화학공학소재연구정보센터
로그인 로그아웃 연락처 사이트맵
Journal of Industrial and Engineering Chemistry, Vol.110, 188-197, June, 2022
DOI10.1016/j.jiec.2022.02.052  Export Citation
Curcumin-loaded Fe-MOF/PDMS porous scaffold: Fabrication, characterization, and biocompatibility assessment
Soghra Nikpour, Zeinab Ansari-Asl, Tahereh Sedaghat, and Elham Hoveizi1
  • Department of Chemistry, Faculty of Science, Shahid Chamran University of Ahvaz, Ahvaz, Iran
  • 1Department of Biology, Faculty of Science, Shahid Chamran University of Ahvaz, Ahvaz, Iran
E-mail:
Fabrication of biocompatible scaffolds that can facilitate the mending of damaged tissue has attracted much attention. In this study, the preparation and structural investigation of a curcumin-loaded Fe(II) metal–organic framework/polydimethylsiloxane sponge, Cur/Fe-MOF/PDMS, are reported. Various techniques such as FTIR (Fourier-transform infrared), XRD (X-ray diffraction), SEM (scanning electron microscope), TEM (transmission electron microscope), EDS (energy-dispersive X-ray spectroscopy) mapping, and XPS (X-ray photoelectron spectroscopy) have been used to investigate the as-fabricated materials. Results confirm the successful incorporation of curcumin and Fe-MOF into the PDMS matrix. The obtained SEM images indicate the sponge-like structures of the PDMS and the Fe-MOF/PDMS composite. Indeed, the results from in vivo show animals all to be survived without any unusual responses to the transplant. According to macroscopic observation, the Fe-MOF/PDMS and Cur/Fe-MOF/PDMS scaffolds seem better confederates than the pure PDMS. H&E staining has confirmed enhanced healing and revascularization in the Cur/Fe-MOF/PDMS than the PDMS and Fe-MOF/PDMS scaffolds. Additionally, a twostage profile was observed for the release of curcumin into PBS (phosphate-buffered saline) solution. The hydrophilic property of the Fe-MOF resulted in fast release at the first stage. These results exhibit that the Cur/Fe-MOF/PDMS sponge can serve as a 3D porous substrate in the tissue engineering (TE) field.
Keywords:Iron metal–organic framework;Polydimethylsiloxane;Curcumin;Composite;Sponge;Biocompatibility
  1. Ali A, Andriyana A, RSC Adv., 10(28), 16390 (2020)
  2. Sahin S, Abdelillah E, Elhussein A, Abdel M, Salam, Bayazit SS, J. Ind. Eng. Chem., 78, 164 (2019)
  3. Sivashankari PR, Prabaharan M, Int. J. Biol. Macromol., 146, 222 (2020)
  4. Bose S, Koski C, Vu AA, Mater. Horizons, 7(8), 2011 (2020)
  5. Asadpour S, Kargozar S, Moradi L, Ai A, Nosrati H, Ai J, Int. J. Biol. Macromol., 154, 1285 (2020)
  6. No YJ, Nguyen T, Lu Z, Mirkhalaf M, Fei F, Foley M, Zreiqat H, Bone, 153, 116147 (2021)
  7. Cestari F, Petretta M, Yang Y, Motta A, Grigolo B, Sglavo VM, Mater. Technol., 29, e00318 (2021)
  8. Mancuso E, Shah L, Jindal S, Serenelli C, Tsikriteas ZM, Khanbareh H, Tirella A, Mater. Sci. Eng. C-Biomimetic Supramol. Syst., 126, 112192 (2021)
  9. Sheikh Z, Najeeb S, Khurshid Z, Verma V, Rashid H, Glogauer M, Matererials, 8(9), 5744 (2015)
  10. Liu X, Ma PX, Ann. Biomed. Eng., 32(3), 477 (2004)
