Division of Pharmaceutical Chemistry and Technology, Faculty of Pharmacy, University of Helsinki, Finland.
Division of Pharmaceutical Chemistry and Technology, Faculty of Pharmacy, University of Helsinki, Finland.
Int J Pharm. 2018 May 30;543(1-2):21-28. doi: 10.1016/j.ijpharm.2018.03.035. Epub 2018 Mar 19.
Spray-dried protein formulations commonly require stabilising excipients to prevent protein degradation during processing and storage, and trehalose has been commonly used. The purpose of this work was to evaluate melibiose in spray-dried protein formulations in comparison to trehalose. The protein-activity-preserving efficacy, process behaviour and storage stability were studied. Spray drying of β-galactosidase was carried out using different process temperature, drying air flow and feed liquid atomisation settings. Both melibiose and trehalose reduced protein activity loss during drying. A decrease in activities was observed when the process temperature exceeded a threshold temperature. During storage (30 days at 18% RH and 20 or 40 °C), the formulations dried below this threshold temperature showed no further activity loss, and the stabilising efficacy of the two disaccharides was equal. With higher process temperatures, the remaining protein activities after storage trended higher with melibiose formulations. All formulations remained amorphous. The powder yields of melibiose formulations were similar to trehalose. There was a difference in residual moisture contents, with melibiose formulations giving drier products. In conclusion, protein formulations with melibiose could be spray dried into amorphous powders that were physically stable, contained lower moisture contents and protected protein activity at least as well as trehalose formulations.
喷雾干燥的蛋白质配方通常需要稳定剂来防止蛋白质在加工和储存过程中的降解,海藻糖已被广泛使用。本工作旨在评估在喷雾干燥的蛋白质配方中使用棉子糖与海藻糖的情况。研究了蛋白质活性保持功效、工艺行为和储存稳定性。使用不同的工艺温度、干燥空气流量和进料液体雾化设置进行了β-半乳糖苷酶的喷雾干燥。棉子糖和海藻糖都能减少干燥过程中蛋白质活性的损失。当工艺温度超过阈值温度时,观察到活性下降。在储存期间(30 天,相对湿度为 18%,温度为 20 或 40°C),低于该阈值温度下干燥的配方没有进一步的活性损失,两种二糖的稳定效果相同。在较高的工艺温度下,储存后的剩余蛋白质活性随着棉子糖配方的增加而增加。所有配方均保持非晶态。棉子糖配方的粉末产率与海藻糖相似。残留水分含量存在差异,棉子糖配方的产品较干燥。总之,棉子糖的蛋白质配方可以喷雾干燥成非晶态粉末,这些粉末物理稳定,水分含量较低,对蛋白质活性的保护作用至少与海藻糖配方一样好。
