Erratum: Enzymatically cross-linked injectable gelatin gel as osteoblast delivery vehicle (Journal of Bioactive and Compatible Polymers (2012) 27 (342-355) DOI:10.1177/0883911512444713);Enzymatically cross-linked injectable gelatin gel as osteoblast delivery vehicle

Journal of Bioactive and Compatible Polymers

Volumn 27, Issue 4, 2012, Pages 342-355

  Amini, Ashley A ^a   Nair, Lakshmi S ^a,b  

^a UNIVERSITY OF CONNECTICUT HEALTH CENTER   (United States)

^b UNIVERSITY OF CONNECTICUT   (United States)

Author keywords

Cell delivery; Encapsulated cells; Enzymatic cross linking; Gelatin; Hydrogels; Injectable biomaterial; Injectable gelatin; Intercellular signaling; Osteogenic function; Tissue engineering

Indexed keywords

ADHESION; AMINES; CELL ENGINEERING; CELLS; CHEMICAL ACTIVATION; CYTOLOGY; ENZYME ACTIVITY; GELS; HYDROGELS; LITHIUM COMPOUNDS; MOLECULES; PHOSPHORYLATION; SIGNALING; TISSUE ENGINEERING; VEHICLES;

CELL DELIVERY; ENCAPSULATED CELL; GELATIN; INJECTABLE BIOMATERIALS; INJECTABLE GELATIN; INTERCELLULAR SIGNALING; OSTEOGENIC FUNCTIONS;

CELL SIGNALING;

BETA CATENIN; GELATIN; HORSERADISH PEROXIDASE; HYDROGEN PEROXIDE; INSULIN; LITHIUM CHLORIDE; MITOGEN ACTIVATED PROTEIN KINASE; PHENOL DERIVATIVE; TRANSCRIPTION FACTOR RUNX2; TYRAMINE;

ANIMAL CELL; ARTICLE; BIOLOGICAL ACTIVITY; CELL ADHESION; CELL ENCAPSULATION; CELL GROWTH; CELL SPREADING; CELL STRAIN 3T3; CELL VIABILITY; CHEMICAL MODIFICATION; CONJUGATE; CONTROLLED STUDY; CROSS LINKING; ENZYME PHOSPHORYLATION; HYDROGEL; MORPHOLOGY; MOUSE; NONHUMAN; OSTEOBLAST; PROTEIN EXPRESSION; SIGNAL TRANSDUCTION; SYNTHESIS;

ARMORACIA RUSTICANA; MURINAE;

EID: 84863696382     PISSN: 08839115     EISSN: 15308030     Source Type: Journal    
DOI: 10.1177/0883911513512047     Document Type: Erratum

References (55)

