Bibliometric Analysis of Chinese Research Papers on Biofilm_Chinese Journal of Evidence-Based Medicine

Authors：

CAI Yun , ZHAO Tiemei ,  WANG Rui

Corresponding author：

WANG Rui, Email: caicaihh@sohu.com

Keywords：

Biofilm; Bibliographic study; Bibliometric analysis; China

DOI：

10.7507/1672-2531.20080223

Video：

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Abstract Full text Figures/Tables Video References Cited by

Objective 　To investigate the development of biofilm research over the last 10 years in China based on a bibliometric approach.
Methods 　We searched PubMed (1997 to 2007), China Hospital Knowledge Database (1997 to 2007), and VIP Chinese Journal Database (1997 to 2007). Quality assessment and data collection were performed by two reviewers independently. The amount of literature, research institutions, financial assistance, and contents of biofilm research were analyzed.
Results 　A total of 240 Chinese papers were included. Colleges were the leading research institutions in China, and most of research focused on pseudomonas aeruginosa and staphylococci, primarily based on in vitro models. Available antibiotics were the main measures for biofilm control. Only 4 RCTs with a C grade in terms of methodological quality were included.
Conclusion 　 Biofilm research in China can keep pace with the international development, but its integration with engineering, material science and immunology needs to be strengthened.

Citation： CAI Yun,ZHAO Tiemei,WANG Rui. Bibliometric Analysis of Chinese Research Papers on Biofilm. Chinese Journal of Evidence-Based Medicine, 2008, 08(11): 1016-1019. doi: 10.7507/1672-2531.20080223 Copy

1.	Ryder C, Byrd M, Wozniak DJ. Role of polysaccharides in Pseudomonas aeruginosa biofilm development. Curr Opin Microbiol, 2007, 10(6): 644-648.
2.	Lasa I. Towards the identification of the common features of bacterial biofilm development. Int Microbiol, 2006, 9(1): 21-28.
3.	Donlan RM, Costerton JW. Biofilms: survival mechanisms of clinically relevant microorganisms. Clin Microbiol Rev, 2002, 15(2): 167-193.
4.	Szewzyk U, Szewzyk R, Manz W, et al. Microbiological safety of drinking water. Annu Rev Microbiol, 2000, 54: 81-127.
5.	McMath SM, Holt DM. The fate of Escherichia coli through water treatment and in distribution. Symp Ser Soc Appl Microbiol, 2000, (29): 117S-123S.
6.	Rodríguez A, Autio WR, McLandsborough LA. Effect of biofilm dryness on the transfer of Listeria monocytogenes biofilms grown on stainless steel to bologna and hard salami. J Food Prot, 2007, 70(11): 2480-2484.
7.	Howell D, Behrends B. A review of surface roughness in antifouling coatings illustrating the importance of cutoff length. Biofouling, 2006, 22(5-6): 401-410.
8.	Davies D. Understanding biofilm resistance to antibacterial agents. Nat Rev Drug Discov, 2003, 2(2): 114-122.
9.	裴斐, 李存福, 王睿. 细菌BF耐药屏蔽与相关感染的治疗. 中国新药杂志, 2003, 12(1): 19-22.
10.	Lewis K. Persister cells and the riddle of biofilm survival. Biochemistry (Mosc), 2005, 70(2): 267-274.
11.	Lambert PA. Mechanisms of antibiotic resistance in Pseudomonas aeruginosa. J R Soc Med, 2002, 95 (Suppl 41): 22-26.
12.	McCoy WF, Bryers JD, Robbins J, et al. Observations of fouling biofilm formation. Can J Microbiol, 1981, 27(9): 910-917.
13.	Costerton JW, Cheng KJ, Geesey GG, et al. Bacterial biofilms in nature and disease. Annu Rev Microbiol, 1987, 41: 435-464.
14.	Costerton JW, Stewart PS, Greenberg EP. Bacterial biofilms: a common cause of persistent infections.
15.	陈迁, 王睿, 方向群, 等. 盐酸氟罗沙星对铜绿假单胞菌生物被膜的影响. 中国抗生素杂志, 1997, 22(6): 435-441.
16.	Lyczak JB, Cannon CL, Pier GB. Establishment of Pseudomonas aeruginosa infection: lessons from a versatile opportunist. Microbes Infect, 2000, 2(9): 1051-1060.
17.	Rasmussen TB, Bjarnsholt T, Skindersoe ME, et al. Screening for quorum-sensing inhibitors (QSI) by use of a novel genetic system, the QSI selector. J Bacteriol, 2005, 187(5): 1799-1814.
18.	Limsuwan S, Voravuthikunchai SP. Boesenbergia pandurata (Roxb.) Schltr., Eleutherine americana Merr. and Rhodomyrtus tomentosa (Aiton) Hassk. as antibiofilm producing and antiquorum sensing in Streptococcus pyogenes. FEMS Immunol Med Microbiol, 2008 Jul 5. [Epub ahead of print].
19.	Islam B, Khan SN, Haque I, et al. Novel anti-adherence activity of mulberry leaves: inhibition of Streptococcus mutans biofilm by 1-deoxynojirimycin isolated from Morus alba. J Antimicrob Chemother, 2008 Jun 18. [Epub ahead of print].
20.	Kim JE, Kim HE, Hwang JK, et al. Antibacterial characteristics of Curcuma xanthorrhiza extract on Streptococcus mutans biofilm. J Microbiol, 2008, 46(2): 228-232.
21.	杨蓉美, 张玉兰. 小剂量红霉素对绿脓杆菌下呼吸道感染的作用. 实用临床医学, 2003, 4(3): 48-50.
22.	李惠萍, 余慧, 何国钧, 等. 红霉素对下呼吸道铜绿假单胞菌感染菌株生物被膜的影响. 中国抗感染化疗杂志, 2003, 3(4): 206-10.
23.	魏广兴. 克拉霉素联合加替沙星治疗慢性阻塞性肺疾病急性发作期铜绿假单胞菌感染.实用医学杂志, 2005, 21(7): 735-736.
24.	莫诚航, 尚为民, 邝敏, 等.小剂量红霉素治疗生物膜形成相关的慢性绿脓杆菌肺部感染的临床研究. 中国现代医药杂志, 2006, 8(10): 1-3.

