1.Pharmacokinetic-pharmacodynamic analysis of ciprofloxacin in elderly Chinese patients with lower respiratory tract infections caused by Gram-negative bacteria.
Xiao-Yan GAI ; Shi-Ning BO ; Ning SHEN ; Qing-Tao ZHOU ; An-Yue YIN ; Wei LU
Chinese Medical Journal 2019;132(6):638-646
BACKGROUND:
Ciprofloxacin is usually used in the treatment of lower respiratory tract infections (LRTIs). Recent studies abroad have shown ciprofloxacin is inadequately dosed and might lead to worse outcomes. The aim of this study was to perform pharmacokinetic and pharmacodynamic analyses of ciprofloxacin in elderly Chinese patients with severe LRTIs caused by Gram-negative bacteria.
METHODS:
From September 2012 to June 2014, as many as 33 patients were empirically administered beta-lactam and ciprofloxacin combination therapy. Patients were infused with 200 or 400 mg of ciprofloxacin every 12 h, which was determined empirically by the attending physician based on the severity of the LRTI and the patient's renal condition. Ciprofloxacin serum concentrations were determined by high-performance liquid chromatography. Bacterial culture was performed from sputum samples and/or endotracheal aspirates, and the minimum inhibitory concentrations (MICs) of ciprofloxacin were determined. The ratios of the area under the serum concentration-time curve to the MIC (AUC/MIC) and of the maximum serum concentration of the drug to the MIC (Cmax/MIC) were calculated. The baseline data and pharmacokinetic parameters were compared between clinical success group and clinical failure group, bacteriologic success group and bacteriologic failure group.
RESULTS:
Among the 33 patients enrolled in the study, 17 were infected with Pseudomonas aeruginosa, 14 were infected with Acinetobacter baumannii, and two were infected with Klebsiella pneumoniae. The mean age of the patients was 76.9 ± 6.7 years. Thirty-one patients (93.4%) did not reach the target AUC/MIC value of >125, and 29 patients (87.9%) did not reach the target Cmax/MIC value of >8. The AUC/MIC and Cmax/MIC ratios in the clinical success group were significantly higher than those in the clinical failure group (61.1 [31.7-214.9] vs. 10.4 [3.8-66.1], Z = -4.157; 9.6 [4.2-17.8] vs. 1.3 [0.4-4.7], Z = -4.018; both P < 0.001). The AUC/MIC and Cmax/MIC ratios in the patients for whom the pathogens were eradicated were significantly higher than those in the patients without the pathogens eradicated (75.3 [31.7-214.9] vs. 10.5 [3.8-66.1], Z = -3.938; 11.4 [4.2-17.8] vs. 1.4 [0.4-5.4], Z = -3.793; P < 0.001 for both). Receiver operating characteristic curve analysis showed that the AUC/MIC and Cmax/MIC values were closely associated with clinical and bacteriologic efficacies (P < 0.001 in both).
CONCLUSIONS
Ciprofloxacin is inadequately dosed against Gram-negative bacteria, especially for those with relatively high MIC values. Consequently, the target values, AUC/MIC > 125 and Cmax/MIC > 8, cannot be reached.
Acinetobacter baumannii
;
drug effects
;
pathogenicity
;
Aged
;
Aged, 80 and over
;
Chromatography, High Pressure Liquid
;
Ciprofloxacin
;
pharmacokinetics
;
pharmacology
;
Female
;
Gram-Negative Bacteria
;
drug effects
;
pathogenicity
;
Humans
;
Male
;
Microbial Sensitivity Tests
;
Pseudomonas aeruginosa
;
drug effects
;
pathogenicity
;
Respiratory Tract Infections
;
drug therapy
;
metabolism
;
microbiology
2.Trends in Drug Resistance ofover a 10-year Period: Nationwide Data from the China Surveillance of Antimicrobial Resistance Program.
Chinese Medical Journal 2017;130(6):659-664
BACKGROUNDAcinetobacter baumannii has emerged as an important pathogen causing a variety of infections. Using data from the China Surveillance of Antimicrobial Resistance Program conducted biennially, we investigated the secular changes in the resistance of 2917 isolates of A. baumannii from 2004 to 2014 to differ antimicrobial agents.
