Various Simulated Body Fluids Lead to Significant Differences in Collagen Tissue Engineering Scaffolds

Various Simulated Body Fluids Lead to Significant Differences in Collagen Tissue Engineering Scaffolds

This study aims to point out the main drawback with respect to the design of simulated body environments. Three media commonly used for the simulation of the identical body environment were selected, i.e., Kokubo’s simulated body fluid that simulates the inorganic component of human blood plasma, hu...

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Bibliographic Details
Published in:Materials Vol. 14; no. 16; p. 4388
Main Authors: Suchý, Tomáš, Bartoš, Martin, Sedláček, Radek, Šupová, Monika, Žaloudková, Margit, Martynková, Gražyna Simha, Foltán, René
Format: Journal Article
Language:English
Published: Basel MDPI AG 05-08-2021
MDPI
Subjects:
Amino acids
Antibiotics
Biomedical materials
Blood plasma
Body fluids
Calcium phosphates
Collagen
Compression tests
Computed tomography
Experiments
Image compression
Mechanical properties
Mechanical tests
Media
Phase composition
Physiology
Plasma
Scaffolds
Simulation
Tissue engineering
United States > US
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Summary:This study aims to point out the main drawback with respect to the design of simulated body environments. Three media commonly used for the simulation of the identical body environment were selected, i.e., Kokubo’s simulated body fluid that simulates the inorganic component of human blood plasma, human blood plasma, and phosphate buffer saline. A comparison was performed of the effects of the media on collagen scaffolds. The mechanical and structural effects of the media were determined via the application of compression mechanical tests, the determination of mass loss, and image and micro-CT analyses. The adsorption of various components from the media was characterized employing energy-dispersive spectrometry. The phase composition of the materials before and after exposure was determined using X-ray diffraction. Infrared spectroscopy was employed for the interpretation of changes in the collagen secondary structure. Major differences in terms of the mechanical properties and mass loss were observed between the three media. Conversely, only minor structural changes were detected. Since no general recommendation exists for selecting the simulated body environment, it is necessary to avoid the simplification of the results and, ideally, to utilize alternative methods to describe the various aspects of degradation processes that occur in the media.
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ISSN:1996-1944
1996-1944
DOI:10.3390/ma14164388