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1.
J Mech Behav Biomed Mater ; 157: 106631, 2024 Jun 13.
Artigo em Inglês | MEDLINE | ID: mdl-38986216

RESUMO

Fall-related hip fractures are a serious public health issue in older adults. As most mechanistic hip fracture risk prediction models incorporate tissue tolerance, test methods that can accurately characterize the fracture force of the femur (and factors that influence it) are imperative. While bone possesses viscoelastic properties, experimental characterization of rate-dependencies has been inconsistent in the whole-femur literature. The goal of this study was to investigate the influence of experimental paradigm on loading rate and fracture force (both means and variability) during mechanical tests simulating lateral fall loadings on the proximal femur. Six pairs of matched femurs were split randomly between two test paradigms: a 'lower rate' materials testing system (MTS) with a constant displacement rate of 60 mm/s, and a hip impact test system (HIT) comprised of a custom-built vertical drop tower utilizing an impact velocity of 4 m/s. The loading rate was 88-fold higher for the HIT (mean (SD) = 2465.49 (807.38) kN/s) compared to the MTS (27.78 (10.03) kN/s) paradigm. However, no difference in fracture force was observed between test paradigms (mean (SD) = 4096.4 (1272.6) N for HIT, and 3641.3 (1285.8) N for MTS). Within-paradigm variability was not significantly different across paradigms for either loading rate or fracture force (coefficients of variation ranging from 0.311 to 0.361). Within each test paradigm, significant positive relationships were observed between loading rate and fracture force (HIT adjusted R2 = 0.833, p = 0.007; MTS adjusted R2 = 0.983, p < 0.0001). Overall, this study provides evidence that energy-based impact simulators can be a valid method to measure femoral bone strength in the context of fall-related hip fractures. This study motivates future research to characterize potential non-linear relationships between loading rate and fracture threshold at both macro and microscales.

2.
Animals (Basel) ; 14(7)2024 Apr 03.
Artigo em Inglês | MEDLINE | ID: mdl-38612325

RESUMO

BACKGROUND: Racehorses commonly train and race in one direction, which may result in gait asymmetries. This study quantified gait symmetry in two cohorts of Thoroughbreds differing in their predominant exercising direction; we hypothesized that there would be significant differences in the direction of asymmetry between cohorts. METHODS: 307 Thoroughbreds (156 from Singapore Turf Club (STC)-anticlockwise; 151 from Hong Kong Jockey Club (HKJC)-clockwise) were assessed during a straight-line, in-hand trot on firm ground with inertial sensors on their head and pelvis quantifying differences between the minima, maxima, upward movement amplitudes (MinDiff, MaxDiff, UpDiff), and hip hike (HHD). The presence of asymmetry (≥5 mm) was assessed for each variable. Chi-Squared tests identified differences in the number of horses with left/right-sided movement asymmetry between cohorts and mixed model analyses evaluated differences in the movement symmetry values. RESULTS: HKJC had significantly more left forelimb asymmetrical horses (Head: MinDiff p < 0.0001, MaxDiff p < 0.03, UpDiff p < 0.01) than STC. Pelvis MinDiff (p = 0.010) and UpDiff (p = 0.021), and head MinDiff (p = 0.006) and UpDiff (p = 0.017) values were significantly different between cohorts; HKJC mean values indicated left fore- and hindlimb asymmetry, and STC mean values indicated right fore- and hindlimb asymmetry. CONCLUSION: the asymmetry differences between cohorts suggest that horses may adapt their gait to their racing direction, with kinematics reflecting reduced 'outside' fore- and hindlimb loading.

