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(Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications

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(Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications. / Khan, A.F.; Afzal, A.; Chaudhary, A.A. et al.
In: Science of Advanced Materials, Vol. 7, No. 6, 01.06.2015, p. 1177-1186.

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Khan, AF, Afzal, A, Chaudhary, AA, Saleem, M, Shahzadi, L, Jamal, A, Yar, M, Habib, A & Rehman, IU 2015, '(Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications', Science of Advanced Materials, vol. 7, no. 6, pp. 1177-1186. https://doi.org/10.1166/sam.2015.2246

APA

Khan, A. F., Afzal, A., Chaudhary, A. A., Saleem, M., Shahzadi, L., Jamal, A., Yar, M., Habib, A., & Rehman, I. U. (2015). (Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications. Science of Advanced Materials, 7(6), 1177-1186. https://doi.org/10.1166/sam.2015.2246

Vancouver

Khan AF, Afzal A, Chaudhary AA, Saleem M, Shahzadi L, Jamal A et al. (Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications. Science of Advanced Materials. 2015 Jun 1;7(6):1177-1186. doi: 10.1166/sam.2015.2246

Author

Khan, A.F. ; Afzal, A. ; Chaudhary, A.A. et al. / (Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications. In: Science of Advanced Materials. 2015 ; Vol. 7, No. 6. pp. 1177-1186.

Bibtex

@article{42800c09632b4bf8bf6aa0b048dfa199,
title = "(Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications",
abstract = "This article presents an (hydroxypropyl)methylcellulose (HPMC) mediated synthesis of highly porous scaffolds containing nanocrystalline hydroxyapatite (n-HAp) and chitosan (CS) as major inorganic and organic phases, respectively. A mixture of n-HAp, CS, and HPMC is homogenized and freeze-dried to yield n-HAp/CS/HPMC composite scaffolds closely emulating trabecular bone in density (0.02 g cm-3) and porosity (89%). SEM images substantiate the porous structure of the scaffolds (pore size: 100-300 μm). The mechanical analysis reveal excellent compressive strength of the porous n-HAp/CS/HPMC scaffold (9.65 MPa) that is also comparable with human trabecular bone. The in vitro bioactivity and degradability of the porous scaffolds are investigated in tris-HCl-buffered synthetic body fluid (SBF) and phosphate buffer solution (PBS), respectively. The results indicate a rapid increase in scaffold mass due to apatite-like deposition and good resorbability. The SEM images of SBF soaked samples demonstrate apatite-like deposition on the surface of scaffolds with Ca/P ratio of 1.63 after 7 days of soaking in SBF. These results suggest that porous n-HAp/CS/HPMC scaffolds, due to their structural similarity, mechanical and in vitro biological properties, can become useful alternatives for trabecular bone regeneration and repair. {\textcopyright} 2015 by American Scientific Publishers.",
keywords = "(Hydroxypropyl)methylcellulose, Chitosan, Hydroxyapatite, Porous scaffold, Tissue engineering, Trabecular bone",
author = "A.F. Khan and A. Afzal and A.A. Chaudhary and M. Saleem and L. Shahzadi and A. Jamal and M. Yar and A. Habib and I.U. Rehman",
year = "2015",
month = jun,
day = "1",
doi = "10.1166/sam.2015.2246",
language = "English",
volume = "7",
pages = "1177--1186",
journal = "Science of Advanced Materials",
issn = "1947-2935",
publisher = "American Scientific Publishers",
number = "6",

}

RIS

TY - JOUR

T1 - (Hydroxypropyl)methylcellulose mediated synthesis of highly porous composite scaffolds for trabecular bone repair applications

AU - Khan, A.F.

AU - Afzal, A.

AU - Chaudhary, A.A.

AU - Saleem, M.

AU - Shahzadi, L.

AU - Jamal, A.

AU - Yar, M.

AU - Habib, A.

AU - Rehman, I.U.

PY - 2015/6/1

Y1 - 2015/6/1

N2 - This article presents an (hydroxypropyl)methylcellulose (HPMC) mediated synthesis of highly porous scaffolds containing nanocrystalline hydroxyapatite (n-HAp) and chitosan (CS) as major inorganic and organic phases, respectively. A mixture of n-HAp, CS, and HPMC is homogenized and freeze-dried to yield n-HAp/CS/HPMC composite scaffolds closely emulating trabecular bone in density (0.02 g cm-3) and porosity (89%). SEM images substantiate the porous structure of the scaffolds (pore size: 100-300 μm). The mechanical analysis reveal excellent compressive strength of the porous n-HAp/CS/HPMC scaffold (9.65 MPa) that is also comparable with human trabecular bone. The in vitro bioactivity and degradability of the porous scaffolds are investigated in tris-HCl-buffered synthetic body fluid (SBF) and phosphate buffer solution (PBS), respectively. The results indicate a rapid increase in scaffold mass due to apatite-like deposition and good resorbability. The SEM images of SBF soaked samples demonstrate apatite-like deposition on the surface of scaffolds with Ca/P ratio of 1.63 after 7 days of soaking in SBF. These results suggest that porous n-HAp/CS/HPMC scaffolds, due to their structural similarity, mechanical and in vitro biological properties, can become useful alternatives for trabecular bone regeneration and repair. © 2015 by American Scientific Publishers.

AB - This article presents an (hydroxypropyl)methylcellulose (HPMC) mediated synthesis of highly porous scaffolds containing nanocrystalline hydroxyapatite (n-HAp) and chitosan (CS) as major inorganic and organic phases, respectively. A mixture of n-HAp, CS, and HPMC is homogenized and freeze-dried to yield n-HAp/CS/HPMC composite scaffolds closely emulating trabecular bone in density (0.02 g cm-3) and porosity (89%). SEM images substantiate the porous structure of the scaffolds (pore size: 100-300 μm). The mechanical analysis reveal excellent compressive strength of the porous n-HAp/CS/HPMC scaffold (9.65 MPa) that is also comparable with human trabecular bone. The in vitro bioactivity and degradability of the porous scaffolds are investigated in tris-HCl-buffered synthetic body fluid (SBF) and phosphate buffer solution (PBS), respectively. The results indicate a rapid increase in scaffold mass due to apatite-like deposition and good resorbability. The SEM images of SBF soaked samples demonstrate apatite-like deposition on the surface of scaffolds with Ca/P ratio of 1.63 after 7 days of soaking in SBF. These results suggest that porous n-HAp/CS/HPMC scaffolds, due to their structural similarity, mechanical and in vitro biological properties, can become useful alternatives for trabecular bone regeneration and repair. © 2015 by American Scientific Publishers.

KW - (Hydroxypropyl)methylcellulose

KW - Chitosan

KW - Hydroxyapatite

KW - Porous scaffold

KW - Tissue engineering

KW - Trabecular bone

U2 - 10.1166/sam.2015.2246

DO - 10.1166/sam.2015.2246

M3 - Journal article

VL - 7

SP - 1177

EP - 1186

JO - Science of Advanced Materials

JF - Science of Advanced Materials

SN - 1947-2935

IS - 6

ER -