Biomechanical Behavior of a Variable Angle Locked Tibiotalocalcaneal Construct

Hamandi, Farah; Simon, Gerard; Laughlin, Richard T.; Goswami, Tarun

doi:10.3390/bioengineering7010027

Cited by 3 publications

(2 citation statements)

References 26 publications

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“…Recent studies have demonstrated that fracture surface failure analysis (fractography) reliably indicates fracture initiation site and direction of crack propagation in fractured materials [1][2][3][4][5][6][7][8]. Fractography assesses material failure using fracture surface features, crack propagation, fracture patterns, and fragment size and shape [4,8,9].…”

Section: Introductionmentioning

confidence: 99%

Do bone elasticity and postmortem interval affect forensic fractographic analyses?

Skinner

Langley

Joseph

et al. 2023

Journal of Forensic Sciences

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Forensic fractographic features of bone reliably establish crack propagation in perimortem injuries. We investigated if similar fracture surface features characterize postmortem fractures. Experimentally induced peri‐ and postmortem fractures were used to assess if fractographic features vary as bone elasticity decreases during the postmortem interval (PMI). Thirty‐seven unembalmed, defleshed human femoral shafts from males and females aged 33–81 years were fractured at varying PMIs with a drop test frame using a three‐point bending setup and recorded with a high‐speed camera. Vital statistics, cause of death, PMI length, temperature, humidity, collagen percentage, water loss, fracture energy, and fractography scores were recorded for each sample. Results showed that fractographic features associated with perimortem fractures were expressed in PMIs up to 40,600 accumulated degree hours (ADH), or 60 warm weather days. Hackle was the most consistently expressed feature, occurring in all fractures regardless of ADH. The most variable characteristics were wake features (78.4%) and arrest ridges (70.3%). Collagen percentage did not correlate strongly with ADH (r = −0.04, p = 0.81); however, there was a strong significant correlation between ADH and water loss (r = 0.74, p < 0.001). Multinomial logistic regression showed no association between fractographic feature expression and ADH or collagen percentage. In conclusion, forensic fractographic features reliably determine initiation and directionality of crack propagation in experimentally induced PMIs up to 40,600 ADH, demonstrating the utility of this method into the recent postmortem interval. This expression of reliable fractographic features throughout the early PMI intimates these characteristics may not be useful standalone features for discerning peri‐ versus postmortem fractures.

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Section: Introductionmentioning

confidence: 99%

Do bone elasticity and postmortem interval affect forensic fractographic analyses?

Skinner

Langley

Joseph

et al. 2023

Journal of Forensic Sciences

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“…When one type of reinforcement or filler material is mixed with two polymer matrices that are similar or dissimilar, or when more than one filling constituent exists in a specific polymer resin, or when both methods are combined, a hybrid composite is the most advantageous and well-designed material. This paper deals with the development of bone plates for the femur bone using carbon woven fabric, flax woven fabric 10,11 and bioepoxy resin. Carbon fibers 12 have also been demonstrated to improve wound healing in both soft and hard tissues.…”

Section: Introductionmentioning

confidence: 99%

An insight into the mechanical and tribological behavior of carbon-flax reinforced bioepoxy hybrid composite bone plates for orthopedic applications

Maharaj¹,

Vasanthanathan²

2023

Polymers and Polymer Composites

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Femur fractures are often treated by fixing metallic bone plates in the fractured area. But metallic bone plates are subjected to stress shielding. To overcome stress shielding, a material with similar strength and stiffness to that of the human bone can be better suited. The present study focuses on the fabrication of carbon-flax/bioepoxy hybrid composite. The femur bone plate was modeled using SOLIDWORKS®2020 3D modeling software package. Hybrid composite laminates were developed using compression molding technique and material characterization studies viz. Tensile, shear, flexural and wear tests were conducted on the ASTM shaped specimens to estimate the strength and wear properties of the fabricated hybrid composite. The results of the tests indicate that the Carbon-flax reinforced hybrid composite have properties similar to that of human femur bone and seems to be a better option for the replacement of metallic bone plates.

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Biomechanics Assist Measurement, Modeling, Engineering Applications, and Clinical Decision Making in Medicine

2022

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Biomechanical Behavior of a Variable Angle Locked Tibiotalocalcaneal Construct

Cited by 3 publications

References 26 publications

Do bone elasticity and postmortem interval affect forensic fractographic analyses?

Do bone elasticity and postmortem interval affect forensic fractographic analyses?

An insight into the mechanical and tribological behavior of carbon-flax reinforced bioepoxy hybrid composite bone plates for orthopedic applications

Biomechanics Assist Measurement, Modeling, Engineering Applications, and Clinical Decision Making in Medicine

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