About: The COVID-19 pandemic is expanding at an unprecedented rate. As a result, diagnostic services are stretched to their limit, and there is a clear need for the provision of additional diagnostic capacity. Academic laboratories, many of which are closed due to governmental lockdowns, may be in a position to support local screening capacity by adapting their current laboratory practices. Here, we describe the process of developing a SARS-Cov2 diagnostic workflow in a conventional academic Containment Level 2 (CL2) laboratory. Our outline includes simple SARS-Cov2 deactivation upon contact, the methods for a quantitative real-time reverse transcriptase PCR (qRT-PCR) detecting SARS-Cov2, a description of process establishment and validation, and some considerations for establishing a similar workflow elsewhere. This was achieved under challenging circumstances through the collaborative efforts of scientists, clinical staff, and diagnostic staff to mitigate to the ongoing crisis. Within 14 days, we created a validated COVID-19 diagnostics service for healthcare workers in our local hospital. The described methods are not exhaustive, but we hope may offer support to other academic groups aiming to set up something comparable in a short time frame.

Facets (new session)
Description
Metadata
Settings
- owl:sameAs
- Inference Rule:

About: The COVID-19 pandemic is expanding at an unprecedented rate. As a result, diagnostic services are stretched to their limit, and there is a clear need for the provision of additional diagnostic capacity. Academic laboratories, many of which are closed due to governmental lockdowns, may be in a position to support local screening capacity by adapting their current laboratory practices. Here, we describe the process of developing a SARS-Cov2 diagnostic workflow in a conventional academic Containment Level 2 (CL2) laboratory. Our outline includes simple SARS-Cov2 deactivation upon contact, the methods for a quantitative real-time reverse transcriptase PCR (qRT-PCR) detecting SARS-Cov2, a description of process establishment and validation, and some considerations for establishing a similar workflow elsewhere. This was achieved under challenging circumstances through the collaborative efforts of scientists, clinical staff, and diagnostic staff to mitigate to the ongoing crisis. Within 14 days, we created a validated COVID-19 diagnostics service for healthcare workers in our local hospital. The described methods are not exhaustive, but we hope may offer support to other academic groups aiming to set up something comparable in a short time frame. Goto Sponge NotDistinct Permalink

An Entity of Type : fabio:Abstract, within Data Space : wasabi.inria.fr associated with source document(s)

Attributes	Values
type	abstract
value	The COVID-19 pandemic is expanding at an unprecedented rate. As a result, diagnostic services are stretched to their limit, and there is a clear need for the provision of additional diagnostic capacity. Academic laboratories, many of which are closed due to governmental lockdowns, may be in a position to support local screening capacity by adapting their current laboratory practices. Here, we describe the process of developing a SARS-Cov2 diagnostic workflow in a conventional academic Containment Level 2 (CL2) laboratory. Our outline includes simple SARS-Cov2 deactivation upon contact, the methods for a quantitative real-time reverse transcriptase PCR (qRT-PCR) detecting SARS-Cov2, a description of process establishment and validation, and some considerations for establishing a similar workflow elsewhere. This was achieved under challenging circumstances through the collaborative efforts of scientists, clinical staff, and diagnostic staff to mitigate to the ongoing crisis. Within 14 days, we created a validated COVID-19 diagnostics service for healthcare workers in our local hospital. The described methods are not exhaustive, but we hope may offer support to other academic groups aiming to set up something comparable in a short time frame.
Subject	2019 disasters in China 2019 health disasters 2010s disease outbreaks
part of	A blueprint for the implementation of a validated approach for the detection of SARS-Cov2 in clinical samples in academic facilities
is abstract of	A blueprint for the implementation of a validated approach for the detection of SARS-Cov2 in clinical samples in academic facilities
is hasSource of	covid:ann/target/4346334fe8cf73b1a76d716252a6785b3a30d450 covid:ann/target/0c2e5ae1e8b78faf7cd996ada75ce30a32b6bc27 covid:ann/target/ec44879884e9af37963c10ab321cda4f85ed3c20 covid:ann/target/32a38f4c564ff59a66503a94deff6378ba3d9c0b covid:ann/target/c9d611eec9fae701391270cae6132665a7c494ae covid:ann/target/32c35bb56502cc5d3a1bf46e923a6fc555ac4093 covid:ann/target/80c16548e53aa4be55e2618de6d1bce5f40076f8 covid:ann/target/6a319de9d1a8eaca7299552c9ca321af2e4b32de covid:ann/target/168c2987786c25228eafc030d71472f325ee9888 covid:ann/target/5cb0a17ccb4e8f74e9e2995904a5f1d1233e3ba0 covid:ann/target/e861558e4989a765f4a409a03671159f3a5dcefe covid:ann/target/3bcc64b4bc7b1f5b7c7d454dacf30da27ed21021 covid:ann/target/c9178a1b29e8aee536c00ec291391d962b22e164 covid:ann/target/5d59b163b2cb6a822a3d731a38b878485f1c76ba covid:ann/target/a16cff0b9c7eb404ac159d032c95e8ee45a73592 covid:ann/target/d20d2c11340fca10d306869b5059345a94065c0a covid:ann/target/2f78c1f99aff7c1f9471136a8763b81d6cdf0b90 covid:ann/target/fdd269e0b02bdc44e1cd87b088a3862b26ea2919 covid:ann/target/583f51cd1a5e4d8afa7ff5ce4e5b52c9a47c62b9 covid:ann/target/9965b5e22b3ab81fd1afc59e74cfb5d96864a3c4 covid:ann/target/af63ae0dcaca03258a7b9c9d83c5b938dca1d07b

Faceted Search & Find service v1.13.91 as of Mar 24 2020

Alternative Linked Data Documents: Sponger | ODE Content Formats:

RDF

ODATA

Microdata

About

OpenLink Virtuoso version 07.20.3229 as of Jul 10 2020, on Linux (x86_64-pc-linux-gnu), Single-Server Edition (94 GB total memory)
Data on this page belongs to its respective rights holders.
Virtuoso Faceted Browser Copyright © 2009-2024 OpenLink Software