Research on Medical Application of Bacterial Cellulose as Nano-biomaterials_Journal of Biomedical Engineering

Authors：

 TANGWeihua ¹ , JIAShiru ² , JIAYuanyuan ² , YINHaisong ¹

1. Department of Chemical Biology, Tianjin Modern Vocational Technology College, Tianjin 300350, China;
2. Tianjin Industrial Microbiology Key Laboratory, Tianjin 300457, China;

Corresponding author：

TANGWeihua, Email: tangweihua79@hotmail.com

Keywords：

bacterial cellulose; artificial blood vessel; wound dressing; tissue engineering scaffold

DOI：

10.7507/1001-5515.20140174

Video：

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Bacterial cellulose (BC) is a high-purity nanometer cellulose secreted by some bacteria. Compared with plant cellulose, it possesses an array of unique properties, including high crystallinity, high water content, good biocompatibility, high mechanical strength and an ultra-fine fiber network. BC is prosperous as a new type of biomedical material, which has medical applications such as wound dressing, artificial skin, artificial blood vessels and tissue engineering scaffolds. There are, however, some problems to be solved on the large-scale application of BC, such as the high cost, low yield, and poor mechanical stability and so on.

Citation： TANGWeihua, JIAShiru, JIAYuanyuan, YINHaisong. Research on Medical Application of Bacterial Cellulose as Nano-biomaterials. Journal of Biomedical Engineering, 2014, 31(4): 927-929. doi: 10.7507/1001-5515.20140174 Copy

