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Poster
P 06

Quantification of LDH activity – a useful method for assessing cell viability in hydrogels and bioinks

Appointment

Date: 14/09/2023

Time: 18:45 – 18:45

Talk time: 0 Min.

Discussion time: 0 Min.

Location / Stream:

Foyer

Session

Poster Exhibition

Topics

Additive manufacturing (e. g. 3D printing)
Cell-material interactions

Authors

Christian Freudigmann (Reutlingen, DE), Ellena Fuhrmann (Reutlingen, DE), Verena Singer (Reutlingen, DE), Jessica Pfannstiel (Reutlingen, DE), Dr. Hanna Hartmann (Reutlingen, DE)

Abstract

Abstract text (incl. figure legends and references)

Introduction: A simple monitoring of cell viability is essential, to assess suitability of matrix materials for 3D cell culture and potential stress that cells are exposed.

Objectives: Establishment of the LDH assay as a quantitative tool for the evaluation of cell viability in 3D cultures.

Materials & methods: In this study NIH/3T3 cells were embedded into gels of two widely used bioinks, namely alginate and alginate/NFC and the activity of LDH released by cells with damaged cell membrane was measured using a commercial kit. To determine LDH activity of viable cells with intact cell membrane, a detergent-based lysis protocol was developed by using live /dead staining as readout. Release kinetics of LDH and its stability in solution under various temperatures were investigated as well as the limit of quantification of the assay. As a proof-of-concept, cell viability was determined after exposing them to different amounts of shear stress, comparing three mixing methods for gel embedding.

Results: After embedding cells into the hydrogels, LDH activity of dead cells with damaged cell membrane was successfully detected in the supernatant. By using 0.4 % Triton X-100, a lysis protocol to quantify viable cells was successfully developed. The maximum amount of actively released LDH was detected after 8 h, being stable for at least 24 h at 4 °C and 37 °C in cell culture medium or lysis buffer, respectively. The limit of quantification was 0.25 Mio dead cells/ml for alginate and 0.5 Mio cells/ml for alginate/NFC. Regardless of the mixing method used, cells in alginate/NFC showed a viability of about 80 %, whereas cells in alginate showed a viability of 30-50 %, depending on the mixing method used.

Conclusion: The LDH assay has been successfully established for assessing the viability of cells in bioinks and is a helpful tool for cell analysis in 3D-bioprinting.

This work received financial support from the Federal Ministry of Education and Research (13XP5071C).