Skip to main content
Key Specialties
Cardiology Diabetology Endocrinology Gastroenterology Geriatrics and Gerontology Gynecology and Obstetrics Hematology Infectious Disease Internal Medicine Nephrology Neurology Oncology Pediatrics Respiratory Medicine Rheumatology Surgery
Congress Coverage
2024 ACC Congress 2023 ESMO Congress 2023 EASD Congress 2023 ERS Congress 2023 ESC Congress
Clinical Collections
Advances in Alzheimer’s

At a glance: The STEP trials

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.
ADVANCED SEARCH
Log in
Top
BMC Infectious Diseases
Published in: BMC Infectious Diseases 1/2018

Open Access 01-12-2018 | Research article

Prevalence of metallo-β-lactamase acquired genes among carbapenems susceptible and resistant Gram-negative clinical isolates using multiplex PCR, Khartoum hospitals, Khartoum Sudan

Authors: Mudathir Abdallah Adam, Wafa I. Elhag

Published in: BMC Infectious Diseases | Issue 1/2018

Login to get access

Abstract

Background

The increased prevalence of carbapenem-resistant Gram-negative isolates caused by Metallo-β-lactamase (MBL) is worrisome in clinical settings worldwide. The mortality rate associated with infections caused by MBLs producing organisms ranging from 18 to 67%.
This study aimed to determine the prevalence of Metallo-β-lactamase genes among some Gram-negative clinical isolates (Carbapenems susceptible and resistant).

Methods

This paper describes a descriptive cross-sectional study carried out to detect MBL genes such as (blaVIM, blaIMP and blaNDM) by multiplex PCR mixture reaction among 200 Gram-negative clinical isolates (Citrobacter spp, Escherichia coli, Enterobacter spp, Klebsiella pneumoniae, Pseudomonas aeruginosa, Proteus mirabilis, Proteus valgaris). Khartoum hospitals during 2015 to 2016.
Limitation: The study organisms were not evaluated for non-MBL carbapenemases, such as KPC and OXA-48.

Results

The prevalence of MBL genes by multiplex PCR assays among 200 Gram-negative clinical isolates was 72(36.1%). MBL positive genes among 100 carbapenems sensitive and 100 resistant isolates were 27(27%) and 45(45%) respectively. There was a statistically, significant association between the antimicrobial susceptibility and the presences of MBL genes (P.value = 0.008).
E.coli was the predominant species possessing MBL genes 26(36.1%), with 22(30.7%) species having a combination of MBL genes.
Verona integron Metallo beta-lactamase (VIM) was the most frequent genes 28(38.9%) out of 72 MBL detected genes, followed by imipenemase (IMP) was 19(26.4%), and consequently, New Delhi Metallo beta lactamase was 3(4.2%).