3.
Curr Osteoporos Rep ; 21(3): 253-265, 2023 06.
Artigo em Inglês | MEDLINE | ID: mdl-37101058

RESUMO

PURPOSE OF REVIEW: This review surveys recent literature related to cortical bone fracture mechanics and its application towards understanding bone fragility and hip fractures. RECENT FINDINGS: Current clinical tools for hip fracture risk assessment have been shown to be insensitive in some cases of elevated fracture risk leading to the question of what other factors account for fracture risk. The emergence of cortical bone fracture mechanics has thrown light on other factors at the tissue level that are important to bone fracture resistance and therefore assessment of fracture risk. Recent cortical bone fracture toughness studies have shown contributions from the microstructure and composition towards cortical bone fracture resistance. A key component currently overlooked in the clinical evaluation of fracture risk is the importance of the organic phase and water to irreversible deformation mechanisms that enhance the fracture resistance of cortical bone. Despite recent findings, there is an incomplete understanding of which mechanisms lead to the diminished contribution of the organic phase and water to the fracture toughness in aging and bone-degrading diseases. Notably, studies of the fracture resistance of cortical bone from the hip (specifically the femoral neck) are few, and those that exist are mostly consistent with studies of bone tissue from the femoral diaphysis. Cortical bone fracture mechanics highlights that there are multiple determinants of bone quality and therefore fracture risk and its assessment. There is still much more to learn concerning the tissue-level mechanisms of bone fragility. An improved understanding of these mechanisms will allow for the development of better diagnostic tools and therapeutic measures for bone fragility and fracture.


Assuntos
Doenças Ósseas , Fraturas do Quadril , Humanos , Densidade Óssea , Fraturas do Quadril/epidemiologia , Colo do Fêmur , Água , Medição de Risco
4.
J Biomech ; 142: 111254, 2022 09.
Artigo em Inglês | MEDLINE | ID: mdl-35986951

RESUMO

The quest for better predictive tools as well as new preventative and therapeutic measures for bone fragility and fracture has highlighted the need for greater mechanistic understanding of the bone fracture process. Cortical bone, the major load bearing part of the bone, employs different toughening mechanisms to either inhibit or slow down crack growth which leads to fracture. Among these toughening mechanisms, is the formation of a micro-damage process zone (MDPZ) around the region of the propagating crack. Investigations into the MDPZ to date have primarily been based on quasi-static or cyclic loading rate experiments which do not necessarily replicate physiological fracture rates. Consequently, the impact of fall-related loading rates on the formation of the micro-damage process zone was investigated comparing these to quasi-static loading rate equivalents. The size of MDPZ was found to be 42% smaller in the high-rate group compared to the quasi-static rate group. The smaller MDPZ size was associated with a brittle, unstable fracture behaviour and an overall smaller fracture resistance measure (Jmax). This result points to the possibility of a strain rate hardening mechanism at the heart of micro-damage formation, which is hampered under high loading rates, resulting in lower overall fracture resistance.


Assuntos
Acidentes por Quedas , Fraturas Ósseas , Osso e Ossos , Osso Cortical , Humanos , Estresse Mecânico , Suporte de Carga
5.
J Rehabil Assist Technol Eng ; 8: 20556683211050357, 2021.
Artigo em Inglês | MEDLINE | ID: mdl-34877017

RESUMO

INTRODUCTION: While protective headwear products (PHP) are designed to protect older adults from fall-related head injuries, there are limited data on their protective capacity. This study's goal was to assess the impact attenuation provided by commercially available PHP during simulated head impacts. METHODS: A drop tower and Hybrid III headform measured the decrease in peak linear acceleration (g atten ) provided by 12 PHP for front- and back-of-head impacts at low (clinically relevant: 3.5 m/s) and high (5.7 m/s) impact velocities. RESULTS: The range of g atten across PHP was larger at the low velocity (56% and 41% for back and frontal impacts, respectively) vs. high velocity condition (27% and 38% for back and frontal impacts, respectively). A significant interaction between impact location and velocity was observed (p < .05), with significantly greater g atten for back-of-head compared to front-of-head impacts at the low impact velocity (19% mean difference). While not significant, there was a modest positive association between g atten and product padding thickness for back-of-head impacts (p = .095; r = 0.349). CONCLUSION: This study demonstrates the wide range in impact attenuation across commercially available PHP, and suggests that existing products provide greater impact attenuation during back-of-head impacts. These data may inform evidence-based decisions for clinicians and consumers and help drive industry innovation.

