Efficacy and safety treatment on crush syndrome dogs by using portable continuous blood purification machine in simulated seismic environment
BAI Bin1,2,FAN Haojun2,DING Hui2,SONG Jie2,LV Qi2,HOU Shike2
1.The Graduate shcool of Xinxiang Medical University,Xinxiang 453003 China; 2. The Institute for Rescue Medicine of Affiliated Hospital of Chinese People’s Armed Police Forces,Tianjin 300162, China
Abstract:Objective To study the efficacy and safety of continuous veno-venous hemofiltration(CVVH) therapy on the crush injury dog by using portable continuous blood purification machine(PCBPM) in the simulated seismic environment. Methods Eight healthy adult male dogs were crushed by animal extrusion equipment model and developed crush syndrome(CS) related acute kidney injury(AKI). The injured dogs were treated with PCBPM on the seismic simulation platform, the control of fluid replacement volume and dehydration accuracy of PCBPM were calculated, and breathing rate, heart rate, mean arterial pressure, anal temperature, serum creatinine, blood urea nitrogen, and electrolytes were measured. Results (1)The mean control of fluid replacement volume accuracy was 2.60%; the mean dehydration accuracy was 0.27%, the machine worked normally during the experiment. (2)Crushed by the weight 8 h, dogs developed crush syndrome and acute kidney injury,and after the treatment,the main physiological and biochemical indicators improved significantly (P<0.05), all dogs survived successfully. Conclusions Dogs suffering from CS related AKI can be cured safely and effectively by PCBPM in the simulated seismic environment.
Sever M S, Vanholder R. Management of crush victims in mass disasters: highlights from recently published recommendations[J]. Clinical Journal of the American Society of Nephrology, 2013,8(2):328-335.
[1]
Sever M S, Vanholder R. Management of crush victims in mass disasters: highlights from recently published recommendations[J]. Clinical Journal of the American Society of Nephrology, 2013,8(2):328-335.
[2]
Sever M S, Vanholder R, Lameire N. Management of crush-related injuries after disasters[J]. New England Journal of Medicine, 2006,354(10):1052-1063.
[2]
Sever M S, Vanholder R, Lameire N. Management of crush-related injuries after disasters[J]. New England Journal of Medicine, 2006,354(10):1052-1063.
Wei Q, Baihai S, Ping F, et al. Successful treatment of crush syndrome complicated with multiple organ dysfunction syndrome using hybrid continuous renal replacement therapy[J]. Blood Purif, 2009,28(3):175-180.
[5]
Wei Q, Baihai S, Ping F, et al. Successful treatment of crush syndrome complicated with multiple organ dysfunction syndrome using hybrid continuous renal replacement therapy[J]. Blood Purif, 2009,28(3):175-180.
Joannidis M. Continuous renal replacement therapy in sepsis and multisystem organ failure[J]. Semin Dial, 2009,22(2):160-164.
[7]
Joannidis M. Continuous renal replacement therapy in sepsis and multisystem organ failure[J]. Semin Dial, 2009,22(2):160-164.
[8]
Improving Global Outcomes(KDIGO)Actue Kidney Injury Work Group. Kidney Disease:KDIGO Clinical Practice Guideline for Acute Kidney Injury. Kidney Int, Supp, 2012,2:1.
[8]
Improving Global Outcomes(KDIGO)Actue Kidney Injury Work Group. Kidney Disease:KDIGO Clinical Practice Guideline for Acute Kidney Injury. Kidney Int, Supp, 2012,2:1.
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