Device-associated nosocomial infection rates in intensive care units in four Mexican public hospitals

BACKGROUND: Routine surveillance of nosocomial infections has become an integral part of infection control and quality assurance in US hospitals. METHODS: As part of the International Nosocomial Infection Control Consortium, we performed a prospective nosocomial infection surveillance cohort study in 5 adult intensive care units of 4 Mexican public hospitals using the Centers for Disease Control and Prevention National Nosocomial Infections Surveillance system definitions. Site-specific nosocomial infection rates were calculated. RESULTS: The overall nosocomial infection rate was 24.4% (257/1055) and 39.0 (257/6590) per 1000 patient days. The most common infection was catheter-associated bloodstream infection, 57.98% (149/257), followed by ventilator-associated pneumonia, 20.23% (52/257), and catheter-associated urinary tract infection, 21.79% (56/257). The overall rate of catheter-associated bloodstream infections was 23.1 per 1000 device-days (149/6450); ventilator-associated pneumonia rate was 21.8 per 1000 device-days (52/2390); and catheter-associated urinary tract infection rate was 13.4 per 1000 device-days (56/4184). CONCLUSION: Our rates are similar to other hospitals of Latin America and higher than US hospitals.     

Nosocomial infections in medical-surgical intensive care units in Argentina: attributable mortality and length of stay

BACKGROUND: Nosocomial infections are an important public health problem in many developing countries, particularly in the intensive care unit (ICU). Limited data exists on the incidence and burden of nosocomial infection in the ICU in Argentina. METHODS: We performed baseline prospective nosocomial infection surveillance of all patients for 6 months in 3 medical-surgical ICUs (MS-ICUs) in Argentina (2 months in each ICU). Nosocomial infections were identified using the Centers for Disease Control and Prevention National Nosocomial Infections Surveillance definitions. Overall and site-specific nosocomial infection rates, attributable mortality, and excess length of hospital stay were calculated. RESULTS: The overall nosocomial infection rate was 27% and 90 per 1000 patient-days. The most common site of infection was catheter-related bloodstream infection (32%), followed by ventilator-associated pneumonia (25%), and catheter-associated urinary tract infection (23%). The rate of central catheter-associated bloodstream infection in the MS-ICU was 44.61 per 1000 device-days, with an attributable mortality of 25%, and 12 attributable extra days of hospital stay. The urinary catheter-associated urinary tract infection rate in the MS-ICU was 22.55 per 1000 urinary catheter-days, with an attributable mortality of 5%, and 5 excess extra days of hospital stay. The ventilator-associated pneumonia rate in the MS-ICU was 50.87 per 1000 ventilator-days with an attributable mortality of 35%, and 10 attributable extra days of hospitalization. CONCLUSION: Our study finds high rates of nosocomial infections in ICUs in Argentina, associated with a considerable attributable mortality and excess length of stay. Ongoing targeted surveillance and implementation of infection control strategies is necessary to control this growing problem.     

Nosocomial infection in a neonatal intensive care unit: a prospective study in Taiwan

BACKGROUND: We performed a prospective analysis to determine the prevalence of nosocomial infection and associated risk factors in our neonatal intensive care unit (NICU). METHODS: Data were collected prospectively on underlying diagnoses, therapeutic interventions/treatments, infections, and outcomes at 9 am every day from November 2004 through October 2005. Prevalence of nosocomial infection and infection site definitions were according to the National Nosocomial Infections Surveillance system of the Centers for Disease Control and Prevention. RESULTS: Among 528 infants enrolled, 60 (11.4%) had 97 nosocomial infections. The survival rate was 92%. The prevalence of nosocomial infections was 17.5%: bloodstream infection, 4.7%, clinical sepsis, 6.3%, pneumonia, 5.1%, urinary tract infections (UTIs), 0.7%, surgical site infection, 0.7%. Intervention-associated infection rate: central intravascular catheter-associated bloodstream infection, 13.7%, TPN-associated bloodstream infection, 15.8%, ventilator-associated pneumonia, 18.6%, surgical site infection 13.7%, urinary catheter-associated UTI, 17.3%. Cut-off values of onset of central intravascular catheter-associated bloodstream infection and ventilator-associated pneumonia were 6 days and 10 days after intervention, respectively. Patients with a birth weight <1000 g (relative risk, 11.8, 95% confidence interval, 7.66-18.18; P < .001) were at the greatest risk for nosocomial infection. CONCLUSIONS: This study revealed the high prevalence of nosocomial infections in NICU patients, and the urgent need for a national surveillance and more effective prevention interventions.     

