Programa de Pós-Graduação em Ciências Farmacêuticas, UFRGS, 90610-000 Porto Alegre, Rio Grande do Sul, Brazil.
AAPS PharmSciTech. 2009;10(3):1013-23. doi: 10.1208/s12249-009-9297-z. Epub 2009 Aug 7.
The purpose of this paper was to evaluate the compressional behavior of granules containing high load of a Phyllanthus niruri spray-dried extract in eccentric (ETM) and rotary (RTM) tablet presses. Tablets were constituted by spray-dried extract granules (SDEG, 92%), excipient granules (EXCG, 7.92%), and magnesium stearate (0.08%). SDEG was obtained by dry granulation and EXCG, composed of microcrystalline cellulose (62.9%) and sodium starch glycolate (37.1%), by wet granulation. Particle size distribution was fixed between 0.250 and 0.850 mm. Tablets did not evidence any mechanical failures, such as lamination or capping, or anomalous weight variation in either tablet machine types. Upper and lower tablet surface photomicrographs from ETM and RTM tablets showed differences in porosity and texture. Different RTM speeds suggested the visco-plastic behavior of the formulation, since, by slowing down rotation speeds, the tensile strength of the tablets increased significantly, but the porosity and disintegration time were not affected. Tablets produced in RTM showed lower friability and porosity than ETM tablets, which did not reflect on higher tensile strength. The EXCG distribution at upper and lower surfaces from ETM and RTM tablets was quantified by image analysis and evaluated through statistical methods. Spray-dried extract release was not influenced by the type of equipment or operational conditions to which the compacts were submitted. Construction and operation differences between both tablet presses influenced the final product, since tablets with similar tensile strength, made by distinct tablet machines, exhibited different quality parameters.
本文旨在评估含有高浓度叶下珠喷雾干燥提取物的颗粒在偏心(ETM)和旋转(RTM)压片机中的压缩行为。片剂由喷雾干燥提取物颗粒(SDEG,92%)、赋形剂颗粒(EXCG,7.92%)和硬脂酸镁(0.08%)组成。SDEG 通过干法制粒获得,EXCG 由微晶纤维素(62.9%)和交联羧甲基纤维素钠(37.1%)组成,通过湿法制粒获得。颗粒的粒径分布固定在 0.250 至 0.850 毫米之间。两种压片机类型的片剂均未出现分层或盖顶或异常重量变化等机械故障。从 ETM 和 RTM 片剂的上下表面的显微照片可以看出,其在孔隙率和质地方面存在差异。不同的 RTM 速度表明了配方的粘塑性行为,因为通过降低旋转速度,片剂的拉伸强度显著增加,但孔隙率和崩解时间不受影响。与 ETM 片剂相比,RTM 片剂的脆性和孔隙率较低,但拉伸强度没有提高。通过图像分析对 ETM 和 RTM 片剂上下表面的 EXCG 分布进行定量,并通过统计方法进行评估。喷雾干燥提取物的释放不受片剂所经历的设备类型或操作条件的影响。两种压片机的结构和操作差异会影响最终产品,因为由不同压片机生产的具有相似拉伸强度的片剂表现出不同的质量参数。