6.
Gait Posture ; 86: 299-302, 2021 05.
Artigo em Inglês | MEDLINE | ID: mdl-33838527

RESUMO

BACKGROUND: Surface translations are a method of perturbing an individual's balance to evoke balance control responses. However, the force plates used to measure kinetic responses often contain artifacts due to inertial properties coupled with the dynamics of surface translation perturbations. Techniques to attenuate these movement artifacts are not well established within the literature. RESEARCH QUESTION: Are amplitude- or frequency-based subtraction processing techniques effective at attenuating inertia-based movement artifacts in kinetic signals during surface translations? METHODS: One-hundred and two backward surface translations were analyzed from five participants. Perturbation-matched unloaded pre-trials were collected to characterize force plate movement artifacts. For each trial, baseline data was processed to account for inertial artifacts using both amplitude- and frequency-based subtraction methods producing 3 datasets. Root mean square error (RMSE) between the datasets and expected tracings of an unloaded force plate were calculated. The effects of these processes on calculated knee flexion/extension (FE) moment were characterized using an inverse dynamics model which incorporated ground reaction forces and participant kinematics. RESULTS: Both amplitude- and frequency-based processing methods resulted in near identical changes and substantially reduced RMSE values compared to original data. An RMSE reduction of 91.4 % was observed for the unloaded force channel which aligned with the direction of translation. Peak stance knee FE moments decreased by an average of 3.7 Nm and the average largest difference between the original data and both processing techniques across all trials was 30.4 Nm. SIGNIFICANCE: The results provide quantitative evidence that both data processing methods can successfully attenuate the presence of movement artifact found within force plate signals during surface translations. This study provides recommendations to researchers on effective methods for improving data processing techniques to attenuate force plate movement artifacts introduced by surface translations, towards more accurate estimates of joint kinetics during balance reactions.


Assuntos
Fenômenos Biomecânicos/fisiologia , Movimento/fisiologia , Adulto , Processamento Eletrônico de Dados , Feminino , Humanos , Masculino
7.
Ergonomics ; 64(4): 502-511, 2021 Apr.
Artigo em Inglês | MEDLINE | ID: mdl-33377433

RESUMO

This study evaluated early and frequent seated breaks from standing work to reduce low back pain (LBP) in known pain developers (PD). Twenty-four participants, classified as either PD or non-PD during a separate 2-hour standing session, performed 124 minutes of standing work with seated breaks at a 3:1 stand-sit ratio with increasing durations from 3:1 minute to 48:16 minutes. Back pain and spine posture measures showed no differences between PD and non-PD. Females had greater left glutaeus medius activation (8.4%MVC) than males (4.5%MVC) and greater glutaeus medius co-contraction. This protocol was successful at reducing LBP in PD to the level of non-PD, with mean pain scores (13 mm) only slightly exceeding the clinical LBP threshold of 10 mm. Early and frequent breaks within the first hour of standing work appear to be an effective solution to reduce the LBP that often occurs at the beginning of standing work. Practicioner Summary: Sit-stand workstations may be an effective solution to reduce static occupational low back postures. This experimental study demonstrated that early and frequent seated breaks from standing work may be an effective solution to reduce tissue aggravation that often occurs within the first 45 minutes of a standing work exposure. Abbreviations: LBP: low back pain; PD: pain developer; NPD: non-pain developer; VAS: visual analog scale; EMG: electromyography; LES: lumbar erector spinae; TES: thoracic erector spinae; GMD: glutaeus medius; IOB: internal oblique; MVC: maximum voluntary contraction; CCI: co-activation coefficient; FDA: functional data analysis.


Assuntos
Dor Lombar , Postura , Eletromiografia , Feminino , Humanos , Dor Lombar/etiologia , Masculino , Músculo Esquelético , Músculos , Rotação , Posição Ortostática
8.
Comput Methods Biomech Biomed Engin ; 23(15): 1201-1214, 2020 Nov.
Artigo em Inglês | MEDLINE | ID: mdl-32687412

RESUMO

Fall-related hip fractures are a major public health issue. While individual-level risk assessment tools exist, population-level predictive models could catalyze innovation in large-scale interventions. This study presents a hierarchical probabilistic model that predicts population-level hip fracture risk based on Factor of Risk (FOR) principles. Model validation demonstrated that FOR output aligned with a published dataset categorized by sex and hip fracture status. The model predicted normalized FOR for 100000 individuals simulating the Canadian older-adult population. Predicted hip fracture risk was higher for females (by an average of 38%), and increased with age (by15% per decade). Potential applications are discussed.


