Jianzhuo Wang scite author profile

Three classical particle dissolution rate expressions are commonly used to interpret particle dissolution rate phenomena. Our analysis shows that an assumption used in the derivation of the traditional cube-root law may not be accurate under all conditions for diffusion-controlled particle dissolution. Mathematical analysis shows that the three classical particle dissolution rate expressions are approximate solutions to a general diffusion layer model. The cube-root law is most appropriate when particle size is much larger than the diffusion layer thickness, the two-thirds-root expression applies when the particle size is much smaller than the diffusion layer thickness. The square-root expression is intermediate between these two models. A general solution to the diffusion layer model for monodispersed spherical particles dissolution was derived for sink and nonsink conditions. Constant diffusion layer thickness was assumed in the derivation. Simulated dissolution data showed that the ratio between particle size and diffusion layer thickness (a0/h) is an important factor in controlling the shape of particle dissolution profiles. A new semiempirical general particle dissolution equation is also discussed which encompasses the three classical particle dissolution expressions. The success of the general equation in explaining limitations of traditional particle dissolution expressions demonstrates the usefulness of the general diffusion layer model.

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General solution for diffusion‐controlled dissolution of spherical particles. 2. Evaluation of experimental data

Wang

Flanagan

2002

Journal of Pharmaceutical Sciences

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Fundamentals of Dissolution

Wang¹,

Flanagan²

2009

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Jianzhuo Wang

General solution for diffusion‐controlled dissolution of spherical particles. 1. Theory

General solution for diffusion‐controlled dissolution of spherical particles. 2. Evaluation of experimental data

Fundamentals of Dissolution

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