3.22 : 溶解理论：Danckwerts 模型和界面屏障模型

Various dissolution theories elucidate factors impacting the dissolution rate.

Danckwert's model postulates that the dissolution medium shows turbulence at the solid-liquid interface instead of a stagnant layer.

The agitated solvent containing macroscopic packets moves to the interface via eddy currents, absorbing and delivering the drug to the bulk solution.

Regular replenishment of solvent packets maintains the concentration gradient.

Here, the drug transport to the bulk solution is the rate-limiting step.

The interfacial barrier model considers a drug particle as a crystal with distinct interfacial barriers on each face. An intermediate concentration, a solubility function, exists at the interface due to solvation.

The dissolution rate is calculated per unit area and depends on the interfacial transport constant and concentrations in the static layer and bulk solution.

The drug's solubilization rate in the static layer is the rate-limiting step.

各种溶解理论都有助于深入了解影响溶解速率的因素。Danckwerts 模型表明，湍流（而不是停滞层）是固液界面溶解介质的特征。在该模型中，搅动的溶剂包含宏观的流体团块，这些团块通过涡流运动到界面，促进药物吸收并输送到主体溶液中。溶剂团块的不断补充可保持浓度梯度，而药物向主体溶液的输送是限速步骤。

另一个模型，即界面屏障模型，将药物颗粒描述为晶体，每个面上都有独特的界面屏障。界面处的溶剂化是溶剂分子与药物颗粒相互作用并溶解药物颗粒的过程，会产生一个中间浓度，这是溶解度函数。然后根据界面传输常数以及静态层和主体溶液中的浓度计算每单位面积的溶解速率。在该模型中，限速步骤是药物在静态层中的溶解速率。

这些模型以及前面课程中描述的模型强调了溶解过程的复杂性及其对药物输送的影响。

Tags

Dissolution Theories Danckwerts Model Interfacial Barrier Model Dissolution Rate Solid liquid Interface Turbulence Solvent Packets Concentration Gradient Rate limiting Step Solvation Drug Solubilization Interfacial Transport Constant Drug Delivery

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