Reappraisal of the outcome of healthcare-associated and community-acquired bacteramia: a prospective cohort study

BMC Infectious Diseases, Jul 2013

Background Healthcare-associated (HCA) bloodstream infections (BSI) have been associated with worse outcomes, in terms of higher frequencies of antibiotic-resistant microorganisms and inappropriate therapy than strict community-acquired (CA) BSI. Recent changes in the epidemiology of community (CO)-BSI and treatment protocols may have modified this association. The objective of this study was to analyse the etiology, therapy and outcomes for CA and HCA BSI in our area. Methods A prospective multicentre cohort including all CO-BSI episodes in adult patients was performed over a 3-month period in 2006–2007. Outcome variables were mortality and inappropriate empirical therapy. Adjusted analyses were performed by logistic regression. Results 341 episodes of CO-BSI were included in the study. Acquisition was HCA in 56% (192 episodes) of them. Inappropriate empirical therapy was administered in 16.7% (57 episodes). All-cause mortality was 16.4% (56 patients) at day 14 and 20% (71 patients) at day 30. After controlling for age, Charlson index, source, etiology, presentation with severe sepsis or shock and inappropriate empirical treatment, acquisition type was not associated with an increase in 14-day or 30-day mortality. Only an stratified analysis of 14th-day mortality for Gram negatives BSI showed a statically significant difference (7% in CA vs 17% in HCA, p = 0,05). Factors independently related to inadequate empirical treatment in the community were: catheter source, cancer, and previous antimicrobial use; no association with HCA acquisition was found. Conclusion HCA acquisition in our cohort was not a predictor for either inappropriate empirical treatment or increased mortality. These results might reflect recent changes in therapeutic protocols and epidemiological changes in community pathogens. Further studies should focus on recognising CA BSI due to resistant organisms facilitating an early and adequate treatment in patients with CA resistant BSI.

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Reappraisal of the outcome of healthcare-associated and community-acquired bacteramia: a prospective cohort study

Pilar Retamar 8 Mara Dolores Lpez-Prieto 7 Clara Ntera 6 Marina de Cueto 8 Enrique Nuo 13 Marta Herrero 12 Fernando Fernndez-Snchez 11 Angel Muoz 10 Francisco Tllez 15 Berta Becerril 14 Ana Garca-Tapia 9 Inmaculada Carazo 4 Raquel Moya 5 Juan E Corzo 2 Laura Len 3 Leopoldo Muoz 0 Jess Rodrguez-Bao 1 8 The Sociedad Andaluza de Enfermedades Infecciosas/Sociedad Andaluza de Microbiologa y Parasitologa Clnica Red Espaola de Investigacin en Enfermedades Infecciosas (SAEI/SAMPAC/REIPI) Bacteremia Group 0 Unidad de Enfermedades Infecciosas, Hospital Universitario San Cecilio , Granada , Spain 1 Department of Medicine, University of Seville , Seville , Spain 2 Unidad Clinica de Enfermedades Infecciosas y Microbiologia, Hospital Universitario de Valme , Sevilla , Spain 3 Servicio de Enfermedades Infecciosas, Hospital Torrecardenas , Almeria , Spain 4 Servicio de Microbiologia, Complejo Hospitalario de Jaen , Jaen , Spain 5 Servicio de Medicina Interna, Hospital de Antequera , Malaga , Spain 6 Seccion Enfermedades Infecciosas, Hospital Universitario Reina Sofia , Cordoba , Spain 7 Unidad Clinica de Microbiologia y Enfermedades Infecciosas, Hospital del SAS, Jerez de la Frontera , Cadiz , Spain 8 Unidad de Enfermedades Infecciosas y Microbiologia, Hospital Universitario Virgen Macarena , Avda Dr Fedriani 3, 41009 Seville , Spain 9 Servicio de Microbiologia, Hospital Puerta del Mar , Cadiz , Spain 10 Servicio de Medicina Interna, Hospital de la Serrania , Ronda, Malaga , Spain 11 Servicio de Microbiologia, Hospital Costa del Sol , Marbella Malaga Spain 12 Unidad Clinica de Enfermedades Infecciosas, Microbiologia y Medicina Preventiva, Hospital Universitario Virgen del Rocio , Sevilla , Spain 13 Unidad Clinica de Enfermedades Infecciosas y Microbiologia, Hospital Universitario Virgen de la Victoria , Malaga , Spain 14 Unidad Clinica de