Your search keyword '"Weight-Bearing"' showing total 38,331 results

51. Quantitative Three-dimensional Assessment of Knee Joint Space Width from Weight-bearing CT

Author

Turmezei, Tom D, B Low, Samantha, Rupret, Simon, Treece, Graham M, Gee, Andrew H, MacKay, James W, Lynch, John A, Poole, Kenneth ES, and Segal, Neil A

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Clinical Research, Biomedical Imaging, Feasibility Studies, Female, Humans, Imaging, Three-Dimensional, Male, Middle Aged, Osteoarthritis, Knee, Reproducibility of Results, Retrospective Studies, Tomography, X-Ray Computed, Weight-Bearing, Medical and Health Sciences, Nuclear Medicine & Medical Imaging, Clinical sciences

Abstract

Background Imaging of structural disease in osteoarthritis has traditionally relied on MRI and radiography. Joint space mapping (JSM) can be used to quantitatively map joint space width (JSW) in three dimensions from CT images. Purpose To demonstrate the reproducibility, repeatability, and feasibility of JSM of the knee using weight-bearing CT images. Materials and Methods Two convenience samples of weight-bearing CT images of left and right knees with radiographic Kellgren-Lawrence grades (KLGs) less than or equal to 2 were acquired from 2014 to 2018 and were analyzed retrospectively with JSM to deliver three-dimensional JSW maps. For reproducibility, images of three sets of knees were used for novice training, and then the JSM output was compared against an expert's assessment. JSM was also performed on 2-week follow-up images in the second cohort, yielding three-dimensional JSW difference maps for repeatability. Statistical parametric mapping was performed on all knee imaging data (KLG, 0-4) to show the feasibility of a surface-based analysis in three dimensions. Results Reproducibility (in 20 individuals; mean age, 58 years ± 7 [standard deviation]; mean body mass index, 28 kg/m2 ± 6; 14 women) and repeatability (in nine individuals; mean age, 53 years ± 6; mean body mass index, 26 kg/m2 ± 4; seven women) reached their lowest performance at a smallest detectable difference less than ±0.1 mm in the central medial tibiofemoral joint space for individuals without radiographically demonstrated disease. The average root mean square coefficient of variation was less than 5% across all groups. Statistical parametric mapping (33 individuals; mean age, 57 years ± 7; mean body mass index, 27 kg/m2 ± 6; 23 women) showed that the central-to-posterior medial joint space was significantly narrower by 0.5 mm for each incremental increase in the KLG (threshold P < .05). One knee (KLG, 2) demonstrated a baseline versus 24-month change in its three-dimensional JSW distribution that was beyond the smallest detectable difference across the lateral joint space. Conclusion Joint space mapping of the knee using weight-bearing CT images is feasible, demonstrating a relationship between the three-dimensional joint space width distribution and structural joint disease. It is reliably learned by novice users, can be personalized for disease phenotypes, and can be used to achieve a smallest detectable difference that is at least 50% smaller than that reported to be achieved at the highest performance level in radiography. © RSNA, 2021 Online supplemental material is available for this article. See also the editorial by Roemer in this issue.

Published

2021

52. Editorial for “In Vivo Assessment of Age‐ and Loading Configuration‐Related Changes in Multiscale Mechanical Behavior of the Human Proximal Femur Using MRI‐Based Finite Element Analysis”

Author

Bae, Won C

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Femur, Finite Element Analysis, Humans, Magnetic Resonance Imaging, Models, Biological, Stress, Mechanical, Weight-Bearing, Physical Sciences, Engineering, Medical and Health Sciences, Nuclear Medicine & Medical Imaging, Clinical sciences

Published

2021

53. Quantification of load-dependent changes in the collagen fiber architecture for the strut chordae tendineae-leaflet insertion of porcine atrioventricular heart valves.

Author

Ross, Colton, Hsu, Ming-Chen, Baumwart, Ryan, Mir, Arshid, Burkhart, Harold, Holzapfel, Gerhard, Wu, Yi, and Lee, Chung-Hao

Subjects

Collagen fibers, Constitutive modeling, Mitral valve, Polarized spatial frequency domain imaging, Tricuspid valve, Uniaxial mechanical testing, Animals, Anisotropy, Biomechanical Phenomena, Birefringence, Chordae Tendineae, Female, Fibrillar Collagens, Heart Valves, Male, Swine, Tricuspid Valve, Weight-Bearing

Abstract

Atrioventricular heart valves (AHVs) regulate the unidirectional flow of blood through the heart by opening and closing of the leaflets, which are supported in their functions by the chordae tendineae (CT). The leaflets and CT are primarily composed of collagen fibers that act as the load-bearing component of the tissue microstructures. At the CT-leaflet insertion, the collagen fiber architecture is complex, and has been of increasing focus in the previous literature. However, these previous studies have not been able to quantify the load-dependent changes in the tissues collagen fiber orientations and alignments. In the present study, we address this gap in knowledge by quantifying the changes in the collagen fiber architecture of the mitral and tricuspid valves strut CT-leaflet insertions in response to the applied loads by using a unique approach, which combines polarized spatial frequency domain imaging with uniaxial mechanical testing. Additionally, we characterized these microstructural changes across the same specimen without the need for tissue fixatives. We observed increases in the collagen fiber alignments in the CT-leaflet insertion with increased loading, as described through the degree of optical anisotropy. Furthermore, we used a leaflet-CT-papillary muscle entity method during uniaxial testing to quantify the chordae tendineae mechanics, including the derivation of the Ogden-type constitutive modeling parameters. The results from this study provide a valuable insight into the load-dependent behaviors of the strut CT-leaflet insertion, offering a research avenue to better understand the relationship between tissue mechanics and the microstructure, which will contribute to a deeper understanding of AHV biomechanics.

Published

2021

54. Estimation of load conditions and strain distribution for in vivo murine tibia compression loading using experimentally informed finite element models.

Author

Pickering, Edmund, Silva, Matthew, Delisser, Peter, Brodt, Michael, Gu, YuanTong, and Pivonka, Peter

Subjects

Bone adaptation, Bone mechanics, Finite element modelling, Mouse tibia loading, Strain gauging, Animals, Finite Element Analysis, Mice, Stress, Mechanical, Tibia, Weight-Bearing, X-Ray Microtomography

Abstract

The murine tibia compression model, is the gold standard for studying bone adaptation due to mechanical loading in vivo. Currently, a key limitation of the experimental protocol and associated finite element (FE) models is that the exact load transfer, and consequently the loading conditions on the tibial plateau, is unknown. Often in FE models, load is applied to the tibial plateau based on inferences from micro-computed tomography (μCT). Experimental models often use a single strain gauge to assess the three-dimensional (3D) loading state. However, a single strain gauge is insufficient to validate such FE models. To address this challenge, we develop an experimentally calibrated method for identifying the load application region on the tibial plateau based upon measurements from three strain gauges. To achieve this, axial compression was conducted on mouse tibiae (n=3), with strains gauges on three surfaces. FE simulations were performed to compute the strains at the gauge locations as a function of a variable load location. By minimising the error between experimental and FE strains, the precise load location was identified; this was found to vary between tibia specimens. It was further shown that commonly used FE loading conditions, found in literature, did not replicate the experimental strain distribution, highlighting the importance of load calibration. This work provides critical insights into how load is transferred to the tibial plateau. Importantly, this work develops an experimentally informed technique for loading the tibial plateau in FE models.

Published

2021

55. Rapid CT-based Estimation of Articular Cartilage Biomechanics in the Knee Joint Without Cartilage Segmentation.

Author

Mohammadi, Ali, Myller, Katariina, Tanska, Petri, Hirvasniemi, Jukka, Saarakkala, Simo, Töyräs, Juha, Korhonen, Rami, and Mononen, Mika

Subjects

Articular cartilage, Atlas-based modeling, Computed tomography, Finite element (FE) modeling, Magnetic resonance imaging, Osteoarthritis (OA), Aged, Biomechanical Phenomena, Cartilage, Articular, Female, Finite Element Analysis, Gait, Humans, Knee Joint, Magnetic Resonance Imaging, Male, Middle Aged, Models, Biological, Tomography, X-Ray Computed, Weight-Bearing

Abstract

Knee osteoarthritis (OA) is a painful joint disease, causing disabilities in daily activities. However, there is no known cure for OA, and the best treatment strategy might be prevention. Finite element (FE) modeling has demonstrated potential for evaluating personalized risks for the progression of OA. Current FE modeling approaches use primarily magnetic resonance imaging (MRI) to construct personalized knee joint models. However, MRI is expensive and has lower resolution than computed tomography (CT). In this study, we extend a previously presented atlas-based FE modeling framework for automatic model generation and simulation of knee joint tissue responses using contrast agent-free CT. In this method, based on certain anatomical dimensions measured from bone surfaces, an optimal template is selected and scaled to generate a personalized FE model. We compared the simulated tissue responses of the CT-based models with those of the MRI-based models. We show that the CT-based models are capable of producing similar tensile stresses, fibril strains, and fluid pressures of knee joint cartilage compared to those of the MRI-based models. This study provides a new methodology for the analysis of knee joint and cartilage mechanics based on measurement of bone dimensions from native CT scans.

Published

2020

56. The Partial Immersion Aquatic Approach Using Adjustable Weight Bearing to Improve Posture and Sitting Balance Adaptation for Children with Severe Cerebral Palsy.

Author

Shelef, Niv

Subjects

POSTURE, CEREBRAL palsy, AQUATIC sports safety measures, AQUATIC exercise therapy, QUALITATIVE research

Abstract

The innovative "Partial Immersion" Aquatic Therapy Approach was developed to enhance balance and posture during sitting adaptation for children with severe cerebral palsy who exhibit deficiency in those skills on land. Stable balance during sitting posture is one of the preconditions for hands function in activities of daily living. Aquatic skills learned during aquatic therapy were then transferred to a land environment. Therapy included the use of a treatment chair that enabled adjustable weight bearing in a series of 30 mm steps. A mixed-methods design employing a multiple case study approach (n=5) including quantitative and qualitative methods investigated the effectiveness of the proposed treatment. Cases were tested at pre-and post-treatment times (base-lines 1 and 2) and at a 12-month follow-up point. All participants improved posture and balance adaptations during free sitting on land. Water intervention treatments achieved the highest improved output result as measured per minute of treatment time. Combined water-land treatments achieved less efficient results and the land-only intervention achieved the lowest output results in relation to minute of treatment time. The findings extend our knowledge in relation to theories of natural selection, motor control, motor learning and dynamical systems. [ABSTRACT FROM AUTHOR]

Published

2020

57. Digital monitoring of weight-bearing improves success rates and reduces complications in lower extremity surgeries

Author

Babak Otoukesh, Seyedeh Fariba Moshiri, Behrad Jahangiri, Kamal Mehraban Jafarlou, Shayan Amiri, Nadieh Baniasadi, and Bahareh Heshmat Ghahderijani

Subjects

Weight-bearing, lower extremity, randomized controlled trial, total knee, total hip, Medicine, Human anatomy, QM1-695

Abstract

The aim of this study is to develop a digital monitoring system to track weight and evaluate its impact on postoperative outcomes after lower extremity surgeries (LES). This parallel randomized controlled trial enrolled 266 patients who underwent LES (fracture or joint replacement) at our medical center between March 11, 2022, and January 10, 2023. Patients were randomly assigned to the intervention and control groups in a 1:1 ratio. The intervention group (n=116) used a cane and shoes equipped with a weight-bearing system after lower limb surgery, while the control group (n=116) used a simple cane and shoes without a weight-bearing system. The primary outcomes included callus formation, duration of union, and success rate of union in the two groups. The intervention group had a significantly higher rate of complete surgical success than the control group (93.9% vs. 79.3%, p=0.001). The intervention group also had a significantly lower risk of non-union than the control group (OR: 2.33, 95% CI: 1.14, 3.48, p=0.001). The mean duration of surgery until the time of union and the meantime of callus formation was significantly lower in the intervention group (p=0.01). The use of a digital monitoring system for weighing in LES significantly increased the success rate and reduced post-operative complications. Therefore, incorporating this system can enhance the rehabilitation process and prevent revision surgeries in patients with LES.

Published

2023

58. A Stability-Based Management Protocol for Isolated Lateral Malleolar Ankle Fractures at the Level of the Syndesmosis Reduces the Need for Surgical Intervention.