Incidence and outcome of nosocomial infections in female burn patients in Shiraz, Iran

BACKGROUND: Burn patients are at risk for acquiring infection because of their destroyed skin barrier and suppressed immune system, compounded by prolonged hospitalization and invasive therapeutic and diagnostic procedures. Most studies on infection in burn patients focus on burn wound infection, whereas other nosocomial infections in this patient group are not described well. OBJECTIVE: This study attempts to assess the incidence of nosocomial infection in the Ghotbeddin burn center of Shiraz. METHODS: The study was conducted prospectively during a period of 11 months from December 2000 to November 2001. All patients presenting with no signs and symptoms of infection within the first 48 hours of admission were included and examined for detecting 4 types of nosocomial infection: burn infection, urinary tract infection, pneumonia, and bloodstream infection. Centers for Disease Control and Prevention National Nosocomial Infection Surveillance system criteria were applied. RESULTS: One hundred six female patients met the inclusion criteria. Ninety-one (85.8%) acquired at least 1 infection (44.7 per 1000 patient-days), including 91 with burn infection, 28 with urinary tract infection, 56 with pneumonia, and 30 with bloodstream infection, which gives 446.7, 137.5, and 275, and 147.3 infections per 1000 patient-days, respectively. CONCLUSIONS: Considering the high incidence of nosocomial infections in our center, implementation of improved infection control practices and policies is required, and a comprehensive education campaign for all health care workers is urgently needed.     

Surgical site infections in patients undergoing major operations in a university hospital: using standardized infection ratio as a benchmarking tool

BACKGROUND: Because patterns of infection acquired in patients undergoing operation are ever changing, it is an essential part of nosocomial infection surveillance programs to periodically document the epidemiologic features of infection in these patients. This study was conducted with the primary intention of describing the incidence and risk factors of the surgical site infection (SSI). METHODS: We performed a prospective study in patients undergoing certain major operations at a 750-bed university hospital in Thailand. The National Nosocomial Infection Surveillance (NNIS) system method and criteria were used for identifying and diagnosing infection. The infection rates were benchmarked with the NNIS report by means of indirect standardization and reported in terms of standardized infection ratio. Risk factors for SSI were evaluated using the multiple logistic regression model. RESULTS: From September 1998 to March 2000, the study included 4193 patients with 4437 major operations. The study identified 192 SSIs, 76 urinary catheter-related urinary tract infections, 26 central line-related bloodstream infections, and 39 instances of ventilator-associated pneumonia (VAP), yielding an infection rate of 4.3 SSIs/100 operations, 11.0 catheter-related urinary tract infections/1000 urinary catheter-days, 6.1 central line-related bloodstream infections/1000 central line-days, and 11.0 VAPs/1000 ventilator-days. When compared with data from NNIS, the standardized infection ratio of SSI, catheter-related urinary tract infection, central line-related bloodstream infection, and VAP were 2.3, 2.1, 1.1, and 0.8, respectively. The factors that significantly associated with SSI were duration of operation in minutes, American Society of Anesthesiologists (ASA) class, and degree of wound contamination. CONCLUSION: All of the infection rates identified, except VAP, were higher than the average NNIS rates. The risk factors for SSI were prolonged duration of operation, poor physical status according to ASA classification, and higher degree of wound contamination.     

