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Open AccessArticle

Article Versions Notes

Materials 2025, 18(24), 5645; https://doi.org/10.3390/ma18245645

Action	Date	Notes	Link
article html file updated	16 December 2025 11:23 CET	Original file	https://www.mdpi.com/1996-1944/18/24/5645/html
article pdf uploaded.	16 December 2025 11:20 CET	Version of Record	https://www.mdpi.com/1996-1944/18/24/5645/pdf
article xml uploaded.	16 December 2025 11:20 CET	Update	https://www.mdpi.com/1996-1944/18/24/5645/xml
article xml file uploaded	16 December 2025 11:20 CET	Original file	-

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MDPI and ACS Style

Dyner, M.; Dyner, A.; Byrski, A.; Surmiak, M.; Kopernik, M.; Kasperkiewicz, K.; Kurtyka, P.; Szawiraacz, K.; Pietruszewska, K.; Zajac, Z.; et al. Biocompatibility of Materials Dedicated to Non-Traumatic Surgical Instruments Correlated to the Effect of Applied Force of Working Part on the Coronary Vessel. Materials 2025, 18, 5645. https://doi.org/10.3390/ma18245645

AMA Style

Dyner M, Dyner A, Byrski A, Surmiak M, Kopernik M, Kasperkiewicz K, Kurtyka P, Szawiraacz K, Pietruszewska K, Zajac Z, et al. Biocompatibility of Materials Dedicated to Non-Traumatic Surgical Instruments Correlated to the Effect of Applied Force of Working Part on the Coronary Vessel. Materials. 2025; 18(24):5645. https://doi.org/10.3390/ma18245645

Chicago/Turabian Style

Dyner, Marcin, Aneta Dyner, Adam Byrski, Marcin Surmiak, Magdalena Kopernik, Katarzyna Kasperkiewicz, Przemyslaw Kurtyka, Karolina Szawiraacz, Kamila Pietruszewska, Zuzanna Zajac, and et al. 2025. "Biocompatibility of Materials Dedicated to Non-Traumatic Surgical Instruments Correlated to the Effect of Applied Force of Working Part on the Coronary Vessel" Materials 18, no. 24: 5645. https://doi.org/10.3390/ma18245645

APA Style

Dyner, M., Dyner, A., Byrski, A., Surmiak, M., Kopernik, M., Kasperkiewicz, K., Kurtyka, P., Szawiraacz, K., Pietruszewska, K., Zajac, Z., Mucha, L., Lackner, J. M., Berer, M., Major, B., & Basiaga, M. (2025). Biocompatibility of Materials Dedicated to Non-Traumatic Surgical Instruments Correlated to the Effect of Applied Force of Working Part on the Coronary Vessel. Materials, 18(24), 5645. https://doi.org/10.3390/ma18245645

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