Conclusion

This study revealed a high prevalence of MBL genes in some Gram-negative isolates from Khartoum State Hospitals which were not previously established in these hospitals.
Appendix
Available only for authorised users
Literature
1.
Meini MR, Llarrull LI, Vila AJ. Evolution of Metallo-β-lactamases: trends revealed by natural diversity and in vitro evolution. Antibiotics. 2014;3:285–316.CrossRef
2.
Shaik S, Fatima J, Shakill S, Rizvi SMD. Antibiotic resistance and extended-spectrum beta-lactamases: types, epidemiology, and treatment. Saudi Biol Sci. 2015;22(1):90–101.CrossRef
3.
Worthington RJ, Melaner C. Overcoming resistance to β-lactam antibiotics. J Org Chem. 2013;78(9):4207–13.CrossRef
4.
Anoar KA, Ali FA, Omer SA. Detection of Metallo β-lactamase enzyme in some gram-negative bacteria isolated from burn patients in Sulaimani city, Iraq. European Scientific J. 2014;10(1):485–96.
5.
Mushi MF. Carbapenems-resistance determining genes among multidrug resistance gram-negative bacterial clinical isolates, in Tanzania (Master's thesis) (internet) University of Makerere; 2013.
6.
Rawat V, Singhai M, Verma PK. Detection of different β-lactamases and their co-existence by using various discs combination methods in clinical isolates of Enterobacteriaceae and Pseudomonas spp. J Lab Physicians. 2013;5:21–5.CrossRef
7.
Pitout JDD, Chow BL, Gregson DB, Laupland KB, Elsayed S, Church DL. Molecular epidemiology of Metallo-β-lactamase-producing Pseudomonas aeruginosin the Calgary health region: emergence of VIM-2-producing isolates. J Clin Microbiol. 2007;45(2):294–8.CrossRef
8.
9.
Papp-Wallace KM, Endimiani A, Taracila MA, Bonomo RA. Carbapenems: past, present, and future. Antimicrob Agents Chemother. 2011;55(11):4943–60.
10.
Peymani A, Farivar TN, Ghanbarlou MM, Najafipour R. Dissemination of Ps.aeruginosa producing blaIMP-1 and blaVIM-1 in Qazvin and Alborz educational hospital, Iran. Iran J Microbiol. 2015;7(6):302–9.PubMedPubMedCentral
11.
Poirel L, Revathi G, Bernabeu S, Nordmann P. Detection of NDM-1-producing Klebsiella pneumoniae in Kenya. Antimicrob Agents Chemother. 2011;55(2):934–6.CrossRef
12.
Thoms-Rodriguez C, Mazzulli T, Christian N, Willey BM, Boyed DA, Mataseje LF, et al. New Delhi Metallo-β-lactamase in Jamaica. J Infect Dev Ctries. 2016;10(2):183–7.CrossRef
13.
Warnes SL, Highmore CJ, Keevil CW. Horizontal transfer of antibiotics resistance genes on abiotic touch surfaces: implications for public health. MBio. 2012;3(6):e00489–12.CrossRef
14.
Martin K, Florian S, Lars W, Gaterman G. Detection of Carbapenemases in Enterobacteriaceae by commercial multiplex PCR. J Clin Microbiol. 2012;50(9):3115–8.CrossRef
15.
Borra NS. Structural and biochemical investigation of Metallo-β-lactamases; Insights into the antibiotic binding sites, in northern Norway (Ph.D. Thesis) (internet) University of Tromso; 2012.
16.
Abdelrazig MD, HamedElnil YF. Molecular characterization and sensitivity pattern of Pseudomonas aeruginosa among patients with different diseases in Khartoum, Sudan. J Sci Technol. 2012;13(12):32–6.
17.
Jamal W, Rotimi VO, Albert MJ, Khodakhast F, Nordmann P, Poirel L. High prevalence of VIM-4 and NDM-1 Metallo-beta-lactamase among carbapenem-resistant Enterobacteriaceae. J Med Microbiol. 2013;62(8):1239–44.CrossRef
18.
Cheesbrough M. Antimicrobial susceptibility testing. In: Distinct laboratory practice in tropical countries part 2, 2nd ed. New York: Cambridge University Press, 2006, ch 7. Pp 135–141.
19.
CLSI. Performance Standards for Antimicrobial Susceptibility Testing; Twenty-First Informational Supplement. CLSI document M100-S21. Wayne: Clinical and Laboratory Standards Institute; 2011. p. 42–63.
20.
Logan LK, Bonomo RA. Metallo-beta-lactamase (MBL)-Producing Enterobacteriaceae in United States Children. Open Forum Infect Dis. 2016;3(2):ofw090.CrossRef
21.
Padhi S. New Delhi Metallo-beta-lactamase: a weapon for the newly emerging drug-resistant bacteria. Indian J Med Sci. 2011;65(8):317–20.CrossRef
22.