Nosocomial infections in the intensive care units at a university hospital in a developing country: comparison with National Nosocomial Infections Surveillance intensive care unit rates

OBJECTIVE: As a measure of the quality of care provided to patients in the intensive care unit, comparison of nosocomial infection rates with those of the National Nosocomial Infection surveillance was completed during a 3-year observation period. DESIGN: The study design was a prospective study during 3 years between 1993 and 1995. During that period, patients at the medical/surgical and neurosurgical intensive care units and the high-risk nursery were surveyed for nosocomial infections. Device use, bloodstream infection, urinary tract infection, and ventilator-associated pneumonia nosocomial infection rates were calculated and compared with the National Nosocomial Infection Surveillance published rates for the same period. SETTING: The study setting was the medical/surgical intensive care unit, the neurosurgical intensive care unit, and the high-risk nursery at the Jordan University Hospital. RESULTS: Overall infection rates were 17.2 per 100 patients in the medical/surgical intensive care unit, 14.2 to 18.5 per 100 patients in the neurosurgical intensive care unit, and 13.4 to 73.5 per 100 patients in the high-risk nursery. When compared with the weight of the infants, these rates were 61.9 to 94 per 100 in infants weighing <1500 g, 26 to 30.8 per 100 patients in infants weighing >1500 g to 2500 g, and 11.7 to 14.4 per 100 in infants weighing >2500 g. Whereas device use was moderate, bloodstream infection and ventilator-associated pneumonia rates were >90th percentile for National Nosocomial Infection Surveillance in the high-risk nursery, and urinary tract infection was >90th percentile in the medical/surgical and neurosurgical intensive care units. Nosocomial infections at the intensive care units in developing countries need further investigation and control.     

Infección nosocomial en las unidades de cuidados intensivos

Nosocomial infections (NI) still have a high incidence in intensive care units (ICUs), and are becoming one of the most important problems in these units. It is well known that these infections are a major cause of morbidity and mortality in critically ill patients, and are associated with increases in the length of stay and excessive hospital costs. Based on the data from the ENVIN-UCI study, the rates and aetiology of the main nosocomial infections have been described, and include ventilator-associated pneumonia, urinary tract infection, and both primary and catheter related bloodstream infections, as well as the incidence of multidrug-resistant bacteria. A literature review on the impact of different nosocomial infections in critically ill patients is also presented. Infection control programs such as zero bacteraemia and pneumonia have been also analysed, and show a significant decrease in NI rates in ICUs.     

Nosocomial infections in adult patients undergoing extracorporeal membrane oxygenation.

The use of extracorporeal membrane oxygenation (ECMO) for adult patients has increased in recent years. A retrospective cohort study of adult patients undergoing ECMO was performed between 19 February 1985 and 10 October 1995 to evaluate nosocomial infections. Seventy-one evaluable patients underwent ECMO for a total of 799 days. Forty-six infections were identified in 32 (45%) of 71 patients. There were 15 bloodstream infections, 13 lower respiratory infections, 11 urinary tract infections, and 7 miscellaneous infections. The rates of bloodstream infection (18.8 cases per 1,000 ECMO days) and urinary tract infection (13.8 cases per 1,000 ECMO days) were significantly higher than those reported through the Centers for Disease Control and Prevention / National Nosocomial Infection Surveillance System (P < .0001 and P < .001, respectively). The rate of bloodstream infection increased with the duration of ECMO cannulation. This study highlights the increased risk for nosocomial infections in this patient population. Infection may not be apparent, and increased physician awareness of infection risk is imperative.     

