Staphylococcus spp. resistant in blood cultures and hospital surfaces and the patient safety Staphylococcus spp. resistentes en hemocultivos y superficies hospitalarias y la seguridad del paciente

Justification and Objectives: This study aimed to evaluate the presence and resistance of Staphylococcus aureus and coagulase-negative Staphylococci resistant to oxacillin isolated in surfaces and blood cultures in an Intensive Care Unit of an emergency hospital in the city of Caruaru, Pernambuco, Brazil. Methods: This is a descriptive, cross-sectional study, the collections being performed from the bed surfaces of an Intensive Care Unit (ICU). In parallel, blood samples from the respective patients were also obtained. Samples were collected by convenience sampling and the identification of the isolated microorganisms was done by mass spectrometry. Results: We observed a higher prevalence of bacteria from the group of coagulasenegative Staphylococci CoNS (76.92%) in relation to the species Staphylococcus aureus (23.07%). Among the microorganisms identified as resistant to oxacillin, 12.5% of the species were similar in the bed surface samples and blood cultures from the same patient sample. Conclusions: Resistant bacteria identified reinforce the importance of emphasizing the general measures of environmental hygiene in relation to patient safety in health care.


INTRODUCTION
The Intensive Care Units (ICUs) are considered a critical hospital environment due, among other factors, the significant occurrence of infections by multidrug-resistant bacteria.
These infections make the alternative treatment being reduced, extending the period of hospitalization of patients, raising costs for the hospital and generating increased mortality rates.The knowledge of the microbiota of each ICU is important in order to contribute in a more targeted and rational use of antibiotics. 1,2lonized and infected patients may contaminate the environment, turning inanimate surfaces and equipment potential reservoirs of bacteria, particularly the resistant to antimicrobials. 3The importance of the environment as a reservoir of microorganisms was approached, especially in recent decades, when it was considered a secondary factor in the transmission of nosocomial infections, which are those acquired in the hospital during the delivery of health care or a few days after discharge from patient including bloodstream infections. 4,5e realization of blood cultures represents a significant role in the diagnosis of infections, in order to verify the occurrence of the microorganisms that cause bacteremia. 6The frequency of pathogenic Gram positive isolated organisms, especially Staphylococcus aureus and coagulase-negative Staphylococci (CoNS), have increased significantly in ICU environments. 2,7,8The nasal cavity has been identified as the most prevalent region for the isolation of these microorganisms in hospitalsowever, the hands have also been considered an important mean of bacterial transmission in the hospital between patients and professionals, contributing to the increase of cross-infection cases. 9e frequent use of penicillins, such as methicillin and oxacillin in the treatment of staphylococcal infections, favored the emergence of strains resistant to these antibiotics, called ORSA/ORCS, these microorganisms generally exhibit extended resistance to all β-lactam antibiotics and were first recognized as nosocomial pathogens. 10These strains are considered ORSA due to the production of penicillinase enzyme that confers resistance to semi-synthetic penicillins (methicillin/oxacillin) and β-lactam antibiotics making difficult the treatment of staphylococcal infections. 11The resistance to oxacillin presented by Staphylococcus is determined by the presence of a mecA gene located on chromosome. 12e recurring increased rates of ORSA strains, brings great interest on the bodies responsible for the control of nosocomial infections. 13[15] Nosocomial infections can be controlled through effective measures that interfere with the microorganism transmission process, such as frequent hand washing, proper cleaning of equipment and surfaces of beds, the use of personal protective equipment and the adoption of aseptic measures. 15is study aimed to evaluate the presence and resistance profile of Staphylococcus aureus and coagulase-negative Staphylococci resistant to oxacillin isolated in surfaces and blood cultures in an Intensive Care Unit of an emergency hospital in the city of Caruaru, Pernambuco, Brazil.

METHODS
Cross-sectional study, conducted between April 2015 and April 2016, on the ICU of a hospital emergency in the city of Caruaru, Pernambuco, Brazil.The study hospital has 225 beds for hospitalization, 19 of these composing the adult ICU.The unit belongs to the macro-regional health population of Caruaru, which covers 87 municipalities of the micro-regions of Caruaru, Garanhuns, Arcoverde, Afogados da Ingazeira and Serra Talhada, being a reference in traumatology, traumato-orthopedics, surgery general and maxillofacial complex of high complexity.
The blood bottles were supplied by the hospital to the study participants on spontaneous demand, according to the diagnostic routine performed by the Laboratory of Clinical Microbiology by BD BACTEC ™ Instrumented Blood Culture Systems (Becton, Dickinson and Company), previously collected as their own methodology of aseptic standards, with inclusion criteria patients admitted to the ICU hospital for a maximum of two months during the study period.The biological samples obtained from blood culture were seeding in Blood Agar, Mac-Conkey Agar and Mueller Hinton bacterial isolation purposes and implementation of standardized test of antimicrobial susceptibility.
The collections of inanimate surfaces were performed by convenience sampling from five pre-defined surfaces of the ICU bed (right and left bars of the beds, bed control buttons, bedside table and buttons from the infusion pump).The inclusion criterion was samples from surfaces whose beds were occupied by their respective patients with positive blood culture indication by BD BACTEC™ Instrumented Blood Culture Systems.The obtainment of samples was performed by using moistened sterile swabs on Tryptic Soy Broth (TSB), that immediately after the collection were stored in tubes containing the broth and incubated in a greenhouse at a temperature of 37ºC for 24 hours for analysis of the bacterial growth.After checking the turbidity in TSB was performed by seeding exhausted in blood agar and MacConkey, incubated in 37ºC for 24 hours.
The genus level identification and species of isolated microorganisms was made by mass spectrometry type MALDI-TOF (Matrix Associated Laser Desorption-Ionization -Time of Flight).The mass spectra were obtained in duplicate and compared with the stored software database Biotyper MALDI 2.0 (Bruker Daltonics) for the identification of bacterial genus and species.
The identified bacteria were subjected to the antibiogram carried by the diffusion method of Kirby-Bauer and for analyzing of the results regarding the resistance patterns, it was used the standardize of the Clinical and Laboratory Standards Institute 2016 (CLSI). 16Discs containing the following antimicrobials were used: ciprofloxacin, nitrofurantoin, trimethoprim/sulfamethoxazole, chloramphenicol, cefoxitin, tetracycline, amikacin, erythromycin, clindamycin and gentamicin.The tracking of ORSA and ORCNS occurred by the use of cefoxitin antimicrobial, which is a surrogate marker for detection of oxacillin resistance in strains that have the gene mecA. 8For the isolates classified as ORSA/ORCNS by disk diffusion method (Kirby-Bauer method), a test was performed to determine the minimum inhibitory concentration (MIC) for the antibiotic vancomycin using strips containing different concentrations of this antimicrobial agent (E-test®).This method was used to determine with certainty the phenotypic resistance pattern ORSA strains and ORCNS front vancomycin.
This work was approved by the Research Ethics Committee of the Centro Universitário Tabosa de Almeida (ASCES-UNITA) through the number 1.061.201.

