In recent years, healthcare in Spain has undergone significant changes. Acute care hospitals have a great need to refer hospitalised patients in the convalescent phase or patients with great dependence to long-term care facilities (LTCFs). The definition of long-term care facilities includes socio-healthcare facilities and community-based residences. Our LTCFs include long-term stay units (nursing homes), palliative care units, psychogeriatric and intermediate care units (step-down facilities). Intermediate care, for its part, would include units specialised in care for patients in sub-acute and post-acute situations and in convalescence units.1

These centres have become receptors of patients with a high risk of acquiring infections which are mainly related to their underlying conditions and the invasive procedures that they may undergo. This type of infection is more similar to a nosocomial infection than a community-acquired infection. As a result, the classic concept of nosocomial infection has been changed to the more current concept of healthcare-associated infection (HAI) that encompasses both types of infection.1

The information currently available about HAIs that occur in LTCFs is insufficient, and knowing the scope of the problem has become a major objective of epidemiological surveillance. This situation, common throughout Europe, caused the European Centre for Disease Prevention and Control (ECDC) in 2010 to launch an annual study of prevalence, called Healthcare-associated infections in long-term-care facilities (HALT), to determine the prevalence of these infections, the use of antibiotics and the factors associated with HAIs. The diagnostic criteria were based on the clinical judgement of the physician based on the McGeer criteria (1991). The most prevalent results of the 2010 HALT study are shown in Table 1. In the results presented in the 2013 report, the prevalence of HAIs was around 3.4% (n=2626 of the 77,264 patients included in the study), with wide variations depending on the country; the most prevalent were respiratory tract infections (31.2%), followed by urinary tract infections (31.2%) and skin and soft tissue infections (22.8%). The prevalence of antibiotic use was around 4.4%, also with a wide variation between countries.2 Spain did not submit data to this study, having no nationwide information available, although there is information about the prevalence rates in large areas of the country, obtained from studies conducted in some autonomous communities.3–9 Since 2006, the Vigilancia de la Infección Nosocomial en Cataluña (VINCat) programme of the Servei Català de la Salut [Catalan Health Service] has been in existence. This establishes a unified surveillance system for nosocomial infections in hospitals and LTCFs in Catalonia. The mission of VINCat, directed by Dr Francesc Gudiol and a technical committee comprising professionals from various specialities, is to contribute to reducing the rates of these infections through active and ongoing epidemiological surveillance.1 The objective of this study is to determine the prevalence of HAIs in LTCFs in Spain.

The data were collected via two prevalence studies that were conducted annually tween 2011 and 2014. To avoid seasonal biases, one was conducted in June and the other in October. During the study period, all the medical records of the patients admitted to the site were reviewed in 24h. The prevalence study must be done at all centres simultaneously. Although it would be ideal to review all patients admitted to the centre on a specific day (the same day for all participating centres), this is difficult to achieve. Therefore, a period of 15 days is provided to collect the data. It is recommended that the data from each hospitalisation unit be collected on a single day, including all admitted patients. Each bed at the centre must be reviewed once; empty beds do not need to be taken into account or reviewed again. The data collection was performed following the same definitions and methodology as the HALT study.2 For assignment of an HAI to a patient, the McGeer criteria adapted to surveillance of infections in LTCFs were applied.10 The surveillance was carried out by trained health professionals at the same centres. Two questionnaires were used: one about the residents and another about the site characteristics. All risk factors considered relevant for the comparison of the site characteristics were evaluated. The descriptive statistical analysis presents the prevalence of HAIs (%) where the variables are expressed in percentages, with the denominator being the total number of patients evaluated in the prevalence cut-off and the numerator being patients who had the event. SPSS version 20 software was used to conduct the analysis.

The prevalence of HAIs in the aggregate data was 10.2% (8.1–12.4%). The distribution by type of unit was highly diverse, with the sub-acute units (22.3%) and palliative care (18.7%) accumulating a higher percentage of infections. In the remaining units, the proportion of infections was 12.8% in polyvalent units, 11.7% in convalescence units, and 8.1% in long-term care units. The evolution of these data in the different prevalence sections is shown in Fig. 3.

Fig. 3.

Clinical course of HAIs by unit type.

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The types of infection were distributed similarly between respiratory infections (35.8%)—including both pneumonia and upper respiratory tract infections—and urinary infections (35.8%), followed by skin and soft tissue infections (17%) and other infections (10.5%)—including gastrointestinal infections (Fig. 4).

Fig. 4.

Location of the infections.

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At the time of the study, 12% of patients were taking antibiotics. The most used antibiotics, globally, were amoxicillin/clavulanic acid (30%), ciprofloxacin (18%) and levofloxacin (8%). In 64% of cases these antibiotics were provided empirically, with no culture requested. The micro-organisms with resistance problems most frequently identified in LTCFs were extended-spectrum beta-lactamase-producing enterobacteriaceae, multidrug-resistant Pseudomonas aeruginosa and MRSA. No significant differences were observed in the pattern related to the type of site.

The overall prevalence of infections registered in our LTCFs is much higher than that published in the HALT study and in other international studies published previously.2,11 In all of them, just like in our study, the variability between sites is very high. The differences in types of patient admitted are the main cause of this variability. Thus in convalescent or sub-acute centres, patients are often in unstable situations and frequently receive antibiotics in a similar way to that in acute care centres, with this situation being that which is associated with a higher prevalence of infection. In the Registro de Infección Sociosanitaria-Lleida [Socio-Health Infection Registry-Lleida] (RISS Lleida)9 it was detected that up to 85% of patients had received some antibiotic treatment prior to their visit to the acute care units. Another main factor, which would explain the high percentage of infection, is that transfer to acute care units from LTCFs when a patient has an infection or any complication that does not require surgical intervention is becoming less common. A concerning piece of information from our study is the high prevalence of infection recorded in long-term care facilities in patients with fewer extrinsic risk factors. These figures, which seem to be very solid, considering the large number of patients included and the limited internal variability observed in the different sections addressed, are also much higher than those reported in similar populations in the majority of studies.

Similarly, the prevalence of antimicrobial use is also very high. This use, which is done mainly empirically, also contributes to the generation and subsequent spread of multidrug-resistant micro-organisms in healthcare facilities.12 The most important limitation of the study was the heterogeneity of the participating sites, which has given rise to very wide confidence intervals.

These results show the need to extend the strategies and patient safety programmes—specifically infection prevention programmes—to LTCFs, guaranteeing an adequate number of specialised staff members with sufficient dedicated time. It is necessary to continue delving into the study of preventative measures with greater cost-efficiency in these sites and, at the same time, to establish and disseminate some HAI prevention clinical guidelines in Spain based on the best clinical evidence available. Epidemiological surveillance should adapt to the characteristics of each site, with key aspects being the recording of colonised or infected patients and the coordination of health and social systems by using global control programmes.

The authors declare that they have no external sources of funding.

The authors declare that they have no conflicts of interest.