Efficacy of surveillance in nosocomial infection control in a surgical service

OBJECTIVE: The purpose of this study was to assess the efficacy of surveillance of nosocomial infection in infection control at a service of general surgery. DESIGN: A surveillance study that included 1483 patients with a prospective identification of nosocomial infection was carried out. Its results were discussed with the staff, and a program on nosocomial infection control was implemented. One year after the pre-intervention study, a similar study that included 1506 patients was done. The main outcome measure was nosocomial infection. Incidence rates, incidence rate ratios, crude and multiple-risk factor adjusted for by Poisson regression analysis, and their 95% confidence interval rates were estimated. RESULTS: The characteristics of the patients enrolled in both studies were compared. After the intervention, the trend was to attend patients with more severe conditions: higher frequency of liver failure, chronic obstructive lung disease, higher proportion of dirty surgical wounds, and higher scores of both Study on the Efficacy of Nosocomial Infection Control (SENIC) and National Nosocomial Infections Surveillance indices. There were no significant differences in emergency surgery, duration of surgery, age, and sex. After the intervention, unnecessary chemoprophylaxis was drastically reduced, and a significant reduction in preoperative stay was observed. The nosocomial incidence rate fell from 18.4 to 14 per 1000 patient-days. This reduction yielded an incidence rate ratio of 0.56 (95% confidence interval, 0.43%-0.74%) adjusted for several variables (SENIC index, serum creatinine level, serum albumin level, antihistamine H2 level, surgical wound, body mass index, chemoprophylaxis, and community-acquired infection). Significant reductions in surgical site infection and urinary tract infection were observed, but the rate of respiratory tract infection remained unchanged. CONCLUSIONS: Surveillance was effective in reducing nosocomial infection.     

Nosocomial infection after lung surgery: incidence and risk factors

STUDY OBJECTIVES: To assess the incidence and risk factors for nosocomial infection after lung surgery. DESIGN: Prospective cohort study. SETTING: Service of thoracic surgery of an acute-care teaching hospital in Santander, Spain. PATIENTS: Between June 1, 1999, and January 31, 2001, all consecutive patients undergoing lung surgery were prospectively followed up for 1 month after discharge from the hospital to assess the development of nosocomial infection, the primary outcome of the study. INTERVENTIONS: During the hospitalization period, patients were visited on a daily basis. Postdischarge surveillance was based on visits to the surgeon. MEASUREMENTS AND RESULTS: We studied 295 patients (84% men; mean age, 60.9 years), 89% of whom underwent resection operations. Ninety episodes of nosocomial infection were diagnosed in 76 patients, including pneumonia (n = 10), lower respiratory tract infection (n = 47), wound infection (n = 16; one third were detected after hospital discharge), urinary tract infection (n = 9), and bacteremia (n = 8; three fourths were catheter-related bacteremia). Twenty patients had severe infections (pneumonia or empyema), with a mortality rate of 60%. COPD (adjusted odds ratio [OR], 2.70; 95% confidence interval [CI], 1.52 to 4.84), duration of surgery with an increased risk for each additional minute (Mantel-Haenzel chi(2) test for trend, p = 0.037), and ICU admission (OR, 3.69; 95% CI, 1.94 to 7.06) were independent risk factors for nosocomial infection. The use of an epidural catheter was a protective factor (OR, 0.45; 95% CI, 0.22 to 0.95). There were no differences according to the use of amoxicillin/clavulanate or cefotaxime for surgical prophylaxis. CONCLUSIONS: Nosocomial infections are common after lung surgery. One third of wound infections were detected after hospital discharge. The profile of a high-risk patient includes COPD as underlying disease, prolonged operative time, and postoperative ICU admission.     

Nosocomial infections in critically ill infectious disease patients: Results of a 7-year focal surveillance

Summary An incidence study on nosocomial infections in critically ill infectious disease patients was carried out in the intensive care unit (ICU) of a university hospital for infectious diseases over a 7-year period (1 January 1990 to 31 December 1996). A total 660 patients who stayed in the ICU for over 48 h were prospectively observed. The patients were divided into two groups: one with central nervous system infections (442 patients) and the other with other severe infections (218 patients). The risk of nosocomial sepsis and pneumonia was significantly higher in patients suffering from severe central nervous system infections. The incidence of sepsis was 24.2% vs 11.4% (relative risk 1.95; 95% confidence interval 1.32–2.89); the incidence of pneumonia was 30.5% vs 14.7% (relative risk 2.09; 95% confidence interval 1.47–2.96). The incidence of urinary tract infection was 14.3% vs 13.3% (relative risk 1.07; 95% confidence interval 0.71–1.61). Density rates of nosocomial septic episodes were 21.1±37.1 vs 11.7±32.4 episodes/100 central venous-line days (P<0.006). Nosocomial pneumonia occurred only in mechanically ventilated patients (36.9±61.2 vs 28.5±65.8 episodes per 1000 ventilatory days, P=0.012). Nosocomial urinary tract infection occurred only in patients with urinary catheters (11.6±60.7 episodes/1000 urinary catheter days vs 18.7±90.1, P=0.886). Multivariate regression analysis identified age, diagnosis of CNS infection, duration of urinary tract catheterization, the use of central venous lines and mechanical ventilation as independent risk factors of nosocomial sepsis. Duration of mechanical ventilation, use of steroids and diagnosis of CNS infection were independent risk factors of nosocomial pneumonia. A subanalysis identified tetanus patients to be at particular risk of nosocomial infections.     

