Litcius/Paper detail

Enabling faster subcutaneous delivery of larger volume, high viscosity fluids

Christopher J. Rini, Bruce C. Roberts, Aishwarya Vaidyanathan, Aojun Li, Rick Klug, Douglas B. Sherman, Ronald J. Pettis

2022Expert Opinion on Drug Delivery17 citationsDOI

Abstract

OBJECTIVES: Many current subcutaneous (SC) biologic therapies may require >1 mL volume or have increased viscosity, necessitating new delivery system approaches. This study evaluated 2-mL large-volume autoinjector (LVAI) delivery performance across varying solution viscosities and design inputs to assess the design space and identify configurations that produce practical injection times. METHODS: ), and Newtonian solutions (2.3-50 centipoise [cP]). RESULTS: combination achieved shorter delivery times across all injection conditions, with 2 mL in vivo durations <15 seconds at ≤31 cP and routinely <20 seconds at 39 and 51 cP, with nominal and transitory tissue effects. CONCLUSION: PFS cannula and spring force combinations can be tailored to achieve various injection durations across viscosities, while UTW PFS enables faster rates to potentially better accommodate human factors during LVAI injection, especially at high viscosity.

Topics & Concepts

CannulaBiomedical engineeringViscosityMaterials scienceVolume (thermodynamics)SyringeDelivery systemSyringe driverDrug deliveryNewtonian fluidNanotechnologySurgeryMedicineComposite materialMechanicsPsychiatryQuantum mechanicsPhysics3D Printing in Biomedical ResearchAdvancements in Transdermal Drug DeliveryBlood properties and coagulation