基于体外臭氧的杀菌剂系统治疗大肠杆菌败血症的评估。

Evaluation of an extracorporeal ozone-based bactericide system for the treatment of Escherichia coli sepsis.

作者信息

Skorup Paul, Fransson Anette, Gustavsson Jenny, Sjöholm Johan, Rundgren Henrik, Özenci Volkan, Wong Alicia Y W, Karlsson Tomas, Svensén Christer, Günther Mattias

机构信息

Section of Infectious Diseases, Department of Medical Sciences, Uppsala University, Uppsala, Sweden.

Section for Experimental Traumatology, Department of Neuroscience, Karolinska Institutet, Biomedicum - 8B, 171 77, Stockholm, Sweden.

出版信息

Intensive Care Med Exp. 2022 Apr 25;10(1):14. doi: 10.1186/s40635-022-00443-w.

DOI:10.1186/s40635-022-00443-w

PMID:35467176

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9038973/

Abstract

BACKGROUND

Sepsis is associated with substantial mortality rates. Antibiotic treatment is crucial, but global antibiotic resistance is now classified as one of the top ten global public health risks facing humanity. Ozone (O) is an inorganic molecule with no evident function in the body. We investigated the bactericide properties of ozone, using a novel system of extracorporeal ozone blood treatment. We hypothesized that ozone would decrease the concentration of viable Escherichia coli (E. coli) in human whole blood and that the system would be technically feasible and physiologically tolerable in a clinically relevant model of E. coli sepsis in swine.

METHODS

The E. coli strain B09-11822, a clinical isolate from a patient with septic shock was used. The in vitro study treated E. coli infected human whole blood (n = 6) with ozone. The in vivo 3.5-h sepsis model randomized swine to E. coli infusion and ozone treatment (n = 5) or E. coli infusion and no ozone treatment (n = 5). Live E. coli, 5 × 10 colony-forming units (CFU/mL) was infused in a peripheral vein. Ozone treatment was initiated with a duration of 30 min after 1.5 h.

RESULTS

The single pass in vitro treatment decreased E. coli by 27%, mean 1941 to 1422 CFU/mL, mean of differences - 519.0 (95% CI - 955.0 to - 82.98, P = 0.0281). pO increased (95% CI 31.35 to 48.80, P = 0.0007), pCO decreased (95% CI - 3.203 to - 1.134, P = 0.0069), oxyhemoglobin increased (95% CI 1.010 to 3.669, P = 0.0113). Methemoglobin was not affected. In the sepsis model, 9/10 swine survived. One swine randomized to ozone treatment died from septic shock before initiation of the treatment. Circulatory, respiratory, and metabolic parameters were not affected by the ozone treatment. E. coli in arterial blood, in organs and in aerobic and anaerobic blood cultures did not differ. Hemoglobin, leucocytes, and methemoglobin were not affected by the treatment.

CONCLUSIONS

Ozone decreased the concentration of viable E. coli in human whole blood. The system was technically feasible and physiologically tolerable in porcine sepsis/septic shock and should be considered for further studies towards clinical applications.

摘要

背景

脓毒症与高死亡率相关。抗生素治疗至关重要，但全球抗生素耐药性现已被列为人类面临的十大全球公共卫生风险之一。臭氧（O₃）是一种在体内无明显功能的无机分子。我们使用一种新型的体外臭氧血液治疗系统研究了臭氧的杀菌特性。我们假设臭氧会降低人全血中活的大肠杆菌（E. coli）浓度，并且该系统在猪大肠杆菌脓毒症的临床相关模型中在技术上是可行的且生理上是可耐受的。

方法

使用从一名感染性休克患者分离出临床菌株大肠杆菌B09 - 11822。体外研究用臭氧处理感染大肠杆菌的人全血（n = 6）。在体内3.5小时脓毒症模型中，将猪随机分为接受大肠杆菌输注和臭氧治疗组（n = 5）或大肠杆菌输注且不进行臭氧治疗组（n = 5）。将5×10⁶菌落形成单位（CFU/mL）的活大肠杆菌注入外周静脉。在1.5小时后开始进行持续30分钟的臭氧治疗。

结果

单次体外治疗使大肠杆菌数量减少了27%，平均从1941 CFU/mL降至1422 CFU/mL，平均差异为 - 519.0（95%可信区间 - 955.0至 - 82.98，P = 0.0281）。氧分压（pO₂）升高（95%可信区间31.35至48.80，P = 0.0007），二氧化碳分压（pCO₂）降低（95%可信区间 - 3.203至 - 1.134，P = 0.0069），氧合血红蛋白增加（95%可信区间1.010至3.669，P = 0.0113）。高铁血红蛋白未受影响。在脓毒症模型中，10头猪中有9头存活。随机接受臭氧治疗的1头猪在治疗开始前死于感染性休克。循环、呼吸和代谢参数不受臭氧治疗影响。动脉血、器官以及需氧和厌氧血培养中的大肠杆菌无差异。血红蛋白、白细胞和高铁血红蛋白不受治疗影响。

结论

臭氧降低了人全血中活大肠杆菌的浓度。该系统在猪脓毒症/感染性休克模型中在技术上是可行的且生理上是可耐受的，应考虑进一步开展研究以用于临床应用。

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基于体外臭氧的杀菌剂系统治疗大肠杆菌败血症的评估。

Evaluation of an extracorporeal ozone-based bactericide system for the treatment of Escherichia coli sepsis.

作者信息

机构信息

出版信息

BACKGROUND

METHODS

RESULTS

CONCLUSIONS

背景

方法

结果

结论

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