RESULTS
Samples from 12 ICU beds were obtained and a sample of blood culture of the corresponding patient bed, totaling 60 samples of environmental surfaces and 12 blood cultures.

DISCUSSION
Frequent nosocomial infection outbreaks cases are related to environmental contamination.Cross infection can be facilitated by the survival of microorganisms on dry surfaces, and the Staphylococci are one of the most important microorganisms associated with Health Care Related Infections (HCRI), especially in Intensive Care Units (ICU). 15,17ntamination lying around the ICU patients was observed in the present study in 95% of the collected samples.For positive Gram, we observed a higher prevalence of bacteria from the group of coagulase-negative Staphylococci -CoNS (76.92%) in relation to the species Staphylococcus aureus (23.07%).[19] During the last decades, the substantial increase in CoNS isolated in hospital settings, as well as their oxacillin resistance rates has increased significantly its clinical importance, becoming recognized as opportunistic agents often associated with nosocomial infections. 17,19As a result, it reinforces the importance of performing increasingly accurate cultures, especially as regards the antibiogram that will contribute to conduct towards the use of more rational way, in a more targeted therapy, particularly in hospital environment.
Since cases of sepsis are the most relevant and aggravating the clinical outcome of the patients was also evaluated in this study samples of blood cultures to check the connection of microorganisms present on nearby surfaces and its relation to the contamination of the patient.
An 80% growth of Gram positive bacteria was observed in the analyzed blood cultures, with a prevalence of S. epidermidis (40%).
Similar data were observed in work carried out by Alves et al. (2012) involving 170 samples of blood cultures, which found 45.5% of S. epidermidis.In addition to this, there was a prevalence of 20% of S. haemolyticus, which also plays an important role in opportunistic infections.Infections caused by this species have been considered as a threat, since the mechanisms involved in biofilm formation between them, are not yet fully elucidated. 15,17e S. epidermidis and S. haemolyticus are the two species most frequently reported among the isolated CoNS in cases of nosocomial infections, according to several studies. 18,20,21ong the microorganisms identified as resistant to oxacillin, 12.5% of the species were similar in the bed surface samples and blood cultures from the same patient sample.The identification of microorganisms in hospital surfaces has been important in epidemiological investigations and suggest the environment as a possible source of transmission of nosocomial infections. 15,17e of the greatest ways to spread of hospital infections occur through cross-infection, which is caused by the transmission of microorganisms between patients or through the hands of professionals, caregivers and visitors, and health professionals the main contributors to this spread.The acquisition of microorganisms may also occur through direct contact with the patient material or contaminated environment. 22,23The low adherence of hygiene, by some health professionals, contributes to a significant increase of colonized patients, and consequently increasing the degree of environmental contamination.The aspects cleaning measures and disinfection of surfaces with handwashing contribute effectively as control measures in cases of cross-infections by minimizing the rise of environmental reservoirs, which may be considered as potential sources of infection to the patient. 22cause of the problem of global patient safety, the World Health Organization (WHO) established in 2004 the World Alliance for Patient Safety (World Alliance for Patient Safety) which seeks to define priority issues for research in the area of patient safety that are highly relevant. 24Among these, they highlight skills and abilities, often inadequate among health professionals and infections associated with health care. 24,25e similarity of microorganisms found between environmental samples and blood cultures in this study highlights the interference of the hospital in the transmission of pathogens and possible cross-infection.Resistant Gram positive bacteria identified reinforce the importance of emphasizing the general measures of environmental hygiene in relation to patient safety in health care.These include greater attention as handwashing, personal protective equipment for use, application of contact precautions, isolation area of establishment of patients with multidrug-resistant bacteria, as well as the strengthening of the institutional policy of rational use of antimicrobials.

Figure 1 -
Figure 1 -Frequency of the main species of Staphylococcus isolated in the surfaces of the ICU.Caruaru, PE, Brazil, 2015 -2016.

Figure 1 -
Figure 1 -E-test® result for determine the MIC to vancomycin.