Enfermedades Infecciosas y Microbiologia, Hospital Punta de Europa , Algeciras, Cadiz , Spain 15 Unidad de Enfermedades Infecciosas, Hospital de La Linea , Cadiz , Spain Background: Healthcare-associated (HCA) bloodstream infections (BSI) have been associated with worse outcomes, in terms of higher frequencies of antibiotic-resistant microorganisms and inappropriate therapy than strict community-acquired (CA) BSI. Recent changes in the epidemiology of community (CO)-BSI and treatment protocols may have modified this association. The objective of this study was to analyse the etiology, therapy and outcomes for CA and HCA BSI in our area. Methods: A prospective multicentre cohort including all CO-BSI episodes in adult patients was performed over a 3-month period in 2006-2007. Outcome variables were mortality and inappropriate empirical therapy. Adjusted analyses were performed by logistic regression. Results: 341 episodes of CO-BSI were included in the study. Acquisition was HCA in 56% (192 episodes) of them. Inappropriate empirical therapy was administered in 16.7% (57 episodes). All-cause mortality was 16.4% (56 patients) at day 14 and 20% (71 patients) at day 30. After controlling for age, Charlson index, source, etiology, presentation with severe sepsis or shock and inappropriate empirical treatment, acquisition type was not associated with an increase in 14-day or 30-day mortality. Only an stratified analysis of 14th-day mortality for Gram negatives BSI showed a statically significant difference (7% in CA vs 17% in HCA, p = 0,05). Factors independently related to inadequate empirical treatment in the community were: catheter source, cancer, and previous antimicrobial use; no association with HCA acquisition was found. Conclusion: HCA acquisition in our cohort was not a predictor for either inappropriate empirical treatment or increased mortality. These results might reflect recent changes in therapeutic protocols and epidemiological changes in community pathogens. Further studies should focus on recognising CA BSI due to resistant organisms facilitating an early and adequate treatment in patients with CA resistant BSI. - Background Bloodstream infections (BSI) remain a leading cause of morbidity and mortality [1]. The early administration of appropriate antibiotics, which has been shown to be an independent protector for mortality in many analyses [2,3], is crucial to improving the outcome for patients with BSI. Epidemiological data are essential for designing treatment protocols adapted to the local area that comprise coverage against the most prevalent organisms, including those producing emerging antimicrobial resistance mechanisms. In the last decade, a new acquisition category, healthcareassociated (HCA) infections, has been proposed as a result of the development of ambulatory alternatives to hospitalized healthcare [4-10]. Previous studies associated HCA BSI with an increased risk for drugresistant organisms, inappropriate empirical therapy, and mortality, when compared to strict communityacquired (CA) episodes [4,6,8,9,11]. However, since these data were reported, various multidrug-resistant (MDR) organisms have emerged as a cause of strict community-acquired BSI (mainly extended-spectrum beta-lactamase [ESBL]-producing enterobacteriaceae and methicillin-resistant Staphylococcus aureus) [12,13]. Additionally, in Spain, recommendations for empirical therapy were changed in order to consider both HCA organisms and multidrug-resistant community-borne organisms in specific situations [12,14]. The increased awareness that CO- BSI may be caused by specific antibiotic-resistant organisms would have led to the reduced risk of these patients receiving inappropriate therapy. In this context, the objective of our study was to analyse the current etiology, therapy and outcomes for strict communityacquired (CA) and HCA bacteremia in our area. Methods The strengthening the reporting of observational studies in epidemiology (STROBE) recommendations for reporting observational studies [15] were followed in this report. Study design and patient selection This analysis is part of the SAEI/SAMPAC