N Fealy1, I Baldwin, R Bellomo. 1. Department of Intensive Care, Austin & Repatriation Medical Centre, Heidelberg, Victoria.
Abstract
OBJECTIVE: The term continuous veno-venous haemofiltration (CVVH) suggests a treatment without interruption. However, interruptions do occur and the duration of the haemofiltration circuit "down-time" may influence uraemic control. We conducted a prospective study to ascertain the percentage of operative "down-time" for CVVH in our intensive care unit and to test the hypothesis that it significantly affected uraemic control. PATIENTS AND METHODS: Prospective data measuring the time spent off the filter in ten patients receiving CVVH were collected. Continuous veno-venous haemofiltration was performed at 2 litres per hour of ultrafiltration. Anticoagulation was maintained using unfractionated heparin administered pre-filter and infused at a rate to achieve a systemic APTT varying between 30-45 seconds. The circuit functional life was documented for each CVVH circuit as progressive cumulative hours of operation. The time off treatment was calculated for each 24-hour period. These data were then correlated with the change in plasma urea and creatinine concentrations for each 24-hour cycle. The APTT, INR, haemoglobin and platelet count were measured and levels were correlated with the filter duration. RESULTS: Ninety three days of CVVH treatment were assessed in 4 female and 6 male patients. The mean circuit "down-time" in these patients for this period was 22% or 5.27 hours per day. The most common cause of circuit "down-time" was circuit clotting, followed by a need for radiological procedures, time spent in the operating theatre and catheter malfunction requiring replacement. There was a strong correlation between circuit "down-time" and increase in plasma urea (p = 0.0017) and creatinine (p = 0.0451) concentrations. Circuit "down-time" was also inversely correlated with the platelet count (p = 0.0048) but not significantly correlated with the APTT, INR or haemoglobin values. CONCLUSIONS: In our study the average daily duration of an interruption in CVVH (i.e. circuit "down-time") represented > 20% of the potential operative time. There was a strong correlation between time without treatment and solute control during CVVH. The percentage of "down-time" may be a useful marker of operative quality during CVVH.
OBJECTIVE: The term continuous veno-venous haemofiltration (CVVH) suggests a treatment without interruption. However, interruptions do occur and the duration of the haemofiltration circuit "down-time" may influence uraemic control. We conducted a prospective study to ascertain the percentage of operative "down-time" for CVVH in our intensive care unit and to test the hypothesis that it significantly affected uraemic control. PATIENTS AND METHODS: Prospective data measuring the time spent off the filter in ten patients receiving CVVH were collected. Continuous veno-venous haemofiltration was performed at 2 litres per hour of ultrafiltration. Anticoagulation was maintained using unfractionated heparin administered pre-filter and infused at a rate to achieve a systemic APTT varying between 30-45 seconds. The circuit functional life was documented for each CVVH circuit as progressive cumulative hours of operation. The time off treatment was calculated for each 24-hour period. These data were then correlated with the change in plasma urea and creatinine concentrations for each 24-hour cycle. The APTT, INR, haemoglobin and platelet count were measured and levels were correlated with the filter duration. RESULTS: Ninety three days of CVVH treatment were assessed in 4 female and 6 male patients. The mean circuit "down-time" in these patients for this period was 22% or 5.27 hours per day. The most common cause of circuit "down-time" was circuit clotting, followed by a need for radiological procedures, time spent in the operating theatre and catheter malfunction requiring replacement. There was a strong correlation between circuit "down-time" and increase in plasma urea (p = 0.0017) and creatinine (p = 0.0451) concentrations. Circuit "down-time" was also inversely correlated with the platelet count (p = 0.0048) but not significantly correlated with the APTT, INR or haemoglobin values. CONCLUSIONS: In our study the average daily duration of an interruption in CVVH (i.e. circuit "down-time") represented > 20% of the potential operative time. There was a strong correlation between time without treatment and solute control during CVVH. The percentage of "down-time" may be a useful marker of operative quality during CVVH.