1. Ryder C, Byrd M, Wozniak DJ. Role of polysaccharides in Pseudomonas aeruginosa biofilm development. Curr Opin Microbiol, 2007, 10(6): 644-648.
2. Lasa I. Towards the identification of the common features of bacterial biofilm development. Int Microbiol, 2006, 9(1): 21-28.
3. Donlan RM, Costerton JW. Biofilms: survival mechanisms of clinically relevant microorganisms. Clin Microbiol Rev, 2002, 15(2): 167-193.
4. Szewzyk U, Szewzyk R, Manz W, et al. Microbiological safety of drinking water. Annu Rev Microbiol, 2000, 54: 81-127.
5. McMath SM, Holt DM. The fate of Escherichia coli through water treatment and in distribution. Symp Ser Soc Appl Microbiol, 2000, (29): 117S-123S.
6. Rodríguez A, Autio WR, McLandsborough LA. Effect of biofilm dryness on the transfer of Listeria monocytogenes biofilms grown on stainless steel to bologna and hard salami. J Food Prot, 2007, 70(11): 2480-2484.
7. Howell D, Behrends B. A review of surface roughness in antifouling coatings illustrating the importance of cutoff length. Biofouling, 2006, 22(5-6): 401-410.
8. Davies D. Understanding biofilm resistance to antibacterial agents. Nat Rev Drug Discov, 2003, 2(2): 114-122.
9. 裴斐, 李存福, 王睿. 细菌BF耐药屏蔽与相关感染的治疗. 中国新药杂志, 2003, 12(1): 19-22.
10. Lewis K. Persister cells and the riddle of biofilm survival. Biochemistry (Mosc), 2005, 70(2): 267-274.
11. Lambert PA. Mechanisms of antibiotic resistance in Pseudomonas aeruginosa. J R Soc Med, 2002, 95 (Suppl 41): 22-26.
12. McCoy WF, Bryers JD, Robbins J, et al. Observations of fouling biofilm formation. Can J Microbiol, 1981, 27(9): 910-917.
13. Costerton JW, Cheng KJ, Geesey GG, et al. Bacterial biofilms in nature and disease. Annu Rev Microbiol, 1987, 41: 435-464.
14. Costerton JW, Stewart PS, Greenberg EP. Bacterial biofilms: a common cause of persistent infections.
15. 陈迁, 王睿, 方向群, 等. 盐酸氟罗沙星对铜绿假单胞菌生物被膜的影响. 中国抗生素杂志, 1997, 22(6): 435-441.
16. Lyczak JB, Cannon CL, Pier GB. Establishment of Pseudomonas aeruginosa infection: lessons from a versatile opportunist. Microbes Infect, 2000, 2(9): 1051-1060.
17. Rasmussen TB, Bjarnsholt T, Skindersoe ME, et al. Screening for quorum-sensing inhibitors (QSI) by use of a novel genetic system, the QSI selector. J Bacteriol, 2005, 187(5): 1799-1814.
18. Limsuwan S, Voravuthikunchai SP. Boesenbergia pandurata (Roxb.) Schltr., Eleutherine americana Merr. and Rhodomyrtus tomentosa (Aiton) Hassk. as antibiofilm producing and antiquorum sensing in Streptococcus pyogenes. FEMS Immunol Med Microbiol, 2008 Jul 5. [Epub ahead of print].
19. Islam B, Khan SN, Haque I, et al. Novel anti-adherence activity of mulberry leaves: inhibition of Streptococcus mutans biofilm by 1-deoxynojirimycin isolated from Morus alba. J Antimicrob Chemother, 2008 Jun 18. [Epub ahead of print].
20. Kim JE, Kim HE, Hwang JK, et al. Antibacterial characteristics of Curcuma xanthorrhiza extract on Streptococcus mutans biofilm. J Microbiol, 2008, 46(2): 228-232.
21. 杨蓉美, 张玉兰. 小剂量红霉素对绿脓杆菌下呼吸道感染的作用. 实用临床医学, 2003, 4(3): 48-50.
22. 李惠萍, 余慧, 何国钧, 等. 红霉素对下呼吸道铜绿假单胞菌感染菌株生物被膜的影响. 中国抗感染化疗杂志, 2003, 3(4): 206-10.
23. 魏广兴. 克拉霉素联合加替沙星治疗慢性阻塞性肺疾病急性发作期铜绿假单胞菌感染.实用医学杂志, 2005, 21(7): 735-736.
24. 莫诚航, 尚为民, 邝敏, 等.小剂量红霉素治疗生物膜形成相关的慢性绿脓杆菌肺部感染的临床研究. 中国现代医药杂志, 2006, 8(10): 1-3.

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