To investigate the impact of 1-week ventilator circuit change on ventilator-associated pneumonia and its cost-effectiveness compared with a 2-day change.

An observational cohort study.

A tertiary level neonatal intensive care unit in a university-affiliated teaching hospital in Taiwan.

All neonates in the neonatal intensive care unit receiving invasive intubation for more than 1 week from July 1, 2011, through December 31, 2013.

We investigated the impact of 2 ventilator circuit change regimens, either every 2 days or 7 days, on ventilator-associated pneumonia of our cohort.

A total of 361 patients were maintained on mechanical ventilators for 13,981 days. The 2 groups did not differ significantly in any demographic characteristics. The rate of ventilator-associated pneumonia was comparable between the 2-day group and the 7-day group (8.2 vs 9.5 per 1,000 ventilator-days, P=.439). The durations of mechanical ventilation and hospital stay, and rates of bloodstream infection and mortality, were also comparable between the 2 groups. Switching from a 2-day to a 7-day change policy would save our neonatal intensive care unit a yearly sum of US $29,350 and 525 working hours.

Decreasing the frequency of ventilator circuit changes from every 2 days to once per week is safe and cost-effective in neonates requiring prolonged intubation for more than 1 week.

Infect Control Hosp Epidemiol 2014;00(0): 1–7

To identify the prevalence and risk factors for complications associated with percutaneously inserted central venous catheters (PICCs) and evaluate the effect of different catheter types and their indwelling time on catheter-related complications.

Retrospective cohort study.

A 49-bed neonatal intensive-care teaching hospital in Taiwan.

Between 2004 and 2007, 518 single-lumen PICCs (defined as “old type”) and 290 PICCs with a stiffening stylet and a thicker introducer (“new type”) were inserted in a total of 534 neonates with a birth body weight of 1,500 g or less.

Independent risk factors of catheter-related sepsis (CRS) were longer duration for PICC placement and PICC inserted at femoral site (compared with nonfemoral sites) (odds ratio [OR], 1.53 [95% confidence interval {CI}, 1.07-2.25]; P = .044). An independent predictor of catheter-related noninfectious complications was time spent for PICC insertion of more than 60 minutes (compared with less than 30 minutes) (OR, 1.96 [95% CI, 1.08-3.53]; P = .026). New-type PICCs were significantly associated with a higher rate of femoral site insertion, catheter-related noninfectious complications, and longer time for successful insertion than old-type PICCs. The hazard rates of CRS according to indwelling time, determined over 5-day periods by survival analysis, showed 0.05% for catheters in place for 4 days or less; 0.27% for 5-9 days; 0.40% for 10-14 days; 0.68% for 15-19 days; 1.18% for 20-24 days; 3.96% for 25-29 days; and 10.45% for 30 or more days.

Different catheters do influence the complication rates. Spending more than 60 minutes for successful PICC insertion and PICCs indwelling for more than 30 days are associated with higher rates of catheter-related complications.