Novel Making of Bacterial Cellulose Blended Polymeric Fiber Bandages

被引：44

作者：

Altun, Esra ^{[1
]}

Aydogdu, Mehmet Onur ^{[1
]}

Koc, Fatma ^{[2
]}

Crabbe-Mann, Maryam ^{[3
]}

Brako, Francis ^{[3
]}

Kaur-Matharu, Rupy ^{[3
]}

Ozen, Gunes ^{[4
]}

Kuruca, Serap Erdem ^{[5
]}

Edirisinghe, Ursula ^{[6
]}

Gunduz, Oguzhan ^{[1
]}

Edirisinghe, Mohan ^{[3
]}

机构：

[1] Marmara Univ, Dept Met & Mat Engn, Goztepe Campus, TR-34722 Istanbul, Turkey

[2] Medipol Univ, Dept Med Microbiol, TR-34810 Istanbul, Turkey

[3] UCL, Dept Mech Engn, Torrington Pl, London WC1E 7JE, England

[4] Istanbul Univ, Dept Mol Med, TR-34393 Istanbul, Turkey

[5] Istanbul Univ, Dept Physiol, TR-34393 Istanbul, Turkey

[6] Chelsea & Westminster Hosp, Dept Accid & Emergency, Fulham Rd, London SW10 9NH, England

来源：

MACROMOLECULAR MATERIALS AND ENGINEERING | 2018年 / 303卷 / 03期

基金：

英国工程与自然科学研究理事会;

关键词：

bacterial cellulose; bandages; polymer; pressurized gyration; TISSUE ENGINEERING APPLICATIONS; WOUND DRESSING APPLICATIONS; PRESSURIZED GYRATION; NANOFIBERS; PROLIFERATION; MEMBRANES; ADHESIVE; SCAFFOLD; SKIN;

D O I：

10.1002/mame.201700607

中图分类号：

T [工业技术];

学科分类号：

120111 [工业工程];

摘要：

Bacterial cellulose (BC) is a very promising biological material. However, at present its utilization is limited by difficulties in shape forming it. In this Communication, it is shown how this can be overcome by blending it with poly(methylmethacrylate) (PMMA) polymer. BC:PMMA fibers are produced by pressurized gyration of blended BC:PMMA solutions. Subsequently, BC:PMMA bandage-like scaffolds are generated with different blends. The products are investigated to determine their morphological and chemical features. Cell culture and proliferation tests are performed to obtain information on biocompatibility of the scaffolds.

引用

页数：7

共 36 条

[1]

Electrospun Nanofibers as Dressings for Chronic Wound Care: Advances, Challenges, and Future Prospects [J].

Abrigo, Martina ;

McArthur, Sally L. ;

Kingshott, Peter .

MACROMOLECULAR BIOSCIENCE, 2014, 14 (06) :772-792

[2]

Functional materials by electrospinning of polymers [J].

Agarwal, Seema ;

Greiner, Andreas ;

Wendorff, Joachim H. .

PROGRESS IN POLYMER SCIENCE, 2013, 38 (06) :963-991

[3]

Novel biodegradable electrospun membrane: scaffold for tissue engineering [J].

Bhattarai, SR ;

Bhattarai, N ;

Yi, HK ;

Hwang, PH ;

Cha, DI ;

Kim, HY .

BIOMATERIALS, 2004, 25 (13) :2595-2602

[4]

Wound healing dressings and drug delivery systems: A review [J].

Boateng, Joshua S. ;

Matthews, Kerr H. ;

Stevens, Howard N. E. ;

Eccleston, Gillian M. .

JOURNAL OF PHARMACEUTICAL SCIENCES, 2008, 97 (08) :2892-2923

[5]

Poly(3-hydroxubutyrate-co-4-hydroxubutyrate)/bacterial cellulose composite porous scaffold: Preparation, characterization and biocompatibility evaluation [J].

Cai Zhijiang ;

Hou Chengwei ;

Yang Guang .

CARBOHYDRATE POLYMERS, 2012, 87 (02) :1073-1080

[6]

Bacterial cellulose/poly(ethylene glycol) composite: characterization and first evaluation of biocompatibility [J].

Cai, Zhijiang ;

Kim, Jaehwan .

CELLULOSE, 2010, 17 (01) :83-91

[7]

A novel polyurethane/cellulose fibrous scaffold for cardiac tissue engineering [J].

Chen, Po-Hsuen ;

Liao, Hsueh-Chung ;

Hsu, Sheng-Hao ;

Chen, Rung-Shu ;

Wu, Ming-Chung ;

Yang, Yi-Fan ;

Wu, Chau-Chung ;

Chen, Min-Huey ;

Su, Wei-Fang .

RSC ADVANCES, 2015, 5 (09) :6932-6939

[8]

Characterization of water in bacterial cellulose using dielectric spectroscopy and electron microscopy [J].

Gelin, Kristina ;

Bodin, Aase ;

Gatenholm, Paul ;

Mihranyan, Albert ;

Edwards, Katarina ;

Stromme, Maria .

POLYMER, 2007, 48 (26) :7623-7631

[9]

Simultaneous Application of Pressure-Infusion-Gyration to Generate Polymeric Nanofibers [J].

Hong, Xianze ;

Mahalingam, Suntharavathanan ;

Edirisinghe, Mohan .

MACROMOLECULAR MATERIALS AND ENGINEERING, 2017, 302 (06)

[10]

Production and application of microbial cellulose [J].

Jonas, R ;

Farah, LF .

POLYMER DEGRADATION AND STABILITY, 1998, 59 (1-3) :101-106

← 1 2 3 4 →