Design and development of prototype blister-packs for intradermal injection of viscous solutions
ORAL
Abstract
We investigate the feasibility and prototype fabrication of novel blister-pack devices for intradermal and subcutaneous injections. The devices are designed to deliver both low and high-viscosity solutions (potentially nucleic acid vaccines) using hollow micro-needles embedded in a sealed felxible casing, which is pre-filled with a fixed volume.
For this exploratory stage, we used resin-based 3D-printed parts fro both the rigid needle structure and the flexible casing. Our initial results are focused on proof-of-concept, and measurements of the flow rates achievable for various viscosities through the novel needle designs. We show that both water-like (∼1 mPa.s) and more viscous fluids (∼100-200 mPa.s) can flow through these devices. In addition to these initial results, we will demonstrate the capability of delivery into tissues through ex-vivo experiments.
For this exploratory stage, we used resin-based 3D-printed parts fro both the rigid needle structure and the flexible casing. Our initial results are focused on proof-of-concept, and measurements of the flow rates achievable for various viscosities through the novel needle designs. We show that both water-like (∼1 mPa.s) and more viscous fluids (∼100-200 mPa.s) can flow through these devices. In addition to these initial results, we will demonstrate the capability of delivery into tissues through ex-vivo experiments.
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Presenters
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Chase Zitterkopf
Texas Tech University
Authors
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Chase Zitterkopf
Texas Tech University
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Jeremy O Marston
Texas Tech University