Estimating the Proportion of Healthcare-Associated Infections That Are Reasonably Preventable and the Related Mortality and Costs

In a representative sample of US general hospitals, the authors found that the establishment of intensive infection surveillance and control programs was strongly associated with reductions in rates of nosocomial urinary tract infection, surgical wound infection, pneumonia, and bacteremia between 1970 and 1975-1976, after controlling for other characteristics of the hospitals and their patients. Essential components of effective programs included conducting organized surveillance and control activities and having a trained, effectual infection control physician, an infection control nurse per 250 beds, and a system for reporting infection rates to practicing surgeons. Programs with these components reduced their hospitals' infection rates by 32%. Since relatively few hospitals had very effective programs, however, only 6% of the nation's approximately 2 million nosocomial infections were being prevented in the mid-1970s, leaving another 26% to be prevented by universal adoption of these programs. Among hospitals without effective programs, the overall infection rate increased by 18% from 1970 to 1976.

The National Surgical Quality Improvement Project (NSQIP) has reduced morbidity rates in Veterans Affairs Hospitals. As the NSQIP methods move to private-sector hospitals, funding responsibilities will shift to the medical center. The objective of the current study was to calculate hospital costs associated with postoperative complications, because reducing morbidity may offset the costs of using the NSQIP. Patient data were obtained from a single private-sector center involved in the NSQIP from 2001 to 2002 (n=1,008). Cost data were derived from the hospital's internal cost-accounting database (TSI; Transitions Systems Inc). Total hospital costs associated with both minor complications and major complications were calculated. Multiple linear regression was used to determine the cost of each type of complication after adjusting for patient characteristics. Rates of minor complications (6.3%, 64 events) and major complications (6.6%, 67 events) were similar. Median hospital costs were lowest for patients without complications (4,487 dollars) compared with those with minor (14,094 dollars) and major complications (28,356 dollars) (p<0.001). After adjusting for differences in patient characteristics, major complications were associated with an increase of 11,626 dollars (95% CI, 9,419 dollars to 13,832 dollars; p<0.001). Minor complications were not associated with increased costs in the adjusted analysis. Given the substantial costs associated with major postoperative complications, reducing morbidity may provide sufficient cost savings to offset the resources needed to participate in the private-sector expansion of the NSQIP.

To determine whether a multifaceted systems intervention would eliminate catheter-related bloodstream infections (CR-BSIs). Prospective cohort study in a surgical intensive care unit (ICU) with a concurrent control ICU. The Johns Hopkins Hospital. All patients with a central venous catheter in the ICU. To eliminate CR-BSIs, a quality improvement team implemented five interventions: educating the staff; creating a catheter insertion cart; asking providers daily whether catheters could be removed; implementing a checklist to ensure adherence to evidence-based guidelines for preventing CR-BSIs; and empowering nurses to stop the catheter insertion procedure if a violation of the guidelines was observed. The primary outcome variable was the rate of CR-BSIs per 1,000 catheter days from January 1, 1998, through December 31, 2002. Secondary outcome variables included adherence to evidence-based infection control guidelines during catheter insertion. Before the intervention, we found that physicians followed infection control guidelines during 62% of the procedures. During the intervention time period, the CR-BSI rate in the study ICU decreased from 11.3/1,000 catheter days in the first quarter of 1998 to 0/1,000 catheter days in the fourth quarter of 2002. The CR-BSI rate in the control ICU was 5.7/1,000 catheter days in the first quarter of 1998 and 1.6/1,000 catheter days in the fourth quarter of 2002 (p = .56). We estimate that these interventions may have prevented 43 CR-BSIs, eight deaths, and 1,945,922 dollars in additional costs per year in the study ICU. Multifaceted interventions that helped to ensure adherence with evidence-based infection control guidelines nearly eliminated CR-BSIs in our surgical ICU.