Author

Morcos, Zeid, Yousaf, Ali, Duggleby, Luke, and Koç, Togay

Subjects

*SPRAIN prevention, *ANKLE fractures, *ANKLE injuries, *MEDICAL protocols, *DESCRIPTIVE statistics, *NEEDS assessment, *WEIGHT-bearing (Orthopedics)

Abstract

Purpose: The study aimed to establish and subsequently improve the rate of stability assessments of fractures with uncertain stability and the impact on the avoidance of potentially unnecessary surgery. Methods: Two independent audit cycles were conducted from October 2019 to May 2020. All patients had closed isolated lateral malleolar fractures at the level of the tibiotalar syndesmosis involving skeletally mature bone. A stability-based management protocol was introduced, incorporating an education programme and management guideline. Results: 75 ankles fractures were included. In the initial audit cycle, 13 patients did not undergo stability X-rays within 2 weeks of injury. Interestingly, only one stability assessment was performed for five operated ankles in the first audit, versus a 100% compliance rate in the second cycle. We observed more accurate documentation following education and awareness of clinical importance. Conclusion: By implementing a stability-based management guideline, there was an improvement in compliance with guidance towards stability assessments of ankle fractures. This potentially led to the avoidance of unnecessary surgery on fractures where stability assessments supported non-operative management. [ABSTRACT FROM AUTHOR]

Published

2023

59. Postoperative weight-bearing restrictions and rehabilitation protocols after hip arthroscopy for femoroacetabular impingement: a systematic review.

Author

Hemstock, Riley, Mulhall, Drew, Didyk, Janine, Ogborn, Dan, and Lemmex, Devin

Subjects

ARTHROSCOPY, FEMORACETABULAR impingement, HIP surgery, REHABILITATION, POSTOPERATIVE care

Abstract

Despite recent increased interest in hip arthroscopy for the management of femoroacetabular impingement (FAI), there is little evidence to guide weight-bearing recommendations and rehabilitation postoperatively. The primary objective of this study was to determine if sufficient evidence exists to recommend specific weight-bearing restrictions postoperatively. This study was registered with PROSPERO (CRD42021247741). PubMed, MEDLINE and Embase were searched on 3 March 2023 for Level I–IV studies including patients over the age of 18 years, with a minimum 1-year follow-up and reporting of a weight-bearing status, a patient-reported outcome measure (PROM) and a clinical outcome. Meta-analysis was precluded due to heterogeneity in the included studies, and a descriptive analysis was undertaken. Methodological quality and risk of bias were assessed with the methodological index for non-randomized studies (MINORS). Twenty-four studies including 2231 patients who underwent hip arthroscopy for treatment of FAI were included (follow-up interval 33.2 ± 24.7 months). Most articles (62.5%) were case series. There were seven terms describing weight-bearing recommendations, with 83% being some variation of 'partial weight-bearing'. Eight PROMs were reported, with 83% using the modified Harris Hip Score and 87.5% of studies reporting reoperation rates. Only 75% of studies reported rehabilitation protocols. The average MINORS score was 11.07 ± 1.10 out of 16 for non-comparative studies and 18.22 ± 1.48 out of 24 for comparative studies. The reporting of weight-bearing status, clinical outcomes, PROMs and rehabilitation parameters remains poor. At present, sufficient comparative evidence does not exist to make specific weight-bearing recommendation postoperatively. [ABSTRACT FROM AUTHOR]

Published

2023

60. Recurrent Instability Rate and Subjective Knee Function following Accelerated Rehabilitation after ACL Reconstruction in Comparison to a Conservative Rehabilitation Protocol.

Author

Deichsel, Adrian, Oeckenpöhler, Simon, Raschke, Michael J., Grunenberg, Ole, Peez, Christian, Briese, Thorben, Herbst, Elmar, Kittl, Christoph, and Glasbrenner, Johannes

Subjects

*ANTERIOR cruciate ligament surgery, *REOPERATION, *REHABILITATION, *FISHER exact test, *KNEE surgery

Abstract

Introduction: The Purpose of the present study was to assess the outcome of anterior cruciate ligament reconstruction (ACLR) with an accelerated rehabilitation protocol and to compare it to a conservative rehabilitation protocol. It was hypothesized that an accelerated rehabilitation protocol, including brace-free early weight bearing, would result in a higher rate of recurrent instability and revision surgery compared to a conservative rehabilitation protocol. Methods: From 2016 to 2017, two different rehabilitation protocols for isolated ACLR were used at a high-volume knee surgery center. A total of 65 consecutive patients with isolated hamstring ACLR, of whom n = 33 had been treated with an accelerated (AccRehab) and n = 32 with a conservative rehabilitation protocol (ConRehab), were retrospectively included in the study. Patients were evaluated for recurrent instability, revision surgery, and other complications at a mean follow-up period of 64 ± 7.4 months. In addition, Tegner Activity Scale, Lysholm Score, and IKDC-subjective Score were evaluated. Statistical comparison between the two groups was performed utilizing Fisher's exact test and Student's t-test. Results: Mean age (29.3 vs. 26.6 years) and preoperative Tegner Score (6.4 vs. 5.9) were comparable between both groups. At 64 ± 7.4 months after ACLR, six cases of recurrent instability were reported in the AccRehab group (18%) in comparison to three cases (9%) in the ConRehab group (p = n.s.). There was no significant difference regarding revision surgery and further complications. Furthermore, no significant difference was found between both groups regarding Tegner (5.5 ± 1.9 vs. 5.5 ± 1.2), Lysholm (93.6 ± 6.3 vs. 89.3 ± 10.7), and IKDC score (89.7 ± 7.9 vs. 86.7 ± 12.1). Conclusion: No significant disadvantage of an accelerated rehabilitation protocol following ACLR was found in terms of recurrent instability rate, revision surgery, or patient-reported outcome. However, a trend towards a higher reinstability rate was found for an accelerated rehabilitation protocol. Future level one trials evaluating brace-free early weight bearing following ACLR are desirable. [ABSTRACT FROM AUTHOR]

Published

2023

61. Influence of weight-bearing on the 3D movement of lumbar facet joints in the sitting position.

Author

Han, Ye, Wang, Xiaodong, Wang, Jianzhong, Sun, Shaosong, Xia, Xi, Wang, Jing, and Miao, Jun

Subjects

*ZYGAPOPHYSEAL joint, *SITTING position, *RANGE of motion of joints, *LUMBAR vertebrae, *COMPUTED tomography

Abstract

Objective: To analyze the motion characteristics of lumbar facet joints and to observe the effect of weight-bearing on lumbar facet joints in the sitting position. Methods: Ten normal subjects (5 males and 5 females) were recruited and scanned by CT, and their lumbar 3D models were reconstructed by software. The images of flexion and extension of lumbar facet joints in the sitting position were collected without weight-bearing and weight-bearing 10 kg, and the 2D model was constructed by software. The 2D-3D model was matched to restore the flexion and extension motion changes of the subjects' lumbar spine in the sitting position. Coordinates were established in the middle of the vertebral body and copied to the facet joints. Measure and record the lumbar facet joint movement distance through coordinate system. The relevant data of facet joints were collected. Results: In the L3/4 segment, after weight loading, the displacement of the left facet joint in the X axis became larger, while that in the Y axis and Z axis decreased. The displacement of the right facet joint in the X axis and Y axis increased, and the Z axis displacement decreased. The rotation angle of the bilateral facet joints also decreased. In the L4/5 segment, after loading, the displacements of the X, Y, and Z axis displacements of both sides increase, while the rotation angles of α and β increase, while the rotation angle of γ decreases. In the L5/S1 segment, the displacements of the X, Y, and Z axes on the left side decrease. The displacement of the X and Y axes on the right side decreases, while the displacement on the Z axis increases. The rotation angles of α and γ increase, and the rotation angle of the β axis decreases. Conclusion: When sitting, the flexion and extension distance and rotational displacement of lumbar facet joints are not affected by weight-bearing. In addition, there is asymmetry in the movement of the left and right facet joints, and weight bearing has no effect on the asymmetry of the motion. [ABSTRACT FROM AUTHOR]

Published

2023

62. The benefits of a percutaneous supplemental screw to reinforce the hinge of a medial open wedge tibial osteotomy.

Author

Ma, Hsuan-Hsiao, Lobenhoffer, Philip, and Yang, Jesse Chieh-Szu

Subjects

*SCREWS, *OSTEOTOMY, *HINGES, *WEDGES, *TIBIA

Abstract

Introduction: Our earlier studies reported that an additional lag screw placed from the opposite side increases the stability of the fixation construct in medial open wedge high tibia osteotomy (MOWHTO). The aim of the study was to evaluate the clinical relevance of the use of a supplemental screw with immediate post-operative full weight-bearing and its benefits in terms of functional outcome, radiographic outcome and complications. Materials and methods: A retrospective study was performed comparing the historical cohort (MOWHTO without opposite screw) (group A) with the current cohort (MOWHTO with opposite screw) (group B). The patients underwent clinical and radiological assessments. We evaluated the WOMAC (The Western Ontario and McMaster Universities) score, IKDC (International Knee Documentation Committee) scores, and Lysholm knee score. Patients' return to sports and work were also recorded. Results: We included 123 knees receiving MOWHTO alone (group A) with 114 knees (group B) receiving MOWHTO with an opposite screw. A shorter bone union time (18.3 ± 2.1 weeks v.s. 11.5 ± 2.6 weeks, p < 0.001), earlier return to sports (6.1 months vs. 4.6 months, p < 0.001) and return to works (3.2 months vs. 2.3 months, p < 0.001) and better 6-month functional outcomes were found in group B (p < 0.001). The complications were similar in both groups. One patient experienced irritation at the site of the screw entrance and the screw was removed after union. Conclusion: The current study evaluated the clinical efficacy of a supplemental lag screw placed from the opposite side in MOWHTO. Comparing to the plate alone, the additional opposite screw improved the implant and fixation stability under immediate weight-bearing without causing complications. A shorter time for returning to sports and work was noted, and a better functional outcome at 6-month follow-up was registered. [ABSTRACT FROM AUTHOR]

Published

2023

63. Exploring the differences between radiographic joint space width and MRI cartilage thickness changes using data from the IMI-APPROACH cohort.

Author

Jansen, Mylène P., Roemer, Frank W., Marijnissen, Anne Karien C. A., Kloppenburg, Margreet, Blanco, Francisco J., Haugen, Ida K., Berenbaum, Francis, Lafeber, Floris P. J. G., Welsing, Paco M. J., Mastbergen, Simon C., and Wirth, Wolfgang

Subjects

*CARTILAGE, *MAGNETIC resonance imaging, *LOADING & unloading, *PEARSON correlation (Statistics), *REGRESSION analysis

Abstract

Objective: Longitudinal weight-bearing radiographic joint space width (JSW) and non-weight-bearing MRI-based cartilage thickness changes often show weak correlations. The current objective was to investigate these correlations, and to explore the influence of different factors that could contribute to longitudinal differences between the two methods. Methods: The current study included 178 participants with medial osteoarthritis (OA) out of the 297 knee OA participants enrolled in the IMI-APPROACH cohort. Changes over 2 years in medial JSW (ΔJSWmed), minimum JSW (ΔJSWmin), and medial femorotibial cartilage thickness (ΔMFTC) were assessed using linear regression, using measurements from radiographs and MRI acquired at baseline, 6 months, and 1 and 2 years. Pearson R correlations were calculated. The influence of cartilage quality (T2 mapping), meniscal extrusion (MOAKS scoring), potential pain-induced unloading (difference in knee-specific pain scores), and increased loading (BMI) on the correlations was analyzed by dividing participants in groups based on each factor separately, and comparing correlations (slope and strength) between groups using linear regression models. Result: Correlations between ΔMFTC and ΔJSWmed and ΔJSWmin were statistically significant (p < 0.004) but weak (R < 0.35). Correlations were significantly different between groups based on cartilage quality and on meniscal extrusion: only patients with the lowest T2 values and with meniscal extrusion showed significant moderate correlations. Pain-induced unloading or BMI-induced loading did not influence correlations. Conclusions: While the amount of loading does not seem to make a difference, weight-bearing radiographic JSW changes are a better reflection of non-weight-bearing MRI cartilage thickness changes in knees with higher quality cartilage and with meniscal extrusion. [ABSTRACT FROM AUTHOR]

Published

2023

64. Exercise-induced hypohydration impairs 3 km treadmill-running performance in temperate conditions.

Author

Funnell, Mark P., Embleton, Daniel, Morris, Thomas, Macrae, Heather Z., Hart, Nicholas, Mazzotta, Tiberio, Lockyer, William, Juett, Loris A., Mears, Stephen A., and James, Lewis J.