Bacteremia project, aimed at investigating different aspects of BSI and improving the management of patients with BSI in Andalusia, Spain. The study involved a prospective cohort of all consecutive adult in-patients with clinically significant BSI, in 15 public hospitals (10 tertiary and 5 community) in Andalusia, Spain, from October 1rst to December 31th 2006 (to March 31th 2007 in community centres). Patients were followed for 30 days. In this report, we analysed 341 episodes of CO-BSI in the cohort (192 [56%] classified as HCA, and the remainder as CA). Patients with community-onset bacteremia not admitted to hospital were not included in this study (those were 1 CA and 3 HCA episodes from the initial cohort). The sample size was similar to that in previous studies [4,8,9], which would provide a error of 0.71 for a 10% crude difference in mortality between HCA and CA episodes. The general epidemiological data for HCA and CA episodes have been reported previously [10], being the main significant differences that the CA presented more often an urinary source of the BSI (31% vs 21%, p = 0,04) and were more often caused by S. pneumoniae (18% vs 6%, p = 0,001); the HCA BSIs were more often developed by neutropenic patients (1% vs 7%, p = 0,02), more often related to a previous antimicrobial use (18% vs 32%, p = 0,003), the source was more often unknown (15% vs 23%, p = 0,05) or secondary to a catheter device (0% vs 12%, p < 0,001) and was more often caused by P. aeruginosa (1% vs 9%, p = 0,01). As previously reported, differences in mortality between HCA and CA BSI were not statistically significant, either at day 14 (18% vs 15%, p = 0.47) or at day 30 (21% vs 19%, p = 0.67) [10]. Susceptibility results were interpreted according to the Clinical Laboratory Standards Institute (CLSI) recommendations. ESBL production was confirmed by the microdilution method if a 3 twofold dilution decrease in the MIC of either ceftazidime or cefotaxime tested in combination with clavulanic acid versus the MIC of each agent when tested alone was observed [16]. The study was approved by the Ethics Committee of the Hospital Universitario Virgen Macarena, which waived the need to obtain informed consent. Variables and definitions The BSI was considered to be CO if the blood cultures had been taken during the first 48 hours of hospital admission, unless the infection was considered to have potentially been acquired during a recent hospital admission to an urgent care centre. The episodes were classified as HCA, following Friedman et al. [4], when any of the following was present: intravenous therapy or specialist nursing care at home in the 30 days before the BSI; haemodialysis or intravenous chemotherapy in the 30 days before the BSI; hospitalization for > 2 days in an emergency care hospital in the 90 days before the BSI; or the patient resided in a nursing home or long-term care facility. Episodes with none of the previous features were classified as CA. Data were obtained from the charts and included: demographics; ward of admission; presence of underlying chronic diseases and severity according to the Charlson index [17]; invasive procedures; antimicrobial use in the preceding 3 months; source of BSI using CDC criteria [18];severity of the illness the day before the onset of bacteremia (day 1) using the Pitt score [19]; severity of systemic inflammatory response syndrome (SIRS at day 0, using predefined criteria [20]; etiology, and treatment adequacy. Empirical therapy was considered appropriate when an active antimicrobial agent (according to susceptibility data) was administered at recommended doses within the first 24 h after the blood cultures had been performed, and inappropriate otherwise. Pathogens were considered multidrug-resistant according to Magiorakos et als criteria [21]. As outcome variables, we used all-cause mortality at days 14 and 30, and inappropriate empirical therapy. Statistical analysis Univariate analysis was performed using the chi-squared or Fishers exact test, and the Students t-test or Mann Whitney U-test, for comparison of categorical and continuous variables, respectively. Crude