Preparation and characteristics of diatrizoate meglumine-loaded chitosan microspheres

Yuming Huang, Yurong Ji, Yonghua Lao, Lan Yao, Jianhui Song, Xia Zhi, Yueshan Huang
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Abstract

The purpose of the present study is to prepare a diatrizoate meglumine-loaded chitosan microsphere, which could be used to be investigated by ultrasonic imaging technique in vivo and would has water absorption swelling property to dredge the obstruction. Diatrizoate meglumine-loaded chitosan microspheres were prepared by crosslink emulsification process, to use chitosan acetic acid solution as aqueous phase, liquid paraffin as oil phase, Span80 and n-butyl alcohol as surfactant, glutaraldehyde solution as crosslink agent. The effect of ratio of diatrizoate meglumine (ratio of W), the ratio of aqueous to organic phase (W/O ratio), the ratio of Span80 to liquid paraffin and the time of crosslink process were optimized by the single factor experiment and response surface experiment. And the optimum prepared microspheres' appearance, distribution, diameter, zeta potential, thermal performance and release properties were measured and their swelling and development properties were observed. The diatrizoate meglumine-loaded chitosan microspheres had a good shape and uniform distribution by light microscope and transmission electron microscope, with average diameters of 1.53 μm and average zeta potential of -19.7 mV; the microspheres had a good sustained release property. And the swelling property of the diatrizoate megiumine-loaded chitosan microspheres varied in different conditions and developed clearly under the ultrasonic imaging technique. This study prepares a kind of diatrizoate meglumine-loaded chitosan microspheres, who can make the microspheres, develop and dredge the obstruction at the same time.
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壳聚糖微球的制备及性能研究
本研究的目的是制备一种可用于超声成像技术在体内研究的异位负载甲氧胺壳聚糖微球,该微球具有吸水膨胀性,可疏通阻塞。以壳聚糖乙酸溶液为水相,液体石蜡为油相,Span80和正丁醇为表面活性剂,戊二醛溶液为交联剂,采用交联乳化法制备了甲酰亚胺负载壳聚糖微球。通过单因素实验和响应面实验,优化了异构体三聚氰胺的配比(W比)、水相与有机相的配比(W/O比)、Span80与液体石蜡的配比以及交联时间的影响。对制备的最佳微球的形貌、分布、直径、zeta电位、热学性能和释放性能进行了测定,并观察了微球的膨胀和显影性能。光镜和透射电镜观察表明,壳聚糖微球的平均直径为1.53 μm,平均zeta电位为-19.7 mV,形状良好,分布均匀;该微球具有良好的缓释性能。在超声成像技术下,不同条件下异位负载的壳聚糖微球的膨胀特性发生了明显的变化。本研究制备了一种异位负载聚氨基甲壳聚糖微球,它能同时制备微球、发育和疏通阻塞。
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