  11. Filippi M, Born G, Chaaban M, Scherberich A, Front. Bioeng. Biotechnol., 8, 474 (2020)
  12. Kondiah PPD, Choonara YE, Kondiah PJ, Marimuthu T, du LC, Toit, Kumar P, Pillay V, Adv. 3D-Printed Syst. Nanosyst. Drug Deliv. Tissue Eng., 59 (2020)
  13. Freyman TM, Yannas IV, Gibson LJ, Prog. Mater. Sci., 46(3-4), 273 (2001)
  14. Wu S, Liu X, Yeung KWK, Liu C, Yang X, Mater. Sci. Eng. R-Rep., 80, 1 (2014)
  15. Song Y, Ren M, Wu Y, Li S, Song C, Wang F, Huang Y, RSC Adv., 9(35), 20174 (2019)
  16. Yang X, Li K, Zhang X, Liu C, Guo B, Wen W, Gao X, Lab Chip, 18(3), 486 (2018)
  17. Osório LA, Silva E, Mackay RE, Bioengineering, 8(8), 113 (2021)
  18. Pedraza E, Brady AC, Fraker CA, Stabler CL, J. Biomater. Sci.-Polym. Ed., 24(9), 1041 (2013)
  19. Suzuki M, Sakashita T, Funayama T, JoVE J. Vis. Exp., 145, 59008 (2019)
  20. Martin L, Gurnani P, Zhang J, Hartlieb M, Cameron NR, Eissa AM, Perrier S, Biomacromolecules, 20(3), 1297 (2019)
  21. Suchy T, Ryglová S, Balík K, Smetana K, Šupová M, Sucharda Z, Filová E, Havlíková J, Bacáková L, Martynková GS, Sci. Adv. Mater., 5(5), 484 (2013)
  22. Lee DN, Gwon K, Kim Y, Cho H, Lee S, J. Ind. Eng. Chem., 102, 135 (2021)
  23. Nikolova MP, Chavali MS, Bioact. Mater., 4, 271 (2019)
  24. Jiang ZW, Zhao TT, Zhen SJ, Li CM, Li YF, Huang CZ, J. Mater. Chem. A, 9(14), 9301 (2021)
  25. Gaikwad S, Kim SJ, Han S, J. Ind. Eng. Chem., 87, 250 (2020)
  26. Yang D, Lu L, Feng S, Zhu M, Dalt. Trans., 49(22), 7514 (2020)
  27. Sarker M, Shin S, Jhung S, J. Ind. Eng. Chem., 74, 158 (2019)
  28. Schnabel J, Ettlinger R, Bunzen H, ChemNanoMat, 6(8), 1229 (2020)
  29. Agafonov M, Garibyan A, Terekhova I, J. Ind. Eng. Chem., 106, 189 (2022)
  30. Ramezani MR, Ansari-Asl Z, Hoveizi E, Kiasat AR, Mater. Chem. Phys., 229, 242 (2019)
  31. Ramezani MR, Ansari-Asl Z, Hoveizi E, Kiasat AR, Fibers Polym., 21(5), 1013 (2020)
  32. Hu X, Lou X, Li C, Ning Y, Liao Y, Chen Q, Mananga ES, Shen M, Hu B, RSC Adv., 6(115), 114483 (2016)
  33. Arbelaiz A, Fernández B, Ramos JA, Retegi A, Llano-Ponte R, Mondragon I, Compos. Sci. Technol., 65(10), 1582 (2005)
  34. Beh CY, Cheng EM, Mohd Nasir NF, Mohd Tarmizi EZ, Eng SK, Abdul Majid MS, Ridzuan MJM, Khor SF, Ahmad Saad FS, J. Mater. Res. Technol., 9(6), 14267 (2020)
  35. Vu TA, Le GH, Dao CD, Dang LQ, Nguyen KT, Nguyen QK, Dang PT, Tran HTK, Duong QT, Nguyen TV, Lee GD, RSC Adv., 5(7), 5261 (2015)
  36. Zadeh MH, Keramati N, Ghazi MM, Inorg. Nano-Metal Chem., 49(12), 448 (2019)
  37. Hamouni S, Arous O, Abdessemed D, Nezzal G, Van der Bruggen B, Macromol. Symp., 386, 1800247 (2019)
  38. Qiao Y, Duan L, E-Polymers, 20(1), 673 (2020)
  39. Ferreira P, Carvalho A, Correia T, Antunes B, Correia I, Alves P, Sci. Technol. Adv. Mater., 14 (2013)
  40. Lin G, Zhang X, Kumar S, Mark J, Silicon, 1, 173 (2009)
  41. Oveisi AR, Khorramabadi-zad A, Daliran S, RSC Adv., 6(2), 1136 (2016)
  42. Scott A, Gupta R, Kulkarni GU, Macromol. Chem. Phys., 211(15), 1640 (2010)
  43. Loh QL, Choong C, Tissue Eng., 19(6), 485 (2013)