METHODSPathogen samples were collected from 17 to 20 hospitals located in the eastern, central, and western regions of China. Minimum inhibitory concentrations (MICs) were determined by a 2-fold agar dilution method, and antimicrobial susceptibility was established using the 2014 Clinical Laboratory Standards Institute-approved breakpoints. Isolates not susceptible to all the tested aminoglycosides, fluoroquinolones, β-lactams, β-lactam/β-lactam inhibitors and carbapenems were defined as extensively drug resistant.
RESULTSThe rates of nonsusceptibility to common antimicrobial agents remained high (>65%) over the years with some fluctuations to certain agents. The prevalence of imipenem-resistant A. baumannii (IRAB) increased from 13.3% in 2004 to 70.5% in 2014 and that of extensively drug-resistant A. baumannii (XDRAB) increased from 11.1% in 2004 to 60.4% in 2014. The activity of tigecycline was stable with MIC90 ≤4 mg/L against A. baumannii from 2009 to 2014. Susceptibility to colistin remained high (97.0%) from 2009 to 2014. The prevalence of XDRAB increased in all the three surveillance regions over the years and was significantly higher in Intensive Care Unit (ICU) wards than non-ICU wards.
CONCLUSIONSThis longitudinal multicenter surveillance program revealed the nationwide emergence of A. baumannii in China and showed a significant increase in prevalence from 2004 to 2014. High levels of bacterial resistance were detected among samples collected from clinical settings in China, with IRAB and XDRAB being especially prevalent. This study will help to guide empirical therapy and identify at-risk groups requiring more intense interventional infection control measures, while also helping to focus surveillance efforts.
Acinetobacter baumannii ; drug effects ; Amikacin ; pharmacology ; Anti-Infective Agents ; pharmacology ; Cefoperazone ; pharmacology ; Ceftazidime ; pharmacology ; Cephalosporins ; pharmacology ; China ; Colistin ; pharmacology ; Drug Resistance, Multiple, Bacterial ; Humans ; Imipenem ; pharmacology ; Levofloxacin ; pharmacology ; Microbial Sensitivity Tests ; Minocycline ; pharmacology ; Penicillanic Acid ; analogs & derivatives ; pharmacology ; Piperacillin ; pharmacology ; Sulbactam ; pharmacology
3.Controlling endemic multidrug-resistant Acinetobacter baumannii in Intensive Care Units using antimicrobial stewardship and infection control.
Shinhye CHEON ; Mi Ja KIM ; Seon Jin YUN ; Jae Young MOON ; Yeon Sook KIM
The Korean Journal of Internal Medicine 2016;31(2):367-374
BACKGROUND/AIMS: Nosocomial infections caused by multidrug-resistant (MDR) Acinetobacter baumannii have become public-health problem. However, few studies have evaluated the control of endemic MDR A. baumannii in Intensive Care Units (ICUs). Therefore, we investigated the effectiveness of antimicrobial stewardship and comprehensive intensified infection control measures for controlling endemic MDR A. baumannii in ICUs at a tertiary care center. METHODS: Carbapenem use was strictly restricted through antimicrobial stewardship. Environmental cleaning and disinfection was performed at least 3 times per day in addition to basic infection control measures. Isolation using plastic curtains and contact precautions were applied to patients who were colonized or infected with MDR A. baumannii. The outcome was measured as the incidence density rate of hospital-onset MDR A. baumannii among patients in the ICUs. RESULTS: The incidence density rate of hospital-onset MDR A. baumannii decreased from 22.82 cases per 1,000 patient-days to 2.68 cases per 1,000 patient-days after the interventions were implemented (odds ratio, 0.12; 95% confidence interval, 0.03 to 0.4; p < 0.001). The mean monthly use of carbapenems also decreased from 134.99 +/- 82.26 defined daily doses per 1,000 patient-days to 94.85 +/- 50.98 defined daily doses per 1,000 patient-days (p = 0.016). CONCLUSIONS: Concomitant implementation of strict antimicrobial stewardship and comprehensive infection control measures effectively controlled endemic MDR A. baumannii in our ICUs within 1 year.
Acinetobacter Infections/epidemiology/microbiology/*prevention & control/transmission
;
Acinetobacter baumannii/*drug effects/pathogenicity
;
Anti-Bacterial Agents/adverse effects/*therapeutic use
;
Carbapenems/adverse effects/*therapeutic use
;
Chi-Square Distribution
;
Cross Infection/epidemiology/microbiology/*prevention & control/transmission
;
Disinfection
;
*Drug Resistance, Multiple, Bacterial
;
*Endemic Diseases
;
Hand Disinfection
;
Humans
;
Incidence
;
Infection Control/*methods
;
Microbial Sensitivity Tests
;
Odds Ratio
;
Patient Isolation
;
Program Evaluation
;
Republic of Korea/epidemiology
;
Risk Factors
;
Tertiary Care Centers
;
Time Factors
;
Treatment Outcome
4.Prediction of Putative Resistance Islands in a Carbapenem-Resistant Acinetobacter baumannii Global Clone 2 Clinical Isolate.