Assuntos
Fraturas do Quadril/epidemiologia , Modelos Biológicos , Probabilidade , Acidentes por Quedas , Análise de Variância , Densidade Óssea , Feminino , Humanos , Masculino , Ossos Pélvicos , Reprodutibilidade dos Testes , Medição de Risco , Fatores de Risco
9.
J Biomech ; 66: 111-118, 2018 01 03.
Artigo em Inglês | MEDLINE | ID: mdl-29153707

RESUMO

Muscle activation has been demonstrated to influence impact dynamics during scenarios including running, automotive impacts, and head impacts. This study investigated the effects of targeted muscle activation magnitude on impact dynamics during low energy falls on the hip with human volunteers. Fifteen university-aged participants (eight females, seven males) underwent 12 lateral pelvis release trials. Half of the trials were muscle-'relaxed'; in the remaining 'contracted' trials participants isometrically contracted their gluteus medius to 20-30% of maximal voluntary contraction before the drop was initiated onto a force plate. Peak force applied to the femur-pelvis complex averaged 9.3% higher in contracted compared to relaxed trials (F = 6.798, p = .022). Muscle activation effects were greater for females, resulting in (on average) an 18.5% increase in effective pelvic stiffness (F = 5.838, p = .046) and a 23.4% decrease in time-to-peak-force (F = 5.109, p = .042). In the relaxed trials, muscle activation naturally increased during the impact event, reaching levels of 12.8, 7.5, 11.1, and 19.1% MVC at the time of peak force for the gluteus medias, vastus lateralis, erector spinae, and external oblique, respectively. These findings demonstrated that contraction of trunk and hip musculature increased peak impact force across sexes. In females, increases in the magnitude and rate of loading were accompanied (and likely driven) by increases in system stiffness. Accordingly, incorporating muscle activation contributions into biomechanical models that investigate loading dynamics in the femur and/or pelvis during lateral impacts may improve estimate accuracy.


Assuntos
Acidentes por Quedas , Quadril/fisiologia , Músculo Esquelético/fisiologia , Adolescente , Adulto , Fenômenos Biomecânicos , Feminino , Fêmur/fisiologia , Humanos , Masculino , Pelve/fisiologia , Adulto Jovem
10.
Ann Biomed Eng ; 45(12): 2775-2783, 2017 12.
Artigo em Inglês | MEDLINE | ID: mdl-28940053

RESUMO

Hip fracture incidence rates are influenced by body mass index (BMI) and sex, likely through mechanistic pathways that influence dynamics of the pelvis-femur system during fall-related impacts. The goal of this study was to extend our understanding of these impact dynamics by investigating the effects of BMI, sex, and local muscle activation on pressure distribution over the hip region during lateral impacts. Twenty participants underwent "pelvis-release experiments" (which simulate a lateral fall onto the hip), including muscle-'relaxed' and 'contracted' trials. Males and low-BMI individuals exhibited 44 and 55% greater peak pressure, as well as 66 and 56% lower peripheral hip force, compared to females and high-BMI individuals, respectively. Local muscle activation increased peak force by 10%, contact area by 17%, and peripheral hip force by 11% compared to relaxed trials. In summary, males and low-BMI individuals exhibited more concentrated loading over the greater trochanter. Muscle activation increased peak force, but this force was distributed over a larger area, preventing increased localized loading over the greater trochanter. These findings suggest potential value in incorporating sex, gender, and muscle activation-specific force distributions as inputs into computational tissue-level models, and have implications for the design of personalized protective devices including wearable hip protectors.


Assuntos
Acidentes por Quedas , Índice de Massa Corporal , Articulação do Quadril/fisiologia , Quadril/fisiopatologia , Modelos Biológicos , Contração Muscular/fisiologia , Músculo Esquelético/fisiologia , Adulto , Simulação por Computador , Feminino , Humanos , Masculino , Pressão , Caracteres Sexuais
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