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Cellasys #8: A Microphysiometric Assay for Real-Time Cell Analysis Within 24 Hours.

Sebastian Eggert1, Svitlana Stetsenko2, Joachim Wiest2,3

  • 1cellasys GmbH, Kronburg, Germany. eggert@cellasys.com.

Methods in Molecular Biology (Clifton, N.J.)
|May 4, 2023
PubMed
Summary
This summary is machine-generated.

The new cellasys #8 test offers real-time cell analysis, overcoming limitations of traditional assays. This microphysiometric approach provides multi-parametric insights into cellular responses and recovery effects within 24 hours.

Keywords:
AutomationCell-based assaysMetabolismMicrophysiometryMorphologyReal-timeRecovery effectReproducibilitySensors

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Area of Science:

  • Cell biology
  • Biochemistry
  • Assay development

Background:

  • Traditional biochemical assays offer limited, single-point measurements.
  • Current assays can be affected by labels and fluorescent interference.
  • There is a need for real-time, multi-parametric cell analysis methods.

Purpose of the Study:

  • To introduce the cellasys #8 test, a novel microphysiometric assay for real-time cell analysis.
  • To address the limitations of traditional single-point biochemical assays.
  • To provide a detailed protocol for scientists to adopt the cellasys #8 test.

Main Methods:

  • Utilizing microphysiometric principles for real-time cell analysis.
  • Implementing the cellasys #8 test for automated and standardized measurements.
  • Conducting assays over a 24-hour period to capture effects and recovery.

Main Results:

  • The cellasys #8 test enables real-time identification of test substance effects.
  • The assay measures cellular recovery effects within 24 hours.
  • Multi-parametric read-out provides insights into metabolic and morphological changes.

Conclusions:

  • The cellasys #8 test overcomes limitations of traditional assays by offering real-time, multi-parametric analysis.
  • This assay facilitates the study of biological mechanisms, therapeutic development, and media validation.
  • The automated and standardized nature of the assay expands application areas for scientists.