Yangsoon LEE ; Roshan D'SOUZA ; Dongeun YONG ; Kyungwon LEE
Annals of Laboratory Medicine 2016;36(4):320-324
BACKGROUND: We investigated the whole genome sequence (WGS) of a carbapenem-resistant Acinetobacter baumannii isolate belonging to the global clone 2 (GC2) and predicted resistance islands using a software tool. METHODS: A. baumannii strain YU-R612 was isolated from the sputum of a 61-yr-old man with sepsis. The WGS of the YU-R612 strain was obtained by using the PacBio RS II Sequencing System (Pacific Biosciences Inc., USA). Antimicrobial resistance genes and resistance islands were analyzed by using ResFinder and Genomic Island Prediction software (GIPSy), respectively. RESULTS: The YU-R612 genome consisted of a circular chromosome (ca. 4,075 kb) and two plasmids (ca. 74 kb and 5 kb). Its sequence type (ST) under the Oxford scheme was ST191, consistent with assignment to GC2. ResFinder analysis showed that YU-R612 possessed the following resistance genes: four β-lactamase genes bla(ADC-30), bla(OXA-66), bla(OXA-23), and bla(TEM-1); armA, aadA1, and aacA4 as aminoglycoside resistance-encoding genes; aac(6')Ib-cr for fluoroquinolone resistance; msr(E) for macrolide, lincosamide, and streptogramin B resistance; catB8 for phenicol resistance; and sul1 for sulfonamide resistance. By GIPSy analysis, six putative resistant islands (PRIs) were determined on the YU-R612 chromosome. Among them, PRI1 possessed two copies of Tn2009 carrying bla(OXA-23), and PRI5 carried two copies of a class I integron carrying sul1 and armA genes. CONCLUSIONS: By prediction of resistance islands in the carbapenem-resistant A. baumannii YU-R612 GC2 strain isolated in Korea, PRIs were detected on the chromosome that possessed Tn2009 and class I integrons. The prediction of resistance islands using software tools was useful for analysis of the WGS.
Acinetobacter Infections/*drug therapy/microbiology
;
Acinetobacter baumannii/drug effects/*genetics/isolation & purification
;
Anti-Bacterial Agents/pharmacology/*therapeutic use
;
Bacterial Proteins/genetics
;
Carbapenems/*therapeutic use
;
DNA, Bacterial/chemistry/*genetics/metabolism
;
Drug Resistance, Bacterial
;
Genomic Islands/genetics
;
Humans
;
Microbial Sensitivity Tests
;
Multilocus Sequence Typing
;
Plasmids/genetics/metabolism
;
Polymerase Chain Reaction
;
Sequence Analysis, DNA
5.In Vitro Synergistic Effects of Antimicrobial Combinations on Extensively Drug-Resistant Pseudomonas aeruginosa and Acinetobacter baumannii Isolates.
Hyukmin LEE ; Kyung Ho ROH ; Seong Geun HONG ; Hee Bong SHIN ; Seok Hoon JEONG ; Wonkeun SONG ; Young UH ; Dongeun YONG ; Kyungwon LEE
Annals of Laboratory Medicine 2016;36(2):138-144
BACKGROUND: Extensively drug-resistant (XDR) Pseudomonas aeruginosa and Acinetobacter baumannii are a threat to hospitalized patients. We evaluated the effects of antimicrobial combinations on XDR P. aeruginosa and A. baumannii isolates. METHODS: P. aeruginosa and A. baumannii isolates, which were resistant to all antibiotics except colistin (CL), were collected from eight hospitals in Korea. Genes encoding metallo-beta-lactamases (MBLs) and OXA carbapenemases were detected by PCR in eight P. aeruginosa and 30 A. baumannii isolates. In vitro synergy of antimicrobial combinations was tested by using the checkerboard method. RESULTS: Minimum inhibitory concentrations of beta-lactams, aminoglycosides, and fluoroquinolones were very high, while that of CL was low for majority of XDR P. aeruginosa and A. baumannii isolates. Antimicrobial combinations including Imipenem (IPM)-CL, ceftazidime (CAZ)-CL, and rifampin (RIF)-CL exerted only additive/indifferent effects on majority of XDR P. aeruginosa isolates. Proportions of XDR A. baumannii isolates that showed synergistic and additive/indifferent inhibition after treatment with antimicrobial combinations used are as follows: IPM-ampicillin-sulbactam (AMS), 17% and 80% isolates, respectively; IPM-rifampin (RIF), 13% and 81% isolates, respectively; IPM-CL, 13% and 87% isolates, respectively; and RIF-COL, 20% and 73% isolates, respectively. Significant proportion (19%) of XDR P. aeruginosa isolates produced MBLs, and majority (82%) of A. baumannii isolates produced either MBLs or OXA-23. CONCLUSIONS: Our results suggest that combinations of IPM-AMS, IPM-RIF, IPM-CL, and RIF-CL are more useful than individual drugs for treating 13-20% of XDR A. baumannii infections.
