Biomechanical duality of fracture healing captured using virtual mechanical testing and validated in ovine bones

Inglis, Brendan; Schwarzenberg, Peter; Klein, Karina; Rechenberg, Brigitte von; Darwiche, Salim; Dailey, Hannah L.

doi:10.1038/s41598-022-06267-8

Cited by 13 publications

(28 citation statements)

References 44 publications

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“…Quadratic tetrahedral nite element meshes were created in 3-Matic with maximum edge lengths of 0.4 mm on surfaces and 0.85 mm for volumes. Element-wise mechanical properties were interpolated from voxel image intensities using a previously published elastic modulus scaling law for ovine cortical bone (24) and a dual-zone material model for bone and callus (25). In the operated limbs, elements comprising soft tissue with a radiodensity below 665 mg HA/cm 3 were assigned a modulus of 50 MPa.…”

Section: Micro Ct Morphometric Analysis and Virtual Torsional Rigidit...mentioning

confidence: 99%

Combined electric and magnetic field therapy enhances bone repair and regeneration in two tibia osteotomy models in sheep.

Darwiche

Kaczmarek

Schwarzenberg

et al. 2023

Preprint

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Background: Therapies using electromagnetic field technology show evidence of enhanced bone regeneration at the fracture site, potentially preventing delayed or non-unions. Methods: Combined electric and magnetic field (CEMF) treatment was evaluated in two standardized sheep tibia osteotomy models: a 3 mm non-critical size gap model and a 17 mm critical size defect model augmented with autologous bone grafts, both stabilized with locking compression plates. CEMF treatment was delivered across the fracture gap twice daily for 90 mins, starting 4 days post-operatively (post-OP) until sacrifice (9 or 12 weeks post-OP, respectively). Control groups received no CEMF treatment. Bone healing was evaluated radiographically, morphometrically (micro-CT), biomechanically and histologically. Results: In the 3 mm gap model, the CEMF group (n=6) exhibited higher callus mineral density compared to the Control group (n=6), two-fold higher biomechanical torsional rigidity and a histologically more advanced callus maturity (no statistically significant differences). In the 17 mm graft model, differences between the control (n=6) and CEMF group (n=6) were more pronounced. The CEMF group showed a radiologically more advanced callus, a higher callus volume (p=0.003) and a 2.6x higher biomechanical torsional rigidity (p=0.024), combined with a histologically more advanced callus maturity and healing. Conclusions: This study showed that CEMF therapy notably enhanced bone healing resulting in better new bone structure, callus morphology and superior biomechanical properties. This technology could transform a standard inert orthopedic implant into an active device stimulating bone tissue for accelerated healing and regeneration.

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Section: Micro Ct Morphometric Analysis and Virtual Torsional Rigidit...mentioning

confidence: 99%

Combined electric and magnetic field therapy enhances bone repair and regeneration in two tibia osteotomy models in sheep.

Darwiche

Kaczmarek

Schwarzenberg

et al. 2023

Preprint

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“…To measure the applied load on the plate, Pelham et al 26 introduced a cantilevered indicator pin, and Rajamanthrilage et al 27 introduced a hydraulic sensor. FEA uses computed tomographic (CT) imaging to develop a virtual model of the bone and then subject it to simulated mechanical testing to assess the rigidity of the callus 28 , which has been directly correlated with fracture site healing [28][29][30] . This methodology has been used clinically, and its accuracy in assessing callus has been demonstrated 28,30 .…”

Section: Plate Pressure Sensormentioning

confidence: 99%

Assessment of Bone Healing

Shariyate,

Kheir,

Caro

et al. 2023

Journal of Bone and Joint Surgery

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Bone healing is commonly evaluated by clinical examination and serial radiographic evaluation. Physicians should be mindful that personal and cultural differences in pain perception may affect the clinical examination. Radiographic assessment, even with the Radiographic Union Score, is qualitative, with limited interobserver agreement.Physicians may use serial clinical and radiographical examinations to assess bone healing in most patients, but in ambiguous and complicated cases, they may require other methods to provide assistance in decision-making.In complicated instances, clinically available biomarkers, ultrasound, and magnetic resonance imaging may determine initial callus development. Quantitative computed tomography and finite element analysis can estimate bone strength in later callus consolidation phases.As a future direction, quantitative rigidity assessments for bone healing may help patients to return to function earlier by increasing a clinician’s confidence in successful progressive healing.

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“…Typical postmortem mechanical tests are destructive and can be mutually exclusive with biological assays such as transcriptomic analysis or histology. In contrast, large animal validation experiments have shown that image‐based virtual mechanical testing is a reliable surrogate for ex vivo bench mechanical testing, which is the current gold‐standard approach 41 . These tests are also directly translatable to clinical applications, where virtual mechanical tests can provide precise, objective measurements of bone healing that cannot be obtained by other means and are useful for predicting time to union and detecting delayed healing 42 …”

Section: Recent In Silico Approaches For Outcome Assessment In Fractu...mentioning

confidence: 99%

“…Mouse femoral fracture models with stable fixation are generally considered moderately painful, requiring adequate pain management 40 . Insufficiently treated pain has been shown to negatively affect study results by causing impaired wound healing, immunosuppression, or increased infection risk 41–43 . Therefore, an adapted pain management regimen not only fulfills ethical obligation but also addresses scientific merits to ensure the integrity and quality of the research performed.…”

Section: Refining Animal Experiments: Pain Assessment and Management ...mentioning

confidence: 99%

“…In contrast, large animal validation experiments have shown that imagebased virtual mechanical testing is a reliable surrogate for ex vivo bench mechanical testing, which is the current gold-standard approach. 41 These tests are also directly translatable to clinical applications, where virtual mechanical tests can provide precise, objective measurements of bone healing that cannot be obtained by other means and are useful for predicting time to union and detecting delayed healing. 42 Future applications of this technology include new experimental designs that incorporate the 3R principles.…”

Section: Applicationsmentioning

confidence: 99%

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Embracing ethical research: Implementing the 3R principles into fracture healing research for sustainable scientific progress

Anup,

Dieterich,

Oreffo

et al. 2023

Journal Orthopaedic Research

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As scientific advancements continue to reshape the world, it becomes increasingly crucial to uphold ethical standards and minimize the potentially adverse impact of research activities. In this context, the implementation of the 3R principles—Replacement, Reduction, and Refinement—has emerged as a prominent framework for promoting ethical research practices in the use of animals. This article aims to explore recent advances in integrating the 3R principles into fracture healing research, highlighting their potential to enhance animal welfare, scientific validity, and societal trust. The review focuses on in vitro, in silico, ex vivo, and refined in vivo methods, which have the potential to replace, reduce, and refine animal experiments in musculoskeletal, bone, and fracture healing research. Here, we review material that was presented at the workshop “Implementing 3R Principles into Fracture Healing Research” at the 2023 Orthopedic Research Society (ORS) Annual Meeting in Dallas, Texas.

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Biomechanical duality of fracture healing captured using virtual mechanical testing and validated in ovine bones

Cited by 13 publications

References 44 publications

Combined electric and magnetic field therapy enhances bone repair and regeneration in two tibia osteotomy models in sheep.

Combined electric and magnetic field therapy enhances bone repair and regeneration in two tibia osteotomy models in sheep.

Assessment of Bone Healing

Embracing ethical research: Implementing the 3R principles into fracture healing research for sustainable scientific progress

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