Hammood HN. The emergence of NDM-1 among carbapenems-resistance in Iraqi hospitals. Acta Microbiol Immunol Hung. 2017;9:1–17.
23.
Maltezou HC. Metallo-β-lactamases in gram-negative bacteria: introducing the era of pan-resistance. Int J Antimic Agent. 2009;33(5):405.e1–7.CrossRef
24.
Thapa P, Bhandari D, Shrestha D, Parajuli H, Chaudhary P, Amatya J, et al. A hospital-based surveillance of Metallo-beta-lactamase-producing gram-negative bacteria in Nepal by imipenem-EDTA disk method. BMC Research Notes. 2017;10:322.CrossRef
25.
Nordman P, Carrer A. Carbapenemases in Enterobacteriaceae. Arch Pediatr. 2010;17(suppl 4):S145–62.
26.
Rahal J. The role of carbapenems in initial therapy of serious gram-negative infections. Crit Care. 2008;12(suppl 4):55.CrossRef
27.
Safari M, Nejad ASM, Bador A, Jafari R, Khani MYA. Prevalence in Acinetobacter baumannii strains isolated from patients of intensive care units (ICU). Saudi J Biol Sci. 2015;22(4):424–9.CrossRef
28.
Pritsch M, Zeynudin A, Messerer M, Baumer S, Liegl G, Schubert S, et al. First report on blaNDM-1-producing Acinetobacter baummanii in three clinical isolates from Ethiopia. BMC Infect Dis. 2017;17:180.CrossRef
29.
Mohamed SGR, Alobied A, Saeed MI, Hussien WM. New Delhi Metallo-β-lactamase (NDM)-mediated Carbapenem-resistant Pseudomonas aeruginosa clinical isolate in Sudan. SAJRM. 2018;1(3):1–5.
30.
Satir S, Elkalifa MA, Ali MA, El Hussein AM, Elkhidir IM, Enan KA. Detection of Carbapenem-resistant genes among selected gram negative bacteria isolated from patients in-Khartoum state, Sudan. Clin Microbiol. 2016;5:6.CrossRef
31.
Zafer MM, Al-Agamy NH, El-Mahallawy HA, Amin MA, Ashour MS. Antimicrobial resistance pattern and their β-lactamase encoding genes among Pseudomonas aeruginosa strains isolated from cancer patients. Bio Med Research Int. 2014;e101635:2014.
32.
Diab M, Fan N, El-Said M, El-Dabaa E, El-Defrawy I, Saber M. Occurrence of VIM-2 Metallo-β-lactamases in imipenem resistant and susceptible Pseudomonas aeruginosa clinical isolates from Egypt. Afri J Microbiol. 2013;7(35):4465–72.
33.
Sigh-Moodley A, Perovic O. Antimicrobial susceptibility testing in predicting the presence of carbapenemase genes in Enterobacteriaceae in South Africa. BMC Infect Dis. 2016;16:536.CrossRef
34.
El-Herte RI, Araj GF, Mata GM, Baroud M, Kanafani ZA, Kanj SS. Detection of carbapenem-resistant Escherichia coli and Klebsiella pneumonia producing NDM-1 in Lebanon. J Infect Dev Ctries. 2012;6(5):451–61.CrossRef
35.
Mereuţă AI, Bădescu AC, Dorneanu OS, Iancu LS, Tuchiluş CG. Spread of VIM-2 metallo-beta-lactamase in Pseudomonas aeruginosa and Acinetobacter baumannii clinical isolatesfrom Iasi, Romania. Revista Românăde Medicinăde Laborator. 2013;21(12):423–30.
36.
Amudhan MS, Sekar U, Kamalanathan A, Balaraman S. Bla-IMP and Bla-VIM mediated carpabenem resistance in Pseudomonas and Acinetobacer species in India. J Infect Dev Ctries. 2012;6(11):757–62.CrossRef
37.
Nelly M, Raafat M, Raafat D. Phenotypic and genotypic detection of MBLs in imipenem-resistance A.baumanii isolates from a tertiary hospital in Alexandria, Egypt. Egypt Res J Microbiol. 2011;6(10):750–60.CrossRef
38.
Khosravi Y, Vellasamy KM, Tay ST, and Vadivelu J. Molecular detection and characterization of Metallo-β-lactamase (MBL) genes and integrons of imipenem –resistant Pseudomonas aeruginosa. A. Méndez-Vilas, Ed: (2013); 515–521.
39.
40.
Aghamiri S, Amirmozafari N, FallahMehrabadi J, Fouladtan B, Samadi KH. Antibiotic resistance pattern and evaluation of Metallo-Beta lactamase genes including Bla-IMP and Bla-VIM types in Pseudomonas aeruginosa isolated from patients in Tehran hospitals. ISRN Microbiol. 2014;2014:941507.CrossRef
Metadata
Title
Prevalence of metallo-β-lactamase acquired genes among carbapenems susceptible and resistant Gram-negative clinical isolates using multiplex PCR, Khartoum hospitals, Khartoum Sudan
Authors
Mudathir Abdallah Adam
Wafa I. Elhag
Publication date
01-12-2018
Publisher
BioMed Central
Published in
BMC Infectious Diseases / Issue 1/2018
Electronic ISSN: 1471-2334
DOI
https://doi.org/10.1186/s12879-018-3581-z

