A method for measuring intra-tissue swelling pressure using a needle micro-osmometer.

IF 3.2 3区 医学 Q3 CELL & TISSUE ENGINEERING European cells & materials Pub Date : 2020-09-20 DOI:10.22203/eCM.v040a09
C M Krull, A D Lutton, J W Olesik, B A Walter
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Abstract

The intervertebral disc's ability to resist load and facilitate motion arises largely from osmotic swelling pressures that develop within the tissue. Changes in the disc's osmotic environment, diurnally and with disease, have been suggested to regulate cellular activity, yet knowledge of in vivo osmotic environments is limited. Therefore, the first objective of this study was to demonstrate proof-of-concept for a method to measure intra-tissue swelling pressure and osmolality, modeling micro-osmometer fluid flux using Darcy's law. The second objective was to compare flux-based measurements of the swelling pressure within nucleus pulposus (NP) tissue against ionic swelling pressures predicted by Gibbs-Donnan theory. Pressures (0.03- 0.57 MPa) were applied to NP tissue (n = 25) using equilibrium dialysis, and intra-tissue swelling pressures were measured using flux. Ionic swelling pressures were determined from inductively coupled plasma optical emission spectrometry measurements of intra-tissue sodium using Gibbs-Donnan calculations of fixed charge density and intra-tissue chloride. Concordance of 0.93 was observed between applied pressures and flux- based measurements of swelling pressure. Equilibrium bounds for effective tissue osmolalities engendered by a simulated diurnal loading cycle (0.2-0.6 MPa) were 376 and 522 mOsm/kg H2O. Significant differences between flux and Gibbs-Donnan measures of swelling pressure indicated that total tissue water normalization and non-ionic contributions to swelling pressure were significant, which suggested that standard constitutive models may underestimate intra-tissue swelling pressure. Overall, this micro-osmometer technique may facilitate future validations for constitutive models and measurements of variation in the diurnal osmotic cycle, which may inform studies to identify diurnal- and disease-associated changes in mechanotransduction.

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使用针式微压计测量组织内肿胀压力的方法。
椎间盘抵抗负荷和促进运动的能力主要来自于组织内形成的渗透膨胀压力。椎间盘渗透压环境的昼夜变化和疾病变化被认为可以调节细胞活动,但对体内渗透压环境的了解还很有限。因此,本研究的第一个目标是证明一种测量组织内肿胀压力和渗透压的方法的概念,利用达西定律对微渗透计流体通量进行建模。第二个目的是将基于通量的髓核组织内肿胀压力测量结果与吉布斯-多南理论预测的离子肿胀压力进行比较。使用平衡透析法对髓核组织(n = 25)施加压力(0.03- 0.57 兆帕),并使用通量测量组织内的膨胀压力。离子膨胀压力是通过电感耦合等离子体光发射光谱法对组织内钠的测量,利用固定电荷密度和组织内氯化物的吉布斯-多南计算得出的。应用压力与基于通量测量的膨胀压力之间的一致性为 0.93。模拟昼夜加载周期(0.2-0.6 兆帕)产生的有效组织渗透压的平衡界限分别为 376 和 522 mOsm/kg H2O。通量和 Gibbs-Donnan 测量的膨胀压力之间的显著差异表明,总组织水归一化和非离子对膨胀压力的贡献是显著的,这表明标准构成模型可能低估了组织内的膨胀压力。总之,这种微渗透压计技术有助于今后验证构成模型和测量昼夜渗透周期的变化,从而为研究提供信息,以确定机械传导中与昼夜和疾病相关的变化。
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来源期刊
European cells & materials
European cells & materials 生物-材料科学:生物材料
CiteScore
6.00
自引率
6.50%
发文量
55
审稿时长
1.5 months
期刊介绍: eCM provides an interdisciplinary forum for publication of preclinical research in the musculoskeletal field (Trauma, Maxillofacial (including dental), Spine and Orthopaedics). The clinical relevance of the work must be briefly mentioned within the abstract, and in more detail in the paper. Poor abstracts which do not concisely cover the paper contents will not be sent for review. Incremental steps in research will not be entertained by eCM journal.Cross-disciplinary papers that go across our scope areas are welcomed.
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