Research Article | Volume: 5, Supplement: 2, September, 2015

Optimization of a freeze-drying cycle of a viral vaccine based on changes in temperature, time and geometry of the vials

Alexander da Silva Neves Aderval Severino Luna Antonio Carlos Augusto da Costa   

Open Access   

Published:  Sep 04, 2015

DOI: 10.7324/JAPS.2015.58.S4
Abstract

The freeze-drying process is used in pharmaceutical industry, however in terms of process management, the process must be avoided at all cost because it has several disadvantages such as high equipment investment, high energy demand, a process that requires long times and products easily to moisturize and fragile and needs to be carefully packed and stored. This work aims at reducing the freeze-drying cycle time of a viral product and consider loading this product at subzero temperatures to increase productivity of this product. Experiments were carried out with freeze-drying cycles with less 15 and 20h in comparison to the original cycle. The experiments were performed with the same formulation of the commercial batch and using a pilot freeze dryer. Modifications were made in the physical properties of the current freeze-drying cycle (temperature, pressure and time) and the loading temperature of the product, without changing the formulation of the vaccine or primary loading. Samples of the lyophilized product trial were analyzed for their appearance, performance, residual moisture, strength and accelerated thermostability in the amount currently used by the company quality control. All the results were within the specifications of the company were close to or better when compared to commercial batches.


Keyword:     Freeze-Drying Viral Vaccine Vaccine productivity Lyophilization Optimization.


Citation:

Alexander Neves, Aderval Luna, Antonio Costa. Optimization of a freeze-drying cycle of a viral vaccine based on changes in temperature, time and geometry of the vials. J App Pharm Sci, 2015; 5 (Suppl 2): 022-029.

Copyright:The Author(s). This is an open access article distributed under the Creative Commons Attribution Non-Commercial License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

HTML Full Text

Reference

Article Metrics
409 Views 29 Downloads 438 Total

Year

Month

Related Search

By author names