Subjects

*HYDRATION, *EXERCISE tests, *RUNNING, *TEMPERATURE, *BLOOD plasma, *TREADMILLS, *EXERCISE physiology, *EXERCISE, *HEART beat, *ATHLETIC ability, *OSMOLAR concentration, *BLOOD volume, *THIRST

Abstract

Research assessing exercise-induced hypohydration on running performance in a temperate environment is scarce. Given the weight-bearing nature of running, the negative effects of hypohydration might be offset by the weight-loss associated with a negative fluid balance. Therefore, this study investigated the effect of exercise-induced hypohydration on running performance in temperate conditions. Seventeen intermittent games players (age 22 ± 1 y; VO2peak 52.5 ± 4.1 mL∙kg−1∙min−1) completed preliminary and familiarisation trials, and two experimental trials consisting of 12 blocks of 6 min of running (65% VO2peak; preload) with 1 min passive rest in-between, followed by a 3 km time trial (TT). During the preload, subjects consumed minimal fluid (60 mL) to induce hypohydration (HYP) or water to replace 95% sweat losses (1622 ± 343 mL; EUH). Body mass loss (EUH −0.5 ± 0.3%; HYP −2.2 ± 0.4%; P < 0.001), and other changes indicative of hypohydration, including increased serum osmolality, heart rate, thirst sensation, and decreased plasma volume (P ≤ 0.022), were apparent in HYP by the end of the preload. TT performance was ~6% slower in HYP (EUH 900 ± 87 s; HYP 955 ± 110 s; P < 0.001). Exercise-induced hypohydration of ~2% body mass impaired 3 km running TT performance in a temperate environment. [ABSTRACT FROM AUTHOR]

Published

2023

65. The radiation dose, clinical and anatomical implications of erect lumbar spine radiography: A single centre pre-post implementation evaluation.

Author

Bradley, C. and Snaith, B.

Abstract

Lumbar radiographs remain a common imaging examination despite strategies to reduce their use. Many authors have demonstrated benefits in changing from traditional supine and recumbent lateral projections to a prone and/or erect orientation. Despite evidence of clinical and radiation dose optimisation, widespread adoption of these strategies has stalled. This article describes the single-centre implementation and evaluation of erect PA and lateral projections. This was an observational study pre- and post-implementation of an erect imaging protocol. Patient BMI, image field size, source image and source object distances and DAP were collected together with assessment of radiographic spinal alignment and disc space demonstration. Effective dose was calculated with organ specific doses. 76 (53.5%) patients were imaged in the supine AP and recumbent lateral position, 66 (46.5%) had erect PA and lateral radiographs. Despite the larger BMI of the erect cohort and similar field sizes, effective dose was lower in the PA position by an average of 20% (p < 0.05), however, no significant difference in lateral dose. Anatomical improvements were evident with greater visualisation of intervertebral disc spaces in the PA erect (t = −9.03; p <.001) and lateral (t = −10.298; p <.001) orientations. Erect PA radiographs demonstrated a leg length discrepancy in 47.0% (0.3–4.7 cm) and a scoliosis in 21.2% of cases, with a significant link between these findings (r (64) = 0.44; p <.001). Erect lumbar spine radiography provides information on clinical outcomes not available with recumbent projections. The improvements in anatomical visualisation and radiation dose reduction supports the local change in practice. - Erect imaging can reduce effective dose with an optimised acquisition protocol - additional pathological information can be revealed by the erect posture. - postural awareness is critical to interpret images accurately. [ABSTRACT FROM AUTHOR]

Published

2023

66. Using Cumulative Load to Explain How Body Mass Index and Daily Walking Relate to Worsening Knee Cartilage Damage Over Two Years: The MOST Study

Author

Voinier, Dana, Neogi, Tuhina, Stefanik, Joshua J, Guermazi, Ali, Roemer, Frank W, Thoma, Louise M, Master, Hiral, Nevitt, Michael C, Lewis, Cora E, Torner, James, and White, Daniel K

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Arthritis, Clinical Research, Musculoskeletal, Aged, Biomechanical Phenomena, Body Mass Index, Cartilage, Articular, Disease Progression, Female, Humans, Knee Joint, Longitudinal Studies, Magnetic Resonance Imaging, Male, Middle Aged, Osteoarthritis, Knee, Patellofemoral Joint, Prospective Studies, Time Factors, Walking, Weight-Bearing, Immunology, Public Health and Health Services, Arthritis & Rheumatology, Clinical sciences

Abstract

ObjectiveKnee cartilage damage is often linked to mechanical overloading. However, cartilage requires mechanical load to remain healthy, suggesting that underloading may be detrimental. This study was undertaken to examine knee overloading and underloading by defining cumulative load as the joint effects of body mass index (BMI) and daily walking, and examine the relationship between cumulative load and worsening cartilage damage over 2 years.MethodsWe used data from the Multicenter Osteoarthritis Study. Steps/day, measured by accelerometry, and BMI were calculated at the 60-month visit. Cartilage damage on magnetic resonance imaging was semiquantitatively scored using the Whole-Organ Magnetic Resonance Imaging Score (WORMS) at the 60-month and 84-month visits; worsening damage was defined as increased WORMS between visits. Risk ratios (RRs) and 95% confidence intervals (95% CIs) were calculated using binomial regression, with adjustment for potential confounders.ResultsOur study included 964 participants, 62% of whom were female, with a mean ± SD age of 66.9 ± 7.5 years. Participants had a mean ± SD BMI of 29.7 ± 4.8 kg/m2 and walked a mean ± SD of 7,153 ± 2,591 steps/day. Participants who walked a moderate number of steps/day (6,000-7,900) or a high number of steps/day (>7,900) and had a high BMI (>31 kg/m2 ) had a greater risk of worsening medial tibiofemoral (TF) damage (RR 2.83 [95% CI 1.46-5.48] and RR 2.61 [95% CI 1.50-4.54], respectively) compared with those who walked similar steps/day and had a low BMI (18-27 kg/m2 ). Participants with a low number of steps/day (

Published

2020

67. Bone gain following loading is site-specifically enhanced by prior and concurrent disuse in aged male mice.

Author

Galea, Gabriel, Delisser, Peter, Meakin, Lee, Price, Joanna, and Windahl, Sara

Subjects

Bone, Mechanical loading, Mouse, Site-specific, Animals, Bone and Bones, Cortical Bone, Female, Male, Mice, Mice, Inbred C57BL, Tibia, Weight-Bearing, X-Ray Microtomography

Abstract

The primary aim of osteoanabolic therapies is to strategically increase bone mass in skeletal regions likely to experience high strains. In the young healthy skeleton, this is primarily achieved by bones adaptation to loading. This adaptation appears to fail with age, resulting in osteoporosis and fractures. We previously demonstrated that prior and concurrent disuse enhances bone gain following loading in old female mice. Here, we applied site specificity micro-computed tomography analysis to map regional differences in bone anabolic responses to axial loading of the tibia between young (19-week-old) and aged (19-month-old), male and female mice. Loading increased bone mass specifically in the proximal tibia in both sexes and ages. Young female mice gained more cortical bone than young males in specific regions of the tibia. However, these site-specific sex differences were lost with age such that bone gain following loading was not significantly different between old males and females. To test whether disuse enhances functional adaption in old male mice as it does in females, old males were subjected to sciatic neurectomy or sham surgery, and loading was initiated four days after surgery. Disuse augmented tibial cortical bone gain in response to loading in old males, but only in regions which were load-responsive in the young. Prior and concurrent disuse also increased loading-induced trabecular thickening in the proximal tibia of old males. Understanding how diminished background loading rejuvenates the osteogenic loading response in the old may improve osteogenic exercise regimes and lead to novel osteoanabolic therapies.

Published

2020

68. The Impact of Heavy Load Carrying on Musculoskeletal Pain and Disability Among Women in Shinyanga Region, Tanzania.

Author

Kadota, Jillian L, McCoy, Sandra I, Bates, Michael N, Mnyippembe, Agatha, Njau, Prosper F, Prata, Ndola, and Harris-Adamson, Carisa

Subjects

Foot, Ankle, Knee, Humans, Crops, Agricultural, Arthralgia, Low Back Pain, Headache, Neck Pain, Water, Multivariate Analysis, Cross-Sectional Studies, Coal, Lifting, Weight-Bearing, Wood, Adolescent, Adult, Tanzania, Female, Young Adult, Musculoskeletal Pain, Sand, Aging, Chronic Pain, Clinical Research, Pain Research, Musculoskeletal, Clinical Sciences, Public Health and Health Services

Abstract

BackgroundHeavy load carrying has been associated with musculoskeletal discomfort (MSD) and disability. However, there is a lack of research investigating this association in resource-constrained settings where heavy load carrying by women is common.ObjectivesWe assessed the impact of heavy load carrying on musculoskeletal pain and disability among women in Shinyanga Region, Tanzania, in an exploratory cross-sectional study.MethodsEligible participants were a convenience sample of women, at least 18 years of age, who passed a study recruitment site carrying a load. We collected information on load-carrying practices, including frequency and time spent carrying water, wood, agricultural products, coal, sand, or rocks, and measured the weight of the load carried at the time. Outcomes included self-reported MSDs, defined as experiencing pain lasting >3 days in the neck, head, back, knees, feet and/or ankles within the last 1 year, and related disability. Using multivariable logistic regression we assessed for associations between load carrying exposures and MSDs and disability.FindingsResults showed a high prevalence of MSDs across the body regions assessed and evidence to suggest a relationship of back pain and related disability with several measures of load-carrying, including duration, frequency, and weight. Multivariable analyses revealed associations of increased load carrying exposures with low back pain (LBP) and related disability, including statistically significant increases in odds of LBP with increasing weight, total duration of load carrying/week and cumulative loads/week.ConclusionsFindings indicate a substantial burden of MSDs and disability in this population of women who carry heavy loads daily. The extent of discomfort and disability increased with increasing exposure to various load-carrying measures, especially for LBP. Larger epidemiologic studies that definitively assess relationships of load carrying with MSDs and disability are warranted.

Published

2020

69. Abnormal Joint Loading During Gait in Persons With Hip Osteoarthritis Is Associated With Symptoms and Cartilage Lesions.

Author

Liao, Tzu-Chieh, Samaan, Michael A, Popovic, Tijana, Neumann, Jan, Zhang, Alan L, Link, Thomas M, Majumdar, Sharmila, and Souza, Richard B

Subjects

Allied Health and Rehabilitation Science, Biomedical and Clinical Sciences, Clinical Sciences, Health Sciences, Chronic Pain, Rehabilitation, Biomedical Imaging, Osteoarthritis, Clinical Research, Arthritis, Aging, Pain Research, 2.1 Biological and endogenous factors, Aetiology, Musculoskeletal, Quality Education, Adult, Aged, Biomechanical Phenomena, Cartilage, Articular, Cross-Sectional Studies, Female, Gait, Hip Joint, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Osteoarthritis, Hip, Radiography, Range of Motion, Articular, Self Report, Weight-Bearing, HOOS, increased hip moment, moment impulse, SHOMRI, Human Movement and Sports Sciences, Orthopedics, Clinical sciences, Allied health and rehabilitation science, Sports science and exercise

Abstract

BackgroundHip joint loading in persons with hip osteoarthritis (OA) is not well studied, and its associations with symptoms and lesions are unknown.ObjectivesTo determine whether hip joint loading differs between people with and without radiographic hip OA, and to identify its associations with patients' symptoms and cartilage morphology.MethodsForty-eight patients (28 male; mean ± SD age, 56.0 ± 12.2 years) with hip OA and 95 controls (40 male; age, 43.2 ± 13.6 years) participated in this cross-sectional analysis. Pelvic radiographs, questionnaires, magnetic resonance imaging (MRI), and gait analysis were conducted. The Hip disability and Osteoarthritis Outcome Score (HOOS) was used to assess symptoms. Cartilage morphology was graded on MRI scans using the Scoring Hip Osteoarthritis with Magnetic Resonance Imaging (SHOMRI) system. Biomechanical variables included peak external hip joint moment (Newton meters per kilogram) and moment impulses (Newton meters times milliseconds per kilogram) in all planes. Generalized estimating equations were used to compare the biomechanical characteristics between groups. In the patients with OA, associations of moment impulses with HOOS and SHOMRI scores were assessed with partial correlations.ResultsThe OA group exhibited higher peak external hip flexion and adduction moments (P

Published

2019

70. Distribution Pattern of Dynamic Plantar Pressure in Patients with Traumatic Extension Knee Contracture

Author

XIONG Bin, ZHOU Yun, WANG Hua, ZHANG Quanbing, LIU Yi, LI Kai, ZHENG Haoran, WANG Jing, WANG Qunan

Subjects

knee contractures, wounds and injuries, dynamic plantar pressure, gait, weight-bearing, case-control studies, Medicine