Other articles of this Issue 1/2018

BMC Infectious Diseases 1/2018 Go to the issue

Research article

Drug-resistant Enterobacteriaceae colonization is associated with healthcare utilization and antimicrobial use among inpatients in Pune, India

Research article

Healthcare-associated transmission of Panton-Valentine leucocidin positive methicillin-resistant Staphylococcus aureus: the value of screening asymptomatic healthcare workers

Research article

Extra-haematological manifestations related to human parvovirus B19 infection: retrospective study in 25 adults

Research article

The landscape of vaccines in China: history, classification, supply, and price

Research article

Long-term Lactobacillus rhamnosus BMX 54 application to restore a balanced vaginal ecosystem: a promising solution against HPV-infection

Research article

Laboratory methods for case finding in human psittacosis outbreaks: a systematic review
Obesity Clinical Trial Summary

At a glance: The STEP trials

Read more

A round-up of the STEP phase 3 clinical trials evaluating semaglutide for weight loss in people with overweight or obesity.

Developed by: Springer Medicine

Highlights from the ACC 2024 Congress

Year in Review: Pediatric cardiology

Pediatric Cardiology Video

Watch Dr. Anne Marie Valente present the last year's highlights in pediatric and congenital heart disease in the official ACC.24 Year in Review session.

Year in Review: Pulmonary vascular disease

Cardiopulmonary Comorbidity Video

The last year's highlights in pulmonary vascular disease are presented by Dr. Jane Leopold in this official video from ACC.24.

Year in Review: Valvular heart disease

Valvular Heart Disease Video

Watch Prof. William Zoghbi present the last year's highlights in valvular heart disease from the official ACC.24 Year in Review session.

Year in Review: Heart failure and cardiomyopathies

Heart Failure Video

Watch this official video from ACC.24. Dr. Biykem Bozkurt discuss last year's major advances in heart failure and cardiomyopathies.

ACC 2024 Congress Coverage

Heart Failure Video

Year in Review: Heart failure and cardiomyopathies

Watch now

Watch this official video from ACC.24. Dr. Biykem Bozkurt discuss last year's major advances in heart failure and cardiomyopathies.

Semaglutide benefits people with type 2 diabetes and obesity-related heart failure

16-04-2024 Type 2 Diabetes News

Incentivised to exercise

11-04-2024 Lifestyle Modifications News

New intervention for STEMI-related cardiogenic shock

10-04-2024 Myocardial Infarction News

» View more highlights on the ACC 2024 congress hub page

Image Credits