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Journal Abstract Search


162 related items for PubMed ID: 35674722

  • 1. Biocompatibility improvement and controlled in vitro degradation of poly (lactic acid)-b-poly(lactide-co-caprolactone) by formation of highly oriented structure for orthopedic application.
    Wang W, Liu Y, Ye L, Coates P, Caton-Rose F, Zhao X.
    J Biomed Mater Res B Appl Biomater; 2022 Nov; 110(11):2480-2493. PubMed ID: 35674722
    [Abstract] [Full Text] [Related]

  • 2. The effect of blending poly (l-lactic acid) on in vivo performance of 3D-printed poly(l-lactide-co-caprolactone)/PLLA scaffolds.
    Duan R, Wang Y, Su D, Wang Z, Zhang Y, Du B, Liu L, Li X, Zhang Q.
    Biomater Adv; 2022 Jul; 138():212948. PubMed ID: 35913240
    [Abstract] [Full Text] [Related]

  • 3. Construction of fully biodegradable poly(L-lactic acid)/poly(D-lactic acid)-poly(lactide-co-caprolactone) block polymer films: Viscoelasticity, processability and flexibility.
    He W, Ye L, Coates P, Caton-Rose F, Zhao X.
    Int J Biol Macromol; 2023 May 01; 236():123980. PubMed ID: 36898455
    [Abstract] [Full Text] [Related]

  • 4. Controlled in vitro degradation behavior of highly oriented long-chain-branched poly(lactic acid) produced by solid-phase die drawing.
    Li R, Li J, Zhao X, Ye L, Coates P, Caton-Rose F.
    J Biomed Mater Res A; 2019 Jul 01; 107(7):1522-1531. PubMed ID: 30821039
    [Abstract] [Full Text] [Related]

  • 5. Biodegradability and biocompatibility of a pH- and thermo-sensitive hydrogel formed from a sulfonamide-modified poly(epsilon-caprolactone-co-lactide)-poly(ethylene glycol)-poly(epsilon-caprolactone-co-lactide) block copolymer.
    Shim WS, Kim JH, Park H, Kim K, Chan Kwon I, Lee DS.
    Biomaterials; 2006 Oct 01; 27(30):5178-85. PubMed ID: 16797693
    [Abstract] [Full Text] [Related]

  • 6. Fabrication of novel poly(lactic acid/caprolactone) bilayer membrane for GBR application.
    Abe GL, Sasaki JI, Katata C, Kohno T, Tsuboi R, Kitagawa H, Imazato S.
    Dent Mater; 2020 May 01; 36(5):626-634. PubMed ID: 32224061
    [Abstract] [Full Text] [Related]

  • 7. Morphology of elastic poly(L-lactide-co-epsilon-caprolactone) copolymers and in vitro and in vivo degradation behavior of their scaffolds.
    Jeong SI, Kim BS, Lee YM, Ihn KJ, Kim SH, Kim YH.
    Biomacromolecules; 2004 May 01; 5(4):1303-9. PubMed ID: 15244444
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  • 11. Enhancement of hydrophilicity, biocompatibility and biodegradability of poly(ε-caprolactone) electrospun nanofiber scaffolds using poly(ethylene glycol) and poly(L-lactide-co-ε-caprolactone-co-glycolide) as additives for soft tissue engineering.
    Arbade GK, Srivastava J, Tripathi V, Lenka N, Patro TU.
    J Biomater Sci Polym Ed; 2020 Sep 01; 31(13):1648-1670. PubMed ID: 32402230
    [Abstract] [Full Text] [Related]

  • 12. Characterization of electrospun core/shell poly(vinyl pyrrolidone)/poly(L-lactide-co-epsilon-caprolactone) fibrous membranes and their cytocompatibility in vitro.
    Li S, Sun B, Li X, Yuan X.
    J Biomater Sci Polym Ed; 2008 Sep 01; 19(2):245-58. PubMed ID: 18237495
    [Abstract] [Full Text] [Related]

  • 13. Mechanical properties evolution of a PLGA-PLCL composite scaffold for ligament tissue engineering under static and cyclic traction-torsion in vitro culture conditions.
    Kahn CJ, Ziani K, Zhang YM, Liu J, Tran N, Babin J, de Isla N, Six JL, Wang X.
    J Biomater Sci Polym Ed; 2013 Sep 01; 24(8):899-911. PubMed ID: 23647247
    [Abstract] [Full Text] [Related]

  • 14. The influence of coupling agents on mechanical property retention and long-term cytocompatibility of phosphate glass fibre reinforced PLA composites.
    Hasan MS, Ahmed I, Parsons AJ, Walker GS, Scotchford CA.
    J Mech Behav Biomed Mater; 2013 Dec 01; 28():1-14. PubMed ID: 23959231
    [Abstract] [Full Text] [Related]

  • 15. Poly(lactic acid/caprolactone) bilayer membrane achieves bone regeneration through a prolonged barrier function.
    Abe GL, Sasaki JI, Tsuboi R, Kohno T, Kitagawa H, Imazato S.
    J Biomed Mater Res B Appl Biomater; 2024 Jan 01; 112(1):e35365. PubMed ID: 38247248
    [Abstract] [Full Text] [Related]

  • 16. Control of degradation rate and hydrophilicity in electrospun non-woven poly(D,L-lactide) nanofiber scaffolds for biomedical applications.
    Kim K, Yu M, Zong X, Chiu J, Fang D, Seo YS, Hsiao BS, Chu B, Hadjiargyrou M.
    Biomaterials; 2003 Dec 01; 24(27):4977-85. PubMed ID: 14559011
    [Abstract] [Full Text] [Related]

  • 17. In vivobiocompatibility and biodegradability of poly(lactic acid)/poly(ε-caprolactone) blend compatibilized with poly(ε-caprolactone-b-tetrahydrofuran) in Wistar rats.
    Conde G, de Carvalho JRG, Dias PDP, Moranza HG, Montanhim GL, Ribeiro JO, Chinelatto MA, Moraes PC, Taboga SR, Bertolo PHL, Gonçalves Funnicelli MI, Pinheiro DG, Ferraz GC.
    Biomed Phys Eng Express; 2021 Mar 15; 7(3):. PubMed ID: 33652429
    [Abstract] [Full Text] [Related]

  • 18. Cartilage regeneration with highly-elastic three-dimensional scaffolds prepared from biodegradable poly(L-lactide-co-epsilon-caprolactone).
    Jung Y, Park MS, Lee JW, Kim YH, Kim SH, Kim SH.
    Biomaterials; 2008 Dec 15; 29(35):4630-6. PubMed ID: 18804279
    [Abstract] [Full Text] [Related]

  • 19. Structure-property relationships in 3D-printed poly(l-lactide-co-ε-caprolactone) degradable polymer.
    Bachtiar EO, Ritter VC, Gall K.
    J Mech Behav Biomed Mater; 2021 Sep 15; 121():104650. PubMed ID: 34166872
    [Abstract] [Full Text] [Related]

  • 20. Effect of diameter of poly(lactic acid) fiber on the physical properties of poly(ɛ-caprolactone).
    Ju D, Han L, Guo Z, Bian J, Li F, Chen S, Dong L.
    Int J Biol Macromol; 2015 May 15; 76():49-57. PubMed ID: 25709010
    [Abstract] [Full Text] [Related]


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