association between exposure to different variables and mortality or inadequate treatment was estimated by calculating crude relative risk (RR), with 95% confidence intervals (CI). Multivariate analyses were performed using logistic regression. Any variable in the univariate analysis related to mortality at a conservative significance level of < 0.2 was included in the initial model. Variables were selected using a backward stepwise process. Interactions between exposure to the variable of interest and other variables were investigated. Since HCA acquisition was our exposure variable of interest, it was retained in the final models. The validity of the models was evaluated using the Hosmer-Lemeshow test for estimating goodness of fit to the data, and its discrimination ability by the area under the Receiver Operating Characteristics (ROC) curve. All analyses were carried out using the SPSS 15.0 software package (SPSS Inc., Chicago, IL, USA). Results Mortality predictors in community acquired BSI The crude analysis for the association between exposure to qualitative variables and 14- and 30-day mortality rates is shown in Table 1. Neutropenia, ICU admission, presentation with severe sepsis or shock, and BSI due to Pseudomonas aeruginosa were associated with significant increased 14- and 30-day mortality. A stratified analysis of mortality for Gram-positive and Gram-negative BSI comparing HCA and CA BSI showed a statically significant difference in 14th- day mortality among Gram-negative BSI (7% in CA vs 17% in HCA, p = 0,05). Respiratory tract infection as source of infection and inappropriate empirical therapy were associated with 14-day mortality only. With respect to the quantitative variables, age, Charlson index, and Pitt score were significantly higher in patients who died, compared to survivors at both day 14 (p values: 0.05, 0.002 and < 0.001, respectively) and 30 (p value: 0.05, 0.001, and < 0.001, respectively). A multivariate analysis of variables associated with 14day and 30-day mortality was performed next. Variables introduced were: age, HCA acquisition, ICU admission, type of hospital, Charlson index, neutropenia, Pitt score, presentation with severe sepsis or shock, major sources of infection, most frequent pathogens and inappropriate empirical therapy. The interactions between empirical therapy and source, aetiology and severity of SIRS were also studied. HCA acquisition was not associated with an increased risk of death at days 14 or 30. The final models are shown in Table 2. P values for the Hosmer-Lemeshow goodness of fit test for models obtained for 14- and 30-day mortality were 0.99 and 0.84, and the areas under the ROC curve were 0.86 and 0.82, respectively, showing a high predictive ability. Removing HCA-acquisition from the models did not change predictive ability. Antimicrobial resistance among community-acquired and healthcare-related bloodstream infections aetiologies A comparison of HCA and CA episodes for key antimicrobial resistances of the most relevant BSI-causing bacteria is shown in Table 3. Overall, resistance to any of the antimicrobials considered, except multidrugresistance, was more frequent among isolates in HCA episodes. Considering specific organisms, only penicillinresistance in S. pneumoniae was significantly more frequent in HCA than in CA episodes. However, it must be noted that there was a tendency for several organisms which are naturally more resistant to certain antibiotics (such as Enterobacter spp. or Pseudomonas aeruginosa) to be more frequent in HCA. Predictive factors of inadequate empiric treatment We then analysed predictors for receiving inappropriate empirical treatment. Table 4 shows the findings of the univariate analysis for qualitative variables. ICU admission, cancer, ambulatory intravenous therapy, urinary catheter, previous antimicrobial consumption, a BSI source that was unknown, abdominal or catheter-related, BSI due to P. aeruginosa, Enterobacter spp., Enterococcus spp, or coagulase-negative staphylococci were all associated with inappropriate empirical treatment. HCA-acquisition was not associated with it. None of the