Design and preliminary testing of novel injection port contamination barrier devices

David B. Wax; Bryan Hill

doi:10.1115/1.4036026

Design and preliminary testing of novel injection port contamination barrier devices

David B. Wax, Bryan Hill

Research output: Contribution to journal › Article › peer-review

2 Scopus citations

Abstract

Prior studies have linked microbial contamination of intravenous (IV) ports and stopcocks with postoperative infections. Existing technologies to address contamination are not consistently utilized because of the time and effort they require. Herein, novel barrier devices were created that form a protective shell to passively prevent contact between injection sites and practitioner hands or environmental surfaces while still allowing rapid connection of a syringe for injection of medications via an opening in the shell. Prototypes were tested using a grossly contaminated environment and adenosine triphosphate (ATP)-bioluminescence assay. For eight pairs of unshielded versus shielded IV ports/stopcocks, average contamination was 4102 versus 35 RLU (p<0.02), respectively, indicating that the devices could significantly reduce IV port/stopcock contamination.

Original language	English
Article number	034503
Journal	Journal of Medical Devices, Transactions of the ASME
Volume	11
Issue number	3
DOIs	https://doi.org/10.1115/1.4036026
State	Published - 1 Sep 2017

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title = "Design and preliminary testing of novel injection port contamination barrier devices",

abstract = "Prior studies have linked microbial contamination of intravenous (IV) ports and stopcocks with postoperative infections. Existing technologies to address contamination are not consistently utilized because of the time and effort they require. Herein, novel barrier devices were created that form a protective shell to passively prevent contact between injection sites and practitioner hands or environmental surfaces while still allowing rapid connection of a syringe for injection of medications via an opening in the shell. Prototypes were tested using a grossly contaminated environment and adenosine triphosphate (ATP)-bioluminescence assay. For eight pairs of unshielded versus shielded IV ports/stopcocks, average contamination was 4102 versus 35 RLU (p<0.02), respectively, indicating that the devices could significantly reduce IV port/stopcock contamination.",

author = "Wax, \{David B.\} and Bryan Hill",

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AU - Hill, Bryan

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N2 - Prior studies have linked microbial contamination of intravenous (IV) ports and stopcocks with postoperative infections. Existing technologies to address contamination are not consistently utilized because of the time and effort they require. Herein, novel barrier devices were created that form a protective shell to passively prevent contact between injection sites and practitioner hands or environmental surfaces while still allowing rapid connection of a syringe for injection of medications via an opening in the shell. Prototypes were tested using a grossly contaminated environment and adenosine triphosphate (ATP)-bioluminescence assay. For eight pairs of unshielded versus shielded IV ports/stopcocks, average contamination was 4102 versus 35 RLU (p<0.02), respectively, indicating that the devices could significantly reduce IV port/stopcock contamination.

AB - Prior studies have linked microbial contamination of intravenous (IV) ports and stopcocks with postoperative infections. Existing technologies to address contamination are not consistently utilized because of the time and effort they require. Herein, novel barrier devices were created that form a protective shell to passively prevent contact between injection sites and practitioner hands or environmental surfaces while still allowing rapid connection of a syringe for injection of medications via an opening in the shell. Prototypes were tested using a grossly contaminated environment and adenosine triphosphate (ATP)-bioluminescence assay. For eight pairs of unshielded versus shielded IV ports/stopcocks, average contamination was 4102 versus 35 RLU (p<0.02), respectively, indicating that the devices could significantly reduce IV port/stopcock contamination.

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Design and preliminary testing of novel injection port contamination barrier devices

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