Section: Introductionmentioning

confidence: 99%

Anterior cruciate ligament femoral footprint is oblong‐ovate, triangular, or two‐tears shaped in healthy young adults: three‐dimensional MRI analysis

Lin,

Zhang,

Xin

et al. 2023

Knee surg. sports traumatol. arthrosc.

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“…Instead of an elaborate fabrication of a mold for castable materials, 3D printing is widely known for its rapid and more accessible manufacturing of complex shaped models and is also applicable for models of the individual inner anatomy of living patients. For this purpose, data from computed tomography and magnetic resonance imaging are used to create digital 3D models [3]. These models can be printed and used for surgical guidance and teaching purposes.…”

Section: Introductionmentioning

confidence: 99%

Needle Penetration Simulation: Influence of Penetration Angle and Sample Stress on the Mechanical Behaviors of Polymers Applying a Cast Silicone and a 3D-Printed Resin

et al. 2022

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For surgical catheterization training applications, realistic and effective materials are desired. In this study, the relevance of a needle puncture angle and a simulated wall stress on different elastic materials were determined in a previously developed experimental setup. Both settings were considered individually in two new setups. In addition, a control setup with neither angle nor prestress was designed. During the process of puncturing the samples of two materials (Replisil 9N and Formlabs Elastic 50A), force–displacement values were collected, and three predefined parameters evaluated. The differences between the angled/stressed groups and the control group were analyzed. The additively processed material required a significantly higher force to puncture than the conventional one (p < 0.001). Moreover, a needle angulation of 45° required more force than puncturing orthogonally. Prestressing the samples did not clearly influence the resulting force. An evaluation of relative parameters showed that the investigated materials behaved differently but not linearly differently under the influence of needle angle and prestress. Therefore, it is essential to evaluate the properties and suitability of materials for surgical training models in appropriate experimental setups considering multiple parameters.

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3D-MRI versus 3D-CT in the evaluation of glenoid deformity in glenohumeral arthritis using Dixon 3D FLASH sequence

et al. 2022

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3D MRI Models of the Musculoskeletal System

Cited by 4 publications

References 56 publications

Anterior cruciate ligament femoral footprint is oblong‐ovate, triangular, or two‐tears shaped in healthy young adults: three‐dimensional MRI analysis

Anterior cruciate ligament femoral footprint is oblong‐ovate, triangular, or two‐tears shaped in healthy young adults: three‐dimensional MRI analysis

Needle Penetration Simulation: Influence of Penetration Angle and Sample Stress on the Mechanical Behaviors of Polymers Applying a Cast Silicone and a 3D-Printed Resin

3D-MRI versus 3D-CT in the evaluation of glenoid deformity in glenohumeral arthritis using Dixon 3D FLASH sequence

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