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Journal Abstract Search

469 related items for PubMed ID: 19658177

  • 41. Comparison of polysaccharides in articular cartilage regeneration associated with chondrogenic and autophagy-related gene expression.
    Heo DN, Kim HJ, Lee D, Kim H, Lee SJ, Lee HR, Kwon IK, Do SH.
    Int J Biol Macromol; 2020 Mar 01; 146():922-930. PubMed ID: 31726172
    [Abstract] [Full Text] [Related]

  • 42. Fabrication and Evaluation of Gellan Gum/Hyaluronic Acid Hydrogel for Retinal Tissue Engineering Biomaterial and the Influence of Substrate Stress Relaxation on Retinal Pigment Epithelial Cells.
    Youn J, Choi JH, Lee S, Lee W, Lee SW, Kim W, Song Y, Tumursukh NE, Song JE, Khang G.
    Molecules; 2022 Aug 27; 27(17):. PubMed ID: 36080277
    [Abstract] [Full Text] [Related]

  • 43. Engineering retinal pigment epithelial cells regeneration for transplantation in regenerative medicine using PEG/Gellan gum hydrogels.
    Kim HS, Kim D, Jeong YW, Choi MJ, Lee GW, Thangavelu M, Song JE, Khang G.
    Int J Biol Macromol; 2019 Jun 01; 130():220-228. PubMed ID: 30660570
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  • 44. Selective laser sintered poly-ε-caprolactone scaffold hybridized with collagen hydrogel for cartilage tissue engineering.
    Chen CH, Shyu VB, Chen JP, Lee MY.
    Biofabrication; 2014 Mar 01; 6(1):015004. PubMed ID: 24429581
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  • 45. Advances in tissue engineering of gellan gum-based hydrogels.
    Wu S, Xiao R, Wu Y, Xu L.
    Carbohydr Polym; 2024 Jan 15; 324():121484. PubMed ID: 37985043
    [Abstract] [Full Text] [Related]

  • 46. Decellularized cartilage matrix as a novel biomatrix for cartilage tissue-engineering applications.
    Schwarz S, Koerber L, Elsaesser AF, Goldberg-Bockhorn E, Seitz AM, Dürselen L, Ignatius A, Walther P, Breiter R, Rotter N.
    Tissue Eng Part A; 2012 Nov 15; 18(21-22):2195-209. PubMed ID: 22690787
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  • 47. Effects of enriching with gellan gum on the structural, functional, and degradation properties of egg white heat-induced hydrogels.
    Babaei J, Khodaiyan F, Mohammadian M.
    Int J Biol Macromol; 2019 May 01; 128():94-100. PubMed ID: 30682479
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  • 48. Advances in cartilage repair: The influence of inorganic clays to improve mechanical and healing properties of antibacterial Gellan gum-Manuka honey hydrogels.
    Bonifacio MA, Cochis A, Cometa S, Scalzone A, Gentile P, Procino G, Milano S, Scalia AC, Rimondini L, De Giglio E.
    Mater Sci Eng C Mater Biol Appl; 2020 Mar 01; 108():110444. PubMed ID: 31924008
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  • 49. Polysaccharide-protein based scaffolds for cartilage repair and regeneration.
    Shi J, Liu Y, Ling Y, Tang H.
    Int J Biol Macromol; 2024 Aug 01; 274(Pt 2):133495. PubMed ID: 38944089
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  • 50. The effect of concentration, thermal history and cell seeding density on the initial mechanical properties of agarose hydrogels.
    Buckley CT, Thorpe SD, O'Brien FJ, Robinson AJ, Kelly DJ.
    J Mech Behav Biomed Mater; 2009 Oct 01; 2(5):512-21. PubMed ID: 19627858
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  • 51. Strain-rate and temperature dependent material properties of Agar and Gellan Gum used in biomedical applications.
    Schiavi A, Cuccaro R, Troia A.
    J Mech Behav Biomed Mater; 2016 Jan 01; 53():119-130. PubMed ID: 26318572
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  • 52. Nanocellulose reinforced gellan-gum hydrogels as potential biological substitutes for annulus fibrosus tissue regeneration.
    Pereira DR, Silva-Correia J, Oliveira JM, Reis RL, Pandit A, Biggs MJ.
    Nanomedicine; 2018 Apr 01; 14(3):897-908. PubMed ID: 29170112
    [Abstract] [Full Text] [Related]

  • 53. Pristine Gellan Gum-Collagen Interpenetrating Network Hydrogels as Mechanically Enhanced Anti-inflammatory Biologic Wound Dressings for Burn Wound Therapy.
    Ng JY, Zhu X, Mukherjee D, Zhang C, Hong S, Kumar Y, Gokhale R, Ee PLR.
    ACS Appl Bio Mater; 2021 Feb 15; 4(2):1470-1482. PubMed ID: 35014496
    [Abstract] [Full Text] [Related]

  • 54. Primers for the Adhesion of Gellan Gum-Based Hydrogels to the Cartilage: A Comparative Study.
    Trucco D, Riacci L, Vannozzi L, Manferdini C, Arrico L, Gabusi E, Lisignoli G, Ricotti L.
    Macromol Biosci; 2022 Oct 15; 22(10):e2200096. PubMed ID: 35817025
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  • 55. Synthesis, mechanical and thermal rheological properties of new gellan gum derivatives.
    Agnello S, Gasperini L, Mano JF, Pitarresi G, Palumbo FS, Reis RL, Giammona G.
    Int J Biol Macromol; 2017 May 15; 98():646-653. PubMed ID: 28189790
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  • 56. * Synthesis and Characterization of Electroactive Gellan Gum Spongy-Like Hydrogels for Skeletal Muscle Tissue Engineering Applications.
    Berti FV, Srisuk P, da Silva LP, Marques AP, Reis RL, Correlo VM.
    Tissue Eng Part A; 2017 Sep 15; 23(17-18):968-979. PubMed ID: 28152667
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  • 57. In situ fabrication of a composite hydrogel with tunable mechanical properties for cartilage tissue engineering.
    Ma F, Ge Y, Liu N, Pang X, Shen X, Tang B.
    J Mater Chem B; 2019 Apr 21; 7(15):2463-2473. PubMed ID: 32255123
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  • 58. A material decoy of biological media based on chitosan physical hydrogels: application to cartilage tissue engineering.
    Montembault A, Tahiri K, Korwin-Zmijowska C, Chevalier X, Corvol MT, Domard A.
    Biochimie; 2006 May 21; 88(5):551-64. PubMed ID: 16626850
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  • 59. [Experimental study on collagen hydrogel scaffolds for cartilage tissue engineering].
    Li K, Guo L, Fan Y, Zhang X.
    Zhongguo Xiu Fu Chong Jian Wai Ke Za Zhi; 2012 Nov 21; 26(11):1356-61. PubMed ID: 23230673
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  • 60. Morphology and function of ovine articular cartilage chondrocytes in 3-d hydrogel culture.
    Schagemann JC, Mrosek EH, Landers R, Kurz H, Erggelet C.
    Cells Tissues Organs; 2006 Nov 21; 182(2):89-97. PubMed ID: 16804299
    [Abstract] [Full Text] [Related]

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