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Hydrodynamic considerations for spring-driven autoinjector design

Xiaoxu Zhong, Jean-Christophe Veilleux, Galen H. Shi, David S. Collins, Pavlos P. Vlachos, Arezoo M. Ardekani

2023International Journal of Pharmaceutics13 citationsDOIOpen Access PDF

Abstract

In recent years, significant progress has been made in the studies of the spring-driven autoinjector, leading to an improved understanding of this device and its interactions with tissue and therapeutic proteins. The development of simulation tools that have been validated against experiments has also enhanced the prediction of the performance of spring-driven autoinjectors. This paper aims to address critical hydrodynamic considerations that impact the design of spring-driven autoinjectors, with a specific emphasis on sloshing and cavitation. Additionally, we present a framework that integrates simulation tools to predict the performance of spring-driven autoinjectors and optimize their design. This work is valuable to the pharmaceutic industry, as it provides crucial insights into the development of spring-driven autoinjectors and therapeutic proteins. This work can also enhance the efficacy and safety of the delivery of therapeutic proteins, ultimately improving patient outcomes.

Topics & Concepts

Spring (device)Computer scienceSystems engineeringEngineeringRisk analysis (engineering)MedicineMechanical engineeringMicrofluidic and Bio-sensing TechnologiesProtein purification and stabilityRNA Interference and Gene Delivery
Hydrodynamic considerations for spring-driven autoinjector design | Litcius