quantitative variables (age, Charlson index or Pitt score) showed a statistical association. In the multivariate analysis, we found that cancer, previous antimicrobial use, and vascular catheterrelated BSI were independent predictors of inappropriate empirical therapy (Table 4). Again, HCA-acquisition was not associated with inappropriate empirical therapy (p = 0.5). For this model, the p value for the HosmerLemeshow goodness of fit test was 0.61, and the area under the ROC curve was 0.63, showing moderate predictive ability. Type of acquisition Severe sepsis or shock Source of bacteremia Vascular catheter Type of hospital Severity of SISR Empirical therapy Respiratory tract Enterococcus spp. Enterobacter spp No. dead at day 14 (%) RR(95% CI) P value No. dead at day 30 (%) RR (95% CI) P value 1.9 (0.214.9) 4.1 (0.629.6) 4.9 (0.736.5) 5.5 (0.839.7) 6.0 (0.843.5) 2.0 (0.220.6) 2.5 (0.318.3) 5.2 (0.739.9) 5.3 (0.739.9) 5.5 (0.748.0) 8.6 (1.166.1) 3.03 (2.04.5) <0.001 RR relative risk, CI confidence interval, Ref reference, HCA healthcare-associated, SIRS systemic inflammatory response syndrome, ICU intensive care unit, CONS coagulase-negative staphylococci. Differences between empirical therapy regimens used in community-acquired and healthcare-related bloodstream infections We analysed whether there were significant differences between empirical therapy regimens. Overall, the most frequent antimicrobials used in HCA and CA episodes were -lactam/-lactam inhibitors (28% vs 41%; p = 0.1), carbapenems (21% vs 14%, p = 0.1), glycopeptides (19% vs 8%, p = 0.003), third-generation cephalosporins (19% vs 32%, p = 0.001), aminoglycosides in combination (13% vs 11%, p = 0.6), and fluoroquinolones (10% vs 13%, p = 0.3), respectively. With respect to the most frequent sources of BSI, HCA episodes of intra-abdominal BSI were less frequently treated with -lactam/-lactam inhibitors than CA episodes (44% vs, 72%, p = 0.02) and more frequently with carbapenems (28% vs 6%, p = 0.03); for the combined catheter-related and unknown source episodes (combined, because they both usually present as sepsis with no apparent source), HCA episodes were more frequently treated with glycopeptides (34% vs 9%, p = 0.001) and less frequently with third-generation cephalosporins (15% vs 50%); no differences were found for urinary tract BSI. Regarding the number of combined treatment with > 1 drug class among CA and HCA BSI there were no differences between them (34,1% vs 34%, p = 0,99). The combination of a cephalosporin plus levofloxacin was more common among CA episodes (29% vs 21% in HCA BSI, p = 0.32) and the combination of a cephalosporin plus vancomycin was more common among HCA BSI (14% among CA vs 23% in HCA, p = 0.49). These differences were not significant. 2.9 (0.711.5) 2.7 (0.711.4) 4.5 (0.930.1) 3.2 (0.813.2) 3.3 (0.813.9) 2.8 (0.514.5) 4.0 (0.820.1) 5.1 (1.222.1) Table 2 Multivariate analysis of variables associated with mortality in patients with community-onset bloodstream infections Mortality at day 14 Healthcare-associated bacteremia Presentation with severe sepsis or shock Urinary tract source Inappropriate empirical therapy Mortality at day 30 Healthcare-associated bacteremia Pitt score 2 Presentation with severe sepsis or shock Urinary tract source Inappropriate empirical therapy OR (95% CI) 1.06 (0.522.14) 1.37 (1.161.63) 5.70 (2.1315.23) 0.15 (0.050.44) 0.83 (0.451.57) 1.02 (1.001.04) 1.41 (1.221.63) 1.18- (0.991.41) 3.32 (1.358.14) 0.18 (0.070.45) In Table 5 we have described the aetiology, main resistance and drug of the 57 episodes that received inadequate empirical treatments (23 CA BSI and 34 HCA BSI). 