Trade press release
May 29, 2024
Aseptic spray drying can convert a sterile solution into sterile particles of the desired size in a single step, without the risk of introducing impurities. Over the past three decades, spray drying has become the preferred technology for producing powder formulations with defined critical quality characteristics. Small molecule active ingredients are combined with excipients, typically in organic solvents, and spray dried. The resulting spray-dried dispersions (SDD) usually exhibit improved bioavailability compared to conventional powder formulations. GEA’s previous spray dryer models, the Pharma Spray Dryer (PHARMASD®) and GEA standards, have set the benchmark for spray drying in the pharmaceutical industry.
The new GEA ASEPTICSD® aseptic spray dryers have the same functions, the same sizes and capacities, the same design and the same chamber geometry as the standard GEA PHARMASD® pharmaceutical spray dryers. This allows an efficient process transfer from non-sterile to sterile spray drying and optimizes time and costs. However, the new GEA ASEPTICSD® spray dryers are equipped with an advanced cleaning system, steam sterilization functions, multiple sterile filters and filter integrity testing before and after aseptic processing. Process data obtained during the preclinical research and development (R&D) phase can be used to successfully develop a robust, regulatory compliant process to produce sterile powders for clinical trials and commercial production.
At the Drying Test Center in Denmark, GEA's pharmaceutical spray drying specialists work with customers to develop the optimum system for their processes and products. All details are taken into account, including the customer's existing equipment and budget. GEA offers comprehensive spray drying support, from single drop drying kinetic studies to evaluate possible formulations, feasibility testing and scale-up. The process design can then be transferred from the technical pilot plant to the GEA ASEPTICSD®
spray dryer.
Sterilization using pure steam is the preferred and proven method within the pharmaceutical industry. For complex designs and where the product is in contact with the equipment surface, air pockets must be removed by applying vacuum. These demanding requirements are met by the new generation of GEA ASEPTICSD® Spray Dryers (patents pending). (Graphic: GEA)
While freeze drying (lyophilization) is traditionally used to dry large molecules (often biologics) in aqueous solutions, spray drying offers numerous advantages:
Many interested parties ask GEA if heat sensitive biologics can be spray dried? Yes, this is possible. During spray drying, the product is briefly exposed to hot gas temperatures of over 100 °C, but evaporative cooling ensures that the product remains below this temperature range - typically 60 °C to 80 °C, sometimes lower, especially for non-aqueous feeds. This brief exposure of a few seconds ensures product integrity and activity retention. In several cases, spray-dried products have shown higher activity than freeze-dried products, due to less exposure to phase changes during freezing and shorter residence times in spray dryers.
GEA is one of the world’s largest suppliers of systems and components to the food, beverage and pharmaceutical industries. The international technology group, founded in 1881, focuses on machinery and plants, as well as advanced process technology, components and comprehensive services.