Esmaeilzadeh Gharehdaghi Elina, Amani Amir, Khoshayand Mohammad Reza, Banan Mehdi, Esmaeilzadeh Gharehdaghi Elika, Amini Mohammad Ali, Faramarzi Mohammad Ali
1 Biotechnology Research Center, Tehran University of Medical Sciences , Tehran, Iran .
Nucleic Acid Ther. 2014 Dec;24(6):420-7. doi: 10.1089/nat.2014.0484.
Chitosan nanoparticles were prepared using ultrasonication methodology at specific amplitudes and times of sonication. Subsequently, small interfering RNA (siRNA) was added to the solution at predetermined values of nitrogen to phosphorous ratio (N/P), and stirring time. Employing response surfaces generated from a statistical model, the effect of sonication time and amplitude, stirring time, and N/P ratio was studied on the particle size, polydispersity, and loading efficiency of prepared siRNA/chitosan nanoparticles. It was found that to obtain the smallest size, amplitude and time of sonication as well as stirring time should be kept at ∼45%, 165 seconds, and 50 minutes, respectively. Minimum polydispersity values were also obtained at similar values of sonication time/amplitude and stirring time in addition to N/P values of ∼28. Also, the maximum proportion of siRNA loading was observed at approximate values of 300 seconds, 80% and 280 for sonication time, amplitude, and N/P ratio, respectively. The optimum conditions (i.e., to prepare a sample with minimum values of particle size and polydispersity index and maximum values of loading efficiency) were determined as 60.6, 30.0 (seconds), 28.0, and 12.5 (minutes) for amplitude, time of sonication, N/P, and stirring time, respectively. In this scrutiny, the predicted values of optimum formulation were 456 nm size, 89.6% loading efficiency, and 0.4 polydispersity index.
采用超声处理方法,在特定的超声振幅和时间下制备壳聚糖纳米颗粒。随后,在预定的氮磷比(N/P)和搅拌时间值下,将小干扰RNA(siRNA)添加到溶液中。利用统计模型生成的响应面,研究了超声时间和振幅、搅拌时间以及N/P比对制备的siRNA/壳聚糖纳米颗粒的粒径、多分散性和负载效率的影响。结果发现,为了获得最小粒径,超声振幅和时间以及搅拌时间应分别保持在约45%、165秒和50分钟。除了N/P值约为28外,在相似的超声时间/振幅和搅拌时间值下也获得了最小多分散性值。此外,在超声时间、振幅和N/P比分别约为300秒、80%和280时,观察到siRNA负载的最大比例。确定最佳条件(即制备具有最小粒径和多分散指数值以及最大负载效率值的样品)为振幅、超声时间、N/P和搅拌时间分别为60.6、30.0(秒)、28.0和12.5(分钟)。在这项研究中,最佳配方的预测值为粒径456nm、负载效率89.6%和多分散指数0.4。