1. Zhao X, Kim J, Cezar C, et al. Active scaffolds for on-demand drug and cell delivery. Proc Natl Acad Sci USA. 2011 ; 108 (1). 67-72
2. Garret D, Nicodemus MS, Bryant SJ. Cell encapsulation in biodegradable hydrogels for tissue engineering applications. Tissue Eng Part B. 2008 ; 14 (2). 149-165
3. Annabi N, Nichol JW, Zhong X, et al. Controlling the porosity and microarchitecture of hydrogels for tissue engineering. Tissue Eng Part B. 2010 ; 16 (4). 371-383
4. Slaughter BV, Khurshid SS, Fisher OZ, et al. Hydrogels in regenerative medicine. Adv Mater. 2009 ; 21 (32-33). 3307-3329
5. Yu L, Ding J. Injectable hydrogels as unique biomedical materials. Chem Soc Rev. 2008 ; 37 (8). 1473-1481
6. Hennink WE, Van Nostrum CF. Novel crosslinking methods to design hydrogels. Adv Drug Delivery Rev. 2002 ; 54 (1). 13-36
7. Nair LS, Starnes T, Ko JW, et al. Development of injectable thermogelling chitosan-inorganic phosphate solutions for biomedical applications. Biomacromolecules. 2007 ; 8 (12). 3779-3785
8. Jiang T, Kumbar SG, Nair LS, et al. Biologically active chitosan systems for tissue engineering and regenerative medicine. Curr Top Med Chem. 2008 ; 8 (4). 354-364
9. Kopecek J, Yang J. Peptide-directed self-assembly of hydrogels. Acta Biomater. 2009 ; 5 (3). 805-816
10. Rydholm AE, Bowman CN, Anseth KS. Degradable thiol-acrylate photopolymers: polymerization and degradation behavior of an in situ forming biomaterial. Biomaterials. 2005 ; 26 (22). 4495-4506
11. Davis NE, Ding S, Forster RE, et al. Modular enzymatically crosslinked protein polymer hydrogels for in situ gelation. Biomaterials. 2010 ; 31 (28). 7288-7297
12. Nguyen M, Lee D. Injectable biodegradable hydrogels. Macromol Biosci. 2010 ; 10 (6). 563-579
13. Attia J, Bigot N, Goux D, et al. Modulation of collagen and keratin synthesis in co-cultures of fibroblasts and keratinocytes on hyaluronan-coated polysulfone membranes. J Bioact Compat Polym. 2011 ; 26: 71-88
14. Dreesmann L, Ahlers M, Schlosshauer B. The pro-angiogenic characteristics of a cross-linked gelatin matrix. Biomaterials. 2007 ; 28 (36). 5536-5543
15. Liu X, Smith LA, Hu J, et al. Biomimetic nanofibrous gelatin/apatite composite scaffolds for bone tissue engineering. Biomaterials. 2009 ; 30 (12). 2252-2258
16. Spotnitz WD, Burks S. Hemostats, sealants, and adhesives: components of the surgical toolbox. Transfusion. 2008 ; 48 (7). 1502-1516
17. Kwon YJ, Peng CA. Calcium-alginate gel bead cross-linked with gelatin as microcarrier for anchorage-dependent cell culture. Biotechniques. 2002 ; 33 (1). 212 216 218-214
18. Buhus G, Popa M, Desbrieres J. Hydrogels based on carboxymethylcellulose and gelatin for inclusion and release of chloramphenicol. J Bioact Compat Polym. 2009 ; 24 (6). 525-545
19. Yamamoto M, Tabata Y, Ikada Y. Growth factor release from gelatin hydrogel for tissue engineering. J Bioact Compat Polym. 1999 ; 14: 474-489
20. Guarino V, Alvarez-Perez M, Cirillo V, et al. HMSC interaction with PCL and PCL/gelatin platforms: a comparative study on films and electrospun membranes. J Bioact Compat Polym. 2011 ; 26 (2). 144-160
21. Kuwahara K, Yang Z, Slack GC, et al. Cell delivery using an injectable and adhesive transglutaminase-gelatin gel. Tissue Eng Part C. 2010 ; 16 (4). 609-618
22. Park KM, Ko KS, Joung YK, et al. In situ cross-linkable gelatin-poly(ethylene glycol)-tyramine hydrogel via enzyme mediated reaction for tissue regenerative medicine. J Mater Chem. 2011 ; 21: 13180-13187
23. Balakrishnan B, Jayakrishnan A. Self-cross-linking biopolymers as injectable in situ forming biodegradable scaffolds. Biomaterials. 2005 ; 26 (18). 3941-3951
24. Fukaya C, Nakayama Y, Murayama Y, et al. Improvement of hydrogelation abilities and handling of photocurable gelatin-based crosslinking materials. J Biomed Mater Res. 2009 ; 91 (1). 329-336
25. Okino H, Nakayama Y, Tanaka M, et al. In situ hydrogelation of photocurable gelatin and drug release. J Biomed Mater Res. 2002 ; 59 (2). 233-245
26. Hoshikawa A, Nakayama Y, Matsuda T, et al. Encapsulation of chondrocytes in photopolymerizable styrenated gelatin for cartilage tissue engineering. Tissue Eng. 2006 ; 12 (8). 2333-2341
27. Terao K, Nagasawa N, Nishida H, et al. Reagent-free crosslinking of aqueous gelatin: manufacture and characteristics of gelatin gels irradiated with gamma-ray and electron beam. J Biomater Sci, Polym Ed. 2003 ; 14 (11). 1197-1208
28. Yung CW, Bentley WE, Barbari TA. Diffusion of interleukin-2 from cells overlaid with cytocompatible enzyme-crosslinked gelatin hydrogels. J Biomed Mater Res Part A. 2010 ; 95 (1). 25-32