1.	TANG W H, JIA S R, JIA Y Y, et al. The influence of fermentation conditions and post-treatment methods on porosity of bacterial cellulose membrane[J]. World J Microbiol Biotechnol, 2010, 26(1): 125-131.
2.	ZAHEDMANESH H, MACKLE J N, SELLBORN A, et al. Bacterial cellulose as a potential vascular graft: mechanical characterization and constitutive model development[J]. J Biomed Mater Res B Appl Biomater, 2011, 97(1): 105-113.
3.	ESGUERRA M, FINK H, LASCHKE M W, et al. Intravital fluorescent microscopic evaluation of bacterial cellulose as scaffold for vascular grafts[J]. J Biomed Mater Res a, 2010, 93(1): 140-149.
4.	BÄCKDAHL H, RISBERG B, GATENHOLM P. Observations on bacterial cellulose tube formation for application as vascular graft[J]. Mater Sci Eng C, 2011, 31(1):14-21.
5.	HYOK K M, AE H G. Development of artificial blood vessel using bacterial cellulose[J]. J Pediatr Surg Spec, 2010, 4(1):1-66.
6.	MALM C J, RISBERG B, BODIN A, et al. Small calibre biosynthetic bacterial cellulose blood vessels: 13-months patency in a sheep model[J]. Scand Cardiovasc J, 2012, 46(1): 57-62.
7.	FINK H, AHRENSTEDT L, BODIN A, et al. Bacterial cellulose modified with xyloglucan bearing the adhesion peptide RGD promotes endothelial cell adhesion and metabolism--a promising modification for vascular grafts[J]. J Tissue Eng Regen Med, 2011, 5(6): 454-463.
8.	范子千,袁晔,沈青. 纳米纤维素研究及应用进展Ⅱ[J]. 高分子通报,2010,3:40-60.
9.	陈艳梅,奚廷斐,郑裕东,等.骨组织工程用纳米羟基磷灰石/细菌纤维素的体外降解行为研究(英文)[J].北京大学学报(自然科学版),2012,4(4):524-532.
10.	ZABOROWSKA M, BODIN A, B?CKDAHL H, et al. Microporous bacterial cellulose as a potential scaffold for bone regeneration[J]. Acta Biomater, 2010, 6(7): 2540-2547.
11.	OLYVEIRA M G, VALIDO D P, COSTA L M M. First otoliths/collagen/bacterial cellulose nanocomposites as a potential scaffold for bone tissue regeneration[J]. J Biomater Nanobiotechnol, 2011, 2(3): 239-243.
12.	SASKA S, BARUD H S, GASPAR A M M, et al. Bacterial cellulose-hydroxyapatite nanocomposites for bone regeneration[J]. Int J Biomater, 2011: Article ID 175362.
13.	MORI R, NAKAI T, ENOMOTO K, et al. Increased antibiotic release from a bone cement containing bacterial cellulose[J]. Clin Orthop Relat Res, 2011, 469(2): 600-606.
14.	贾卉,贾原媛,王娇,等.细菌纤维素构建组织工程角膜基质的方法及其评价[J].吉林大学学报(医学版),2010,36(2):303-307.
15.	陆松华,张天一,李峰,等.细菌纤维素修复兔颈段食管部分缺损的实验研究[J].生物医学工程研究,2011,30(4):216-219.
16.	CZAJA W, KRYSTYNOWICZ A, BIELECKI S, et al. Microbial cellulose--the natural power to heal wounds[J]. Biomaterials, 2006, 27(2):145-151.
17.	SOLWAY D R, CONSALTER M, LEVINSON D J. Microbial cellulose wound dressing in the treatment of skin tears in the frail elderly[J]. Wounds, 2010, 22(1): 17-19.
18.	PORTAL O, CLARK W A, LEVINSON D J, et al. Microbial cellulose wound dressing in the treatment of nonhealing lower extremity ulcers[J]. Wounds, 2009, 21(1): 1-3.
19.	SOLWAY D R, CLARK W A, LEVINSON D J. A parallel open-label trial to evaluate microbial cellulose wound dressing in the treatment of diabetic foot ulcers[J]. Int Wound J, 2011, 8(1): 69-73.
20.	MUANQMAN P, OPASANON S, SUWANCHOT S, et al. Efficiency of microbial cellulose dressing in partial-thickness burn wounds[J]. J Am Coll Cert Wound Spec, 2011, 3(1): 16-19.
21.	YU J W, LIU X L, LIU C S, et al. Biosynthesis of carboxymethylated bacterial cellulose composite for wound dressing[C]//Materials Science Forum. 11th International Conference of International Union of Materials Research Societies: Energy, environment and biological materials. Durnten-Zurich: Trans Tech Publications, 2011, 685: 322-326.
22.	KIM J, CAI Z J, CHEN Y. Biocompatible bacterial cellulose composites for biomedical application[J]. J Nanotechnol Eng Med, 2010, 1(1): 011006-1-011006-7.
23.	MANEERUNG T, TOKURA S, RUJIRAVANIT R. Impregnation of silver nanoparticles into bacterial cellulose for antimicrobial wound dressing[J]. Carbohyd Polym, 2008, 72(1): 43-51.
24.	马霞,张华,陈世文.细菌纤维素膜作为创伤性敷料的可行性[J].中国组织工程研究与临床康复,2010,14(12):2261-2264.
25.	洪枫,杨光. 用于急性创伤的细菌纤维素基抗菌干膜及其制备方法和应用:中国, 201110009676.3[P]. 2011-01-17.
26.	郑裕东,吴健,彭帅,等. 一种磺胺嘧啶银/细菌纤维素复合伤口敷料的制备方法:中国, 201010232853[P]. 2010-07-16.
27.	邱竣,柳大烈,张阳,等.细菌纤维素对兔耳增生性瘢痕中羟脯氨酸含量的影响[J].中国美容医学,2011,20(1):86-89.

