The power of vivid experience in hand hygiene compliance.

In recent years, explicit behavioural theories have been used in some research into hand hygiene behaviour. One of the most prominent of these has been the theory of planned behaviour (TPB). In this qualitative study aimed at increasing understanding of infection prevention practice in the acute care setting, TPB was identified as a suitable framework for the emergence of new insights that have the potential to improve the power of existing education and training. The theory emerging from the research was based on a finding that individual experience is of greater import than formal education in explaining hand hygiene behaviour. This indicated that exposure to vivid vicarious experience is a potential means to improving the power of existing training methods and increasing the propensity for instilling sustainable adequate hand hygiene habits.

Surgical-site infections after orthopaedic surgery: statewide surveillance using linked administrative databases.

Prospective surveillance programmes to monitor the incidence of surgical-site infection (SSI) in patients who have had orthopaedic implant surgery can be difficult to implement due to limited human and technical resources. In addition, prolonged patient follow-up, up to one year, may be required. Traditional methods of surveillance can be enhanced by using administrative databases to assist in case finding and facilitate overall surveillance activities. The aim of this study was to identify the incidence of SSI in patients who had undergone total hip replacement (THR) or total knee replacement (TKR) surgery in all Western Australian (WA) hospitals during 1999 using the Western Australian Data Linkage System. The WA Data Linkage System links several population-based administrative health datasets within the state, including the Hospital Morbidity Data System (HMDS), containing International Classification of Disease-coded discharge information, and mortality records. A total of 1476 THR and 1875 TKR procedures was identified from 21 WA hospitals during 1999. The incidence of SSI after these procedures was 5% (95% CI 4.3-5.7) [THR (4.86%, 95% CI 3.77-5.95) and TKR (5.15%, 95% CI 4.15-6.15)]. The incidence was 33.72 infections per 1000 person-years. Patients aged over 80 years experienced a significantly higher rate of infection after THR compared with patients aged 80 or less (z-test, z = 2.56, P = 0.015), but not for TKR. No patients with an SSI died during follow-up. The WA Data Linkage System provided a unique opportunity to review the incidence of SSIs in patients undergoing THR or TKR surgery in WA hospitals.

A comparison of two methods for identifying surgical site infections following orthopaedic surgery.

Many infection control practitioners (ICPs) dedicate a significant amount of time and resources to surveillance of surgical site infections (SSIs). Alternative surveillance methods need to be explored to reflect the changes to the healthcare system and the increasing economic constraints placed on infection control units. This study was undertaken to compare two methods of identifying SSIs in orthopaedic surgery. Surveillance data collected routinely by ICPs was compared with data obtained from the International Classification of Disease, 9th Revision, Clinical Modification (ICD-9-CM) coding in the medical record. Concordant results between the two methods were obtained. The use of ICD-9-CM coding, as stored in hospital patient administration system databases, has the ability to enhance routine surgical site surveillance programmes. These systems can be used as the basis for screening large data sets for SSIs and identifying where SSIs resulted in patient re-admission. A reduction in the duplication of data and time spent by the ICP on the collection of information for surveillance purposes can be achieved.

Outbreak of gentamicin-resistant Acinetobacter baumanii in an intensive care unit: clinical, epidemiological and microbiological features.

The clinical, epidemiological and microbiological features of an outbreak of infection and colonisation caused by gentamicin-resistant Acinetobacter baumanii (GRAB) in an 18-bed intensive care unit (ICU) of a 680-bed adult teaching hospital are described. A retrospective review of medical, laboratory and infection control records was followed by prospective surveillance. Typing of isolates was performed by restriction enzyme analysis (REA) of chromosomal DNA. The incidence of GRAB in the ICU increased from 1.26 cases per 1000 occupied bed days (OBDs) for January to June 1993, to 6.62 per 1000 OBDs for July to December 1993 (Chi square = 4.8, P < 0.05), confirming the existence of an outbreak. For the two year period, 1993 and 1994, a total of 45 cases of GRAB infection or colonisation was identified. Males and females were equally represented, with an age range of 16-79 years and a mean age of 51 years. Admitting diagnoses varied, with multiple trauma and head injury predominating (ten cases). For 35 of the 45 cases the initial site of GRAB isolation was sputum or other respiratory tract specimen. Specific treatment for GRAB was initiated in 23 patients, however no deaths were directly attributable to GRAB infection. The period of time between admission to the ICU and first isolation of GRAB ranged from three to 70 days with a median of nine days. Overall, ten (11%) of 91 staff hand samples and one of 37 (3%) environmental samples yielded GRAB. All GRAB isolates produced similar biochemical profiles and antibiotic resistance patterns, except for a group of five which were ciprofloxacin resistant. Thirty patient isolates, all ten staff hand isolates and the environmental isolate produced identical REA patterns. The remaining five patient isolates (all ciprofloxacin resistant) which were available for typing produced a different REA pattern. Our study has documented a moderate-sized outbreak of GRAB in an ICU setting. Typing of isolates using REA was useful in delineating outbreak strains. Carriage of GRAB on staff hands was demonstrated as the most likely source of infection. Despite institution of infection control measures GRAB now appears endemic in the ICU.

Bacterial contamination and frequency of changing ventilator circuitry.

A questionnaire sent to 40 intensive care units showed that ventilator circuits were changed every 24 h in 62% and every 48 h in 20% of the units. A similar survey in 40 special-care baby units showed that only 9.7% changed circuits daily and the majority were changed weekly (38.7%) or between patients (38.7%). A prospective study of bacterial contamination of circuits in adult patients showed that when water humidification was used, 28/72 samples from inspiratory and 31/72 from expiratory tubing were contaminated with Gram-negative bacilli. None of 48 sets of tubing was contaminated when a heat-moisture exchanger was used and only one expiratory tube was contaminated in tubing from 45 neonates using a water humidifier. Gram-negative bacilli were isolated from the mouths of 21/36 adults and 6/12 neonates, and also from 6/17 hands of staff after changing circuits. It is suggested that circuits with water humidification may be changed every 48 h in adult patients, and between patients or weekly in neonatal units or between patients if a heat-moisture exchanger is used. Handwashing after removal of a circuit is of major importance in the prevention of spread of infection.