29. Sakai S, Yamada Y, Zenke T, et al. Novel chitosan derivative soluble at neutral pH and in-situ gellable via peroxidase-catalyzed enzymatic reaction. J Mater Chem. 2009 ; 19: 230-235
30. Lee F, Chung JE, Kurisawa M. An injectable hyaluronic acid-tyramine hydrogel system for protein delivery. J Controlled Release. 2009 ; 134 (3). 186-193
31. Sakai S, Hirose K, Taguchi K, et al. An injectable, in situ enzymatically gellable, gelatin derivative for drug delivery and tissue engineering. Biomaterials. 2009 ; 30 (20). 3371-3377
32. Hu M, Kurisawa M, Deng R, et al. Cell immobilization in gelatin-hydroxyphenylpropionic acid hydrogel fibers. Biomaterials. 2009 ; 30 (21). 3523-3531
33. Kim K, Yeatts A, Dean D, et al. Stereolithographic bone scaffold design parameters: osteogenic differentiation and signal expression. Tissue Eng Part B. 2010 ; 16 (5). 523-539
34. Benoit DS, Durney AR, Anseth KS. The effect of heparin-functionalized PEG hydrogels on three-dimensional human mesenchymal stem cell osteogenic differentiation. Biomaterials. 2007 ; 28 (1). 66-77
35. Sudo H, Kodama H, Amagai Y, et al. In vitro differentiation and calcification in a new clonal osteogenic cell line derived from newborn mouse calvaria. J Cell Biol. 1983 ; 96 (1). 191-198
36. Stein GS, Lian JB, Owen TA. Relationship of cell growth to the regulation of tissue-specific gene expression during osteoblast differentiation. FASEB J. 1990 ; 4 (13). 3111-3123
37. Choi JY, Lee BH, Song KB, et al. Expression patterns of bone-related proteins during osteoblastic differentiation in MC3T3-E1 cells. J Cell Biochem. 1996 ; 61 (4). 609-618
38. Shimokawa K, Katayama M, Matsuda Y, et al. Matrix metalloproteinase (MMP)-2 and MMP-9 activities in human seminal plasma. Mol Hum Reprod. 2002 ; 8 (1). 32-36
39. Olsen D, Yang C, Bodo M, et al. Recombinant collagen and gelatin for drug delivery. Adv Drug Delivery Rev. 2003 ; 55 (12). 1547-1567
40. Sutter M, Siepmann J, Hennink W, et al. Recombinant gelatin hydrogels for the sustained release of proteins. J Controlled Release. 2007 ; 119 (3). 301-312
41. Lee F, Chung J, Kurisawa M. An injectable hyaluronic acid-tyramine hydrogel system for protein delivery. J Controlled Release. 2009 ; 134 (3). 186-193
42. Darr A, Calabro A. Synthesis and characterization of tyramine-based hyaluronan hydrogels. J Mater Sci Mater Med. 2009 ; 20 (1). 33-44
43. Cobbett WG, Kenchington AW, Ward AG. The determination of the tyrosine content of gelatins. Biochem J. 1962 ; 84: 468-474
44. Kuijpers AJ, Engbers GH, Krijsveld J, et al. Crosslinking and characterization of gelatin matrices for biomedical applications. J Biomater Sci, Polym Ed. 2000 ; 11: 225-243
45. Lee F, Chung J, Kurisawa M. An injectable enzymatically crosslinked hyaluronic acid-tyramine hydrogel system with independent tuning of mechanical strength and gelation rate. Soft Matter. 2008 ; 4: 880-887
46. Musso H. Phenol oxidation reactions. Angew Chem Int Ed. 1963 ; 2: 723-735
47. Betz MW, Yeatts AB, Richbourg WJ, et al. Macroporous hydrogels upregulate osteogenic signal expression and promote bone regeneration. Biomacromolecules. 2010 ; 11 (5). 1160-1168
48. Hwang CM, Sant S, Masaeli M, et al. Fabrication of three-dimensional porous cell-laden hydrogel for tissue engineering. Biofabrication. 2010 ; 2 (3). 035003
49. Wang C, Varshney RR, Wang DA. Therapeutic cell delivery and fate control in hydrogels and hydrogel hybrids. Adv Drug Delivery Rev. 2010 ; 62 (7-8). 699-710
50. Kawazoe N, Lin X, Tateishi T, et al. Three-dimensional cultures of rat pancreatic RIN-5F cells in porous PLGA-collagen hybrid scaffolds. J Bioact Compat Polym. 2009 ; 24: 25-42
51. Atkinson SJ, Ward RV, Reynolds JJ, et al. Cell-mediated degradation of type IV collagen and gelatin films is dependent on the activation of matrix metalloproteinases. Biochem J. 1992 ; 288: 605-611
52. Alvarez-Perez MA, Guarino V, Cirillo V, et al. Influence of gelatin cues in PCL electrospun membranes on nerve outgrowth. Biomacromolecules. 2010 ; 11 (9). 2238-2246
53. Peng S, Hua J, Cao X, et al. Gelatin induces trophectoderm differentiation of mouse embryonic stem cells. Cell Biol Int. 2010 ; 35 (6). 587-591
54. Lee YH, Bhattarai G, Aryal S, et al. Modified titanium surface with gelatin nano gold composite increases osteoblast cell biocompatibility. Appl Surf Sci. 2010 ; 256 (20). 5882-5887
55. Ge C, Xiao G, Jiang D, et al. Critical role of the extracellular signal-regulated kinase-MAPK pathway in osteoblast differentiation and skeletal development. J Cell Biol. 2007 ; 176 (5). 709-718