1. TANG W H, JIA S R, JIA Y Y, et al. The influence of fermentation conditions and post-treatment methods on porosity of bacterial cellulose membrane[J]. World J Microbiol Biotechnol, 2010, 26(1): 125-131.
2. ZAHEDMANESH H, MACKLE J N, SELLBORN A, et al. Bacterial cellulose as a potential vascular graft: mechanical characterization and constitutive model development[J]. J Biomed Mater Res B Appl Biomater, 2011, 97(1): 105-113.
3. ESGUERRA M, FINK H, LASCHKE M W, et al. Intravital fluorescent microscopic evaluation of bacterial cellulose as scaffold for vascular grafts[J]. J Biomed Mater Res a, 2010, 93(1): 140-149.
4. BÄCKDAHL H, RISBERG B, GATENHOLM P. Observations on bacterial cellulose tube formation for application as vascular graft[J]. Mater Sci Eng C, 2011, 31(1):14-21.
5. HYOK K M, AE H G. Development of artificial blood vessel using bacterial cellulose[J]. J Pediatr Surg Spec, 2010, 4(1):1-66.
6. MALM C J, RISBERG B, BODIN A, et al. Small calibre biosynthetic bacterial cellulose blood vessels: 13-months patency in a sheep model[J]. Scand Cardiovasc J, 2012, 46(1): 57-62.
7. FINK H, AHRENSTEDT L, BODIN A, et al. Bacterial cellulose modified with xyloglucan bearing the adhesion peptide RGD promotes endothelial cell adhesion and metabolism--a promising modification for vascular grafts[J]. J Tissue Eng Regen Med, 2011, 5(6): 454-463.
8. 范子千,袁晔,沈青. 纳米纤维素研究及应用进展Ⅱ[J]. 高分子通报,2010,3:40-60.
9. 陈艳梅,奚廷斐,郑裕东,等.骨组织工程用纳米羟基磷灰石/细菌纤维素的体外降解行为研究(英文)[J].北京大学学报(自然科学版),2012,4(4):524-532.
10. ZABOROWSKA M, BODIN A, B?CKDAHL H, et al. Microporous bacterial cellulose as a potential scaffold for bone regeneration[J]. Acta Biomater, 2010, 6(7): 2540-2547.
11. OLYVEIRA M G, VALIDO D P, COSTA L M M. First otoliths/collagen/bacterial cellulose nanocomposites as a potential scaffold for bone tissue regeneration[J]. J Biomater Nanobiotechnol, 2011, 2(3): 239-243.
12. SASKA S, BARUD H S, GASPAR A M M, et al. Bacterial cellulose-hydroxyapatite nanocomposites for bone regeneration[J]. Int J Biomater, 2011: Article ID 175362.
13. MORI R, NAKAI T, ENOMOTO K, et al. Increased antibiotic release from a bone cement containing bacterial cellulose[J]. Clin Orthop Relat Res, 2011, 469(2): 600-606.
14. 贾卉,贾原媛,王娇,等.细菌纤维素构建组织工程角膜基质的方法及其评价[J].吉林大学学报(医学版),2010,36(2):303-307.
15. 陆松华,张天一,李峰,等.细菌纤维素修复兔颈段食管部分缺损的实验研究[J].生物医学工程研究,2011,30(4):216-219.
16. CZAJA W, KRYSTYNOWICZ A, BIELECKI S, et al. Microbial cellulose--the natural power to heal wounds[J]. Biomaterials, 2006, 27(2):145-151.
17. SOLWAY D R, CONSALTER M, LEVINSON D J. Microbial cellulose wound dressing in the treatment of skin tears in the frail elderly[J]. Wounds, 2010, 22(1): 17-19.
18. PORTAL O, CLARK W A, LEVINSON D J, et al. Microbial cellulose wound dressing in the treatment of nonhealing lower extremity ulcers[J]. Wounds, 2009, 21(1): 1-3.
19. SOLWAY D R, CLARK W A, LEVINSON D J. A parallel open-label trial to evaluate microbial cellulose wound dressing in the treatment of diabetic foot ulcers[J]. Int Wound J, 2011, 8(1): 69-73.
20. MUANQMAN P, OPASANON S, SUWANCHOT S, et al. Efficiency of microbial cellulose dressing in partial-thickness burn wounds[J]. J Am Coll Cert Wound Spec, 2011, 3(1): 16-19.
21. YU J W, LIU X L, LIU C S, et al. Biosynthesis of carboxymethylated bacterial cellulose composite for wound dressing[C]//Materials Science Forum. 11th International Conference of International Union of Materials Research Societies: Energy, environment and biological materials. Durnten-Zurich: Trans Tech Publications, 2011, 685: 322-326.
22. KIM J, CAI Z J, CHEN Y. Biocompatible bacterial cellulose composites for biomedical application[J]. J Nanotechnol Eng Med, 2010, 1(1): 011006-1-011006-7.
23. MANEERUNG T, TOKURA S, RUJIRAVANIT R. Impregnation of silver nanoparticles into bacterial cellulose for antimicrobial wound dressing[J]. Carbohyd Polym, 2008, 72(1): 43-51.
24. 马霞,张华,陈世文.细菌纤维素膜作为创伤性敷料的可行性[J].中国组织工程研究与临床康复,2010,14(12):2261-2264.
25. 洪枫,杨光. 用于急性创伤的细菌纤维素基抗菌干膜及其制备方法和应用:中国, 201110009676.3[P]. 2011-01-17.
26. 郑裕东,吴健,彭帅,等. 一种磺胺嘧啶银/细菌纤维素复合伤口敷料的制备方法:中国, 201010232853[P]. 2010-07-16.
27. 邱竣,柳大烈,张阳,等.细菌纤维素对兔耳增生性瘢痕中羟脯氨酸含量的影响[J].中国美容医学,2011,20(1):86-89.

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