Große-Peclum, V.; Siekmann, L.; Krischek, C.; Avramidis, G.; ten Bosch, L.; Harms, M.; Ochs, C.; Ortmann, R.; Hoedemaker, M.; Ahlfeld, B.;
et al. An In Vitro Model Using TRIS-Buffered Plasma-Activated Water to Reduce Pathogenic Microorganisms Involved in Digital Dermatitis Infection in Cattle. Appl. Sci. 2022, 12, 12325.
https://doi.org/10.3390/app122312325
AMA Style
Große-Peclum V, Siekmann L, Krischek C, Avramidis G, ten Bosch L, Harms M, Ochs C, Ortmann R, Hoedemaker M, Ahlfeld B,
et al. An In Vitro Model Using TRIS-Buffered Plasma-Activated Water to Reduce Pathogenic Microorganisms Involved in Digital Dermatitis Infection in Cattle. Applied Sciences. 2022; 12(23):12325.
https://doi.org/10.3390/app122312325
Chicago/Turabian Style
Große-Peclum, Vanessa, Lisa Siekmann, Carsten Krischek, Georg Avramidis, Lars ten Bosch, Marcus Harms, Christian Ochs, Rinat Ortmann, Martina Hoedemaker, Birte Ahlfeld,
and et al. 2022. "An In Vitro Model Using TRIS-Buffered Plasma-Activated Water to Reduce Pathogenic Microorganisms Involved in Digital Dermatitis Infection in Cattle" Applied Sciences 12, no. 23: 12325.
https://doi.org/10.3390/app122312325
APA Style
Große-Peclum, V., Siekmann, L., Krischek, C., Avramidis, G., ten Bosch, L., Harms, M., Ochs, C., Ortmann, R., Hoedemaker, M., Ahlfeld, B., Roolfs, K. A., Viöl, W., & Plötz, M.
(2022). An In Vitro Model Using TRIS-Buffered Plasma-Activated Water to Reduce Pathogenic Microorganisms Involved in Digital Dermatitis Infection in Cattle. Applied Sciences, 12(23), 12325.
https://doi.org/10.3390/app122312325