Abstract

Background Traumatic extensor knee contracture is very common in clinic, and most patients have gait abnormalities. In clinical rehabilitation, the assessment of gait is mostly performed using scales and balance instruments. Dynamic plantar pressure test, as a scientific and objective assessment method, has been widely used in the assessment of lower limb diseases. The use of dynamic plantar pressure test in patients with traumatic extensor knee contracture is less common both nationally and internationally. Objective To investigate the distribution pattern of dynamic plantar pressure in patients with traumatic extensor knee contracture, and to provide data support for guiding rehabilitation assessment and gait training. Methods From December 2020 to December 2021, 35 patients with traumatic extensor knee contracture who were treated in the Department of Rehabilitation Medicine of the Second Affiliated Hospital of Anhui Medical University were selected as the study group, and 30 healthy individuals with normal gait who volunteered to participate in this study during the same period were selected as the control group. ByGait-G6060-5 gait analysis system measuring instrument was used to collect the plantar pressure parameters of the two groups of subjects. The step length, step width, step speed, foot angle, total touchdown time, the proportion of plantar pressure in each area〔hallux toe (T1 area), second to fifth toe (T2 area), first metatarsal (M1 area), second metatarsal (M2 area), third metatarsal (M3 area), fourth metatarsal (M4 area), fifth metatarsal (M5 area), middle plantar (MF area), medial heel (MH area), lateral heel (LH area) 〕, the total plantar pressure Ad value, the maximum deviation distance (COP-X deviation) of plantar pressure center in the lateral (left-right body direction) and the maximum deviation distance (COP-Y deviation) of plantar pressure center in the longitudinal (anterior-posterior body direction) of the two groups were compared and analyzed. Results The step length of the study group was shorter than that of the control group, the step width and total touchdown time were longer than those of the control group, the step speed was slower than that of the control group, and the foot angle was higher than that of the control group (P0.05). The deviation values in both the COP-X direction and COP-Y direction were higher in the study group than in the control group (P

Published

2022

71. Diagnostic value of a new axial loading MRI device in patients with suspected lumbar spinal stenosis.

Author

Fang, Xingyu, Li, Jialin, Wang, Liwei, Liu, Lin, Lv, Wei, Tang, Zhiquan, and Gao, Daifeng

Subjects

*SPINAL stenosis, *AXIAL loads, *MAGNETIC resonance imaging, *SPINAL canal, *MYELOGRAPHY, *PNEUMATIC machinery

Abstract

Objectives: This study was carried out to investigate a new device for axial loading MRI (alMRI) in the diagnosis of lumbar spinal stenosis (LSS). Methods: A total of 87 patients with suspected LSS sequentially underwent conventional MRI and alMRI using a new device with pneumatic shoulder-hip compression mode. Four quantitative parameters of dural sac cross-sectional area (DSCA), sagittal vertebral canal diameter (SVCD), disc height (DH), and ligamentum flavum thickness (LFT) at L3-4, L4-5, and L5-S1 in both examinations were measured and compared. Eight qualitative indicators were compared as valuable diagnostic information. Image quality, examinee comfort, test–retest repeatability, and observer reliability were also assessed. Results: Using the new device, all 87 patients successfully completed alMRI with no statistically significant differences in image quality and examinee comfort from conventional MRI. Statistically significant changes were observed in DSCA, SVCD, DH, and LFT after loading (p < 0.01). SVCD, DH, LFT, and DSCA changes were all positively correlated (r = 0.80, 0.72, 0.37, p < 0.01). Eight qualitative indicators increased from 501 to 669 after axial loading, for a total increase of 168 (33.5%). Nineteen patients (21.8%, 19/87) developed absolute stenosis after axial loading and 10 of them (11.5%, 10/87) also had a significant reduction in DSCA (> 15 mm2). The test–retest repeatability and observer reliability were good to excellent. Conclusion: The new device is stable for performing alMRI and can exacerbate the severity of spinal stenosis, providing more valuable information for diagnosing LSS and reducing missed diagnoses. Key Points: • The new axial loading MRI (alMRI) device could detect a higher frequency of patients with lumbar spinal stenosis (LSS). • The new device with pneumatic shoulder-hip compression mode was used to investigate its applicability in alMRI and diagnostic value for LSS. • The new device is stable for performing alMRI and can provide more valuable information for diagnosing LSS. [ABSTRACT FROM AUTHOR]

Published

2023

72. Assessment of acute bone loading in humans using [18F]NaF PET/MRI

Author

Haddock, Bryan, Fan, Audrey P, Uhlrich, Scott D, Jørgensen, Niklas R, Suetta, Charlotte, Gold, Garry Evan, and Kogan, Feliks

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Bioengineering, Biomedical Imaging, Clinical Research, Detection, screening and diagnosis, 4.1 Discovery and preclinical testing of markers and technologies, Musculoskeletal, Adult, Bone and Bones, Female, Fluorine Radioisotopes, Healthy Volunteers, Humans, Knee, Magnetic Resonance Imaging, Male, Multimodal Imaging, Positron-Emission Tomography, Sodium Fluoride, Weight-Bearing, PET, MRI, Hybrid imaging, NaF, Kinetics, Bone, Perfusion, PET/MRI, Other Physical Sciences, Nuclear Medicine & Medical Imaging, Clinical sciences

Abstract

PurposeThe acute effect of loading on bone tissue and physiology can offer important information with regard to joint function in diseases such as osteoarthritis. Imaging studies using [18F]-sodium fluoride ([18F]NaF) have found changes in tracer kinetics in animals after subjecting bones to strain, indicating an acute physiological response. The aim of this study is to measure acute changes in NaF uptake in human bone due to exercise-induced loading.MethodsTwelve healthy subjects underwent two consecutive 50-min [18F]NaF PET/MRI examinations of the knees, one baseline followed by one post-exercise scan. Quantification of tracer kinetics was performed using an image-derived input function from the popliteal artery. For both scans, kinetic parameters of KiNLR, K1, k2, k3, and blood volume were mapped parametrically using nonlinear regression with the Hawkins model. The kinetic parameters along with mean SUV and SUVmax were compared between the pre- and post-exercise examinations. Differences in response to exercise were analysed between bone tissue types (subchondral, cortical, and trabecular bone) and between regional subsections of knee subchondral bone.ResultsExercise induced a significant (p

Published

2019

73. Rehabilitation Predictors of Clinical Outcome Following Revision ACL Reconstruction in the MARS Cohort.

Author

Wright, Rick W, Huston, Laura J, Nwosu, Samuel K, Allen, Christina R, Anderson, Allen F, Cooper, Daniel E, DeBerardino, Thomas M, Dunn, Warren R, Haas, Amanda K, Lantz, Brett Brick A, Mann, Barton, Spindler, Kurt P, Stuart, Michael J, Albright, John P, Amendola, Annunziato Ned, Andrish, Jack T, Annunziata, Christopher C, Arciero, Robert A, Bach, Bernard R Jr, Baker, Champ LIII, Bartolozzi, Arthur R, Baumgarten, Keith M, Bechler, Jeffery R, Berg, Jeffrey H, Bernas, Geoffrey A, Brockmeier, Stephen F, Brophy, Robert H, Bush-Joseph, Charles A, Butler, J Brad, Campbell, John D, Carey, James L, Carpenter, James E, Cole, Brian J, Cooper, Jonathan M, Cox, Charles L, Creighton, R Alexander, Dahm, Diane L, David, Tal S, Flanigan, David C, Frederick, Robert W, Ganley, Theodore J, Garofoli, Elizabeth A, Gatt, Charles J Jr, Gecha, Steven R, Giffin, James Robert, Hame, Sharon L, Hannafin, Jo A, Harner, Christopher D, Harris, Norman Lindsay Jr, Hechtman, Keith S, Hershman, Elliott B, Hoellrich, Rudolf G, Hosea, Timothy M, Johnson, David C, Johnson, Timothy S, Jones, Morgan H, Kaeding, Christopher C, Kamath, Ganesh V, Klootwyk, Thomas E, Levy, Bruce A, Ma, C Benjamin, Maiers, G Peter II, Marx, Robert G, Matava, Matthew J, Mathien, Gregory M, McAllister, David R, McCarty, Eric C, McCormack, Robert G, Miller, Bruce S, Nissen, Carl W, O'Neill, Daniel F, Owens, Brett D, Parker, Richard D, Purnell, Mark L, Ramappa, Arun J, Rauh, Michael A, Rettig, Arthur C, Sekiya, Jon K, Shea, Kevin G, Sherman, Orrin H, Slauterbeck, James R, Smith, Matthew V, Spang, Jeffrey T, Svoboda, Steven J, Taft, Timothy N, Tenuta, Joachim J, Tingstad, Edwin M, Vidal, Armando F, Viskontas, Darius G, White, Richard A, Williams, James S Jr, Wolcott, Michelle L, Wolf, Brian R, and York, James J

Subjects

Behavioral and Social Science, Patient Safety, Physical Injury - Accidents and Adverse Effects, Clinical Research, Arthritis, Physical Rehabilitation, Aging, Bioengineering, Rehabilitation, Musculoskeletal, Adult, Anterior Cruciate Ligament Injuries, Anterior Cruciate Ligament Reconstruction, Braces, Cohort Studies, Early Ambulation, Female, Humans, Male, Patient Reported Outcome Measures, Range of Motion, Articular, Recovery of Function, Reoperation, Weight-Bearing, Young Adult, MARS Group, Biomedical Engineering, Clinical Sciences, Orthopedics

Abstract

BackgroundRevision anterior cruciate ligament (ACL) reconstruction has been documented to have worse outcomes than primary ACL reconstruction. The reasons remain varied and not completely understood.MethodsPatients undergoing revision ACL reconstruction were prospectively enrolled. Data collected included baseline demographics, surgical technique and pathological condition, prescribed rehabilitation instructions, and a series of validated patient-reported outcome instruments. Patients were followed for 2 years and asked to complete a set of outcome instruments identical to those completed at baseline. Subsequent surgical procedures on the ipsilateral knee were recorded. Regression analysis was used to control for age, sex, activity level, baseline outcome scores, and the above-mentioned rehabilitation-related variables in order to assess the factors affecting clinical outcomes 2 years after revision ACL reconstruction.ResultsA total of 843 patients met the inclusion criteria and were successfully enrolled, and 82% (695) were followed for 2 years. Two rehabilitation-related factors were found to influence outcome. First, patients who were prescribed an ACL brace for their return to sports had a significantly better Knee injury and Osteoarthritis Outcome Score (KOOS) for sports and recreational activities at 2 years (odds ratio [OR] =1.50, 95% confidence interval [CI] = 1.07 to 2.11; p = 0.019). Second, patients prescribed an ACL brace for the postoperative rehabilitation period were 2.3 times more likely to have subsequent surgery by 2 years (OR = 2.26, 95% CI = 1.11 to 4.60; p = 0.024). The odds of a graft rerupture were not affected by any type of brace wear.ConclusionsRehabilitation-related factors that the physician can control at the time of an ACL reconstruction have the ability to influence clinical outcomes at 2 years. Weight-bearing and motion can be initiated immediately postoperatively. Bracing during the early postoperative period is not helpful. Use of a functional brace early in the postoperative period was associated with an increased risk of a reoperation. Use of a functional brace for a return to sports improved the KOOS on the sports/recreation subscale.Level of evidencePrognostic Level I. See Instructions for Authors for a complete description of levels of evidence.

Published

2019

74. Effects of dynamic loading on solute transport through the human cartilage endplate

Author

Sampson, Sara L, Sylvia, Meghan, and Fields, Aaron J

Subjects

Engineering, Health Sciences, Sports Science and Exercise, Biomedical Engineering, Adult, Aged, Biological Transport, Biomechanical Phenomena, Cartilage, Humans, Intervertebral Disc, Middle Aged, Porosity, Weight-Bearing, Cartilage endplate, Intervertebral disc degeneration, Spine, Dynamic loading, Biotransport, Mechanical Engineering, Human Movement and Sports Sciences, Biomedical engineering, Sports science and exercise

Abstract

Nutrient and metabolite transport through the cartilage endplate (CEP) is important for maintaining proper disc nutrition, but the mechanisms of solute transport remain unclear. One unresolved issue is the role of dynamic loading. In comparison to static loading, dynamic loading is thought to enhance transport by increasing convection. However, the CEP has a high resistance to fluid flow, which could limit solute convection. Here we measure solute transport through site-matched cadaveric human lumbar CEP tissues under static vs. dynamic loading, and we determine how the degree of transport enhancement from dynamic loading depends on CEP porosity and solute size. We found that dynamic loading significantly increased small and large solute transport through the CEP: on average, dynamic loading increased the transport of sodium fluorescein (376 Da) by a factor of 1.85 ± 0.64 and the transport of a large dextran (4000 Da) by a factor of 4.97 ± 3.05. Importantly, CEP porosity (0.65 ± 0.07; range: 0.47-0.76) strongly influenced the degree of transport enhancement. Specifically, for both solutes, transport enhancement was greater for CEPs with low porosity than for CEPs with high porosity. This is because the CEPs with low porosity were susceptible to larger improvements in fluid flow under dynamic loading. The CEP becomes less porous and less hydrated with aging and as disc degeneration progresses. Together, these findings suggest that as those changes occur, dynamic loading has a greater effect on solute transport through the CEP compared to static loading, and thus may play a larger role in disc nutrition.