24% were delayed treatments (5, 22% of the inadequate CA BSI treatments and 9, 25% of the inadequate HCA BSI treatments). The main regimes of inadequate treatments were oxacilin resistant Grampositives treated with betalactams (3, 13% in the CA group and 7, 205 of the inadequate HCA BSI treatments); fluoroquinolones resistant Gram-negatives treated with quinolones (2, 9% and 4, 12% in the inadequate CA and HCA BI treatments respectively). Also 4 episodes due to amoxicillin-clavulanic resistant E-coli were treated with it in the CA BSI group and 2 ESBL producers Gramnegatives were treated with ceftriaxone in the HCA BSI subgroup. Discussion In the last decade, several studies have been published stating the significance of HCA-acquisition to BSI outcome [4-11]. In several of these, the mortality rate of HCA BSI was significantly higher than that of strict community BSI (1530% vs 1016%). Our data showed that HCA acquisition was not independently associated with increased mortality in BSI patients. Higher 14-day mortality among HCA as compared to CA was only found by Gram-negative BSI, even though there was no difference in overall mortality of BSI, which may be in part explained by a higher proportion of CNS among HCA BSI. There are other possible explanations for why we did not find HCA-acquisition to be a risk factor for a worse prognosis. Firstly, the definition of an HCA BSI was not uniform between the different studies. We used the criteria developed by Friedman et al. [4], which may be appropriate for specialized ambulatory healthcare patterns and epidemiology in the US, but are perhaps less specific to other areas of the world. For instance, in previous publications from the US, Staphylococcus aureus was a major cause of bacteremia in HCA BSI groups [4,6,8], and was related to frequent use of a permanent ambulatory venous catheter. However, the major cause of bacteraemia in HCA episodes in our cohort was E. coli, as it was in a previous Spanish study [9]. CO-BSI patients with minor urinary tract procedures have been found to be at an increased risk of ESBL-producing E. coli [12]. Using Friedmans criteria, which may be less sensitive for noncatheter-related HCA BSI, many of those episodes might not be considered as HCA. This means that there may be important differences in epidemiology and outcome of HCA BSI, depending on local epidemiology and healthcare practices. Secondly, the underlying mortality risk for patients with CA episodes may vary between the studies. We only included patients who required hospitalization, while other studies included patients who were not hospitalized [7] and where the risk of death ought, therefore, to be lower. It should be noted that in our study the acute severity of underlying condition and the severity of SIRS at presentation was similar in patients with HCA and CA BSI. Thirdly, studies used different follow-up periods for measuring mortality; Friedman et al. found higher mortality in HCA-BSI at six months, but not during hospitalization. A recent systematic review recommends Table 3 Antimicrobial resistance among the most relevant aetiologies of community-onset bloodstream infections in community-acquired and healthcare-related episodes Amoxicillin-clavulanic acid-resistant Cefotaxime-resistant1 Ciprofloxacin-resistant Gentamycin-resistant Amoxicillin-clavulanic acid-resistant Pseudomonas aeruginosa Cefotaxime-resistant1 Ciprofloxacin-resistant Gentamycin-resistant Ceftazidime-resistant Ciprofloxacin-resistant Streptococcus pneumoniae Erithromycin-resistant Levofloxacin-resistant Staphylococcus aureus Multi-drug resistance N = 12 N = 1 N = 27 N = 10 N = 1592 N = 13 N = 13 N = 11 N = 22 N = 2032 CA strict community-acquired episodes, HCA healthcare-associated episodes. 1 all of them were ESBL producers. 2 10 and 11 episodes, respectively, were polymicrobials. that mortality should be assessed at day 30 for BSI studies [2]. We also collected data at day 14 to provide information about early mortality, which might be related more to the direct effect of bacteremia [3]. And fourthly, controlling for confounding is critical to outcome studies of BSI [2]. Only one previous study performed a multivariate analysis to investigate the impact of HCA-acquisition on mortality [8], although the results were not controlled for source or appropriateness of therapy. As expected, we found that inappropriate empirical treatment was an important predictive factor for a worse outcome in our study. Contrary to the findings of some earlier studies [6,9], we did not find that HCA episodes were associated with a higher probability of receiving inappropriate empirical