Acinetobacter baumannii/*drug effects/genetics/isolation & purification
;
Aminoglycosides/pharmacology
;
Anti-Infective Agents/*pharmacology
;
Bacterial Proteins/genetics/metabolism
;
Drug Resistance, Multiple, Bacterial/*drug effects
;
Drug Synergism
;
Fluoroquinolones/pharmacology
;
Imipenem/pharmacology
;
Microbial Sensitivity Tests
;
Polymerase Chain Reaction
;
Pseudomonas aeruginosa/*drug effects/genetics/isolation & purification
;
beta-Lactamases/genetics/metabolism
6.In Vitro Interactions of Antibiotic Combinations of Colistin, Tigecycline, and Doripenem Against Extensively Drug-Resistant and Multidrug-Resistant Acinetobacter baumannii.
Gyun Cheol PARK ; Ji Ae CHOI ; Sook Jin JANG ; Seok Hoon JEONG ; Choon Mee KIM ; In Sun CHOI ; Seong Ho KANG ; Geon PARK ; Dae Soo MOON
Annals of Laboratory Medicine 2016;36(2):124-130
BACKGROUND: Acinetobacter baumannii infections are difficult to treat owing to the emergence of various antibiotic resistant isolates. Because treatment options are limited for multidrug-resistant (MDR) A. baumannii infection, the discovery of new therapies, including combination therapy, is required. We evaluated the synergistic activity of colistin, doripenem, and tigecycline combinations against extensively drug-resistant (XDR) A. baumannii and MDR A. baumannii. METHODS: Time-kill assays were performed for 41 XDR and 28 MDR clinical isolates of A. baumannii by using colistin, doripenem, and tigecycline combinations. Concentrations representative of clinically achievable levels (colistin 2 microg/mL, doripenem 8 microg/mL) and achievable tissue levels (tigecycline 2 microg/mL) for each antibiotic were used in this study. RESULTS: The colistin-doripenem combination displayed the highest rate of synergy (53.6%) and bactericidal activity (75.4%) in 69 clinical isolates of A. baumannii. Among them, thedoripenem-tigecycline combination showed the lowest rate of synergy (14.5%) and bacteri-cidal activity (24.6%). The doripenem-tigecycline combination showed a higher antagonistic interaction (5.8%) compared with the colistin-tigecycline (1.4%) combination. No antagonism was observed for the colistin-doripenem combination. CONCLUSIONS: The colistin-doripenem combination is supported in vitro by the high rate of synergy and bactericidal activity and lack of antagonistic reaction in XDR and MDR A. baumannii. It seems to be necessary to perform synergy tests to determine the appropri-ate combination therapy considering the antagonistic reaction found in several isolates against the doripenem-tigecycline and colistin-tigecycline combinations. These findings should be further examined in clinical studies.
Acinetobacter Infections/drug therapy/microbiology
;
Acinetobacter baumannii/*drug effects/genetics/isolation & purification
;
Anti-Bacterial Agents/*pharmacology/therapeutic use
;
Bacterial Proteins/genetics
;
Carbapenems/*pharmacology/therapeutic use
;
Colistin/*pharmacology/therapeutic use
;
Drug Resistance, Multiple, Bacterial/*drug effects
;
Drug Synergism
;
Drug Therapy, Combination
;
Humans
;
Microbial Sensitivity Tests
;
Minocycline/*analogs & derivatives/pharmacology/therapeutic use
;
Multilocus Sequence Typing
;
beta-Lactamases/genetics
8.Analysis of the mechanism of drug resistance of VIM-2-type metallo-β-lactamase-producing Acineto- bacter baumannii isolated from burn patients and its homology.
