Development of a Minimally Invasive Microneedle-Based Sensor for Continuous Monitoring of β-Lactam Antibiotic Concentrations in Vivo

Gowers, Sally A. N.; Freeman, David M.; Rawson, Timothy M; Rogers, Michelle; Wilson, Riley; Holmes, Alison; Cass, Anthony E. G.; O’Hare, Danny

doi:10.1021/acssensors.9b00288

Cited by 100 publications

(90 citation statements)

References 45 publications

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“…In the latter study, elegant microneedle-based biosensors were used for betalactam detection. Recent publications revealed the successful use of microfluidic devices for monitoring aminoglycoside or beta-lactam concentrations in whole blood with a wide dynamic range [55,56]. The development of such miniaturized and potentially automatable methods can better position TDM in routine microbiology laboratories, particularly if they are shown to be cost-effective.…”

Section: Technologies Used For Tdmmentioning

confidence: 99%

Diagnostic and medical needs for therapeutic drug monitoring of antibiotics

Mabilat

Gros

Nicolau

et al. 2019

Eur J Clin Microbiol Infect Dis

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Therapeutic drug monitoring (TDM) of antibiotics has been practiced for more than half a century, but it is still not widely applied for infected patients. It has a traditional focus on limiting toxicity of specific classes of antibiotics such as aminoglycosides and vancomycin. With more patients in critical care with higher levels of sickness severity and immunosuppression as well as an increasingly obese and ageing population, an increasing risk of suboptimal antibiotic exposure continues to escalate. As such, the value of TDM continues to expand, especially for beta-lactams which constitute the most frequently used antibiotic class. To date, the minimum inhibitory concentration (MIC) of infectious microbes rather than classification in terms of susceptible and resistant can be reported. In parallel, increasingly sophisticated TDM technology is becoming available ensuring that TDM is feasible and can deliver personalized antibiotic dosing schemes. There is an obvious need for extensive studies that will quantify the improvements in clinical outcome of individual TDM-guided dosing. We suggest that a broad diagnostic and medical investigation of the TDM arena, including market analyses and analytical technology assessment, is a current priority.

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Section: Technologies Used For Tdmmentioning

confidence: 99%

Diagnostic and medical needs for therapeutic drug monitoring of antibiotics

Mabilat

Gros

Nicolau

et al. 2019

Eur J Clin Microbiol Infect Dis

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“…To reduce the manual error associated with manual devices (as discussed above), laboratory device tests may be employed to detect the presence of antibiotics in milk. These laboratory device tests include mass spectrometry 9 , liquid chromatography 10 , immunoassay 11 , potentiometric 12 , and surface plasmon resonance 13 devices. However, these laboratory devices are slow because they require cumbersome processes including transportation off-site from the dairy farm, sample preparation, and extensive incubation periods 9 , 12 .…”

Section: Introductionmentioning

confidence: 99%

Microchip capillary electrophoresis dairy device using fluorescence spectroscopy for detection of ciprofloxacin in milk samples

Bosma

Devasagayam

Singh

et al. 2020

Sci Rep

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Detecting antibiotics in the milk supply chain is crucial to protect humans from allergic reactions, as well as preventing the build-up of antibiotic resistance. The dairy industry has controls in place at processing facilities, but controls on dairy farms are limited to manual devices. Errors in the use of these manual devices can result in severe financial harm to the farms. This illustrates an urgent need for automated methods of detecting antibiotics on a dairy farm, to prevent the shipment of milk containing antibiotics. This work introduces the microchip capillary electrophoresis dairy device, a low-cost system that utilizes microchip capillary electrophoresis as well as fluorescence spectroscopy for the detection of ciprofloxacin contained in milk. The microchip capillary electrophoresis dairy device is operated under antibiotic-absent conditions, with ciprofloxacin not present in a milk sample, and antibiotic-present conditions, with ciprofloxacin present in a milk sample. The response curve for the microchip capillary electrophoresis dairy device is found through experimental operation with varied concentrations of ciprofloxacin. The sensitivity and limit of detection are quantified for the microchip capillary electrophoresis dairy device.

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“…The mean age of participants was 42 years (SD 14) and seven (70%) of ten participants were men. Participants mean height was 174 cm (11), weight 74 kg (15), and BMI 24 kg/m² (3). Mean creatinine clearance was 114 mL/min (29).…”

Section: Resultsmentioning

confidence: 99%

“…Potential for disruption of local tissues, inflammation, and bleeding during insertion 18 Practicality for use in clinical practice Easy application, no needles or skin puncture required Requires training and puncture of the skin In-vivo measurement Direct detection in vivo Not applicable (diasylate collected and analysed ex vivo) Quantification Direct quantification of drug concentration 15,[24][25][26] Estimation of drug concentration calculated often using an internal standard method [18][19][20] Resolution of sampling…”

Section: Data Sharingmentioning

confidence: 99%

Dermal Microdialysis in Pharmacokinetics

Nivea¹

2020

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Development of a Minimally Invasive Microneedle-Based Sensor for Continuous Monitoring of β-Lactam Antibiotic Concentrations in Vivo

Cited by 100 publications

References 45 publications

Diagnostic and medical needs for therapeutic drug monitoring of antibiotics

Diagnostic and medical needs for therapeutic drug monitoring of antibiotics

Microchip capillary electrophoresis dairy device using fluorescence spectroscopy for detection of ciprofloxacin in milk samples

Dermal Microdialysis in Pharmacokinetics

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