therapy, which may further explain why HCA episodes were not associated with increased mortality. When we compared our data against those reported by McDonald et al. [6], who used similar definitions, we found that inappropriate empirical therapy was less frequently administered in HCA episodes in our study (18% vs 25%). The fact that carbapenems and glycopeptides were the second and third antibiotic groups used in HCA episodes suggests that physicians were aware of HCA-acquisition as a risk factor for antibiotic-resistant organisms. On the other hand, in our study, inappropriate empirical therapy was more frequent in CA episodes (using Friedmans criteria) than in the study by McDonald et al. [6], which may reflect higher frequencies of antimicrobial resistance in community isolates, at least in our area, and the need to include other types of healthcare relationsuch as urinary tract proceduresor other invasive ambulatory procedures within the definition of an HCA episode. A Table 4 Univariate and multivariate analysis of factors related to inappropriate empirical treatment in community-onset BSI Variable Multivariate analysis RR (95% CI) P value Type of acquisition Ambulatory IV therapy Type of hospital Urinary catheter Central vascular Catheter Previous antibiotics Previous surgery Severity of SIRS Source of BSI Multi-drug- resistant bacteria 1,9 2,0 2,0 Table 4 Univariate and multivariate analysis of factors related to inappropriate empirical treatment in community-onset BSI (Continued) further problem relates to the fact that some MDR organisms are spread in the community and these might have been the real cause of some strict communityacquired BSI in our cohort. We observed that from the 57 HCA E. coli fluoroquinolones resistance was more common than from CA E. coli episodes (37% vs 24%, p = 0,14) and that methicillin resistance was more common in HCA than in CA S. aureus (27% vs 0%, p = 0,14) but the difference was not significant may be due to under power. By the contrary cefotaxime-resistant E. coli PIP-TAZ6 + AMK7 ERT + AMK CTX + LVX CFZ10 + VAN CFZ + VAN CTX + LVX CTX + LVX S. epidermidis(oxaR) S. epidermidis(oxaR) S. epidermidis(oxaR) Rhodococcus equi E. coli (Amox-clav R) E. coli (Fqn R) E. coli (Amox-clav R) E. coli (FQ R) E. coli (Amox-clav R) E. coli (Amox-clav R) K. pneumoniae (Amox-clav R) Enterobacter spp. Bacteroides spp. AMX-CLV2 CIP + MET S. aureus (oxaR) S. epidermidis (oxaR) S. epidermidis (oxaR) S. epidermidis (oxaR) S. epidermidis (oxaR) S. epidermidis (oxaR) S. epidermidis (oxaR) E. faecium (ampicilinR) Corynebacterium spp. E. coli (ESBL FqnR) E. coli (ESBL) E. coli (FQ R) K. pneumoniae (ESBL) Enterobacter spp. (cefotax FqnR) Enterobacter spp. Enterobacter spp. Enterobacter spp. (Pip-tazR) Enterobacter spp. P. aeruginosa (ceftazi R) P. aeruginosa (ceftaz R) P. aeruginosa (FQ R) P. aeruginosa (FQ R) Acrhomobacter spp caused similar proportions of HCA and CA episodes (9% vs 9%, p = 0,94). ESBL-producing E. coli has been well recognized as a cause of community-onset BSI, as explained above. Our results also confirm that community isolates of MRSA were still anecdotal in our area by the time the blood culture were collected [22]. Regarding the inadequate antimicrobial regimes in Table 5 it is remarkable that 26% were considered inadequate due to a delayed treatment. Fluoroquinolones resistant Gram-negatives treated with ciprofloxacine, oxacilin resitant Gram-positives treated with betalactams and 4 episodes of amoxicillin-clavulanic resistant E.coli were the most important causes of inadequate treatment. Although those resistances seem to be more frecuent among HCA episodes it is remarkable the present of amoxicillin-clavulanic resistant pathogens among CA episodes. By the time this data was collected this drug was a first line option in many urinary and intrabdominal infections guidelines [23,24] as E.coli resistance rate to amoxicillin-clavulanic was about 10-15% as seem in several Spanish publications [25,26]. In the last years this rate has increased up to 25%-30% so urinary and intraabdominal guidelines have been modified. The variables independently related with