Yang XILI ; Li YUE ; Zhan JIANHUA ; Guo FEI ; Min DINGHONG ; Wang NIANYUN ; Li GUOHUI ; Guo GUANGHUA
Chinese Journal of Burns 2015;31(3):205-210
OBJECTIVETo study the drug resistance of Acinetobacter baumannii (AB) producing VIM-2-type metallo-β-lactamase (MBL) isolated from burn patients of our ward against carbapenem antibiotics and its homology.
METHODSA total of 400 strains of AB (identified) were isolated from sputum, urine, blood, pus, and wound drainage. of burn patients hospitalized in our ward from September 2011 to March 2014. Drug resistance of the 400 strains of AB to 15 antibiotics, including compound sulfamothoxazole, aztreonam, etc. , was tested using the automatic microorganism identifying and drug sensitivity analyzer. Among the carbapenems-resistant AB isolates, modified Hodge test was applied to screen carbapenemase-producing strains. The carbapenemase genes of the carbapenemase-producing strains, and the mobile genetic elements class I-integron (Intl1) gene and conserved sequence (CS) of carbapenemase-producing strains carrying blaVIM-2 gene were determined with PCR and DNA sequencing. For carbapenemase-producing strains carrying blaVIM-2 gene, synergism test with imipenem-ethylene diamine tetraacetic acid (EDTA) and enhancement test with imipenem-EDTA and ceftazidime-EDTA were used to verify the MBL-producing status. Drug resistance of the VIM-2-type MBL-producing AB strains was analyzed. For VIM-2-type MBL-producing AB strains, plasmid conjugation experiment was used to explore the transfer of plasmid; outer membrane protein (OMP) CarO gene was detected by PCR. For VIM-2-type MBL-producing AB strains carrying CarO gene, the protein content of CarO was analyzed with sodium dodecyl sulfate polyacrylamide gel electro- phoresis. The repetitive consensus sequence of Enterobacteriaceae genome PCR (ERIC-PCR) was carried out for gene typing of VIM-2-type MBL-producing AB strains to analyze their homology.
RESULTS(1) The resistant rates of the 400 strains of AB against levofloxacin and compound sulfamethoxazole were low. A total of 381 carbapenems-resistant AB strains were screened, including 240 carbepenemase-producing strains. (2) Out of the 240 carbepenemase-producing strains, 18 strains were found to harbor the blaVIM-2 gene, accounting for 7.5%; 133 strains carried the blaTEM-1 gene, accounting for 55.42%; 195 strains carried the blaOXA23 gene, accounting for 81.25%; 188 strains carried the bla(armA) gene, accounting for 78.33%. (3) Eighteen carbepenemase-producing strains which carried the bla(VIM-2) gene were found to carry the Intl1 gene, showing the Intl1-VIM linkage. Simultaneously, Intl1 variable area CS showed diversity. (4) Eighteen carbepenemase-producing strains which carried the blaVIM-2 gene were verified to produce MBL. The resistant rates of the 18 strains of AB against compound sulfamethoxazole were the lowest, followed by levofloxacin and cefoperazone/sulbactam, and those against the other antibiotics were above 60.00%. (5) Through multiple joint tests, plasmid conjugation experiment positive transfer strain was not found in 18 VIM-2-type MBL-producing AB strains. (6) Nine out of the 18 VIM-2-type MBL-producing AB strains were found to carry CarO gene. The OMP CarO of VIM-2-type MBL-producing AB strains carrying CarO gene was lost or lowered in the protein content. (7) The 18 VIM-2-type MBL-producing AB strains were classified into 6 genotypes by the ERIC-PCR. There were respectively 6, 4, 3, and 1 stain (s) in genotypes A, B, C, and F, and there were 2 strains in genotypes D and E respectively.
CONCLUSIONSThe resistance mechanism of AB against carbapenems is mainly mediated by blaTEM-1, blaOXA-23, and bla(arma); meanwhile, VIM-2-type MBL-producing and lack or change in OMP CarO are attributable to carbapenems resistance of clinically isolated AB from burn wards, and the Intl1 gene may take a part in blaVIM-2 gene transmission.
