Surface Properties of a Biocompatible Thermoplastic Polyurethane and Its Anti-Adhesive Effect against IE. coli/I and IS. aureus/I

Thermoplastic polyurethane (TPU) is a polymer used in a variety of fields, including medical applications. Here, we aimed to verify if the brush and bar coater deposition techniques did not alter TPU properties. The topography of the TPU-modified surfaces was studied via AFM demonstrating no signifi...

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Veröffentlicht in:	Journal of functional biomaterials 2024-01, Vol.15 (1)
Hauptverfasser:	Restivo, Elisa, Peluso, Emanuela, Bloise, Nora, Bello, Giovanni Lo, Bruni, Giovanna, Giannaccari, Marialaura, Raiteri, Roberto, Fassina, Lorenzo, Visai, Livia
Format:	Artikel
Sprache:	eng
Schlagworte:	Antibacterial agents Bacteria Enzyme-linked immunosorbent assay Escherichia coli Ethylenediaminetetraacetic acid Fibrin Fibrinogen Implants, Artificial Prosthesis Staphylococcus aureus
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creator	Restivo, Elisa Peluso, Emanuela Bloise, Nora Bello, Giovanni Lo Bruni, Giovanna Giannaccari, Marialaura Raiteri, Roberto Fassina, Lorenzo Visai, Livia
description	Thermoplastic polyurethane (TPU) is a polymer used in a variety of fields, including medical applications. Here, we aimed to verify if the brush and bar coater deposition techniques did not alter TPU properties. The topography of the TPU-modified surfaces was studied via AFM demonstrating no significant differences between brush and bar coater-modified surfaces, compared to the un-modified TPU (TPU Film). The effect of the surfaces on planktonic bacteria, evaluated by MTT assay, demonstrated their anti-adhesive effect on E. coli, while the bar coater significantly reduced staphylococcal planktonic adhesion and both bacterial biofilms compared to other samples. Interestingly, Pearson’s R coefficient analysis showed that R[sub.a] roughness and Haralick’s correlation feature were trend predictors for planktonic bacterial cells adhesion. The surface adhesion property was evaluated against NIH-3T3 murine fibroblasts by MTT and against human fibrinogen and human platelet-rich plasma by ELISA and LDH assay, respectively. An indirect cytotoxicity experiment against NIH-3T3 confirmed the biocompatibility of the TPUs. Overall, the results indicated that the deposition techniques did not alter the antibacterial and anti-adhesive surface properties of modified TPU compared to un-modified TPU, nor its bio- and hemocompatibility, confirming the suitability of TPU brush and bar coater films in the biomedical and pharmaceutical fields.
doi_str_mv	10.3390/jfb15010024
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Here, we aimed to verify if the brush and bar coater deposition techniques did not alter TPU properties. The topography of the TPU-modified surfaces was studied via AFM demonstrating no significant differences between brush and bar coater-modified surfaces, compared to the un-modified TPU (TPU Film). The effect of the surfaces on planktonic bacteria, evaluated by MTT assay, demonstrated their anti-adhesive effect on E. coli, while the bar coater significantly reduced staphylococcal planktonic adhesion and both bacterial biofilms compared to other samples. Interestingly, Pearson’s R coefficient analysis showed that R[sub.a] roughness and Haralick’s correlation feature were trend predictors for planktonic bacterial cells adhesion. The surface adhesion property was evaluated against NIH-3T3 murine fibroblasts by MTT and against human fibrinogen and human platelet-rich plasma by ELISA and LDH assay, respectively. 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subjects	Antibacterial agents Bacteria Enzyme-linked immunosorbent assay Escherichia coli Ethylenediaminetetraacetic acid Fibrin Fibrinogen Implants, Artificial Prosthesis Staphylococcus aureus
title	Surface Properties of a Biocompatible Thermoplastic Polyurethane and Its Anti-Adhesive Effect against IE. coli/I and IS. aureus/I
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