A polypropylene mesh modified with poly-[epsilon]-caprolactone nanofibers in hernia repair: large animal experiment
East, Barbora, Plencner, Ma, Kralovic, Ma, Rampichova, Michala, Sovkova, Vera, Vocetkova, Karolina, Otahal, Ma, Tonar, Zbynek, Kolinko, Yaroslav, Amler, Evzen, Hoch, Jiri
Published in International journal of nanomedicine (01.01.2018)
Published in International journal of nanomedicine (01.01.2018)
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Significant improvement of biocompatibility of polypropylene mesh for incisional hernia repair by using poly-ζ-caprolactone nanofibers functionalized with thrombocyte-rich solution
Plencner, Ma, Prosecka, Eva, Rampichova, Michala, East, Barbora, Buzgo, Matej, Vyslouzilova, Lucie, Hoch, Jiri, Amler, Evzen
Published in International journal of nanomedicine (01.01.2015)
Published in International journal of nanomedicine (01.01.2015)
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Journal Article
Abdominal closure reinforcement by using polypropylene mesh functionalized with poly-ζ-caprolactone nanofibers and growth factors for prevention of incisional hernia formation
Plencner, Ma, East, Barbora, Tonar, Zbynek, Otahal, Ma, Prosecka, Eva, Rampichova, Michala, Krejci, Tomas, Litvinec, Andrej, Buzgo, Matej, Mickova, Andrea, Necas, Alois, Hoch, Jiri, Amler, Evzen
Published in International journal of nanomedicine (01.01.2014)
Published in International journal of nanomedicine (01.01.2014)
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