Detail publikace

The effect of biologically active substance on the structure and biocompatibility of collagenous scaffolds for tissue engineering

BABRNÁKOVÁ, J. ŠVACHOVÁ, V. BRTNÍKOVÁ, J. SEDLÁČEK, P. PROSECKÁ, E. KUBEŠOVÁ, B. VOJTOVÁ, L.

Originální název

The effect of biologically active substance on the structure and biocompatibility of collagenous scaffolds for tissue engineering

Anglický název

The effect of biologically active substance on the structure and biocompatibility of collagenous scaffolds for tissue engineering

Jazyk

en

Originální abstrakt

In this work, the influence of biologically active additives, crosslinking agents, and enrichment with growth factors on the morphological properties of collagen-based scaffolds and their in-vitro bioactivity with mouse fibroblasts 3T3 have been investigated. These newly developed antibacterial collagen sponges involving growth factors could be used as scaffold for growing cells in systems with low mechanical loading having potential application in soft tissue engineering.

Anglický abstrakt

In this work, the influence of biologically active additives, crosslinking agents, and enrichment with growth factors on the morphological properties of collagen-based scaffolds and their in-vitro bioactivity with mouse fibroblasts 3T3 have been investigated. These newly developed antibacterial collagen sponges involving growth factors could be used as scaffold for growing cells in systems with low mechanical loading having potential application in soft tissue engineering.

Dokumenty

BibTex


@proceedings{BUT134980,
  author="Johana {Muchová} and Veronika {Pavliňáková} and Jana {Brtníková} and Petr {Sedláček} and Eva {Prosecká} and Barbara {Kubešová} and Lucy {Vojtová}",
  title="The effect of biologically active substance on the structure and biocompatibility of collagenous scaffolds for tissue engineering",
  annote="In this work, the influence of biologically active additives, crosslinking agents, and enrichment with growth factors on the morphological properties of collagen-based scaffolds and their in-vitro bioactivity with mouse fibroblasts 3T3 have been investigated. These newly developed antibacterial collagen sponges involving growth factors could be used as scaffold for growing cells in systems with low mechanical loading having potential application in soft tissue engineering.",
  address="Jan Poduška",
  booktitle="Ceitec PhD Retreat II, Telč 20-21 April 2017, Book of abstracts",
  chapter="134980",
  edition="1st",
  howpublished="print",
  institution="Jan Poduška",
  year="2017",
  month="april",
  pages="61--61",
  publisher="Jan Poduška",
  type="conference proceedings"
}