Antibiotic susceptibility pattern of Burkholderia cepacia complex from various clinical samples in a tertiary care center: A one year prospective study

Vol. 6 | Issue 1 | January March 2018 Abstract Background: The Burkholderia cepacia complex (BCC) is a diverse group of human pathogens that cause lifethreatening infections in patients with indwelling devices & those requiring intensive care. The aim of this study is to determine the antibiotic susceptibility pattern of Burkholderia cepacia complex (BCC) from various clinical samples in our hospital.

introduction Burkholderia cepacia is a cluster of at least 18 closely related genomic species (or genomovars) now called the Burkholderia cepacia complex (BCC) ( Table 1). Since early 1980's, Burkholderiacepacia has emerged as a cause of opportunistic human infections. The Burkholderia cepacia complex is a group of oxidase positive, non-lactose fermenting Gram negative bacilli having a spectrum of infections ranging from superficial to deep seated and disseminated infections. BCC is frequently associated with epidemic spread and with "Cepacia syndrome" which is manifested by severe progressive respiratory failure and bacteremia. Virulence markers such as cable (cbl) pilus encoded by cable pilin subunit gene (cblA) mediates adherence to mucus glycoproteins and enhances adherence to epithelial cells. Burkholderia epidemic strain marker (BCESM) associated with Burkholderia cepacia strain types infects multiple patients with cystic fibrosis; occurs exclusively in Burkholderia cenocepacia [1]. BCC are commonly found on plant roots, soil and moist environments [2]. BCC strains are transmissible between patients and that cross-infection occurs by direct person-to-person spread. It has been isolated from numerous water sources and wet surfaces; including detergent solutions and IV fluids [3,4]. It has emerged as a serious nosocomial pathogen worldwide especially in patients with indwelling devices. With the limited recommended antibiotic options available for BCC, emerging antibiotic resistance is of great concern.  [6,7]. The data was captured from the system and analyzed.

Vitek ® 2 Compact system
It is an automated microbiology system utilizing growth-based technology. It makes use of colorimetric reagent cards that are incubated and interpreted automatically. It has application in clinical laboratories. It is also compliant for electronic records & signatures. A colorimetric reagent card GN is used for identification of Gram negative bacteria.

Discussion
Burkholderia cepacia complex has emerged as an important cause of morbidity and mortality in hospitalized patients. BCC shows intrinsic resistance for many antibiotics. As per Clinical and Laboratory Standards Institutes guidelines 2016-2017, recommended drugs for BCC are ceftazidime, meropenem, minocycline, levofloxacin, cotrimoxazole and ticarcillin-clavulanic acid [6,7]. However, recently resistance to these drugs is on rise. In this study maximum susceptibility of BCC was seen with ceftazidime which is comparable with study conducted by Dutta et al. [8]. In a five year study by Bhavana MV et al. maximum susceptibility was seen with Cotrimoxazole [9]. Majority isolates were from ICU's in this study which is also seen in the study conducted by Dizbay et al. [10].
Recently a new drug combination ceftolozanetazobactam has been added to the list of treating drugs for complicated BCC infection. In a study conducted by Dale et al., ceftolozane-tazobactam demonstrated marginally superior activity over that of ceftazidime against ceftazidime-susceptible strains and retained activity against most (60%) multidrug resistant and extensively drug-resistant strains [11]. In another study conducted by Omar et al., another combination drug moxifloxacin and ceftazidime showed synergistic effect for Burkholderia infection [12]. Further studies and guidelines are needed for practical application and use of such drugs in practice.
With the emerging resistance to even the minimum available recommended drug choices as per CLSI guidelines; there is need for emphasis on rational use of antibiotics and prompt treatment of BCC infections. This study outlines the susceptibility data that can help in making empirical choice and brings in the need for more research in this field.
The limitation of this study is lack of molecular confirmation due to economic constraints. It is a laboratory based study so outcome could not be measured. However, this study signifies the need of identification of BCC on routine basis as it has emerged as a significant nosocomial pathogen and can be a cause of hospital outbreaks. It amounts to morbidity and mortality increasing the cost of hospital stay and loss of life. With intrinsic resistance to various antibiotics and emergence of resistance to minimum available antibiotics, outbreaks with such strains being preventable in hospitals; needs to be kept check on. Continuous monitoring is important in this case to prevent any such outbreak.

Conclusion
Burkholderia cepacia complex being a nosocomial agent with high mortality poses a real threat in critically ill patients and needs prompt treatment. Hospital infection control committee and antibiotic stewardship committee plays a major role in preventing these infections.