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W4285302219 endingPage "2216" @default.
W4285302219 startingPage "2209" @default.
W4285302219 abstract "To develop durable bone healing strategies through improved control of bone repair, it is of critical importance to understand the mechanisms of bone mechanical integrity when in contact with biomaterials and implants. Bone mechanical integrity is defined here as the adaptation of structural properties of remodeled bone in regard to an applied mechanical loading. Accordingly, the authors present why future investigations in bone repair and regeneration should emphasize on the matrix surrounding the osteocytes. Osteocytes are mechanosensitive cells considered as the orchestrators of bone remodeling, which is the biological process involved in bone homeostasis. These bone cells are trapped in an interconnected porous network, the lacunocanalicular network, which is embedded in a bone mineralized extracellular matrix. As a consequence of an applied mechanical loading, the bone deformation results in the deformation of this lacunocanalicular network inducing a shift in interstitial fluid pressure and velocity, thus resulting in osteocyte stimulation. The material environment surrounding each osteocyte, the so called perilacunar and pericellular matrices properties, define its mechanosensitivity. While this mechanical stimulation pathway is well known, the laws used to predict bone remodeling are based on strains developing at a tissue scale, suggesting that these strains are related to the shift in fluid pressure and velocity at the lacunocanalicular scale. While this relationship has been validated through observation in healthy bone, the fluid behavior at the bone-implant interface is more complex. The presence of the implant modifies fluid behavior, so that for the same strain at a tissue scale, the shift in fluid pressure and velocity will be different than in a healthy bone tissue. In that context, new markers for bone mechanical integrity, considering fluid behavior, have to be defined. The viewpoint exposed by the authors indicates that the properties of the pericellular and the perilacunar matrices have to be systematically investigated and used as structural markers of fluid behavior in the course of bone biomaterial development." @default.
W4285302219 created "2022-07-14" @default.
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W4285302219 date "2022-01-01" @default.
W4285302219 modified "2023-10-08" @default.
W4285302219 title "Osteocyte pericellular and perilacunar matrices as markers of bone–implant mechanical integrity" @default.
W4285302219 cites W1581938358 @default.
W4285302219 cites W1970779600 @default.
W4285302219 cites W1972568078 @default.
W4285302219 cites W1972751174 @default.
W4285302219 cites W1978344971 @default.
W4285302219 cites W1979583938 @default.
W4285302219 cites W1987576187 @default.
W4285302219 cites W1991457267 @default.
W4285302219 cites W1993662309 @default.
W4285302219 cites W2002879762 @default.
W4285302219 cites W2009822388 @default.
W4285302219 cites W2012388796 @default.
W4285302219 cites W2012697645 @default.
W4285302219 cites W2017866130 @default.
W4285302219 cites W2021804974 @default.
W4285302219 cites W2031637752 @default.
W4285302219 cites W2046832422 @default.
W4285302219 cites W2057763179 @default.
W4285302219 cites W2066646366 @default.
W4285302219 cites W2066846288 @default.
W4285302219 cites W2075719804 @default.
W4285302219 cites W2077696261 @default.
W4285302219 cites W2078577871 @default.
W4285302219 cites W2083049128 @default.
W4285302219 cites W2107326562 @default.
W4285302219 cites W2109334521 @default.
W4285302219 cites W2116651675 @default.
W4285302219 cites W2123823854 @default.
W4285302219 cites W2144424358 @default.
W4285302219 cites W2146614596 @default.
W4285302219 cites W2163161762 @default.
W4285302219 cites W2163416267 @default.
W4285302219 cites W2165685591 @default.
W4285302219 cites W2165805351 @default.
W4285302219 cites W2169762760 @default.
W4285302219 cites W2312876250 @default.
W4285302219 cites W2523921501 @default.
W4285302219 cites W2551419694 @default.
W4285302219 cites W2566613453 @default.
W4285302219 cites W2603224922 @default.
W4285302219 cites W2741178300 @default.
W4285302219 cites W2754032088 @default.
W4285302219 cites W2763486421 @default.
W4285302219 cites W2765553475 @default.
W4285302219 cites W2770060985 @default.
W4285302219 cites W2792570925 @default.
W4285302219 cites W2916524478 @default.
W4285302219 cites W2938274644 @default.
W4285302219 cites W2965942806 @default.
W4285302219 cites W2982269720 @default.
W4285302219 cites W2989821013 @default.
W4285302219 cites W2991187435 @default.
W4285302219 cites W3006279369 @default.
W4285302219 cites W3011572338 @default.
W4285302219 cites W3033561017 @default.
W4285302219 cites W3085609278 @default.
W4285302219 cites W3086873233 @default.
W4285302219 cites W3097185419 @default.
W4285302219 cites W3111952893 @default.
W4285302219 cites W3124972957 @default.
W4285302219 cites W3128196236 @default.
W4285302219 cites W3137626405 @default.
W4285302219 cites W3148996832 @default.
W4285302219 cites W3161698409 @default.
W4285302219 cites W3193137059 @default.
W4285302219 cites W3195275176 @default.
W4285302219 cites W3198622471 @default.
W4285302219 cites W4200350030 @default.
W4285302219 cites W4200515860 @default.
W4285302219 cites W4206523455 @default.
W4285302219 cites W4211160782 @default.
W4285302219 cites W4236168925 @default.
W4285302219 cites W4250039758 @default.
W4285302219 cites W4292993485 @default.
W4285302219 cites W601907569 @default.
W4285302219 doi "https://doi.org/10.32604/biocell.2022.022290" @default.
W4285302219 hasPublicationYear "2022" @default.
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