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@inproceedings{1396956, author = {Garlíková, Zuzana and Dumková, Jana and Ešner, Milan and Rabata, Anas and Koledová, Zuzana and Hampl, Aleš}, address = {SLEZSKA}, booktitle = {9TH INTERNATIONAL CONFERENCE ON NANOMATERIALS - RESEARCH & APPLICATION (NANOCON 2017)}, keywords = {Lung; extracellular matrix; nanostructure; bioactivity}, howpublished = {paměťový nosič}, language = {eng}, location = {SLEZSKA}, isbn = {978-80-87294-81-9}, pages = {560-566}, publisher = {TANGER LTD}, title = {NANOSTRUCTURE AND BIOACTIVITY OF MOUSE LUNG EXTRACELLULAR MATRIX SCAFFOLDS}, year = {2018} }
TY - JOUR ID - 1396956 AU - Garlíková, Zuzana - Dumková, Jana - Ešner, Milan - Rabata, Anas - Koledová, Zuzana - Hampl, Aleš PY - 2018 TI - NANOSTRUCTURE AND BIOACTIVITY OF MOUSE LUNG EXTRACELLULAR MATRIX SCAFFOLDS PB - TANGER LTD CY - SLEZSKA SN - 9788087294819 KW - Lung KW - extracellular matrix KW - nanostructure KW - bioactivity N2 - Extracellular matrix (ECM) forms an essential part of tissue microenvironment. Compositional and structural properties of ECM modulate behaviour of cells, including their differentiation, proliferation, and turnover. Here we aimed at detailed characterization of the nanostructure of lung ECM and evaluation of its bioactivity on cells grown in vitro. Mouse lungs were decellularized using 0.2 % sodium dodecyl sulphate, hypotonic solutions, and DNase. Morphological analysis of the resulting ECM scaffolds was performed by means of transmission and scanning electron microscopy. The ECM scaffolds retained 3D architecture of the main lung anatomical regions: the alveolar region and the blood/ airway network. The region-specific ECM nanotopology and organization of ECM macromolecules such as fibres of collagen, elastin, and fibrillin were characterized. The lung ECM scaffolds were also homogenized and applied as a supplement to growth medium on primary lung cells in vitro to test the bioactivity of lung ECM. We demonstrate that homogenized ECM does not have a negative impact on the proliferation rate of primary lung cells. In conclusion, we herein show at nanoscale the morphological characteristics of lung ECM and demonstrate that lung ECM produced by decellularization procedure is compatible with in vitro cultured lung cells. These findings add to a better understanding of cells with their natural environment and can be valuable when designing applications of ECM for purposes in tissue engineering. ER -
GARLÍKOVÁ, Zuzana, Jana DUMKOVÁ, Milan EŠNER, Anas RABATA, Zuzana KOLEDOVÁ and Aleš HAMPL. NANOSTRUCTURE AND BIOACTIVITY OF MOUSE LUNG EXTRACELLULAR MATRIX SCAFFOLDS. In \textit{9TH INTERNATIONAL CONFERENCE ON NANOMATERIALS - RESEARCH \&{}amp; APPLICATION (NANOCON 2017)}. SLEZSKA: TANGER LTD, 2018, p.~560-566. ISBN~978-80-87294-81-9.
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