2021
DOI: 10.1016/j.jmbbm.2021.104806
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High resolution three-dimensional strain measurements in human articular cartilage

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Cited by 12 publications
(5 citation statements)
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“…53 The radial zone of natural cartilage mainly played a role in mechanics, so the disappearance of this area leads to the collapse of newly formed cartilage tissue under the compression of external forces. 52,54,55 In this study, the structure of the fiber layer mimicked the bund radial zone of natural cartilage, which both changed the compressive modulus of the scaffold and has an impact on the growth trend of the cell. From the sight of TE, improving the mechanical properties of scaffolds was beneficial especially for their performance in vivo .…”
Section: Discussionmentioning
confidence: 92%
“…53 The radial zone of natural cartilage mainly played a role in mechanics, so the disappearance of this area leads to the collapse of newly formed cartilage tissue under the compression of external forces. 52,54,55 In this study, the structure of the fiber layer mimicked the bund radial zone of natural cartilage, which both changed the compressive modulus of the scaffold and has an impact on the growth trend of the cell. From the sight of TE, improving the mechanical properties of scaffolds was beneficial especially for their performance in vivo .…”
Section: Discussionmentioning
confidence: 92%
“…Correlating tissues' structure and composition to their mechanical response is crucial to comprehensively assess the biomechanics of the OC unit, specifically considering how degeneration and treatment affect the homeostasis of such a complex unit. From this perspective, image-based techniques such as Digital Image Correlation (DIC) and Digital Volume Correlation (DVC) can collect comprehensive information related to OC tissues' biomechanics, by evaluating how the tissues' structure responds to external loads [184][185][186][187][188][189]. For both techniques, the resolution of the displacement map and, therefore, the ability to account for tissue heterogeneity, depends on the imaging resolution and the subset/subvolume size [187].…”
Section: Complementary Approaches To Investigate the Oc Unit's Biomec...mentioning
confidence: 99%
“…For both techniques, the resolution of the displacement map and, therefore, the ability to account for tissue heterogeneity, depends on the imaging resolution and the subset/subvolume size [187]. With particular reference to DVC, exhaustive measurement of the inner deformation induced within tissues are reported for mineralised tissues [188,190,191] and, more recently, extended to AC and its junction with bone tissue [4,184,189,192,193]. Concerning the assessment of AC using X-ray-based DVC, two main approaches are currently used.…”
Section: Complementary Approaches To Investigate the Oc Unit's Biomec...mentioning
confidence: 99%
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“…Another route to enhance CT contrast in soft tissues is via radiopaque staining (e.g., iodine potassium iodide, phosphotungstic acid). A recent study relied on previously developed staining protocols ( Clark et al, 2020b ) to resolve chondrocyte distribution in human articular cartilage and measure full-field displacement and strain using DVC ( Clark et al, 2021 ), but once again, most staining procedures can alter both tissue morphology and mechanical properties ( Buytaert et al, 2014 ). New generation of staining agents with the potential of better preserving tissue integrity ( de Bournonville et al, 2020 ) could address the degradation problem; however, even in such case, issues related to heterogeneity of tissue contrast due to staining penetration/power can notably reduce DVC ability to measure reliable and reproducible local deformations.…”
Section: Open Challenges and Current/future Developmentsmentioning
confidence: 99%