Retrospective analysis of nosocomial infections in the intensive care unit of a tertiary hospital in China during 2003 and 2007

Background

Nosocomial infections are a major threat to patients in the intensive care unit (ICU). Limited data exist on the epidemiology of ICU-acquired infections in China. This retrospective study was carried out to determine the current status of nosocomial infection in China.

Methods

A retrospective review of nococomial infections in the ICU of a tertiary hospital in East China between 2003 and 2007 was performed. Nosocomial infections were defined according to the definitions of Centers for Disease Control and Prevention. The overall patient nosocomial infection rate, the incidence density rate of nosocomial infections, the excess length of stay, and distribution of nosocomial infection sites were determined. Then, pathogen and antimicrobial susceptibility profiles were further investigated.

Results

Among 1980 patients admitted over the period of time, the overall patient nosocomial infection rate was 26.8% or 51.0 per 1000 patient days., Lower respiratory tract infections (LRTI) accounted for most of the infections (68.4%), followed by urinary tract infections (UTI, 15.9%), bloodstream (BSI, 5.9%), and gastrointestinal tract (GI, 2.5%) infections. There was no significant change in LRTI, UTI and BSI infection rates during the 5 years. However, GI rate was significantly decreased from 5.5% in 2003 to 0.4% in 2007. In addition, A. baumannii, C. albicans and S. epidermidis were the most frequent pathogens isolated in patients with LRTIs, UTIs and BSIs, respectively. The rates of isolates resistant to commonly used antibiotics ranged from 24.0% to 93.1%.

Conclusion

There was a high and relatively stable rate of nosocomial infections in the ICU of a tertiary hospital in China through year 2003–2007, with some differences in the distribution of the infection sites, and pathogen and antibiotic susceptibility profiles from those reported from the Western countries. Guidelines for surveillance and prevention of nosocomial infections must be implemented in order to reduce the rate.     

International Nosocomial Infection Control Consortium (INICC) report, data summary of 36 countries, for 2004-2009

The results of a surveillance study conducted by the International Nosocomial Infection Control Consortium (INICC) from January 2004 through December 2009 in 422 intensive care units (ICUs) of 36 countries in Latin America, Asia, Africa, and Europe are reported. During the 6-year study period, using Centers for Disease Control and Prevention (CDC) National Healthcare Safety Network (NHSN; formerly the National Nosocomial Infection Surveillance system [NNIS]) definitions for device-associated health care-associated infections, we gathered prospective data from 313,008 patients hospitalized in the consortium's ICUs for an aggregate of 2,194,897 ICU bed-days. Despite the fact that the use of devices in the developing countries' ICUs was remarkably similar to that reported in US ICUs in the CDC's NHSN, rates of device-associated nosocomial infection were significantly higher in the ICUs of the INICC hospitals; the pooled rate of central line-associated bloodstream infection in the INICC ICUs of 6.8 per 1,000 central line-days was more than 3-fold higher than the 2.0 per 1,000 central line-days reported in comparable US ICUs. The overall rate of ventilator-associated pneumonia also was far higher (15.8 vs 3.3 per 1,000 ventilator-days), as was the rate of catheter-associated urinary tract infection (6.3 vs. 3.3 per 1,000 catheter-days). Notably, the frequencies of resistance of Pseudomonas aeruginosa isolates to imipenem (47.2% vs 23.0%), Klebsiella pneumoniae isolates to ceftazidime (76.3% vs 27.1%), Escherichia coli isolates to ceftazidime (66.7% vs 8.1%), Staphylococcus aureus isolates to methicillin (84.4% vs 56.8%), were also higher in the consortium's ICUs, and the crude unadjusted excess mortalities of device-related infections ranged from 7.3% (for catheter-associated urinary tract infection) to 15.2% (for ventilator-associated pneumonia).     

