Abstract
Since the Sars-CoV-2 pandemic the public interest in diagnostic testing has dramatically increased, especially,
regarding development time and user friendliness. Point-of-care devices, that require little user interaction or
laboratory equipment, are desired. Here we propose a microfluidic chip based on capillary retention valves, that
enables controlled volume deposition independent of applied sample volume and only requires the use of a
disposable transfer pipette. For rapid deployment, a pipeline for accelerated prototyping was established, which
can save up to 60% in costs and several weeks in time compared to conventional prototyping. The diagnostic
capability of this microfluidic chip was achieved by incorporating a LAMP assay for the detection of viral SarsCoV-2 RNA at a limit of detection of 10 copies per µL. In future, this microfluidic design can be combined with
further assays to provide rapid and cost-effective pathogen detection without any further readout instruments.
regarding development time and user friendliness. Point-of-care devices, that require little user interaction or
laboratory equipment, are desired. Here we propose a microfluidic chip based on capillary retention valves, that
enables controlled volume deposition independent of applied sample volume and only requires the use of a
disposable transfer pipette. For rapid deployment, a pipeline for accelerated prototyping was established, which
can save up to 60% in costs and several weeks in time compared to conventional prototyping. The diagnostic
capability of this microfluidic chip was achieved by incorporating a LAMP assay for the detection of viral SarsCoV-2 RNA at a limit of detection of 10 copies per µL. In future, this microfluidic design can be combined with
further assays to provide rapid and cost-effective pathogen detection without any further readout instruments.
| Originalsprache | Englisch |
|---|---|
| Publikationsstatus | Veröffentlicht - 29 Sept. 2023 |
| Veranstaltung | Micro and Nanoengineering 2023 - Berlin, Berlin, Deutschland Dauer: 26 Sept. 2023 → 28 Sept. 2023 https://mne-2023.org/ |
Konferenz
| Konferenz | Micro and Nanoengineering 2023 |
|---|---|
| Kurztitel | MNE |
| Land/Gebiet | Deutschland |
| Stadt | Berlin |
| Zeitraum | 26/09/23 → 28/09/23 |
| Internetadresse |
Research Field
- Biosensor Technologies