Detail publikace

Collagen Scaffolds Modified with Biologically Active Substances: In-vitro and Ex-ovo Evaluation

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

Originální název

Collagen Scaffolds Modified with Biologically Active Substances: In-vitro and Ex-ovo Evaluation

Anglický název

Collagen Scaffolds Modified with Biologically Active Substances: In-vitro and Ex-ovo Evaluation

Jazyk

en

Originální abstrakt

3D porous collagen scaffolds were modified with both antibacterial natural polysaccharides (chitosan and oxidized cellulose) and growth factors delivered in the form of blood platelet lysate. 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

3D porous collagen scaffolds were modified with both antibacterial natural polysaccharides (chitosan and oxidized cellulose) and growth factors delivered in the form of blood platelet lysate. 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{BUT149165,
  author="Johana {Muchová} and Veronika {Pavliňáková} and Jana {Brtníková} and Petr {Sedláček} and Eva {Prosecká} and Barbara {Kubešová} and Vanessa {Hearnden} and Lucy {Vojtová}",
  title="Collagen Scaffolds Modified with Biologically Active Substances: In-vitro and Ex-ovo Evaluation",
  annote="3D porous collagen scaffolds were modified with both antibacterial natural polysaccharides (chitosan and oxidized cellulose) and growth factors delivered in the form of blood platelet lysate. 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="Scientific Federation",
  booktitle="Global Summit on Stem Cell & Tissue Engineering",
  chapter="149165",
  howpublished="print",
  institution="Scientific Federation",
  year="2018",
  month="july",
  pages="24--24",
  publisher="Scientific Federation",
  type="conference proceedings"
}