Nosocomial infections in U.S. hospitals, 1975–1976: Estimated frequency by selected characteristics of patients

To obtain estimates of the frequency of nosocomial infections nationwide, those occurring at the four major sites—urinary tract, surgical wound, lower respiratory tract and bloodstream—were diagnosed in a stratified random sample of 169,526 adult, general medical and surgical patients selected from 338 hospitals representative of the “mainstream” of U.S. hospitals. We estimate that in the mid-1970s one or more infections developed in 5.23 percent (± 0.16) of the patients and that 6.62 (± 0.24) infections occurred among every 100 admissions. Risks were significantly related to age, sex, service, duration of total and of preoperative hospitalization, presence of previous nosocomial or community-acquired infection, types of underlying illnesses and operations, duration of surgery, and treatment with urinary catheters, continuous ventilatory support or immunosuppressive medications. Seventy-one percent of the nosocomial infections occurred in the 42 percent of patients undergoing surgery and 56 percent in the 38 percent financed by Medicare, Medicaid or other public health care plans.     

SMART approaches for reducing nosocomial infections in the ICU

Nosocomial infections are problematic in the ICU because of their frequency, morbidity, and mortality. The most common ICU infections are pneumonia, bloodstream infection, and urinary tract infection, most of which are device related. Surgical site infection is common in surgical ICUs, and Clostridium difficile-associated diarrhea is occurring with increasing frequency. Prospective observational studies confirm that use of evidence-based guidelines can reduce the rate of these ICU infections, especially when simple tactics are bundled. To increase the likelihood of success, follow the specific, measurable, achievable, relevant, and time bound (SMART) approach. Choose specific objectives that precisely define and quantify desired outcomes, such as reducing the nosocomial ICU infection rate of an institution by 25%. To measure the objective, monitor staff adherence to tactics and infection rates, and provide feedback to ICU staff. Make objectives achievable and relevant by engaging stakeholders in the selection of specific tactics and steps for implementation. Nurses and other stakeholders can best identify the tactics that are achievable within their busy ICUs. Unburden the bedside provider by taking advantage of new technologies that reduce nosocomial infection rates. Objectives should also be relevant to the institution so that administrators provide adequate staffing and other resources. Appoint a team to champion the intervention and collaborate with administrators and ICU staff. Provide ongoing communication to reinforce educational tactics and fine-tune practices over time. Make objectives time bound; set dates for collecting baseline and periodic data, and a completion date for evaluating the success of the intervention.     

Intravenous colistin as therapy for nosocomial infections caused by multidrug-resistant Pseudomonas aeruginosa and Acinetobacter baumannii.

Sixty nosocomial infections caused by Pseudomonas aeruginosa and Acinetobacter baumannii resistant to aminoglycosides, cephalosporins, quinolones, penicillins, monobactams, and imipenem were treated with colistin (one patient had two infections that are included as two different cases). The infections were pneumonia (33% of patients), urinary tract infection (20%), primary bloodstream infection (15%), central nervous system infection (8%), peritonitis (7%), catheter-related infection (7%), and otitis media (2%). A good outcome occurred for 35 patients (58%), and three patients died within the first 48 hours of treatment. The poorest results were observed in cases of pneumonia: only five (25%) of 20 had a good outcome. A good outcome occurred for four of five patients with central nervous system infections, although no intrathecal treatment was given. The main adverse effect of treatment was renal failure; 27% of patients with initially normal renal function had renal failure, and renal function worsened in 58% of patients with abnormal baseline creatinine levels. Colistin may be a good therapeutic option for the treatment of severe infections caused by multidrug-resistant P. aeruginosa and A. baumannii.     

