[1] FANG W F, YANG K Y, WU C L, et al. Application and comparison of scoring indices to predict outcomes in patients with healthcare-associated pneumonia[J]. Crit Care, 2011, 15(1):32. [2] AURITI C, RONCHETTI M P, PEZZOTTI P, et al. Determinants of nosocomial infection in 6 neonatal intensive care units: an Italian multicenter prospective cohort study [J]. Infect Control Hosp Epidemiol, 2013,31(9):926-933. [3] SMITH T C, MORITZ E D, LEEDOM LARSON K R, et al. The environment as a factor in methicillin-resistant Staphylococcus aureus transmission [J]. Rev Environ Health, 2010, 25(2):121-134. [4] UHLEMANN A C, KNOX J, MILLER M, et al. The environment as an unrecognized reservoir for community-associated methicillin resistant Staphylococcus aureus USA300: a case-control study[J]. PLoS One, 2011, 6(7):e22407. [5] RUTALA W A, WEBER D J. The healthcare infection control practices advisory committee. Guideline for disinfection and sterilization in healthcare facilities [S]. 2008. [6] National patient safety agency. The Revised Healthcare Cleaning Manual[S]. 2009. [7] 王妮.超细纤维的生产和应用[J].棉纺织技术, 2001,29(7):411-414. [8] LEE J, FEARING R S. Wet self-cleaning of superhydrophobic microfiber adhesives formed from high density polyethylene [J]. Langmuir, 2012, 28(43):15372-15377. [9] 陈丽华.超细纤维毛巾织物的结构和吸水性分析[J].纺织工业,2005(6):59-61. [10] NILSEN S K, DAHL I, JORGENSEN O, et al. Micro-fibre and ultra-micro-fibre cloths, their physical characteristics, cleaning effect, abrasion on surfaces, friction, and wear resistance[J]. Build Environ, 2002(37):1373-1378. [11] RUTALA W A, GERGEN M F, WEBER D J. Microbiologic evaluation of microfiber mops for surface disinfection[J]. Am J Infect Control, 2007, 35(9):569-573. [12] MOORE G, SMYTH D, SINGLETON J, et al. The use of adenosine triphosphate bioluminescence to assess the efficacy of a modified cleaning program implemented within an intensive care setting[J]. Am J Infect Control, 2010,38(8):617-622. [13] WREN M W, ROLLINS M S, JEANES A, et al. Removing bacteria from hospital surfaces: a laboratory comparison of ultramicrofibre and standard cloths [J]. J Hosp Infect, 2008,70(3):265-271. [14] ENGELBRECHT K, AMBROSE D, SIFUENTES L, et al. Decreased activity of commercially available disinfectants containing quaternary ammonium compounds when exposed to cotton towels [J]. Am J Infect Control, 2013, 41(10):908-911. [15] MACDOUGALL K D, MORRIS C. Optimizing Disinfectant Application in Healthcare Facilities[M].Arizona, United State:Virgo publishing, 2006. [16] Environmental protection agency. Using microfiber mops in hospitals environmental best practices for health care facilities[S]. 2002. [17] GILLESPIE E, LOVEGROVE A, KOTSANAS D. Health care workers use disposable microfiber cloths for cleaning clinical equipment [J]. Am J Infect Control, 2015,43(3):308-309. [18] GILLESPIE E, WILLIAMS N, SLOANE T, et al. Using microfiber and steam technology to improve cleaning outcomes in an intensive care unit [J]. Am J Infect Control, 2015, 43(2): 177-179. [19] ABERNETHY M, GILLESPIE E, SNOOK K,et al. Microfiber and steam for environmental cleaning during an outbreak [J]. Am J Infect Control, 2013, 41(11):1134-1135. [20] EGERT M, SPÄTH K, WEIK K, et al. Bacteria on smartphone touchscreens in a German university setting and evaluation of two popular cleaning methods using commercially available cleaning products [J]. Folia Microbiol (Praha), 2015, 60(2):159-164. [21] GIBSON K E, CRANDALL P G, RICKE S C. Removal and transfer of viruses on food contact surfaces by cleaning cloths [J]. Appl Environ Microbiol, 2012, 78(9):3037-3044. [22] 秦晓,王秋美.超细纤维洁净布及其清洁效果的评价[J].现代纺织技术, 2006(4):51-53. [23] MOORE G, GRIFFITH C. A laboratory evaluation of the decontamination properties of microfibre cloths[J]. J Hosp Infect, 2006, 64(4):379-385. [24] DIAB-ELSCHAHAWI M, ASSADIAN O, BLACKY A, et al. Evaluation of the decontamination efficacy of new and reprocessed microfiber cleaning cloth compared with other commonly used cleaning cloths in the hospital[J]. Am J Infect Control, 2010, 38(4):289-292.