Published

2019

75. Prosthodontics, vertical dimension, anthropometry, face, dental occlusion, complete denture

Author

Juan Aristizábal-Hoyos., Juan Aristizábal-Mulett, Olga López-Soto, Jackeline Mulett-Vásquez, Jessica Bazurto-Aguirre, and Yuleisi Zambrano-Elizondo

Subjects

jaw, edentulous, partially, dental implants, finite element analysis, computer-aided design, weight-bearing, maxillary sinus, Dentistry, RK1-715

Abstract

Objetive: To compare the stresses and deformations generated on the surrounding bone of the zygomatic implants when using an intra sinusal and extra-maxillary approach, through the finite element method. Material and Methods: Computer aided designs (CADs) were constructed using SolidWorks Software of a skull with bone resorption to be rehabilitated through a fixed hybrid prosthesis using two zygomatic and two conventional straight implants. For the boundary conditions (load conditions), symmetry in the sagittal plane was assumed and that all the materials were isotropic, homogeneous and linearly elastic. Two zygomatic implantation techniques were simulated: intra sinusal (Is) and extra maxillary (Em). Vertical and lateral loads of 150 N and 50 N were applied to the finite element models to obtain Von Mises equivalent stress and strain (displacement). Results: The average measurement of the Von Mises stress (MPa) recorded were as follows: Approach of the implant body (Is: 0.24- Em: 0.28,) effort of implant body with vertical load: Is: 0.69 - Em: 0.96; effort of peri-implant surface under horizontal load: Is: 2.11 - Em: 0.94. Average displacement under vertical load of peri-implant surface Is: 0.35 - Em: 0.40, and of implant body Is: 1.34 - Em: 2.04. Average total deformation in approach Is: 2.23 mm - Em: 0.80mm, and average total deformation in the implant body under horizontal load was Is: 0.14 - Em: 0.21. Conclusion: The results of this study indicate that despite the differences that occurred in both stress and strain (displacement) between the intra-sinus and extra-maxillary approaches, the static strength of the bone, which is approximately 150 MPa in tension and 250 MPa in compression was not exceeded. Considering the limitations of finite element analysis, there seems to be no biomechanical reason to choose one approach over the other.

Published

2022

76. Motorized Leg Length Discrepancy Measure: A New Device for Clinical Use – A Cross-sectional Study

Author

Yaghoub Salekzamani, Nargess Abolghassemi Fakhree, Afshin Ebrahimi, Hamed Heravi, and Neda Dolatkhah

Subjects

pelvis, leg length inequality, weight-bearing, spiral cone-beam computed tomography, Medicine

Abstract

Objectives: This study aimed to construct a device that could measure leg length discrepancy (LLD) automatically. Materials and Methods: The LLD measure device measures LLD with pelvic-tilt method (Program 1) and weight-based method (Programs 2 & 3). Tests were done in 3 phases. 1: Two examiners using the LLD Measure device made -50 to 75 mm artificial LLD in two healthy subjects measuring the degree of pelvic tilt and the load bearing of lower limbs. 2: Sixteen healthy volunteers were asked to stand on the device to measure LLD with program 2 and then with both knees extended to measure LLD with program one. 3: 32 patients who had underwent lower limbs CT scanogram enrolled, and the LLD measurement with program 1 compared with those obtained by CT scanogram. Results: Data’s obtained in the first phase showed excellent repeatability (intra-class correlation coefficient [ICC] > 0.9) and very good reproducibility (ICC > 80%) except for measuring the limb load while both knees were extended (ICC ≈ 60%). In the second phase, we found no statistically significant difference between measuring LLD using programs 1 and 2 (P = 0.49). In the third phase, there was no statistically significant difference between measuring LLD using program 1 and CT scanogram (P = 0.80). Conclusions: We have developed a device to measure LLD semiautomatic with less need for examiner expertise. The results of our new device would be reliable and accurate compared to CT measurements.

Published

2022

77. Excellent outcome of healing by secondary intention after wide local excision of the weight-bearing heel

Author

Caroline Asirvatham Gjorup and Peter Stemann Andersen

Subjects

Heel, Weight-bearing, Melanoma, Wide local excision, Negative pressure wound therapy, Conservative treatment, Surgery, RD1-811

Abstract

Background: Plantar defects are difficult to manage due to several reasons. The challenges of plantar reconstructions include lack of abundant local tissue, the requirement of the skin to be sensate, as well as the mechanical demand of the reconstruction to be able to withstand shearing forces and weight-bearing. Although rare, these defects are encountered following infections, trauma, and burns in addition to surgical oncological resections. Case presentation: This case report describes the management of a plantar defect, measuring 45 × 55 mm, after surgical resection of a melanoma on the weight-bearing heel. The defect was managed with negative pressure wound therapy (NPWT) for 4 weeks, until granulation tissue was flush with the surrounding skin. Conservative treatment with wound care was conducted for another 12 weeks, until the wound, at 16 weeks, was completely healed. The patient tolerated the lengthy time of healing well and experienced no problems with the scar, and the functional and aesthetic outcome of conservative treatment of the plantar defect was excellent. Conclusion: Healing by secondary intention is an excellent treatment option for the closure of large plantar defects, despite often being an overlooked reconstructive option.

Published

2022

78. Age-dependent bone loss and recovery during hindlimb unloading and subsequent reloading in rats

Author

Cunningham, Hailey C, West, Daniel WD, Baehr, Leslie M, Tarke, Franklin D, Baar, Keith, Bodine, Sue C, and Christiansen, Blaine A

Subjects

Aging, Prevention, Osteoporosis, Rehabilitation, Musculoskeletal, Animals, Bone Density, Bone Resorption, Hindlimb Suspension, Male, Rats, Rats, Inbred BN, Rats, Inbred F344, Weight-Bearing, X-Ray Microtomography, Hindlimb unloading, Reloading, Disuse, Age, Trabecular bone, Micro-computed tomography, Mechanical testing, Clinical Sciences, Orthopedics

Abstract

BackgroundBone structure and strength are rapidly lost during conditions of decreased mechanical loading, and aged bones have a diminished ability to adapt to increased mechanical loading. This is a concern for older patients that experience periods of limited mobility or bed rest, but the acute effects of disuse on the bones of aged patients have not been thoroughly described. Previous animal studies have primarily examined the effect of mechanical unloading on young animals. Those that have studied aged animals have exclusively focused on bone loss during unloading and not bone recovery during subsequent reloading. In this study, we investigated the effect of decreased mechanical loading and subsequent reloading on bone using a hindlimb unloading model in Adult (9 month old) and Aged (28 month old) male rats.MethodsAnimals from both age groups were subjected to 14 days of hindlimb unloading followed by up to 7 days of reloading. Additional Aged rats were subjected to 7 days of forced treadmill exercise during reloading or a total of 28 days of reloading. Trabecular and cortical bone structure of the femur were quantified using ex vivo micro-computed tomography (μCT), and mechanical properties were quantified with mechanical testing.ResultsWe found that Adult rats had substantially decreased trabecular bone volume fraction (BV/TV) following unloading (- 27%) while Aged animals did not exhibit significant bone loss following unloading. However, Aged animals had lower trabecular BV/TV after 3 days of reloading (- 20% compared to baseline), while trabecular BV/TV of Adult rats was not different from baseline values after 3 days of reloading. Trabecular BV/TV of Aged animals remained lower than control animals even with exercise during 7 days of reloading and after 28 days of reloading.ConclusionsThese data suggest that aged bone is less responsive to both increased and decreased mechanical loading, and that acute periods of disuse may leave older subjects with a long-term deficit in trabecular bone mass. These finding indicate the need for therapeutic strategies to improve the skeletal health of elderly patients during periods of disuse.

Published

2018

79. Balance Training with Weight Shift-Triggered Electrical Stimulation for Stroke Patients: A Randomized Controlled Trial.

Author

Lee, Kyeongjin

Subjects

*WEIGHT training, *ELECTRIC stimulation, *RANDOMIZED controlled trials, *POSTURAL muscles, *STROKE patients, *DYNAMIC balance (Mechanics)

Abstract

This study aimed to determine the effects of balance training with weight shift-triggered electrical stimulation to improve balance, lower-extremity motor function, and activities of daily living in patients with stroke. The participants were randomly allocated to the balance training with electrical stimulation group (BT-ESG, n = 29) or the balance training group (BTG, n = 30). Both groups were trained 5 times per week for 6 weeks for 50 min per session. To evaluate static balance, postural sway was assessed and dynamic balance was assessed using the Berg Balance Scale (BBS), Timed Up and Go (TUG) test, and functional reach test (FRT). Lower-extremity motor function was assessed using the Fugl–Meyer assessment. Daily activities were assessed using the Modified Barthel Index. As for static balance, BT-ESG showed a significant improvement compared to BTG in postural swat in both the eyes-open (velocity moment; effect size, 0.88; 95% confidence interval, −1.16 to −1.30), or eyes-closed state (velocity moment; effect size, 0.81; 95% confidence interval, −1.22 to −0.27). Dynamic balance, which includes TUG (effect size, 0.90; 95% confidence interval, −4.67 to −1.25), BBS (effect size, 1.26; 95% confidence interval, −2.84 to 6.83), and FRT (effect size, 1.45; 95% confidence interval, 1.92 to 4.08), in addition to lower-extremity motor function (effect size, 1.38; 95% confidence interval, 2.25 to 4.97), and activities of daily living (effect size, 2.04; 95% confidence interval, 2.04 to 937), showed significant improvement in BT-ESG compared to BTG. These results suggest that balance training with weight shift-triggered electrical stimulation effectively improves balance, lower-extremity motor function, and activities of daily living in patients with stroke. [ABSTRACT FROM AUTHOR]

Published

2023

80. Effectiveness of BMP-2 and PDGF-BB Adsorption onto a Collagen/Collagen-Magnesium-Hydroxyapatite Scaffold in Weight-Bearing and Non-Weight-Bearing Osteochondral Defect Bone Repair: In Vitro, Ex Vivo and In Vivo Evaluation.

Author

Xu, Jietao, Fahmy-Garcia, Shorouk, Wesdorp, Marinus A., Kops, Nicole, Forte, Lucia, De Luca, Claudio, Misciagna, Massimiliano Maraglino, Dolcini, Laura, Filardo, Giuseppe, Labberté, Margot, Vancíková, Karin, Kok, Joeri, van Rietbergen, Bert, Nickel, Joachim, Farrell, Eric, Brama, Pieter A. J., and van Osch, Gerjo J. V. M.

Subjects

BONE morphogenetic proteins, REPAIRING, PLATELET-derived growth factor, ADSORPTION (Chemistry), BONE growth, BIOMEDICAL materials

Abstract

Despite promising clinical results in osteochondral defect repair, a recently developed bi-layered collagen/collagen-magnesium-hydroxyapatite scaffold has demonstrated less optimal subchondral bone repair. This study aimed to improve the bone repair potential of this scaffold by adsorbing bone morphogenetic protein 2 (BMP-2) and/or platelet-derived growth factor-BB (PDGF-BB) onto said scaffold. The in vitro release kinetics of BMP-2/PDGF-BB demonstrated that PDGF-BB was burst released from the collagen-only layer, whereas BMP-2 was largely retained in both layers. Cell ingrowth was enhanced by BMP-2/PDFG-BB in a bovine osteochondral defect ex vivo model. In an in vivo semi-orthotopic athymic mouse model, adding BMP-2 or PDGF-BB increased tissue repair after four weeks. After eight weeks, most defects were filled with bone tissue. To further investigate the promising effect of BMP-2, a caprine bilateral stifle osteochondral defect model was used where defects were created in weight-bearing femoral condyle and non-weight-bearing trochlear groove locations. After six months, the adsorption of BMP-2 resulted in significantly less bone repair compared with scaffold-only in the femoral condyle defects and a trend to more bone repair in the trochlear groove. Overall, the adsorption of BMP-2 onto a Col/Col-Mg-HAp scaffold reduced bone formation in weight-bearing osteochondral defects, but not in non-weight-bearing osteochondral defects. [ABSTRACT FROM AUTHOR]

Published

2023

81. IMPACTS OF MUSCLE TRAINING LOADS ON COLLEGE STUDENTS' PHYSICAL FITNESS.

Author

Wang Lu, Zheng Hua, Wang Tailin, and Wei Xuanxi

Subjects

PHYSICAL fitness, COLLEGE students, MUSCLE strength, LEARNING ability, IMPACT loads, ANAEROBIC capacity

Abstract

Copyright of Revista Brasileira de Medicina do Esporte is the property of Redprint Editora Ltda. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

82. EFFECT OF WEIGHT TRAINING ON LOWER LIMB STRENGTH IN MARTIAL ARTS ATHLETES.

Author

Chunyan Li, Yue Han, and Bo Shao

Subjects

WEIGHT training, MARTIAL arts, VERTICAL jump, SQUAT (Weight lifting), AMPUTEES, ATHLETES

Abstract

Copyright of Revista Brasileira de Medicina do Esporte is the property of Redprint Editora Ltda. and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2023

83. Elevated Expression of CCN3 in Articular Cartilage Induces Osteoarthritis in Hip Joints Irrespective of Age and Weight Bearing.