International Nosocomial Infection Control Consortium report, data summary for 2002-2007, issued January 2008

We report the results of an International Nosocomial Infection Control Consortium (INICC) surveillance study from 2002 through 2007 in 98 intensive care units (ICUs) in Latin America, Asia, Africa, and Europe. During the 6-year study, using Centers for Disease Control and Prevention (CDC) National Nosocomial Infections Surveillance System (NNIS) definitions for device-associated health care-associated infection, we collected prospective data from 43,114 patients hospitalized in the Consortium's hospital ICUs for an aggregate of 272,279 days. Although device utilization in the INICC ICUs was remarkably similar to that reported from US ICUs in the CDC's National Healthcare Safety Network, rates of device-associated nosocomial infection were markedly higher in the ICUs of the INICC hospitals: the pooled rate of central line-associated bloodstream infections (CLABs) in the INICC ICUs, 9.2 per 1000 CL-days, is nearly 3-fold higher than the 2.4-5.3 per 1000 CL-days reported from comparable US ICUs, and the overall rate of ventilator-associated pneumonia was also far higher, 19.5 vs 1.1-3.6 per 1000 ventilator-days, as was the rate of catheter-associated urinary tract infection, 6.5 versus 3.4-5.2 per 1000 catheter-days. Most strikingly, the frequencies of resistance of Staphylococcus aureus isolates to methicillin (MRSA) (80.8% vs 48.1%), Enterobacter species to ceftriaxone (50.8% vs 17.8%), and Pseudomonas aeruginosa to fluoroquinolones (52.4% vs 29.1%) were also far higher in the Consortium's ICUs, and the crude unadjusted excess mortalities of device-related infections ranged from 14.3% (CLABs) to 27.5% (ventilator-associated pneumonia).     

Epidemiology of nosocomial infection and resistant organisms in patients admitted for the first time to an acute rehabilitation unit.

The objectives of this study were to define the epidemiology of nosocomial bacterial colonization and infection and to define predictors of nosocomial infection among a cohort (n=423) of admissions to an acute rehabilitation unit. Overall, methicillin-resistant Staphylococcus aureus (MRSA) and enterococci were the most commonly identified colonizing organisms. Escherichia coli and Pseudomonas aeruginosa were the most commonly identified colonizing gram-negative bacilli. During 70 (16.5%) of the 423 hospitalizations in the unit, 94 nosocomial infections occurred. The most common infections were those of the urinary tract (30% of 94 infections) or a surgical site (17%), Clostridium difficile diarrhea (15%), and bloodstream infection (12.8%). Antibiotic-resistant bacteria most commonly caused bloodstream infection (41.7%) and surgical site infection (56.3%). Independent predictors of nosocomial infection at the time of admission were functional status (measured with the functional independence measure), APACHE III score, and spinal cord injury. In conclusion, gram-positive organisms were the predominant strains causing nosocomial colonization and infection. The logistic model, if verified, may be useful in defining patients who should be targeted for measures to prevent nosocomial infection.     

Long term trends in the occurrence of nosocomial blood stream infection

OBJECTIVE:

To determine trends in the occurrence of nosocomial blood stream infection at the University of Alberta Hospital.

METHODS:

A prospective survey of nosocomial blood stream infection was conducted; cases from August 1986 to December 1996 were reviewed. Cases were detected by a review of positive blood cultures reported by the microbiology laboratory. Centers for Disease Control and Prevention definitions of nosocomial infection were used to categorize isolates as nosocomial, community acquired or contaminant.

RESULTS:

There were 2389 cases; primary bacteremia was the most common source (57%), followed by urinary tract, respiratory tract and surgical site sources (10% each). The nosocomial blood steam infection rate rose progressively from 6.0/1000 admissions and 4.59/10,000 patient days in 1986 to 11.2/1000 admissions and 14.31/10,000 days in 1996 (P<0.01); 48% of the total increase in rate occurred between 1995 and 1996. Significant increases occurred between 1986 and 1996 in primary infections (from 3.2 to 7.5/1000 admissions, P<0.01) and infections from all secondary sources (from 2.5 to 3.8/1000 admissions, P=0.01). Coagulase-negative staphylococci (27%), Staphylococcus aureus (19%) and enterococci (9%) were the most common microbial causes. Aerobic Gram-negative bacilli accounted for 28% and candida for 6%. Coagulase-negative staphylococci, enterococci and candida all became more prevalent as causes of infection over the study period.

