Effects of pH on the Morphological Structures and Release Properties in Chitosan Microspheres

S. Kuo, S. Chang, Pei-Hwa Tsai, S. Chen
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Abstract

With an attempt to expand the versatilities and applications in chitosan microspheres, distinct morphological structures and properties of chitosan microspheres were produced by treating with various pH values of Na5P3O10/NaOH solution reagents, also under various volume ratio of these solution (17/3, 19/1, pure Na5P3O10 or pure NaOH solution). The prepared chitosan microsphere had a good spherical shape and was in a range of 185.8plusmn13.8 mum to 380.9plusmn11.5 mum in diameter. When pH values decreased from initially pH 12 (except in case for pure Na5P3O10 where the pH being 8.8) to pH 7, the chitosan microspheres size varied, and reached a maximum diameter after treatment with pH 7 of these reaction agents. The prepared chitosan microspheres upon treatment with pH 7 of various ratios Na5P3O10/NaOH solution, all exhibited a shrunken surface morphological structure. This densely shrunken structure of microspheres yielded a stronger mechanical strength and a slower release rate of drug (5-FU), no matter what the ratios of Na5P3O10/NaOH solution was used. From the data of FTIR analyses, the protonated amino peak of NH 3 + at around 1562 cm-1 has decreased significantly. It could be attributed to the crosslinking reaction between phosphoric and ammonium ion of the chitosan microspheres
pH对壳聚糖微球形态结构及释放特性的影响
为了扩大壳聚糖微球的多功能性和应用范围,通过不同pH值的Na5P3O10/NaOH溶液试剂,以及不同体积比(17/3、19/1、纯Na5P3O10或纯NaOH溶液)处理壳聚糖微球,制备出不同形态结构和性能的壳聚糖微球。制备的壳聚糖微球具有良好的球形结构,直径在185.8 ~ 380.9plusmn11.5 μ m之间。当pH值从初始pH为12(除纯Na5P3O10的pH为8.8外)降低到pH为7时,壳聚糖微球的粒径发生变化,并在这些反应剂的pH为7时达到最大直径。制备的壳聚糖微球经pH为7的不同比例Na5P3O10/NaOH溶液处理后,表面形态结构均呈现萎缩。无论使用何种比例的Na5P3O10/NaOH溶液,这种致密收缩的微球结构都具有更强的机械强度和更慢的药物释放速度(5-FU)。从FTIR分析数据来看,nh3 +在1562 cm-1附近的质子化氨基峰明显下降。这可归因于壳聚糖微球的磷离子与铵离子的交联反应
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