Author

Hirose, Kazuki, Kuwahara, Miho, Nakata, Eiji, Tetsunaga, Tomonori, Yamada, Kazuki, Saiga, Kenta, Takigawa, Masaharu, Ozaki, Toshifumi, Kubota, Satoshi, and Hattori, Takako

Subjects

*HIP joint, *FEMUR neck, *GENE expression, *ARTICULAR cartilage, *HIP osteoarthritis, *FEMORAL neck fractures, *FEMUR head

Abstract

Osteoarthritis (OA) occurs not only in the knee but also in peripheral joints throughout the whole body. Previously, we have shown that the expression of cellular communication network factor 3 (CCN3), a matricellular protein, increases with age in knee articular cartilage, and the misexpression of CCN3 in cartilage induces senescence-associated secretory phenotype (SASP) factors, indicating that CCN3 promotes cartilage senescence. Here, we investigated the correlation between CCN3 expression and OA degenerative changes, principally in human femoral head cartilage. Human femoral heads obtained from patients who received total hip arthroplasty were categorized into OA and femoral neck fracture (normal) groups without significant age differences. Gene expression analysis of RNA obtained from femoral head cartilage revealed that CCN3 and MMP-13 expression in the non-weight-bearing part was significantly higher in the OA group than in the normal group, whereas the weight-bearing OA parts and normal cartilage showed no significant differences in the expression of these genes. The expression of COL10A1, however, was significantly higher in weight-bearing OA parts compared with normal weight-bearing parts, and was also higher in weight-bearing parts compared with non-weight-bearing parts in the OA group. In contrast, OA primary chondrocytes from weight-bearing parts showed higher expression of CCN3, p16, ADAMTS4, and IL-1β than chondrocytes from the corresponding normal group, and higher ADAMTS4 and IL-1β in the non-weight-bearing part compared with the corresponding normal group. Acan expression was significantly lower in the non-weight-bearing group in OA primary chondrocytes than in the corresponding normal chondrocytes. The expression level of CCN3 did not show significant differences between the weight-bearing part and non-weight-bearing part in both OA and normal primary chondrocytes. Immunohistochemical analysis showed accumulated CCN3 and aggrecan neoepitope staining in both the weight-bearing part and non-weight-bearing part in the OA group compared with the normal group. The CCN3 expression level in cartilage had a positive correlation with the Mankin score. X-ray analysis of cartilage-specific CCN3 overexpression mice (Tg) revealed deformation of the femoral and humeral head in the early stage, and immunohistochemical analysis showed accumulated aggrecan neoepitope staining as well as CCN3 staining and the roughening of the joint surface in Tg femoral and humeral heads. Primary chondrocytes from the Tg femoral head showed enhanced expression of Ccn3, Adamts5, p16, Il-6, and Tnfα, and decreased expression of Col2a1 and -an. These findings indicate a correlation between OA degenerative changes and the expression of CCN3, irrespective of age and mechanical loading. Furthermore, the Mankin score indicates that the expression level of Ccn3 correlates with the progression of OA. [ABSTRACT FROM AUTHOR]

Published

2022

84. Changes in Trunk Muscle Activity during Unilateral Weight Bearing and Abnormal Postural Gait in Healthy Individuals.

Author

Paek, Sungwoo, Kang, Jungjoong, Shin, Bokyung, Jung, Jiyoon, Rim, Hanee, Yoon, Mijeong, Lee, Kyoungbo, Yoo, Yeunjie, Hong, Boyoung, Lim, Seonghoon, and Kim, Joonsung

Subjects

GAIT disorders, ABDOMINAL muscles, EXTENSOR muscles, ERECTOR spinae muscles, BACK muscles, POSTURE disorders, GAIT in humans

Abstract

Background and Objectives: Many people tend to carry their bags or baggage on only one side of their body. Due to smartphone use, people also tend to walk bent forward in a kyphotic posture. In this study, we aimed to assess trunk muscle activity changes due to weight-bearing, carried in the left or right hand, and using three different gait postures. Materials and Methods: We recruited 27 healthy participants (aged 19–75 years) with no history of LBP within the last 6 months before study participation. Electromyographic activities of the lower back and the abdominal muscles of the participants were evaluated using four-channel surface electromyography (EMG). Surface EMG recordings were obtained from four trunk muscles, including the flexor (rectus abdominis (RA), external oblique (EO)) and extensor muscles (lumbar erector spinae (LE), and the superficial lumbar multifidus (LM)), during unilateral weight-bearing tasks and with different gait postures (normal gait, with a sway back, and thoracic kyphosis). Results: In the "unilateral weight-bearing task", there was a significant difference in the activity of all the trunk muscles between the weight-bearing limb side and the opposite side (p < 0.05). The activation of the left trunk muscle was greater than that of the right trunk muscle when the dumbbell was lifted using the right hand. The other side showed the same result. In the "gait posture task" performed by the participants using a sway-back posture, the RA and EO had a higher level of activity in the stance and swing phases compared with that in a neutral gait (p < 0.05). Moreover, in the participants with a thoracic kyphosis posture, the LE and LM had a higher level of activity compared with that in a neutral gait (p < 0.05). Conclusions: Our results indicate that abnormal gait posture and unilateral weight-bearing tasks may impair the balance of trunk muscles, increasing the incidence of LBP. However, further large-scale, prospective, controlled studies are warranted to corroborate our results. [ABSTRACT FROM AUTHOR]

Published

2022

85. Increase in tibial internal rotation due to weight-bearing is a key feature to diagnose early-stage knee osteoarthritis: a study with upright computed tomography

Author

Kazuya Kaneda, Kengo Harato, Satoshi Oki, Yoshitake Yamada, Masaya Nakamura, Takeo Nagura, and Masahiro Jinzaki

Subjects

Upright computed tomography, Early knee osteoarthritis, Weight-bearing, Surface registration, Diseases of the musculoskeletal system, RC925-935

Abstract

Abstract Background The classification of knee osteoarthritis is an essential clinical issue, particularly in terms of diagnosing early knee osteoarthritis. However, the evaluation of three-dimensional limb alignment on two-dimensional radiographs is limited. This study evaluated the three-dimensional changes induced by weight-bearing in the alignments of lower limbs at various stages of knee osteoarthritis. Methods Forty five knees of 25 patients (69.9 ± 8.9 years) with knee OA were examined in the study. CT images of the entire leg were obtained in the supine and standing positions using conventional CT and 320-row detector upright CT, respectively. Next, the differences in the three-dimensional alignment of the entire leg in the supine and standing positions were obtained using 3D-3D surface registration technique, and those were compared for each Kellgren–Lawrence grade. Results Greater flexion, adduction, and tibial internal rotation were observed in the standing position, as opposed to the supine position. Kellgren–Lawrence grades 1 and 4 showed significant differences in flexion, adduction, and tibial internal rotation between two postures. Grades 2 and 4 showed significant differences in adduction, while grades 1 and 2, and 1 and 3 showed significant differences in tibial internal rotation between standing and supine positions. Conclusions Weight-bearing makes greater the three-dimensional deformities in knees with osteoarthritis. Particularly, greater tibial internal rotation was observed in patients with grades 2 and 3 compared to those with grade 1. The greater tibial internal rotation due to weight-bearing is a key pathologic feature to detect early osteoarthritic change in knees undergoing osteoarthritis.

Published

2022

86. Patient experiences and desires for recovery after ankle fracture surgery.

Author

Bretherton, Christopher P., Kotwal, Tejas, Sandhu, Harbinder, Baird, Janis, and Griffin, Xavier L.

Subjects

*PATIENT experience, *PATIENTS' attitudes, *ANKLE fractures, *MEDICAL personnel, *PSYCHOLOGICAL factors

Abstract

• Patients expressed a wide variety of factors that contributed towards their experiences when recovering post-ankle fracture surgery. • Variability in access to healthcare professionals and consistent advice was a common source of frustration and a potential area to target for improvement. • As the needs and preferences of patients varies widely, a tailored approach that provides services unique to their circumstances is needed. This study investigates patients' experiences of commencing weight-bearing after ankle fracture surgery and their recovery priorities to inform a new rehabilitation intervention. Embedded within the Weight bearing in Ankle Fractures (WAX) trial, this qualitative study conducted semi-structured interviews with patients following ankle fracture surgery. The Behaviour Change Wheel (BCW) framework guided the interview questions to ensure comprehensive domain coverage. A purposive, maximum variation sampling strategy was used for participant selection. Data analysis employed a combined deductive and inductive approach. A total of 29 patients were interviewed, revealing five key themes: understanding the recovery journey, navigating the healthcare system, understanding personal physical capabilities, building confidence for weight-bearing, and resuming daily activities. Themes emphasised the variability in healthcare access, the impact of non-weight-bearing on independence, and the role of self-efficacy in recovery. The study highlighted the diversity in patient experiences and recovery challenges post-ankle fracture surgery. Patients' recovery was influenced by access to consistent healthcare advice, self-efficacy, and the physical and psychological impact of non-weight-bearing. The findings suggest a need for tailored, patient-centred rehabilitation interventions that consider individual recovery trajectories and promote self-management. These insights provide a foundational understanding for developing interventions that more effectively address patient priorities and barriers to recovery. [ABSTRACT FROM AUTHOR]

Published

2024

87. Using Ultrasound to Assess Microchambers and Macrochambers Tissue Properties After Walking at Different Speeds and Durations

Author

Shen, Wei-Cheng, Jan, Yih-Kuen, Lung, Chi-Wen, Chen, Hsin-Chieh, Li, Cheng-Tsung, Bau, Jian-Guo, Liau, Ben-Yi, Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, Goonetilleke, Ravindra S., editor, Xiong, Shuping, editor, Kalkis, Henrijs, editor, Roja, Zenija, editor, Karwowski, Waldemar, editor, and Murata, Atsuo, editor

Published

2021

88. Fracture Rehabilitation

Author

Wentz, Kyle, Marcolina, Austin, Argo, Lindsay Ramey, Robertson, Greg A. J., editor, and Maffuli, Nicola, editor

Published

2021

89. Do Patellofemoral Pain Patients Have Higher Loading Rate Compared to Healthy Indivalues? A Systematic Review and Meta-analysis

Author

Mohamadreza Ahmadi and Ali Yalfani

Subjects

patellofemoral pain, kinetic, weight-bearing, loading rate, Medicine

Abstract

Purpose: Higher loading rates have been associated with injuries, plantar fasciitis, tibia bone stress injuries, knee osteoarthritis, and patellofemoral pain (PFP). The aim of this study is to evaluate the loading rate in PFP patients compared to healthy individuals during weight bearing tasks. Methods: Search strategy was conducted in databases: Science Direct, Scopus, PubMed and Google Scholar. The outcome measuring: loading rate were during weight bearing tasks. The quality of the studies was evaluated by Down and Black index and it was divided into three groups: low quality (LQ), medium quality (MQ) and high quality (HQ). The standardized mean difference between PFP patients and healthy individuals was used to calculate the effect size. Results: Seven articles were included of that 4 studies was HQ and 3 MQ were classified. The no significant difference between PFP patients and healthy individuals in the loading rate (p=0.52) ; But strong evidence with medium effect size (SMD=0.50; 95% CI=[-1.01 to 2.00]) indicates a tendency to increase loading rates in PFP patients compared to healthy individuals. Conclusion: The compensatory mechanism in PFP patients, decrease of active shock absorption which finally leads to higher loading rates that can have effect on the tibiofemoral joint that correlating to the development of pain and knee osteoarthritis.