CONCLUSIONS:

The nosocomial blood stream infection rate in the hospital has nearly doubled in the past 10 years, largely due to increased primary bacteremia.Key Words: Bacteremia, Epidemiology, Nosocomial infectionsHospital care has long been associated with development of nosocomial infection. Recently, these infections have been identified as a significant public health problem (1-3). Changes in health care delivery over time, including the increased use of invasive procedures or immunosuppressive therapy in hospitalized patients and, conversely, out of hospital treatment of less seriously ill patients has likely changed the frequency and pattern of nosocomial infections. However, it has been difficult to document trends in the occurrence of all nosocomial infections, given the difficulty of capturing such data and the limited immediate benefit of doing so. Nosocomial infections associated with blood stream infection account for less than 10% of the total, but may result in greater attributable mortality, prolonged length of hospitalization and a higher cost of care than other infections (3-6). Furthermore, such infections are much easier to detect in a prospective surveillance system. Changes in the occurrence of nosocomial blood stream infections may, therefore, provide easily obtainable data which can be used as a surrogate for changes in all nosocomial infections.Since August 1986, blood culture reports have been prospectively monitored at University of Alberta Hospital to determine the occurrence of nosocomial bloodstream infection. Studies of organ system infections resulting in bloodstream infection and specific microorganisms causing those infections have been reported (7-9). The present study examines all sources, microbiological etiology and long term trends in the frequency of nosocomial bloodstream infection from August 1, 1986 to December 31, 1996.     

重症监护病房医院感染早期预测模型的建立

目的回顾性分析衡水市二级以上医院重症监护病房(ICU)的医院感染患者入住ICU 24 h内的高危因素,建立ICU医院感染早期预测模型。方法回顾性查阅衡水市二级以上医院2011年1月至2015年12月ICU医院感染患者相关病原学数据和原始病历资料。记录患者一般临床资料,包括患者性别、年龄、转入原因,入住ICU 24 h内血生化、急性生理学与慢性健康状况评分系统Ⅱ(APACHEⅡ)和序贯器官衰竭评分(SOFA)、应用血管活性药物、血液净化情况。分析医院感染危险因素,建立早期预测量表,并利用2016年1月至2018年12月医院感染患者的数据对预测模型进行验证。结果共2453例患者资料纳入分析,445例患者ICU住院期间发生医院感染,医院感染发生率18%,其中肺炎(包括医院获得性肺炎和呼吸机相关性肺炎)135例(30%),导尿管相关泌尿系感染245例(55%),中心静脉导管相关血流感染65例(15%)。Logistic回归分析发现年龄≥72岁(OR=2.15,95%CI:1.23~3.47,P=0.03)、新发脑卒中(OR=1.59,95%CI:1.22~3.31,P<0.01)、入住ICU 24 h内APACHEⅡ评分≥18(OR=3.64,95%CI:2.79~5.32,P=0.02)和SOFA评分≥8(OR=3.17,95%CI:1.93~5.66,P<0.01)是医院感染的独立预测因素。根据上述危险因素建立量表,医院感染早期预测评分范围为0~7分,最佳截断值为4分;导尿管相关泌尿系感染早期预测评分范围为0~7分,最佳截断值为4分;肺炎早期预测评分范围为0~7分,最佳截断值为5分;中心静脉导管相关血流感染早期预测评分范围为0~7分,最佳截断值为6分。利用2016年1月至2018年12月医院感染患者的数据对预测模型进行验证显示该量表预测效果良好。结论年龄≥72岁、新发脑卒中、入住ICU 24 h内APACHEⅡ评分≥18分和SOFA评分≥8分能够早期预测ICU医院感染风险,早期发现高危人群。