An Additively Manufactured Sample Holder to Measure the Controlled Release of Vancomycin from Collagen Laminates

An Additively Manufactured Sample Holder to Measure the Controlled Release of Vancomycin from Collagen Laminates

The controlled release of antibiotics prevents the spread of pathogens and thereby improves healing processes in regenerative medicine. However, high concentrations may interfere with healing processes. It is therefore advantageous to use biodegradable materials for a controlled release. In particul...

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Autores principales: Michelle Fiona Kilb, Yannik Moos, Stefanie Eckes, Joy Braun, Ulrike Ritz, Daniela Nickel, Katja Schmitz
Formato: article
Lenguaje:EN
Publicado: MDPI AG 2021
Materias:
collagen
controlled release
crosslinking
vancomycin
additively manufactured sample holder
Biology (General)
QH301-705.5
Acceso en línea:https://doaj.org/article/0e0c4e0bd94c4e52b79722192dcaa30a
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Sumario:The controlled release of antibiotics prevents the spread of pathogens and thereby improves healing processes in regenerative medicine. However, high concentrations may interfere with healing processes. It is therefore advantageous to use biodegradable materials for a controlled release. In particular, multilayer materials enable differential release at different surfaces. For this purpose, collagen sheets of different properties can be bonded by photochemical crosslinking. Here, we present the development and application of an easily accessible, additively manufactured sample holder to study the controlled release of vancomycin from modularly assembled collagen laminates in two directions. As proof-of-concept, we show that laminates of collagen sheets covalently linked by rose bengal and green light crosslinking (RGX) can be tightly inserted into the device without leakage from the upper to lower cavity. We used this sample holder to detect the release of vancomycin from symmetrically and asymmetrically loaded two-layer and three-layer collagen laminates into the upper and lower cavity of the sample holder. We show that these collagen laminates are characterized by a collagen type-dependent vancomycin release, enabling the control of antibiotic release profiles as well as the direction of antibiotic release.

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