inappropriate empirical treatment in community-onset BSI were: a vascular catheter as a source of BSI; cancer; and previous antimicrobial use. All three variables are known risk factors for certain types of pathogens or resistances that are not typical for strict community pathogens, and they should be taken into account when considering empirical therapy. Our study has some limitations. The number of included cases is limited, although similar to previous studies dealing with an outcome impact of HCA BSI. For instance, as mentioned above, this fact limited the analysis of individual microorganism resistance. The findings would not be applicable to areas with a different epidemiology of BSI or system of healthcare. Since the study period was short, seasonal changes in the etiology of BSI could not be considered. We did not include non-hospitalized patients in our study, so that our findings do not extend to BSI patients who were not hospitalized. Conclusions HCA-acquisition was not a predictor for either inappropriate empirical treatment or increased mortality in our community-onset cohort of BSI patients. These results might reflect recent changes in therapeutic approaches and epidemiological changes. Further studies should focus on recognising CA BSI due to resistant organisms. That may facilitate an early and adequate treatment in patients with CA resistant BSI and therefore, a better outcome. Competing interests Jess Rodrguez-Bao has been a member of advisory boards for Merck, Pfizer, Novartis, and Janssen, has served as a speaker for Merck, Pfizer, Novartis, Astra-Zeneca, and Janssen, and has received research support from Novartis. All other authors declare no competing interests. Authors contributions JRB and MDLP were the coordinators of this multicentre study. PR prepared and drafted the initial manuscript. JRB revised the manuscript critically with focus on methods. Both PR and JRB performed the statistical analyses and critically revised the interpretation of data. MC, MH, FFS, AGT and IC collected and performed the laboratory analysis. CN, EN, FT, JEC, LL, LM, MH, AM and RM contributed to the project design, collected and organised the clinical data. All authors read and approved the final manuscript. Acknowledgments We would like to thanks all the members from the SAEISAMPAC Bacteremia Group and also the physicians, nurses and staff of the participating hospitals for facilitating the collection of data. Funding This study was funded by the Ministerio de Economa y Competividad, Instituto de Salud Carlos III - co-financed by the European Development Regional Fund "A way to achieve Europe" ERDF, Spanish Network for Research in Infectious Diseases (REIPI RD12/0015), Fondo de Investigacin Sanitaria (grant 10/02021), and Junta de Andaluca (grant 0063/2006 and 0185/2010). The funders had no role in the design, analysis, and writing of the manuscript or the decision to publish. Other authors from the SAEI/SAMPAC Bacteremia Group Fernando Rodrguez-Lpez (H. Reina Sofa, Crdoba), Mara V. Garca (H. Virgen de la Victoria, Mlaga), Vernica Fernndez-Galn (H. Virgen del roco, Sevilla), Alfonso del Arco (H. Costa del Sol, Mlaga), Mara J. PrezSantos (H. Serrana de Ronda, Mlaga), Antonio Snchez Porto (H. de La Lnea, Cdiz), Manuel Torres-Tortosa (H. Punta Europa, Algeciras, Cdiz), Andrs Martn-Aspas (H. Puerta del Mar, Cdiz), Ascensin Arroyo (Complejo Hospitalario de Jan), Carolina Garca-Figueras (H. del SAS de Jerez, Cdiz) Federico Acosta (H. de Antequera, Mlaga), Carmen Florez (H. de Valme, Sevilla), Petra Navas (H. Torrecrdenas, Almera), Trinidad Escobar-Lara (H. San Cecilio, Granada).


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Pilar Retamar, María López-Prieto, Clara Nátera, Marina de Cueto, Enrique Nuño, Marta Herrero, Fernando Fernández-Sánchez, Angel Muñoz, Francisco Téllez, Berta Becerril, Ana García-Tapia, Inmaculada Carazo, Raquel Moya, Juan E Corzo, Laura León, Leopoldo Muñoz, Jesús Rodríguez-Baño, . Reappraisal of the outcome of healthcare-associated and community-acquired bacteramia: a prospective cohort study, BMC Infectious Diseases, 2013, 344, DOI: 10.1186/1471-2334-13-344