Improving Your Cell-Based Research with Real-Time Assays
This record is part of
a dataset collected by the EU Commission in June-September 2018
. Some of these links will therefore die out with time.
Please see the
overview of courses maintained by ETPLAS
or contact Norecopa for more information.
United States of America
14 November 2017
With traditional cell-based endpoint assays you can miss important cellular events if measurement isn't taken at the appropriate time, particularly when characterizing a compound's effect on cells. Additionally, assay reagents can negatively affect cell health and endpoint assays can impede downstream multiplexing.
Optional / Voluntary
Students, Researchers, Regulators and policy-makers, Teachers and educators, Technicians, Managers, Scientific officers / Project managers, Professionals (e.g. veterinarians), General public
Academia, Industry, Governmental bodies, Contract Research Organizations (CROs), Consulting, SMEs
University (Bachelor), University (Master), University (Doctoral education), Postdoctoral (teaching and research), Continuing Professional Development
In vitro methods
Full coverage (a dedicated course)
|Details on the topic or technology covered:||
In vitro cell-based assays are useful tools for measuring the health of a cell population. These assays can help uncover parameters such as cell viability, death, mitochondrial events, oxidative stress, metabolism and more. While cell-based assays have become an important component of a researcher’s toolkit, traditional endpoint assays can present various challenges. Namely, you can miss important cellular events if the measurement is not taken at the appropriate time, particularly if you are characterizing an unknown compound’s effect on the cells. Furthermore, certain assay reagents can negatively affect the cell sample, so it is imperative to understand the consequences of your chosen assay reagent. Typical endpoint assays are also limiting, as they impede downstream multiplexing.
"Real-time" cell-based assays can resolve these dilemmas. Unlike endpoint assays, real-time assays enable the repeated recording of kinetic data over time without harming the cell sample, and they provide the flexibility of downstream multiplexing. In this webinar, we explore assay design and considerations for plate-based real-time assays, multiplexing and 3D culture. You will gain a better understanding of real-time assays and how to get the most from your cell samples.
Fant du det du lette etter?Ja, jeg fant det! Nei, jeg fant det ikke!
Takk for din tilbakemelding! Vær oppmerksom på at vi ikke kan kontakte deg hvis ikke du oppgir din epostadresse.
Hva lette du etter?
Gi oss gjerne en tilbakemelding slik at vi kan forbedre informasjonen på siden. På forhånd takk for hjelpen! Vennligst skriv inn din epostadresse hvis du vil ha et svar.Kontakt oss gjerne på e-post hvis du har spørsmål.