Oscillatory bone fluid flow and its role initiating remodeling in the absence of matrix strain

机译：振荡骨流体及其作用在没有基质菌株的情况下引发重塑

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Load-generated intracortical fluid flow is proposed to be an important mediator for regulating bone mass and morphology [1]. Although the mechanism of cellular response to induced flow parameters, i.e., fluid pressure, pressure gradient, velocity, and fluid shear stress, are not yet clear, interstitial fluid flow driven by loading may be necessary to explain the adaptive response of bone, which is either coupled with load-induced strain magnitude or independent with matrix strain per se [2]. It has been demonstrated that load-induced intracortical fluid flow is contributed by both bone matrix deformation and induced intramedullary (IM) pressure [3]. To examine the hypothesis of fluid flow generated adaptation, it is necessary to test the mechanism under the circumstances of solely fluid induced bone adaptation in the absence of matrix deformation. While our previous data has demonstrated that bone fluid flow and its associated streaming potential product can be influenced by the dynamic IM pressure quantitatively [4], the objective of this study was to evaluate fluid induced bone adaptation in an avian ulna model using oscillatory IM fluid pressure loading in the absence of bone matrix strain. The potential fluid pathway was measured in the model.

机译：负载产生的皮质内的流体流动建议成为用于调节骨量和形态[1]的重要介体。虽然到诱导的流动参数，即，流体的压力，压力梯度，速度和流体剪切应力的细胞应答的机制，尚不清楚，间质流体流动通过加载驱动可能是必要的解释骨的适应性反应，这是任一加上负载引起的应变幅度或独立于与本身[2]基质菌株。已经证明该负载引起的皮质内的流体流被两个骨基质变形并对诱导髓内（IM）压力[3]。为了检查产生的流体流适应的假设，这是必要测试下单独流体引起的骨适应的情况下，机构在不存在基质变形。虽然我们的先前的数据表明，骨流体流及其相关联的泳动电势产物可通过动态IM压力定量[4]中，目标本研究的影响是使用振荡IM流体以评估在禽类尺骨模型流体诱导的骨适应压力载荷在没有骨基质的应变。潜在的流体通路在所述模型中测量。

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《ASME International Mechanical Engineering Congress and Exposition》|2001年||共2页
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Yixian Qin; Anita Saldanha; Tamara Kaplan;
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1. Roles of MAP kinases in the regulation of bone matrix gene expressions in human osteoblasts by oscillatory fluid flow. [J] . Wu CC, Li YS, Haga JH, Journal of cellular biochemistry. . 2006,第3期

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3. Gastric banding induces negative bone remodelling in the absence of secondary hyperparathyroidism: potential role of serum C telopeptides for follow-up [J] . V Giusti, C Gasteyger, M Suter, International Journal of Obesity . 2005,第12期

机译：在没有继发性甲状旁腺功能亢进的情况下，胃束带诱导负性骨重塑：血清C端肽在随访中的潜在作用
4. Oscillatory bone fluid flow and its role initiating remodeling in the absence of matrix strain [C] . Yixian Qin, Anita Saldanha, Tamara Kaplan ASME International Mechanical Engineering Congress and Exposition . 2001

机译：振荡骨流体及其作用在没有基质菌株的情况下引发重塑
5. Shearing oscillatory interstitial fluid flows affect solute transport and osteogenesis in cortical bone. [D] . Schmidt, Stephanie M. 2006

机译：振荡的间质液流动影响皮质骨中的溶质转运和成骨。
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8. Pulsatile Fluid Shear in Bone Remodeling [R] . Frangos, John A. 1997

机译：骨重建中的脉冲流体剪切

Oscillatory bone fluid flow and its role initiating remodeling in the absence of matrix strain

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