Litcius/Paper detail

Considerations for the Terminal Sterilization of Oligonucleotide Drug Products

Daniel Paul DeCollibus, Justin Searcy, Anna Tivesten, Nadim Akhtar, Christian Lindenberg, Nounja Abarrou, Sujana Pradhan, Maggie Fiandaca, Jenny Franklin, G. GOVINDAN, Hung‐Yi Liu, D Royle, Patrick Lim Soo, Kirsten Storch

2023Nucleic Acid Therapeutics15 citationsDOIOpen Access PDF

Abstract

A primary function of the parenteral drug product manufacturing process is to ensure sterility of the final product. The two most common methods for sterilizing parenteral drug products are terminal sterilization (TS), whereby the drug product is sterilized in the final container following filling and finish, and membrane sterilization, whereby the product stream is sterilized by membrane filtration and filled into presterilized containers in an aseptic processing environment. Although TS provides greater sterility assurance than membrane sterilization and aseptic processing, not all drug products are amenable to TS processes, which typically involve heat treatment or exposure to ionizing radiation. Oligonucleotides represent an emerging class of therapeutics with great potential for treating a broad range of indications, including previously undruggable targets. Owing to their size, structural complexity, and relative lack of governing regulations, several challenges in drug development are unique to oligonucleotides. This exceptionality justifies a focused assessment of traditional chemistry, manufacturing, and control strategies before their adoption. In this article, we review the current state of sterile oligonucleotide drug product processing, highlight the key aspects to consider when assessing options for product sterilization, and provide recommendations to aid in the successful evaluation and development of TS processes. We also explore current regulatory expectations and provide our interpretation as it pertains to oligonucleotide drug products.

Topics & Concepts

Sterilization (economics)DrugRisk analysis (engineering)Biochemical engineeringMedicinePharmacologyBusinessEngineeringForeign exchange marketFinanceExchange rateDNA Repair MechanismsSafe Handling of Antineoplastic DrugsCarcinogens and Genotoxicity Assessment