Aseptic filling remains a risky process with multiple contaminations occurring each year that have serious consequences. Analysis of an outbreak database shows that, among 1537 patients contaminated by parenteral product from 1990–2005, the mortality rate was 15%. While the majority was due to product preparation at the hospital pharmacy or the practices of the hospital staff, 20% of these contaminations were due to the pharmaceutical manufacturing process (1).

This high contamination risk leads authorities to regularly reevaluate their requirements, thus making aseptic filling one of the most complex processes in the pharmaceutical industry. A continuous improvement approach, however, has led to major innovations, and the rate of contamination has been significantly reduced during the past 50 years. The innovations listed below involve both the container and filling technologies:

• The vial emerged as the standard primary packaging and replaced the old-fashioned ampoule, which had higher risk of breakage, contamination through small cracks, and glass particle generation when the ampoule was opened.
• Better practices have been developed for aseptic filling, such as personnel gowning, equipment/process design, and environment monitoring.
• Physical barriers have been created between the operator and the filling area. Initially the barrier was made from simple walls but now includes the isolator concept. Isolators prevent direct contact between the operator and the filling process, including the bulk products, containers, and product contact parts (2).
• Process analytical technology (PAT) was developed to perform on-line checks on product quality. Checks include the classical weight check as well as newer checks such as particle inspection and leak detection.