Riikonen Joakim, Mäkilä Ermei, Salonen Jarno, Lehto Vesa-Pekka
Department of Physics and Astronomy, University of Turku, Turku 20014, Finland.
Langmuir. 2009 Jun 2;25(11):6137-42. doi: 10.1021/la804055s.
Mesoporous silicon microparticles with three various surface chemistries and eight different average pore diameters for each surface modification, ranging from 11 to 75 nm, were loaded with ibuprofen. The loaded batches were characterized using thermal analysis and nitrogen sorption. Three thermodynamically different states of ibuprofen were found in the samples: a crystalline state outside the pores, a crystalline state inside the pores, and a disordered state inside the pores. Both the crystalline and disordered ibuprofen were found in the pores in all of the batches. Crystalline ibuprofen outside the pores was only found in two batches and in negligible amounts. The results supported the assumption that there is a layer of disordered ibuprofen adjacent to the pore wall (i.e., delta layer), in which the thickness is not strongly depending upon the pore size. The thickness of the disordered layer varied depending upon the surface chemistry of the pore wall and was 1.2, 1.5, and 2.0 nm for hydrogen-terminated, thermally oxidized, and thermally carbonized surfaces, respectively. The method gave detailed information on the physical state of ibuprofen in the batches. It can be used with any drug compound that is able to form crystals inside the mesopores and can be a useful tool in determining the optimal surface chemistry and pore size of a mesoporous drug-carrier material.
制备了具有三种不同表面化学性质且每种表面改性有八个不同平均孔径(范围为11至75纳米)的介孔硅微粒,并将布洛芬负载于其中。对负载后的批次进行了热分析和氮吸附表征。在样品中发现了布洛芬的三种热力学不同状态:孔外的结晶态、孔内的结晶态以及孔内的无序态。在所有批次的孔中均发现了结晶态和无序态的布洛芬。仅在两个批次中发现了极少量孔外的结晶态布洛芬。结果支持了这样一种假设,即孔壁附近存在一层无序的布洛芬(即δ层),其厚度并不强烈依赖于孔径。无序层的厚度因孔壁的表面化学性质而异,对于氢终止、热氧化和热碳化表面,其厚度分别为1.2纳米、1.5纳米和2.0纳米。该方法提供了有关批次中布洛芬物理状态的详细信息。它可用于任何能够在介孔内形成晶体的药物化合物,并且在确定介孔药物载体材料的最佳表面化学性质和孔径方面可能是一种有用的工具。