  44. Gutekunst SB, Siemsen K, Huth S, Möhring A, Hesseler B, Timmermann M, Paulowicz I, Mishra YK, Siebert L, Adelung R, Selhuber-Unkel C, A.C.S. Biomater. Sci. Eng., 5(4), 1784 (2019)
  45. Singh AK, Yadav S, Sharma K, Firdaus Z, Aditi P, Neogi K, Bansal M, Gupta MK, Shanker A, Singh RK, Prakash P, RSC Adv., 8(70), 40426 (2018)
  46. Malecha K, Gancarz I, J. Micromechanics Microengineering, 20 (2010)
  47. Ohkubo Y, Endo K, Yamamura K, Sci. Rep., 8(1), 18058 (2018)
  48. Guruvenket S, Hoey JM, Anderson KJ, Frohlich MT, Krishnan R, Sivaguru J, Sibi MP, Boudjouk P, J. Mater. Chem. C, 4(35), 8206 (2016)
  49. Zhao Z, Pang J, Liu W, Lin T, Ye F, Zhao S, Microchim. Acta, 186(5), 295 (2019)
  50. Zubaidah I, Norfatriah A, Zatul Amali SN, Zuruzi AS, Fibers, 6(4), 91 (2018)
  51. Patel SS, Acharya A, Ray RS, Agrawal R, Raghuwanshi R, Jain P, Crit. Rev. Food Sci. Nutr., 60(6), 887 (2020)
  52. Nowroozi N, Faraji S, Nouralishahi A, Shahrousvand M, Life Sci., 264, 118640 (2021)
  53. Xu L, Li W, Sadeghi-Soureh S, Amirsaadat S, Pourpirali R, Alijani S, J. Biomed. Mater. Res. A, 110, 316 (2021)
  54. Serati-Nouri H, Rasoulpoor S, Pourpirali R, Sadeghi-Soureh S, Esmaeilizadeh N, Dadashpour M, Roshangar L, Zarghami N, Life Sci., 285, 119947 (2021)
  55. Zhang F, Li Q, Lin Z, Ma L, Xu S, Feng Q, Dong H, Zhang Y, Cao X, J. Mater. Chem. B, 6(18), 2831 (2018)
  56. Rajabi M, Parivar K, Nabiouni M, Yaghmaii P, J. Cell Tissue, 4(4), 435 (2014)
  57. Mattson MP, Son TG, Camandola S, Dose. Response., 5(3), 174 (2007)
  58. Divakar P, Moodie KL, Demidenko E, Jack Hoopes P, Wegst UGK, Biomed. Mater., 15(5), 555003 (2020)
  59. Wu T, Li Z, Chen Y, Liu Q, Zhang J, Yu K, Wang Y, Wang Z, Gong T, J. Appl. Biomater. Funct. Mater., 19 (2021)
  60. Qian W, Hu X, He W, Zhan R, Liu M, Zhou D, Huang Y, Hu X, Wang Z, Fei G, Wu J, Xing M, Xia H, Luo G, Colloids Surf. B: Biointerfaces, 166, 61 (2018)
  61. Zhang M, Zhang X, Tian T, Zhang Q, Wen Y, Zhu J, Xiao D, Cui W, Lin Y, Bioact. Mater., 8, 368 (2022)
  62. Franzone F, Nebbioso M, Pergolizzi T, Attanasio G, Musacchio A, Greco A, Limoli PG, Artico M, Spandidos DA, Taurone S, Agostinelli E, Exp. Ther. Med., 22(1), 790 (2021)
  63. Petrone-Garcia VM, Lopez-Arellano R, Patiño GR, Rodríguez MAC, Hernandez-Patlan D, Solis-Cruz B, Hernandez-Velasco X, Alba-Hurtado F, Vuong CN, Castellanos-Huerta I, Tellez-Isaias G, Sci. Rep., 11(1), 11609 (2021)
  64. Dweck AC, Pers Care Mag., 3, 19 (2007)
  65. Ruiz PA, Braune A, Hölzlwimmer G, Quintanilla-Fend L, Haller D, J. Nutr., 137(5), 1208 (2007)
  66. Diaz-Gomez L, Gonzalez-Prada I, Millan R, Da Silva-Candal A, Bugallo-Casal A, Campos F, Concheiro A, Alvarez-Lorenzo C, Carbohydr. Polym., 278, 118924 (2022)
  67. Yuan Y, Wei L, Li F, Guo W, Li W, Luan R, Lv A, Wang H, Cardiology, 117(1), 57 (2010)
  68. Mondal S, Ghosh S, Moulik S, J. Photochem. Photobiol. B-Biol., 158, 212 (2016)
  69. Van Nong H, Hung LX, Thang PN, Chinh VD, Van Vu L, Dung PT, Van Trung T, Nga PT, Springerplus, 5(1), 1147 (2016)
  70. Babic MM, Vukomanovic M, Stefanic M, Nikodinovic-Runic J, Tomic SL, Macromol. Chem. Phys., 221(20), 2000186 (2020)