Published

2022

90. Femoral head translation in borderline and definite dysplastic hips during weight‐bearing: 2D/3D image registration analysis

Author

Shinichiro Sakai, Tatsuhiko Kutsuna, Kohei Kono, Tomofumi Kinoshita, Naohiko Mashima, and Masaki Takao

Subjects

Borderline, Developmental dysplasia of the hip, Dynamic joint instability, Weight‐bearing, Orthopedic surgery, RD701-811

Abstract

Abstract Purpose The aims of this study were to 1) assess femoral head translation during weight‐bearing in symptomatic developmental dysplasia of the hip (DDH) and 2) compare it between borderline DDH and definite DDH. Methods The study included four individuals with borderline DDH and nine with definite DDH, scheduled for periacetabular osteotomy. Anteroposterior X‐ray images of the hip joint were obtained in the standing position, and computed tomography images of the pelvis were obtained in the supine position. Femoral head translation from the supine to a standing position was measured using 2D/3D X‐ray image registration. Results From a supine to a standing position, the femoral head translated 0.3 mm laterally, 0.5 mm anteriorly, and 0.5 mm superiorly on average. The mean femoral head translation in 3D between the supine and standing positions was 1.5 mm. The 3D femoral head translation in the borderline DDH group was significantly greater than that in the definite DDH group. In the definite DDH group, there was a significant correlation between the center edge (CE) angle and 3D femoral head translation (ρ = ‐0.78, P = 0.012). Conclusions Symptomatic DDH showed femoral head translation in the anterior, lateral, and superior directions during weight‐bearing. In definite DDH, the amount of femoral head translation was negatively correlated with the CE angle. The amount of 3D translation in patients with borderline DDH was larger than that in definite DDH. Dynamic joint instability during weight‐bearing was observed in borderline DDH as well as definite DDH. Treatment to enhance joint stability during weight‐bearing is important in both cases.

Published

2023

91. Detecting stress injury (fatigue fracture) in fibular cortical bone using quantitative ultrashort echo time‐magnetization transfer (UTE‐MT): An ex vivo study

Author

Jerban, Saeed, Ma, Yajun, Nazaran, Amin, Dorthe, Erik W, Cory, Esther, Carl, Michael, D'Lima, Darryl, Sah, Robert L, Chang, Eric Y, and Du, Jiang

Subjects

Biomedical and Clinical Sciences, Engineering, Clinical Sciences, Biomedical Engineering, Biomedical Imaging, Clinical Research, Physical Injury - Accidents and Adverse Effects, 4.1 Discovery and preclinical testing of markers and technologies, Detection, screening and diagnosis, Cortical Bone, Female, Fibula, Fractures, Stress, Humans, Magnetic Resonance Imaging, Male, Middle Aged, Time Factors, Weight-Bearing, bone stress injury, cortical bone, fatigue fracture, magnetization transfer, MRI, ultrashort TE, Medicinal and Biomolecular Chemistry, Nuclear Medicine & Medical Imaging, Clinical sciences, Biomedical engineering

Abstract

Bone stress injury (BSI) incidents have been increasing amongst athletes in recent years as a result of more intense sporting activities. Cortical bone in the tibia and fibula is one of the most common BSI sites. Nowadays, clinical magnetic resonance imaging (MRI) is the recommended technique for BSI diagnosis at an early stage. However, clinical MRI focuses on edema observations in surrounding soft tissues, rather than the injured components of the bone. Specifically, both normal and injured bone are invisible in conventional clinical MRI. In contrast, ultrashort echo time (UTE)-MRI is able to detect the rapidly decaying signal from the bone. This study aimed to employ UTE-MRI for fatigue fracture detection in fibula cortical bone through an ex vivo investigation. Fourteen human fibular samples (47 ± 20 years old, four women) were subjected to cyclic loading on a four-point bending setup. The loading was displacement controlled to induce -5000 ± 1500 μ-strain at 4 Hz. Loading was stopped when bone stiffness was reduced by 20%. Fibula samples were imaged twice, using UTE-MRI and micro-computed tomography (μCT), first pre-loading and second post-loading. After loading, the macromolecular fraction (MMF) from UTE-MT modeling demonstrated a significant decrease (12% ± 20%, P = 0.02) on average. Single-component T2 * also decreased significantly by BSI (12% ± 11%, P = 0.01) on average. MMF reduction is hypothesized to be a result of collagenous matrix rupture and water increase. However, faster T2 * decay might be a result of water shifts towards newly developed microcracks with higher susceptibility. Despite this good sensitivity level of the UTE-MRI technique, the μCT-based porosity at a voxel size of 9 μm was not affected by loading. UTE-MRI shows promise as a new quantitative technique to detect BSI.

Published

2018

92. An investigation of the anisotropic mechanical properties and anatomical structure of porcine atrioventricular heart valves.

Author

Jett, Samuel, Laurence, Devin, Kunkel, Robert, Babu, Anju, Kramer, Katherine, Baumwart, Ryan, Towner, Rheal, Wu, Yi, and Lee, Chung-Hao

Subjects

Biaxial mechanical testing, Morphological analysis, Soft tissue biomechanics and microstructure, The mitral and tricuspid valves, Animals, Anisotropy, Biomechanical Phenomena, Heart Atria, Heart Valves, Heart Ventricles, Materials Testing, Mechanical Phenomena, Sheep, Swine, Temperature, Weight-Bearing

Abstract

Valvular heart diseases are complex disorders, varying in pathophysiological mechanism and affected valve components. Understanding the effects of these diseases on valve functionality requires a thorough characterization of the mechanics and structure of the healthy heart valves. In this study, we performed biaxial mechanical experiments with extensive testing protocols to examine the mechanical behaviors of the mitral valve and tricuspid valve leaflets. We also investigated the effect of loading rate, testing temperatures, species (porcine versus ovine hearts), and age (juvenile vs adult ovine hearts) on the mechanical responses of the leaflet tissues. In addition, we evaluated the structure of chordae tendineae within each valve and performed histological analysis on each atrioventricular leaflet. We found all tissues displayed a characteristic nonlinear anisotropic mechanical response, with radial stretches on average 30.7% higher than circumferential stretches under equibiaxial physiological loading. Tissue mechanical responses showed consistent mechanical stiffening in response to increased loading rate and minor temperature dependence in all five atrioventricular heart valve leaflets. Moreover, our anatomical study revealed similar chordae quantities in the porcine mitral (30.5 ± 1.43 chords) and tricuspid valves (35.3 ± 2.45 chords) but significantly more chordae in the porcine than the ovine valves (p

Published

2018

93. High‐Impact Mechanical Loading Increases Bone Material Strength in Postmenopausal Women—A 3‐Month Intervention Study

Author

Sundh, Daniel, Nilsson, Martin, Zoulakis, Michail, Pasco, Courtney, Yilmaz, Melis, Kazakia, Galateia J, Hellgren, Martin, and Lorentzon, Mattias

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Osteoporosis, Clinical Research, Aging, Musculoskeletal, Bone Density, Female, Humans, Locomotion, Middle Aged, Postmenopause, Stress, Mechanical, Tibia, Tomography, X-Ray Computed, Weight-Bearing, HIGH-IMPACT MECHANICAL LOADING, BONE MATERIAL STRENGTH INDEX, POSTMENOPAUSAL WOMEN, OSTEOPOROSIS, BONE MICROINDENTATION, Biological Sciences, Engineering, Medical and Health Sciences, Anatomy & Morphology, Biological sciences, Biomedical and clinical sciences

Abstract

Bone adapts to loading in several ways, including redistributing bone mass and altered geometry and microarchitecture. Because of previous methodological limitations, it is not known how the bone material strength is affected by mechanical loading in humans. The aim of this study was to investigate the effect of a 3-month unilateral high-impact exercise program on bone material properties and microarchitecture in healthy postmenopausal women. A total of 20 healthy and inactive postmenopausal women (aged 55.6 ± 2.3 years [mean ± SD]) were included and asked to perform an exercise program of daily one-legged jumps (with incremental number, from 3×10 to 4×20 jumps/d) during 3 months. All participants were asked to register their performed jumps in a structured daily diary. The participants chose one leg as the intervention leg and the other leg was used as control. The operators were blinded to the participant's choice of leg for intervention. The predefined primary outcome was change in bone material strength index (BMSi), measured at the mid tibia with a handheld reference probe indentation instrument (OsteoProbe). Bone microstructure, geometry, and density were measured with high-resolution peripheral quantitative computed tomography (XtremeCT) at the ultradistal and at 14% of the tibia bone length (distal). Differences were analyzed by related samples Wilcoxon signed rank test. The overall compliance to the jumping program was 93.6%. Relative to the control leg, BMSi of the intervention leg increased 7% or 0.89 SD (p = 0.046), but no differences were found for any of the XtremeCT-derived bone parameters. In conclusion, a unilateral high-impact loading program increased BMSi in postmenopausal women rapidly without affecting bone microstructure, geometry, or density, indicating that intense mechanical loading has the ability to rapidly improve bone material properties before changes in bone mass or structure. © 2018 The Authors. Journal of Bone and Mineral Research Published by Wiley Periodicals Inc.

Published

2018

94. Valgus malalignment and prevalence of lateral compartmental radiographic knee osteoarthritis (OA): The Wuchuan OA study

Author

Wang, Bin, Liu, Qiang, Wise, Barton L, Ke, Yan, Xing, Dan, Xu, Yuankun, Zhang, Yuqing, and Lin, Jianhao

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Arthritis, Clinical Research, Musculoskeletal, Aged, Asian People, Biomechanical Phenomena, Bone Malalignment, China, Female, Humans, Knee Joint, Logistic Models, Male, Massachusetts, Middle Aged, Multivariate Analysis, Netherlands, Odds Ratio, Osteoarthritis, Knee, Predictive Value of Tests, Prevalence, Radiographic Image Interpretation, Computer-Assisted, Range of Motion, Articular, Risk Factors, Rural Health, Weight-Bearing, White People, alignment, disease prevalence, knee osteoarthritis, Immunology, Medical Microbiology, Clinical sciences

Abstract

AimTo evaluate whether knee alignment explains the higher prevalence of lateral compartment tibiofemoral radiographic osteoarthritis (TFROA) among rural Chinese compared with that among Whites.MethodsThe Wuchuan OA Study is a population-based longitudinal study of risk factors for knee OA. At baseline 1030 participants had home interviews, clinical examinations and weight-bearing posteroanterior semi-flexed radiographs of the tibiofemoral joints. Anatomic knee alignment was measured using an e-film workstation and divided into three categories: normal (182°-184°), valgus (> 184°), and varus (< 182°) alignment. A knee was defined as having medial or lateral compartmental ROA if its Kellgren and Lawrence grade was ≥ 2 and joint space narrowing ≥ 1 in the medial or lateral compartment, respectively. We examined the association between knee alignment with prevalent medial or lateral knee ROA separately using multiple logistic regression.ResultsAmong 1030 participants, the proportions of knees with normal, valgus and varus alignment were 29.9%, 56.5% and 13.7%, respectively. The prevalence of medial and lateral ROA was 16.0% and 4.3%, respectively. Valgus alignment was associated with prevalence of lateral compartment ROA (odds ratio [OR] = 5.0, 95% CI: 2.4-10.5), while varus alignment was associated with medial compartment ROA (OR = 6.1, 95% CI: 4.4-8.6). The ratio of prevalence of lateral versus medial compartment TFROA was greater in Wuchuan than that in the Framingham OA Study and valgus malalignment was more common in Wuchuan than in the Rotterdam study.ConclusionsThe prevalence of compartment-specific TFROA differs between rural Chinese and Whites. This difference is likely due to relatively high prevalence of valgus malalignment in rural Chinese compared with that in Whites.

Published

2018

95. Volumetric Bone Mineral Density and Failure Load of Distal Limbs Predict Incident Clinical Fracture Independent of FRAX and Clinical Risk Factors Among Older Men

Author

Langsetmo, Lisa, Peters, Katherine W, Burghardt, Andrew J, Ensrud, Kristine E, Fink, Howard A, Cawthon, Peggy M, Cauley, Jane A, Schousboe, John T, Barrett‐Connor, Elizabeth, Orwoll, Eric S, and Group, for the Osteoporotic Fractures in Men Study Research

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Prevention, Clinical Research, Osteoporosis, Aging, Bioengineering, Physical Injury - Accidents and Adverse Effects, Musculoskeletal, Injuries and accidents, Aged, Aged, 80 and over, Bone Density, Extremities, Fractures, Bone, Hip, Humans, Male, Osteoporotic Fractures, ROC Curve, Risk Assessment, Risk Factors, Tibia, Tomography, X-Ray Computed, Weight-Bearing, OSTEOPOROSIS, OLDER MEN, BONE STRENGTH, BONE MICROARCHITECTURE, FRAX, FRACTURE, Osteoporotic Fractures in Men (MrOS) Study Research Group, Biological Sciences, Engineering, Medical and Health Sciences, Anatomy & Morphology, Biological sciences, Biomedical and clinical sciences

Abstract

Our objective was to determine the associations of peripheral bone strength and microarchitecture with incident clinical and major osteoporotic fracture among older men after adjusting for major clinical risk factors. We used a prospective cohort study design with data from 1794 men (mean age 84.4 years) in the Osteoporotic Fractures in Men (MrOS) study. Eligible men attended the year 14 visit, had high-resolution peripheral quantitative computed tomography (HR-pQCT) scans of the distal radius and distal or diaphyseal tibia, DXA measured BMD, and were followed for mean 1.7 years for incident fracture. Failure load was estimated using finite element analysis. We used Cox proportional hazards models with standardized HR-pQCT parameters as exposure variables. Primary outcome was clinical fracture (n = 108). Covariates included either Fracture Risk Assessment Tool (FRAX) major osteoporotic fracture probability calculated with BMD (FRAX-BMD), or individual clinical risk factors (CRF) including age, total hip BMD, race, falls, and prevalent fracture after age 50 years. Lower failure load was associated with higher risk of incident clinical fracture and incident major osteoporotic fracture. For clinical fracture with FRAX-BMD adjustment, the associations ranged from hazard ratio (HR) 1.58 (95% CI, 1.25 to 2.01) to 2.06 (95% CI, 1.60 to 2.66) per SD lower failure load at the diaphyseal tibia and distal radius. These associations were attenuated after adjustment for individual CRFs, but remained significant at the distal sites. Associations of volumetric BMD with these outcomes were similar to those for failure load. At the distal radius, lower trabecular BMD, number, and thickness, and lower cortical BMD, thickness, and area were all associated with higher risk of clinical fracture, but cortical porosity was not. Among community-dwelling older men, HR-pQCT measures including failure load, volumetric BMD, and microstructure parameters at peripheral sites (particularly distal radius) are robust independent predictors of clinical and major osteoporotic fracture. © 2018 American Society for Bone and Mineral Research.

