In the rabbit corneal stroma, the swelling pressure, P, has been reported to have an anomalous (negative) temperature coefficient, alpha P, contradicting traditional Donnan swelling theory. A parallel-plate, diffuse double layer Gouy-Chapman model was used to resolve this discrepancy. The present model incorporates the possibility that surface charge, sigma, is temperature dependent. It is shown that negative, zero, or positive coefficients of swelling pressure change with temperature are not mutually exclusive conditions, but can be attributed to the same underlying mechanism. For likely values of alpha P(range -7 x 10(-3) K-1 to +3.2 x 10(-3)K-1), the effective stromal charge has a negative temperature dependency, or dln sigma/dT less than 0. The present formalism is robust against variation in assumed alpha P, and is able to simultaneously satisfy the known values of swelling pressure, its thermal dependency, and stromal charge. These results implicate significant coulombic forces behind P. Predicted stromal surface charge is approximately 0.01 Cm-2. The predictions were confirmed with macrocontinuum Donnan swelling theory, suggesting that Donnan osmotic swelling is the principal macroscopic component of P.
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机译:据报道,在兔角膜基质中,肿胀压力P具有异常(负)温度系数αP,这与传统的Donnan肿胀理论相矛盾。使用平行板,扩散双层Gouy-Chapman模型来解决此差异。本模型考虑了表面电荷西格玛与温度有关的可能性。结果表明,溶胀压力随温度变化的负,零或正系数不是相互排斥的条件,而是可以归因于相同的基本机理。对于αP的可能值(范围-7 x 10(-3)K-1至+3.2 x 10(-3)K-1),有效基质电荷具有负温度依赖性,或dln sigma / dT小于0.目前的形式主义对假设的αP的变化具有鲁棒性,并且能够同时满足溶胀压力,其热依赖性和基质电荷的已知值。这些结果暗示了在P后面的大量库仑力。预计的基质表面电荷约为0.01 Cm-2。这些预测被大连续谱Donnan溶胀理论所证实,表明Donnan渗透溶胀是P的主要宏观成分。
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