Acinetobacter baumannii ; drug effects ; enzymology ; genetics ; isolation & purification ; Anti-Bacterial Agents ; pharmacology ; therapeutic use ; Bacterial Proteins ; Burns ; drug therapy ; microbiology ; Carbapenems ; pharmacology ; Drug Resistance, Bacterial ; Genes, Bacterial ; Humans ; Imipenem ; pharmacology ; Microbial Sensitivity Tests ; Sulbactam ; pharmacology ; beta-Lactamases ; genetics
9.In Vivo Selection of Pan-Drug Resistant Acinetobacter baumannii during Antibiotic Treatment.
Yoonjung KIM ; Il Kwon BAE ; Seok Hoon JEONG ; Dongeun YONG ; Kyungwon LEE
Yonsei Medical Journal 2015;56(4):928-934
PURPOSE: Colistin resistance in Acinetobacter baumannii (A. baumannii) is mediated by a complete loss of lipopolysaccharide production via mutations in lpxA, lpxC, and lpxD gene or lipid A modifications via mutations in the pmrA and pmrB genes. However, the exact mechanism of therapy-induced colistin resistance in A. baumannii is not well understood. MATERIALS AND METHODS: We investigated the genotypic and phenotypic changes that underlie pan-drug resistance mechanisms by determining differences between the alterations in extensively drug-resistant (XDR) A. baumannii (AB001 and AB002) isolates and a pan-drug resistant (PDR) counterpart (AB003) recovered from one patient before and after antibiotic treatment, respectively. RESULTS: All three clinical isolates shared an identical sequence type (ST138), belonging to the global epidemic clone, clonal complex 92, and all produced OXA-23 carbapenemase. The PDR AB003 showed two genetic differences, acquisition of armA gene and an amino acid substitution (Glu229Asp) in pmrB gene, relative to XDR isolates. No mutations were detected in the pmrA, pmrC, lpxA, lpxC, or lpxD genes in all three isolates. In matrix-assisted laser desorption ionization-time of flight analysis, the three isolates commonly showed two major peaks at 1728 m/z and 1912 m/z, but peaks at 2034 m/z, 2157 m/z, 2261 m/z, and 2384 m/z were detected only in the PDR A. baumannii AB003 isolate. CONCLUSION: Our results show that changes in lipid A structure via a mutation in the pmrB gene and acquisition of armA gene might confer resistance to colistin and aminoglycosides to XDR A. baumannii strains, resulting in appearance of a PDR A. baumannii strain of ST138.
Acinetobacter Infections/*drug therapy/microbiology
;
Acinetobacter baumannii/*drug effects/*genetics/isolation & purification
;
Aged
;
Anti-Bacterial Agents/*pharmacology/therapeutic use
;
Bacterial Proteins/*genetics
;
Colistin/*pharmacology/therapeutic use
;
*Drug Resistance, Bacterial
;
Electrophoresis, Gel, Pulsed-Field
;
Genotype
;
Humans
;
Male
;
Microbial Sensitivity Tests
;
Molecular Typing
;
Mutation
;
Polymerase Chain Reaction
;
Transcription Factors
;
beta-Lactamases
10.Influence of poly-β-1-6-N-acetylglucosamine on biofilm formation and drug resistance of Acinetobacter baumannii.
Chinese Journal of Burns 2015;31(1):45-47
Acinetobacter baumannii has emerged as one of the leading bacteria for nosocomial infections, especially in burn wards and ICUs. The bacteria can easily form biofilm and readily attach to abiotic and biotic surfaces, resulting in persistent biofilm-mediated infections. Being surrounded by self-produced extracellular polymeric substance (EPS), the microorganisms in biofilm can acquire protective property against detrimental environment and their tolerance toward antibiotics is increased. Poly-β-1-6-N-acetylglucosamine (PNAG), the common constituent of EPS in Acinetobacter baumannii, acts as the key virulence factor and plays a crucial role in biofilm formation process. This review describes the properties and functions of the PNAG and its influence on biofilm formation and drug resistance of Acinetobacter baumannii.
Acinetobacter Infections
;
drug therapy
;
Acinetobacter baumannii
;
drug effects
;
Anti-Bacterial Agents
;
therapeutic use
;
Biofilms
;
drug effects
;
growth & development
;
Burns
;
Cross Infection
;
Drug Resistance, Multiple, Bacterial
;
beta-Glucans
;
metabolism

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