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Lloyd Waxman, Harold Murray and Vinod Vilivalam ABSTRACT Purpose: The shipment and storage of biopharmaceuticals in prefilled syringes (PFS) places new demands on PFS performance. Studies compared package integrity of glass and plastic PFS: piston movement was evaluated under reduced pressures to simulate transport by air in non-pressurized holds, and container closure integrity was tested on PFS that had been frozen or frozen and thawed, since some biopharmaceuticals are stored and transported in the frozen state. Piston release and travel forces were also measured in plastic PFS since in order to be competitive with siliconized glass PFS, the functional characteristics of plastic PFS must meet or exceed the criteria established for glass PFS.
The use of proteins as therapeutics has focused attention on the need to maintain the stability of these labile molecules during both storage and shipment. The trend in the pharmaceutical industry has been to package therapeutic proteins in prefillable syringes made of glass. However, some biologics are not stable in glass syringes due to sensitivity to adhesives used in their manufacture and to tungsten oxides generated during needle placement.
<p>Tibor Hlobik, Director, Prefillable Solutions and Technologies<br />Mike Gills, Customer Technical Support Process Engineer</p><p>Growth in biopharmaceutical therapeutics is leading innovation with prefillable syringe systems. These complex sensitive drug products require highly inert primary packaging materials for improved stability and delivery in perfect quality for reduced safety risk. This <span style="text-decoration: underline; color: #0000ff;"><a href="https://www.westpharma.com/west-login">poster</a></span> will provide a quality comparison of primary prefillable syringe options including glass, coatings/laminates and cyclic olefin polymers, and highlight the findings of a case study comparing 1mL long syringe attributes.</p>
Mitigate risk of contamination, enable accurate dosing, while maintaining the stability and sterility of parenteral products
As advancements in pharmaceutical technology increase in the use of automated injection systems for health care treatment, traditional glass vials, syringes and cartridges must withstand higher automated delivery forces and pressures. The fragile nature and dimensional variability in wall thickness of glass components may lead to breakage, which presents challenges to automatic administration systems.
Daikyo Crystal Zenith® (CZ) Pre-Fillable Syringe (PFS) systems were designed to maintain purity, integrity, and efficacy of premium biopharmaceutical therapies. The system minimizes the potential contamination issues associated with glass and helps to reduce the risk of product interactions, delays in development and scale up, and possible recalls. As an extension of the existing 1mL Long Insert Needle Barrel Assembly, West and Daikyo are proud to introduce the new 2.25mL Insert Needle (IN), providing drug manufacturers a larger volume option for the next generation of autoinjectors for at-home therapies.
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