Tribological rehydration of cartilage and its potential role in preserving joint health
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- 作者:A.C. Moore&dagger ; ; D.L. Burris&dagger ; ; &Dagger ; ; dlburris@udel.edu
- 关键词:Cartilage ; Lubrication ; Joint space ; Physical activity
- 刊名:Osteoarthritis and Cartilage
- 出版年:2017
- 出版时间:January 2017
- 年:2017
- 卷:25
- 期:1
- 页码:99-107
- 全文大小:1119 K
- 卷排序:25
文摘
During exercise, cartilage recovers interstitial fluid lost during inactivity, which explains how tissue thickness and joint space are maintained over time. This recovery phenomenon is currently explained by a combination of osmotic swelling during intermittent bath exposure and sub-ambient pressurization during unloading. This paper tests an alternate hypothesis that cartilage can retain and recover interstitial fluid in the absence of bath exposure and unloading when physiological hydrodynamics are present.MethodStationary cartilage-on-flat experiments were conducted to eliminate intermittent bath exposure as a potential contributor to fluid uptake. In situ compression measurements were used to monitor the loss, retention, and recovery of interstitial fluid during testing in saline. Samples were left larger than the contact area to preserve a convergence zone for hydrodynamic pressurization.ResultsInterstitial fluid lost during static loading was recovered during sliding in the absence of unloading and contact migration; fluid recovery in a stationary contact cannot be explained by biphasic theory and suggests a fundamentally new contributor to the recovery process. We call the phenomenon ‘tribological rehydration’ because recovery was induced by sliding rather than by unloading or migration. Sensitivities to sliding speed, surface permeability, and nature of the convergence wedge are consistent with the hypothesis that hydrodynamic effects underlie the tribological rehydration phenomenon.ConclusionsThis study demonstrates that cartilage can retain and recover interstitial fluid without migration or unloading. The results suggest that hydrodynamic effects in the joint are not only important contributors to lubrication, they are likely equally important to the preservation of joint space.