摘要Objective:To evaluate the performance parameters of adenosine triphos-phat(ATP) bioluminescence detection technology in assessing surface cleanliness in surgical environments and on hand surfaces. Methods: Samples were collected from 20 orthopedic surgeons at five hand sites (fingertips, hypothenar eminence, thenar eminence, nail grooves of the index/middle fingers, and nail matrices) before and after handwashing. ATP bioluminescence assays and agar plate colony counting were performed to measure relative light unit(RLU) values and logarithmic total colony counts, respectively. Differences in RLU and colony counts across hand sites were compared. Linear regression analysis was conducted to assess the correlation between RLU values and log-transformed colony counts at each site. The water Raman signal-to-noise ratio(S/N) and detection limits were also determined. Results:A significant linear positive correlation was observed between RLU values and log colony counts on surgeons' hands, with the regression equation: y=-0.4580+0.127x(p<0.001, R2=0.947). The sodium fluorescein standard demonstrated a water Raman S/N of 935.67 and detection limits of 0.86-51.53 RFU, both exceeding blank controls, with a wide linear range. Conclusion: ATP bioluminescence technology exhibits high sensitivity and precision for evaluating hand surface cleanliness, showing strong linear correlation with colony counts. Its detection limits surpass conventional standards, making it a robust tool for surgical hygiene monitoring.
Abstract:Objective:To evaluate the performance parameters of adenosine triphos-phat(ATP) bioluminescence detection technology in assessing surface cleanliness in surgical environments and on hand surfaces. Methods: Samples were collected from 20 orthopedic surgeons at five hand sites (fingertips, hypothenar eminence, thenar eminence, nail grooves of the index/middle fingers, and nail matrices) before and after handwashing. ATP bioluminescence assays and agar plate colony counting were performed to measure relative light unit(RLU) values and logarithmic total colony counts, respectively. Differences in RLU and colony counts across hand sites were compared. Linear regression analysis was conducted to assess the correlation between RLU values and log-transformed colony counts at each site. The water Raman signal-to-noise ratio(S/N) and detection limits were also determined. Results:A significant linear positive correlation was observed between RLU values and log colony counts on surgeons' hands, with the regression equation: y=-0.4580+0.127x(p<0.001, R2=0.947). The sodium fluorescein standard demonstrated a water Raman S/N of 935.67 and detection limits of 0.86-51.53 RFU, both exceeding blank controls, with a wide linear range. Conclusion: ATP bioluminescence technology exhibits high sensitivity and precision for evaluating hand surface cleanliness, showing strong linear correlation with colony counts. Its detection limits surpass conventional standards, making it a robust tool for surgical hygiene monitoring.
CHEN Xiong, WANG Tao, LIN Zhen, XIE Zhi-min, CHEN Xiang. Study on Performance Parameters of ATP Bioluminescence Detection Technology for Hand Surface Cleanliness[J]. 中国生物医学工程学报(英文版), 2024, 33(4): 153-157.
CHEN Xiong, WANG Tao, LIN Zhen, XIE Zhi-min, CHEN Xiang. Study on Performance Parameters of ATP Bioluminescence Detection Technology for Hand Surface Cleanliness. Chinese Journal of Biomedical Engineering, 2024, 33(4): 153-157.
[1] Hillier MD.Using effective hand hygiene practice to prevent and control infection[J]. Nurs Stand,2020,35(5): 45-50. [2] Masia MD, Dettori M, Deriu GM, et al.ATP bioluminescence for assessing the efficacy of the manual cleaning procedure during the reprocessing of reusable surgical instruments[J]. Healthcare (Basel),2021,9(3): 352. [3] Ishimaru M,Noda H,Matsumoto E,et al.Comparative study of rapid ATP bioluminescence assay and conventional plate count method for development of rapid disinfecting activity test[J]. Luminescence,2021,36(3): 826-833. [4] Alverdy JC, Hyman N, Gilbert J.Re-examining causes of surgical site infections following elective surgery in the era of asepsis[J]. Lancet Infect Dis,2020,20(3): e38-e43. [5] Lotfinejad N, Peters A, Tartari E, et al.Hand hygiene in health care: 20 years of ongoing advances and perspectives[J]. Lancet Infect Dis,2021,21(8):e209-e221. [6] Zhang Y, Liu B, Tong Z.Adenosine triphosphate (ATP) bioluminescence-based strategies for monitoring atmospheric bioaerosols[J]. J Air Waste Manag Assoc,2022,72(12):1327-1340. [7] Puig-Collderram B, Domene-Ochoa S, Salvà-Comas M, et al.ATP bioluminescence assay to evaluate antibiotic combinations against extensively drug-resistant(XDR) pseudomonas aeruginosa[J]. Microbiol Spectr, 2022,10(4):e0065122. [8] Niephaus V, Parohl N, Heiligtag S,et al.Can the adenosine triphosphate (ATP) bioluminescence assay be used as an indicator for hospital cleaning?-A pilot study[J]. GMS Hygiene and Infection Control,2024,10(19):1-10.