Published

2018

96. The outer membrane is an essential load-bearing element in Gram-negative bacteria

Author

Rojas, Enrique R, Billings, Gabriel, Odermatt, Pascal D, Auer, George K, Zhu, Lillian, Miguel, Amanda, Chang, Fred, Weibel, Douglas B, Theriot, Julie A, and Huang, Kerwyn Casey

Subjects

Biochemistry and Cell Biology, Biomedical and Clinical Sciences, Biological Sciences, Engineering, Medical Microbiology, Bioengineering, Aetiology, 2.2 Factors relating to the physical environment, Generic health relevance, Cell Membrane, Cell Wall, Detergents, Escherichia coli, Gram-Negative Bacteria, Microbial Viability, Weight-Bearing, General Science & Technology

Abstract

Gram-negative bacteria possess a complex cell envelope that consists of a plasma membrane, a peptidoglycan cell wall and an outer membrane. The envelope is a selective chemical barrier1 that defines cell shape2 and allows the cell to sustain large mechanical loads such as turgor pressure3. It is widely believed that the covalently cross-linked cell wall underpins the mechanical properties of the envelope4,5. Here we show that the stiffness and strength of Escherichia coli cells are largely due to the outer membrane. Compromising the outer membrane, either chemically or genetically, greatly increased deformation of the cell envelope in response to stretching, bending and indentation forces, and induced increased levels of cell lysis upon mechanical perturbation and during L-form proliferation. Both lipopolysaccharides and proteins contributed to the stiffness of the outer membrane. These findings overturn the prevailing dogma that the cell wall is the dominant mechanical element within Gram-negative bacteria, instead demonstrating that the outer membrane can be stiffer than the cell wall, and that mechanical loads are often balanced between these structures.

Published

2018

97. Weight loss in men in late life and bone strength and microarchitecture: a prospective study

Author

Ensrud, KE, Vo, TN, Burghardt, AJ, Schousboe, JT, Cauley, JA, Taylor, BC, Hoffman, AR, Orwoll, ES, Lane, NE, Langsetmo, L, and for the Osteoporotic Fractures in Men (MrOS) Research Group

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Osteoporosis, Clinical Research, Obesity, Aging, Musculoskeletal, Aged, Aged, 80 and over, Anthropometry, Bone Density, Humans, Independent Living, Male, Prospective Studies, Radius, Tibia, Tomography, X-Ray Computed, Weight Gain, Weight Loss, Weight-Bearing, Bone microarchitecture, HR-pQCT, Men, Weight change, Osteoporotic Fractures in Men (MrOS) Research Group, Biomedical Engineering, Public Health and Health Services, Endocrinology & Metabolism, Clinical sciences, Epidemiology

Abstract

Weight loss in men in late life was associated with lower bone strength. In contrast, weight gain was not associated with a commensurate increase in bone strength. Future studies should measure concurrent changes in weight and parameters of bone strength and microarchitecture and evaluate potential causal pathways underlying these associations. INTRODUCTION:Our aim was to determine associations of weight loss with bone strength and microarchitecture. METHODS:We used data from 1723 community-dwelling men (mean age 84.5 years) who attended the MrOS study Year (Y) 14 exam and had high-resolution peripheral quantitative computed tomography (HR-pQCT) scans at ≥ 1 skeletal sites (distal tibia, distal radius, or diaphyseal tibia). Weight change from Y7 to Y14 exams (mean 7.3 years between exams) was classified as moderate weight loss (loss ≥ 10%), mild weight loss (loss 5 to

Published

2018

98. Volumetric Bone Mineral Density and Failure Load of Distal Limbs Predict Incident Clinical Fracture Independent HR-pQCT BMD and Failure Load Predicts Incident Clinical Fracture of FRAX and Clinical Risk Factors Among Older Men.

Author

Langsetmo, Lisa, Peters, Katherine W, Burghardt, Andrew J, Ensrud, Kristine E, Fink, Howard A, Cawthon, Peggy M, Cauley, Jane A, Schousboe, John T, Barrett-Connor, Elizabeth, Orwoll, Eric S, and Osteoporotic Fractures in Men (MrOS) Study Research Group

Subjects

Osteoporotic Fractures in Men (MrOS) Study Research Group, Extremities, Hip, Tibia, Humans, Tomography, X-Ray Computed, Risk Assessment, Risk Factors, ROC Curve, Bone Density, Weight-Bearing, Aged, Aged, 80 and over, Male, Fractures, Bone, Osteoporotic Fractures, BONE MICROARCHITECTURE, BONE STRENGTH, FRACTURE, FRAX, OLDER MEN, OSTEOPOROSIS, Bioengineering, Clinical Research, Aging, Osteoporosis, Prevention, Physical Injury - Accidents and Adverse Effects, Injuries and accidents, Musculoskeletal, Biological Sciences, Engineering, Medical and Health Sciences, Anatomy & Morphology

Abstract

Our objective was to determine the associations of peripheral bone strength and microarchitecture with incident clinical and major osteoporotic fracture among older men after adjusting for major clinical risk factors. We used a prospective cohort study design with data from 1794 men (mean age 84.4 years) in the Osteoporotic Fractures in Men (MrOS) study. Eligible men attended the year 14 visit, had high-resolution peripheral quantitative computed tomography (HR-pQCT) scans of the distal radius and distal or diaphyseal tibia, DXA measured BMD, and were followed for mean 1.7 years for incident fracture. Failure load was estimated using finite element analysis. We used Cox proportional hazards models with standardized HR-pQCT parameters as exposure variables. Primary outcome was clinical fracture (n = 108). Covariates included either Fracture Risk Assessment Tool (FRAX) major osteoporotic fracture probability calculated with BMD (FRAX-BMD), or individual clinical risk factors (CRF) including age, total hip BMD, race, falls, and prevalent fracture after age 50 years. Lower failure load was associated with higher risk of incident clinical fracture and incident major osteoporotic fracture. For clinical fracture with FRAX-BMD adjustment, the associations ranged from hazard ratio (HR) 1.58 (95% CI, 1.25 to 2.01) to 2.06 (95% CI, 1.60 to 2.66) per SD lower failure load at the diaphyseal tibia and distal radius. These associations were attenuated after adjustment for individual CRFs, but remained significant at the distal sites. Associations of volumetric BMD with these outcomes were similar to those for failure load. At the distal radius, lower trabecular BMD, number, and thickness, and lower cortical BMD, thickness, and area were all associated with higher risk of clinical fracture, but cortical porosity was not. Among community-dwelling older men, HR-pQCT measures including failure load, volumetric BMD, and microstructure parameters at peripheral sites (particularly distal radius) are robust independent predictors of clinical and major osteoporotic fracture. © 2018 American Society for Bone and Mineral Research.

Published

2018

99. Biomechanical Assessment of the Dorsal Spanning Bridge Plate in Distal Radius Fracture Fixation: Implications for Immediate Weight-Bearing

Author

Huang, Jerry I, Peterson, Bret, Bellevue, Kate, Lee, Nicolas, Smith, Sean, and Herfat, Safa

Subjects

Biomedical and Clinical Sciences, Clinical Sciences, Physical Injury - Accidents and Adverse Effects, Bioengineering, Clinical Research, Aged, Bone Plates, Cadaver, Female, Fracture Fixation, Internal, Fractures, Comminuted, Humans, Male, Materials Testing, Prosthesis Design, Radius Fractures, Weight-Bearing, biomechanical study, distal radius fracture, distraction plating, dorsal bridge plating, early weight-bearing, Orthopedics, Clinical sciences

Abstract

BackgroundThe goal of this study was to compare the biomechanical stability of a 2.4-mm dorsal spanning bridge plate with a volar locking plate (VLP) in a distal radius fracture model, during simulated crutch weight-bearing.MethodsFive paired cadaveric forearms were tested. A 1-cm dorsal wedge osteotomy was created to simulate an unstable distal radius fracture with dorsal comminution. Fractures were fixed with a VLP or a dorsal bridge plate (DBP). Specimens were mounted to a crutch handle, and optical motion-tracking sensors were attached to the proximal and distal segments. Specimens were loaded in compression at 1 mm/s on a servohydraulic test frame until failure, defined as 2 mm of gap site displacement.ResultsThe VLP construct was significantly more stable to axial load in a crutch weight-bearing model compared with the DBP plate (VLP: 493 N vs DBP: 332 N). Stiffness was higher in the VLP constructs, but this was not statistically significant (VLP: 51.4 N/mm vs DBP: 32.4 N/mm). With the crutch weight-bearing model, DBP failed consistently with wrist flexion and plate bending, whereas VLP failed with axial compression at the fracture site and dorsal collapse.ConclusionsDorsal spanning bridge plating is effective as an internal spanning fixator in treating highly comminuted intra-articular distal radius fracture and prevents axial collapse at the radiocarpal joint. However, bridge plating may not offer advantages in early weight-bearing or transfer in polytrauma patients, with less axial stability in our crutch weight-bearing model compared with volar plating. A stiffer 3.5-mm DBP or use of a DBP construct without the central holes may be considered for distal radius fractures if the goal is early crutch weight-bearing through the injured extremity.

Published

2018

100. Osmotic Pressure Alters Time-dependent Recovery Behavior of the Intervertebral Disc

Author

Bezci, Semih E and O’Connell, Grace D

Subjects

Bioengineering, Rehabilitation, Animals, Cattle, Intervertebral Disc, Lumbar Vertebrae, Osmotic Pressure, Time Factors, Water, Weight-Bearing, disc biomechanics, disc recovery, flow-dependent recovery, healthy disc, intervertebral disc, nondegenerate disc, osmotic loading, osmotic pressure, poroelasticity, recovery mechanics, rheological models, time-dependent recovery, viscoelasticity, Biomedical Engineering, Clinical Sciences, Orthopedics

Abstract

Study designDisc recovery behavior under hypo- and hyperosmotic pressure.ObjectiveTo evaluate the effect of osmotic pressure on the unloaded recovery response of healthy discs.Summary of background dataThe intervertebral disc is a poroviscoelastic material that experiences large fluctuations in water composition throughout a diurnal loading cycle. Fluid flow out of the disc occurs through mechanical loading, whereas fluid flow into the disc occurs through passive diffusion because of an imbalance of ions between the disc and its surrounding environment. Osmotic pressure has been used to alter water uptake and tissue hydration.MethodsMotion segments were prepared from the caudal spine sections of the skeletally mature bovines. A 300-N compressive load was applied for 2 hours before unloaded recovery for 12 hours. Hypo- and hyperosmotic pressure was used to alter the rate of water uptake and disc height recovery during unloaded recovery. A 5-parameter rheological model was used to describe the disc's time-dependent recovery behavior.ResultsThe elastic response was not altered by changes in osmotic pressure; however, viscoelastic recovery was highly dependent on saline osmolarity and recovery time. The fast response of viscoelastic recovery was not dependent on osmotic pressure. The time constant for the slow response decreased whereas the slow response stiffness increased as osmotic pressure increased.ConclusionThe fast response of viscoelastic recovery is governed by flow-independent recovery, whereas the slow response is related to flow-dependent recovery. The rate and magnitude of flow-dependent recovery are highly sensitive to changes in osmotic pressure of the saline bath. There is an osmotic pressure that reduces disc recovery behavior to an elastic response or flow-independent recovery.Level of evidenceN/A.

Published

2018