Eva Tano scite author profile

The emergence and spread of antibiotic-resistant bacteria are aggravated by incorrect prescription and use of antibiotics. A core problem is that there is no sufficiently fast diagnostic test to guide correct antibiotic prescription at the point of care. Here, we investigate if it is possible to develop a point-of-care susceptibility test for urinary tract infection, a disease that 100 million women suffer from annually and that exhibits widespread antibiotic resistance. We capture bacterial cells directly from samples with low bacterial counts (10 4 cfu/mL) using a custom-designed microfluidic chip and monitor their individual growth rates using microscopy. By averaging the growth rate response to an antibiotic over many individual cells, we can push the detection time to the biological response time of the bacteria. We find that it is possible to detect changes in growth rate in response to each of nine antibiotics that are used to treat urinary tract infections in minutes. In a test of 49 clinical uropathogenic Escherichia coli (UPEC) isolates, all were correctly classified as susceptible or resistant to ciprofloxacin in less than 10 min. The total time for antibiotic susceptibility testing, from loading of sample to diagnostic readout, is less than 30 min, which allows the development of a point-of-care test that can guide correct treatment of urinary tract infection.point of care | UTI | AST | antibiotic | resistance | microfluidic

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Ultraviolet-C decontamination of a hospital room: Amount of UV light needed

Lindblad

Tano

Lindahl³

et al. 2020

Burns

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A General Method for Rapid Determination of Antibiotic Susceptibility and Species in Bacterial Infections

et al. 2015

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To ensure correct antibiotic treatment and reduce the unnecessary use of antibiotics, there is an urgent need for new rapid methods for species identification and determination of antibiotic susceptibility in infectious pathogenic bacteria. We have developed a general method for the rapid identification of the bacterial species causing an infection and the determination of their antibiotic susceptibility profiles. An initial short cultivation step in the absence and presence of different antibiotics was combined with sensitive species-specific padlock probe detection of the bacterial target DNA to allow a determination of growth (i.e., resistance) and no growth (i.e., susceptibility). A proof-of-concept was established for urinary tract infections in which we applied the method to determine the antibiotic susceptibility profiles of Escherichia coli for two drugs with 100% accuracy in 3.5 h. The short assay time from sample to readout enables fast appropriate treatment with effective drugs and minimizes the need to prescribe broad-spectrum antibiotics due to unknown resistance profiles of the treated infection. Overprescription and extensive use of antibiotics have selected for resistant bacteria at an alarmingly rapid rate, and we are now facing one of the greatest medical challenges of our time (1). Today, both the diagnosis of bacterial infections and determination of antibiotic susceptibility profiles (ASP) are slow and tedious processes. As a consequence, a patient might be given an antibiotic that has no effect on infections caused by resistant bacteria. Thus, there is a considerable need for new techniques enabling quick and specific diagnosis along with characterization of an ASP in order to guide correct treatment, reduce the use of broad-spectrum antibiotics, and slow the development of resistance.In the last few decades, we have seen an amazing development of novel molecular methods to detect bacterial pathogens and their resistance genes and resistance mutations (2-5). These new hybridization/PCR-based methods are generally faster and more sensitive than are the classical phenotypic methods, but they also suffer from serious drawbacks that have often reduced their general use. An intrinsic limitation of all genotypic methods that identify resistance mutations or genes is that they detect only the potential for resistance (i.e., presence of a resistance gene/mutation), whereas phenotypic methods detect the realization of susceptibility (i.e., no growth in the presence of antibiotic). For a clinician, the realization of susceptibility measure is far more relevant as a basis for a therapeutic decision.Padlock probes are oligonucleotides with target-specific ends, which upon perfect target recognition can be enzymatically joined (6). Reacted probes can be amplified by rolling circle amplification (RCA). RCA is a linear amplification technique for the replication of DNA circles, such as reacted padlock probes, and the product is a single-stranded DNA concatemer containing around 1,000 copies of a 100-mer t...

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The first major extended‐spectrum β‐lactamase outbreak in Scandinavia was caused by clonal spread of a multiresistant Klebsiella pneumoniae producing CTX‐M‐15

Lytsy

Sandegren

Tano

et al. 2008

APMIS

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Between May and December 2005, 64 multidrug-resistant isolates of Klebsiella pneumoniae were detected from patients admitted to Uppsala University Hospital. This represented a dramatic increase in ESBL-producing K. pneumoniae compared to previous years. To investigate the epidemiology and to characterize the resistance mechanisms of the isolates, a study was initiated. Antibiotic susceptibility was determined by means of the Etest and the disc diffusion method. Extended-spectrum beta-lactamase (ESBL) production was identified by clavulanic acid synergy test and confirmed with PCR amplification followed by DNA sequencing. DNA profiles of the isolates were examined with pulsed-field gel electrophoresis (PFGE). All isolates were resistant or exhibited reduced susceptibility to cefadroxil, cefuroxime, cefotaxime, ceftazidime, aztreonam, piperacillin/tazobactam, ciprofloxacin, tobramycin, and trimethoprim-sulfamethoxazole. They produced ESBL of the CTX-M-15 type, and the involvement of a single K. pneumoniae clone was shown. This is the first major clonal outbreak of multiresistant ESBL-producing K. pneumoniae in Scandinavia. The outbreak demonstrates the epidemic potential of enterobacteria containing ESBLs of the CTX-M type, even in a country with a relatively low selective pressure and a low prevalence of multiresistant bacteria.

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Effects of Silver-based Wound Dressings on the Bacterial Flora in Chronic Leg Ulcers and Its Susceptibility In Vitro to Silver

Sütterlin¹,

Tano²,

Bergsten³

et al. 2012

Acta Derm Venerol

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Silver-based dressings have been used extensively in wound management in recent years, but data on their antimicrobial activity in the clinical setting are limited. In order to explore their effects on chronic leg ulcer flora, 14 ulcers were cultured after at least 3 weeks treatment with Aquacel Ag(®) or Acticoat(®). Phenotypic and genetic silver resistance were investigated in a total of 56 isolates. Silver-based dressings had a limited effect on primary wound pathogens, which were present in 79% of the cultures before, and 71% after, treatment. One silver-resistant Enterobacter cloacae strain was identified (silver nitrate minimal inhibitory concentration (MIC) > 512 mg/l, positive for silE, silS and silP). Further studies in vitro showed that inducible silver-resistance was more frequent in Enterobacteriaceae with cephalosporin-resistance and that silver nitrate had mainly a bacteriostatic effect on Staphylococcus aureus. Monitoring of silver resistance should be considered in areas where silver is used extensively.

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Eva Tano

Antibiotic susceptibility testing in less than 30 min using direct single-cell imaging

Ultraviolet-C decontamination of a hospital room: Amount of UV light needed

A General Method for Rapid Determination of Antibiotic Susceptibility and Species in Bacterial Infections

The first major extended‐spectrum β‐lactamase outbreak in Scandinavia was caused by clonal spread of a multiresistant Klebsiella pneumoniae producing CTX‐M‐15

Effects of Silver-based Wound Dressings on the Bacterial Flora in Chronic Leg Ulcers and Its Susceptibility In Vitro to Silver

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