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Verification of biological properties of poly-ε-caprolacton (PCL) as the material dedicated to medicine and biotechnology

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
The aim of the study was evaluation of possibility of poly-ε-caprolacton (PCL) application as potential material for production of medical devices, as catheters for obtaining and transporting of embryos as well as dishes for embryos culture in vitro and covers for cryoconservation. The possible application of this biomaterial needs verification of its biological properties on embryos culture. The foil discs made of policaprolacton, thickness 0.5 mm, diameter 3.5 mm, were prepared in two forms: the baseline one (nPCL) and thermally modified by freezing with liquid nitrogen (mPCL). The verification of PCL bioconcordance was performed by evaluation of 102 pig embryos. To evaluate poly-ε-caprolacton bioconcordance we performed 5-day long culture of embryos on the evaluated material, not frozen (nPCL) and frozen in liquid nitrogen (mPCL) and additionally culture after short contact with poly-ε-caprolacton, lasting 15 minutes (nPCL-15). In all evaluated study groups the development of embryos was suppressed shortly after transfer to the culture with PCL. In the control group. 74%-78% of embryos reached blastocyst stage. Polycaprolacton cannot be used as the material for catheter production used in biotechnology of animal reproduction and other materials used for in vitro culture and cryoconservation.
Słowa kluczowe
Rocznik
Strony
66--68
Opis fizyczny
Bibliogr. 13 poz., tab.
Twórcy
autor
  • National Research Institute of Animal Production, Department of Biotechnology of Animal Reproduction, 1 Krakowska str., Balice, Poland
autor
  • National Research Institute of Animal Production, Department of Biotechnology of Animal Reproduction, 1 Krakowska str., Balice, Poland
  • AGH University of Science and Technology, Faculty of Materials Science and Ceramics, Department of Biomaterials, 30 Mickiewicz ave, 30-059 Krakow, Poland
autor
  • National Research Institute of Animal Production, Department of Biotechnology of Animal Reproduction, 1 Krakowska str., Balice, Poland
Bibliografia
  • [1] Saad B, Hirt TD, Welti M, Uhlschmid GK, Neuenschwander P, Suter UW. Development of degradable polyester urethanes for medical applications: in vitro and in vivo evaluations. J Biomed Mater Res. 1997 Jul;36(1):65-74.
  • [2] Vaquette C, Fawzi-Grancher S, Lavalle P, Frochot C, Viriot ML, Muller S, Wang X. In vitro biocompatibility of different polyester membranes. Biomed Mater Eng. 2006;16(4 Suppl):S131-6
  • [3] Pitt CG, Gratzl MM, Kimmel GL, Surles J, Schindler A. Aliphatic polyesters II. The degradation of poly (DL-lactide), poly (epsiloncaprolactone), and their copolymers in vivo. Biomaterials. 1981 Oct;2(4):215-20.
  • [4] Woodward SC, Brewer PS, Moatamed F, Schindler A, Pitt CG. The intracellular degradation of poly(epsilon-caprolactone). J Biomed Mater Res. 1985 Apr;19(4):437-44.
  • [5] Jiao Y, Ubrich N, Marchand-Arvier M, Vigneron C, Hoffman M, Lecompte T, Maincent P In vitro and in vivo evaluation of oral heparin-loaded polymeric nanoparticles in rabbits. Circulation. 2002 Jan 15;105(2):230-5.
  • [6] Wang XY, Baba A, Taniguchi K, Hagio M, Miyazaki K. Study on rat subcutaneous reaction to experimental polyurethane elastomers. Dent Mater J. 2004 Dec;23(4):512-6.
  • [7] Oh T, Rahman MM, Lim JH, Park MS, Kim DY, Yoon JH, Kim WH, Kikuchi M, Tanaka J, Koyama Y, Kweon OK. Guided bone regeneration with beta-tricalcium phosphate and poly L-lactide-coglycolide-co-epsilon-caprolactone membrane in partial defects of canine humerus. J Vet Sci. 2006 Mar;7(1):73-7
  • [8] Brennan MP, Dardik A, Hibino N, Roh JD, Nelson GN, Papademitris X, Shinoka T, Breuer CK. Tissue-engineered vascular grafts demonstrate evidence of growth and development when implanted in a juvenile animal model. Ann Surg. 2008 Sep;248(3):370-7.
  • [9] Ribeiro CM, Silva Júnior VA, Silva Neto JC, Vasconcelos BC Clinical and histopathological study of tissue reactivity to monofilament suture materials: nylon and poliglecaprone 25 in rats]. Acta Cir Bras. 2005 Jul-Aug;20(4):284-91.
  • [10] Ozawa T, Mickle DA, Weisel RD, Koyama N, Ozawa S, Li RK. Optimal biomaterial for creation of autologous cardiac grafts. Circulation. 2002 Sep 24;106(12 Suppl 1):I176-82.
  • [11] Kavlock KD, Pechar TW, Hollinger JO, Guelcher SA, Goldstein AS. Synthesis and characterization of segmented poly(esterurethane urea) elastomers for bone tissue engineering. Acta Biomater. 2007 Jul;3(4):475-84
  • [12] Filová E, Straka F, Mirejovský T, Masín J, Bacáková L. Tissueengineered heart valves. Physiol Res. 2009;58 Suppl 2:S141-58
  • [13] E.Stodolak, T. Gumula, R. Leszczynski, J. Wieczorek, S. Blazewicz A composite material used as a membrane for ophthalmology applications Composites Science and Technology, Volume 70, Issue 13, 15 November 2010, Pages 1915-1919.
Uwagi
EN
This work was financially supported by the Polish Ministry of Science and Higher Education project number: N N302 632140
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-e260b56c-fe72-4c60-817d-7362cd31d250
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