Håkon Haaheim scite author profile

Sundsfjord A, Simonsen GS, Haldorsen BC, Haaheim H, Hjelmevoll SO, Littauer P, Dahl KH. Genetic methods for detection of antimicrobial resistance. APMIS 2004;112:815-37.Accurate and rapid diagnostic methods are needed to guide antimicrobial therapy and infection control interventions. Advances in real-time PCR have provided a user-friendly, rapid and reproducible testing platform catalysing an increased use of genetic assays as part of a wider strategy to minimize the development and spread of antimicrobial-resistant bacteria. In this review we outline the principal features of genetic assays in the detection of antimicrobial resistance, their advantages and limitations, and discuss specific applications in the detection of methicillin-resistant Staphylococcus aureus, glycopeptide-resistant enterococci, aminoglycoside resistance in staphylococci and enterococci, broad-spectrum resistance to b-lactam antibiotics in gram-negative bacteria, as well as genetic elements involved in the assembly and spread of antimicrobial resistance.

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A Fast Real-Time Polymerase Chain Reaction Method for Sensitive and Specific Detection of the Neisseria gonorrhoeae porA Pseudogene

Hjelmevoll

Olsen

Sollid

et al. 2006

The Journal of Molecular Diagnostics

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Ever since the advent of molecular methods, the diagnostics of Neisseria gonorrhoeae has been troubled by false negative and false positive results compared with culture. Commensal Neisseria species and Neisseria meningitidis are closely related to N. gonorrhoeae and may cross-react when using molecular tests comprising too-low specificity. We have devised a real-time polymerase chain reaction (PCR), including an internal amplification control, that targets the N. gonorrhoeae porA pseudogene. DNA was automatically isolated on a BioRobot M48. Our subsequent PCR method amplified all of the different N. gonorrhoeae international reference strains (n ‫؍‬ 34) and N. gonorrhoeae clinical isolates (n ‫؍‬ 176) but not isolates of the 13 different nongonococcal Neisseria species (n ‫؍‬ 68) that we tested. Furthermore, a panel of gram-negative bacterial (n ‫؍‬ 18), gram-positive bacterial (n ‫؍‬ 23), fungal (n ‫؍‬ 1), and viral (n ‫؍‬ 4) as well as human DNA did not amplify. The limit of detection was determined to be less than 7.5 genome equivalents/ PCR reaction. In conclusion, the N. gonorrhoeae porA pseudogene real-time PCR developed in the present study is highly sensitive, specific, robust, rapid and reproducible, making it suitable for diagnosis of N. gonorrhoeae infection.

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Transmission of VanA-Type Vancomycin-Resistant Enterococci andvanAResistance Elements between Chicken and Humans at Avoparcin-Exposed Farms

Simonsen¹,

Haaheim²,

Hegstad³

et al. 1998

Microbial Drug Resistance

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The genetical relatedness between epidemiologically linked fecal VRE strains from poultry farmers (n = 5) and their broilers (n = 7) at five avoparcin-exposed Norwegian farms was examined. Pulsed-field gel electrophoresis (PFGE) of bacterial chromosomal digests and structural analysis of vanA resistance elements was performed. Animal and human Enterococcus faecium strains at one farm were genetically closely related with indistinguishable vanA elements and a single band position difference in PFGE analysis. Examination of the vanA elements in genetically unrelated strains by restriction enzyme digestion of Tn1546 long-PCR amplicons and ORF2-vanR intergenic sequencing revealed a pool of at least two distinct vanA gene cluster groups in the two reservoirs. The results indicate that transmission of VanA glycopeptide resistance in enterococci between human and animal at avoparcin-exposed farms can occur by direct transfer of VRE strains as well as horizontal spread of resistance genes between strains.

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Chlamydia trachomatis, Mycoplasma genitalium and Ureaplasma urealyticum among students in northern Norway

Jensen

Kleveland

Moghaddam

et al. 2012

Acad Dermatol Venereol

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Background The prevalence of Mycoplasma genitalium and Ureaplasma genitalium in populations outside sexually transmitted infection clinics in Norway is unknown. Objective To assess the prevalence of potential sexually transmitted organisms in a non‐clinical setting, among college students in Northern Norway. Methods In total 655 students, 449 men and 206 women, were tested for Chlamydia trachomatis, M. genitalium, and U. urealyticum by nucleic acid amplification testing of urine samples. All subjects completed questionnaires. Results Among the included men, the prevalences of C. trachomatis, M. genitalium, and U. urealyticum were 4.2%, 1.1% and 8.9%, respectively. Prevalence among included women was 1.9%, 1% and 8.2%, respectively. In men, the number of sexual partners in the preceding 6 months was associated with prevalence of U. urealyticum and C. trachomatis. Conclusions U. urealyticum appeared more prevalent than C. trachomatis and increased number of sexual partners was associated with increased risk of a positive test. M. genitalium had a low prevalence.

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Håkon Haaheim

Experimental expression in mice and spontaneous expression in human SLE of polyomavirus T-antigen. A molecular basis for induction of antibodies to DNA and eukaryotic transcription factors.

Genetic methods for detection of antimicrobial resistance

A Fast Real-Time Polymerase Chain Reaction Method for Sensitive and Specific Detection of the Neisseria gonorrhoeae porA Pseudogene

Transmission of VanA-Type Vancomycin-Resistant Enterococci andvanAResistance Elements between Chicken and Humans at Avoparcin-Exposed Farms

Chlamydia trachomatis, Mycoplasma genitalium and Ureaplasma urealyticum among students in northern Norway

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