Highly sensitive pyrogen detection on medical devices by the monocyte activation test

Katharina Stang; Stefan Fennrich; Stefanie Krajewski; Sandra Stoppelkamp; Iwan Anton Burgener; Hans-Peter Wendel; Marcell Post

doi:10.1007/s10856-013-5136-6

Highly sensitive pyrogen detection on medical devices by the monocyte activation test

Katharina Stang, Stefan Fennrich, Stefanie Krajewski, Sandra Stoppelkamp, Iwan Anton Burgener, Hans-Peter Wendel, Marcell Post

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

Abstract

Pyrogens are components of microorganisms, like bacteria, viruses or fungi, which can induce a complex inflammatory response in the human body. Pyrogen contamination on medical devices prior operation is still critical and associated with severe complications for the patients. The aim of our study was to develop a reliable test, which allows detection of pyrogen contamination on the surface of medical devices. After in vitro pyrogen contamination of different medical devices and incubation in a rotation model, the human whole blood monocyte activation test (MAT), which is based on an IL-1β-specific ELISA, was employed. Our results show that when combining a modified MAT protocol and a dynamic incubation system, even smallest amounts of pyrogens can be directly detected on the surface of medical devices. Therefore, screening of medical devices prior clinical application using our novel assay, has the potential to significantly reduce complications associated with pyrogen-contaminated medical devices.

Original language	English
Pages (from-to)	1065-75
Number of pages	11
Journal	Journal of Materials Science. Materials in Medicine
Volume	25
Issue number	4
DOIs	https://doi.org/10.1007/s10856-013-5136-6
Publication status	Published - Apr 2014

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title = "Highly sensitive pyrogen detection on medical devices by the monocyte activation test",

abstract = "Pyrogens are components of microorganisms, like bacteria, viruses or fungi, which can induce a complex inflammatory response in the human body. Pyrogen contamination on medical devices prior operation is still critical and associated with severe complications for the patients. The aim of our study was to develop a reliable test, which allows detection of pyrogen contamination on the surface of medical devices. After in vitro pyrogen contamination of different medical devices and incubation in a rotation model, the human whole blood monocyte activation test (MAT), which is based on an IL-1β-specific ELISA, was employed. Our results show that when combining a modified MAT protocol and a dynamic incubation system, even smallest amounts of pyrogens can be directly detected on the surface of medical devices. Therefore, screening of medical devices prior clinical application using our novel assay, has the potential to significantly reduce complications associated with pyrogen-contaminated medical devices.",

author = "Katharina Stang and Stefan Fennrich and Stefanie Krajewski and Sandra Stoppelkamp and Burgener, {Iwan Anton} and Hans-Peter Wendel and Marcell Post",

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T1 - Highly sensitive pyrogen detection on medical devices by the monocyte activation test

AU - Stang, Katharina

AU - Fennrich, Stefan

AU - Krajewski, Stefanie

AU - Stoppelkamp, Sandra

AU - Burgener, Iwan Anton

AU - Wendel, Hans-Peter

AU - Post, Marcell

PY - 2014/4

Y1 - 2014/4

N2 - Pyrogens are components of microorganisms, like bacteria, viruses or fungi, which can induce a complex inflammatory response in the human body. Pyrogen contamination on medical devices prior operation is still critical and associated with severe complications for the patients. The aim of our study was to develop a reliable test, which allows detection of pyrogen contamination on the surface of medical devices. After in vitro pyrogen contamination of different medical devices and incubation in a rotation model, the human whole blood monocyte activation test (MAT), which is based on an IL-1β-specific ELISA, was employed. Our results show that when combining a modified MAT protocol and a dynamic incubation system, even smallest amounts of pyrogens can be directly detected on the surface of medical devices. Therefore, screening of medical devices prior clinical application using our novel assay, has the potential to significantly reduce complications associated with pyrogen-contaminated medical devices.

AB - Pyrogens are components of microorganisms, like bacteria, viruses or fungi, which can induce a complex inflammatory response in the human body. Pyrogen contamination on medical devices prior operation is still critical and associated with severe complications for the patients. The aim of our study was to develop a reliable test, which allows detection of pyrogen contamination on the surface of medical devices. After in vitro pyrogen contamination of different medical devices and incubation in a rotation model, the human whole blood monocyte activation test (MAT), which is based on an IL-1β-specific ELISA, was employed. Our results show that when combining a modified MAT protocol and a dynamic incubation system, even smallest amounts of pyrogens can be directly detected on the surface of medical devices. Therefore, screening of medical devices prior clinical application using our novel assay, has the potential to significantly reduce complications associated with pyrogen-contaminated medical devices.

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Highly sensitive pyrogen detection on medical devices by the monocyte activation test

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