Evaluation of different detector types in measurement of ATP bioluminescence compared to colony counting method for measuring bacterial burden of hospital surfaces

The ATP bioluminescence method has been increasingly employed as a rapid, on-site detection method in nosocomial infections control. In this study, we used a paired design of monitoring methods, the colony counting method (C) and the ATP bioluminescence method, to evaluate environmental surfaces aft...

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Veröffentlicht in:	PloS one 2019-09, Vol.14 (9), p.e0221665
Hauptverfasser:	Xu, Huiqiong, Liang, Jiansheng, Wang, Yimei, Wang, Bin, Zhang, Tianbao, Liu, Xiaoli, Gong, Lin
Format:	Artikel
Sprache:	eng
Schlagworte:	Adenosine triphosphate Adenosine Triphosphate - metabolism ATP Bacteria - isolation & purification Bacteria - metabolism Bacterial Physiological Phenomena Biology and Life Sciences Bioluminescence Care and treatment Colonies Colony Count, Microbial Community health care Correlation Correlation coefficient Correlation coefficients Cross infection Detection equipment Detectors Disease control Disease prevention Disinfection Disinfection & disinfectants Gram-positive bacteria Health services Hospitals Humans Infection Infection control Intensive care Intensive care units Internal medicine Luminescent Measurements Medical equipment Medical research Medicine Medicine and Health Sciences Methods Microorganisms Monitoring Monitoring methods Nosocomial infection Nosocomial infections Patient care Pest control Physical Sciences Research and Analysis Methods Safety and security measures Sensors Statistical analysis Statistical methods Statistical significance
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description	The ATP bioluminescence method has been increasingly employed as a rapid, on-site detection method in nosocomial infections control. In this study, we used a paired design of monitoring methods, the colony counting method (C) and the ATP bioluminescence method, to evaluate environmental surfaces after disinfection. The ATP bioluminescence method included three detector types (B, P, and N). Every surface after disinfection was performed by combining two types of monitoring methods or detectors. There was no statistically significant difference in theATP content per surface siteamong samples from intensive care units (ICUs)and internal medicine wards using B (p = 0.435) and P (p = 0.260). According to the Spearman's rank correlation coefficients, with the exception of the correlation between the ATP content values detected by B and P, the correlation between the values generated by the remaining methods/detectors was weak or lacking, whereasthe differences between the detectors were statistically significant. Therefore, there are differences between the ATP bioluminescence method and the colony counting method, also between different detectors.
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In this study, we used a paired design of monitoring methods, the colony counting method (C) and the ATP bioluminescence method, to evaluate environmental surfaces after disinfection. The ATP bioluminescence method included three detector types (B, P, and N). Every surface after disinfection was performed by combining two types of monitoring methods or detectors. There was no statistically significant difference in theATP content per surface siteamong samples from intensive care units (ICUs)and internal medicine wards using B (p = 0.435) and P (p = 0.260). According to the Spearman's rank correlation coefficients, with the exception of the correlation between the ATP content values detected by B and P, the correlation between the values generated by the remaining methods/detectors was weak or lacking, whereasthe differences between the detectors were statistically significant. 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In this study, we used a paired design of monitoring methods, the colony counting method (C) and the ATP bioluminescence method, to evaluate environmental surfaces after disinfection. The ATP bioluminescence method included three detector types (B, P, and N). Every surface after disinfection was performed by combining two types of monitoring methods or detectors. There was no statistically significant difference in theATP content per surface siteamong samples from intensive care units (ICUs)and internal medicine wards using B (p = 0.435) and P (p = 0.260). According to the Spearman's rank correlation coefficients, with the exception of the correlation between the ATP content values detected by B and P, the correlation between the values generated by the remaining methods/detectors was weak or lacking, whereasthe differences between the detectors were statistically significant. 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subjects	Adenosine triphosphate Adenosine Triphosphate - metabolism ATP Bacteria - isolation & purification Bacteria - metabolism Bacterial Physiological Phenomena Biology and Life Sciences Bioluminescence Care and treatment Colonies Colony Count, Microbial Community health care Correlation Correlation coefficient Correlation coefficients Cross infection Detection equipment Detectors Disease control Disease prevention Disinfection Disinfection & disinfectants Gram-positive bacteria Health services Hospitals Humans Infection Infection control Intensive care Intensive care units Internal medicine Luminescent Measurements Medical equipment Medical research Medicine Medicine and Health Sciences Methods Microorganisms Monitoring Monitoring methods Nosocomial infection Nosocomial infections Patient care Pest control Physical Sciences Research and Analysis Methods Safety and security measures Sensors Statistical analysis Statistical methods Statistical significance
title	Evaluation of different detector types in measurement of ATP bioluminescence compared to colony counting method for measuring bacterial burden of hospital surfaces
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