Young's Modulus and Load Complexity: Modeling Their Effects on Proximal Femur Strain

Sylvester, Adam D.; Kramer, Patricia Ann

doi:10.1002/ar.23796

Cited by 8 publications

(6 citation statements)

References 99 publications

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“…27 The solid trabecular structures were modelled as a linear elastic material. 28 An elastic modulus ( E ) of 1000 MPa 29 and Poison's ratio of 0.3 was attributed to the trabecular bone solid structure. 30 Additionally, the viscosity of fluid marrow was assigned 0.4 Pa.s and modelled as incompressible according to Bryant et al ,31 Newtonian fluid with density of 1060 kg/m 3 .…”

Section: Methodsmentioning

confidence: 99%

Influence of bone marrow characteristic and trabecular bone morphology on bone remodelling process with FSI approach

Rabiatul

Rianti

Januddi

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part L:

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While doing daily physiological activities, the trabecular bone will experience a certain amount of deformation which leads to the bone marrow movement. The movement can affect the bone remodelling process and the properties of the bone itself. The bone marrow plays a role as a hydraulic stiffening of the trabecular structure. However, previous studies analysed on trabecular bone and bone marrow separately, which is not considered as the actual condition. Thus, it is crucial to consider combine analyses of the bone marrow with the trabecular structure simultaneous. The aim of this study is to investigate the effect of bone marrow on the mechanical environment and the structure of trabecular bone during normal walking loading. Hence, this study used the Fluid-Structure Interaction (FSI) approach as a finite element method to discover the effect of bone marrow to the trabecular structure and vice versa. The findings show the shear stress value along normal walking phase was found in a range of 0.01–0.27 Pa which is sufficient to regulated cell response minimally. This study provides insight into understanding the related mechanobiological responds towards supply of nutrients onto bone cells.

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Section: Methodsmentioning

confidence: 99%

Influence of bone marrow characteristic and trabecular bone morphology on bone remodelling process with FSI approach

Rabiatul

Rianti

Januddi

et al. 2022

Proceedings of the Institution of Mechanical Engineers, Part L:

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show abstract

“…By constructing finite-element (FE) models and validating them using experimental strains [50,51], we can obtain three-dimensional strain maps across the entire structure. FE models require several inputs, including geometry, constraints and mechanical properties [8,[52][53][54]. Advances in three-dimensional scanning techniques, computer science and statistical shape modelling (e.g.…”

Section: Classic Anthropology Meets Classic Engineeringmentioning

confidence: 99%

“…FE models require several inputs, including geometry, constraints and mechanical properties [ 8 , 52 – 54 ]. Advances in three-dimensional scanning techniques, computer science and statistical shape modelling (e.g.…”

Section: Examples Of Anthroengineeringmentioning

confidence: 99%

Anthroengineering: an independent interdisciplinary field

Berthaume

Kramer

2021

Interface Focus.

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In recent decades, funding agencies, institutes and professional bodies have recognized the profound benefits of transdisciplinarity in tackling targeted research questions. However, once questions are answered, the previously abundant support often dissolves. As such, the long-term benefits of these transdisciplinary approaches are never fully achieved. Over the last several decades, the integration of anthropology and engineering through inter- and multidisciplinary work has led to advances in fields such as design, human evolution and medical technologies. The lack of formal recognition, however, of this transdisciplinary approach as a unique entity rather than a useful tool or a subfield makes it difficult for researchers to establish laboratories, secure permanent jobs, fund long-term research programmes and train students in this approach. To facilitate the growth and development and witness the long-term benefits of this approach, we propose the integration of anthropology and engineering be recognized as a new, independent field known as anthroengineering . We present a working definition for anthroengineering and examples of how anthroengineering has been used. We discuss the necessity of recognizing anthroengineering as a unique field and explore potential novel applications. Finally, we discuss the future of anthroengineering, highlighting avenues for moving the field forward.

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“…The relationship between bone and force is represented by a stress-strain curve [19]. Since fractures reduce Young's modulus and decrease the natural frequency of bone, not only the measurement of signal intensity attenuation but also qualitative evaluation by frequency analysis can be useful for determining the presence or absence of fractures [20]. Therefore, it is reasonable to suppose that this method is more effective than the fracture evaluation by the conventional vibration signal analyse [21].…”

Section: Vibration Signal Analysis Systemmentioning

confidence: 99%

Vibration Signal Analysis for Detecting Early-Stage Lumbar Spondylolysis Using Synthetic Bone

Watanabe¹,

Tahara²,

Rina³

et al. 2018

JBiSE

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Bone fractures can be detected by analyzing vibration signals following bone stimulation. This method can also be applied to detect stress fractures, such as spondylolysis. The aim of this study was to investigate whether vibration signal analysis can be used to detect lumbar spondylolysis in synthetic bone. Four synthetic spondylolysis models of the fifth lumbar vertebra (Sawbones, product No. SAW1352-10: Malmö, Sweden) were prepared, with the following conditions: intact, unilateral defect, and bilateral defect. Unilateral defects were created by making an incision of either half the diameter (50% incision) or the entire diameter (100% incision) in length through the pars interarticularis or pedicle. Bilateral defects were created by making an additional incision of half the diameter in length on the opposite side of the defected pars interarticularis or pedicle (50% + 100% incision). Hammering was performed five times on each spinous process of the fixed synthetic bones and vibration signals were measured using an accelerometer attached to the contralateral side of the hammer. Signals were analyzed using fast Fourier transform. The parameters analyzed included the mean power frequency, first power minimum frequency (the minimum value between the first and second peaks), spectral areas of low and high frequency bands, and the relative ratio between the spectral areas of low and high frequency bands. The relative ratio was significantly lower in the 50%, 100%, and 50% + 100% incision conditions compared to the intact condition (p < 0.01), suggesting the potential utility of vibration signal analysis in diagnosing lumbar spondylolysis.

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Young's Modulus and Load Complexity: Modeling Their Effects on Proximal Femur Strain

Cited by 8 publications

References 99 publications

Influence of bone marrow characteristic and trabecular bone morphology on bone remodelling process with FSI approach

Influence of bone marrow characteristic and trabecular bone morphology on bone remodelling process with FSI approach

Anthroengineering: an independent interdisciplinary field

Vibration Signal Analysis for Detecting Early-Stage Lumbar Spondylolysis Using Synthetic Bone

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