2011
DOI: 10.1109/jmems.2011.2159095
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Separating and Detecting Escherichia Coli in a Microfluidic Channel for Urinary Tract Infection Applications

Abstract: We report a lab-on-a-chip (LOC) that can separate and detect Escherichia coli (E. coli) in simulated urine samples for urinary tract infection (UTI) applications. The LOC consists of two (concentration and sensing) chambers connected in series and an integrated impedance detector. The two-chamber approach is designed to reduce the nonspecific absorption of a protein, e.g., albumin, that potentially coexists with E. coli in urine. We directly separate E. coli K-12 from cocktail urine in a concentration chamber … Show more

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Cited by 19 publications
(12 citation statements)
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“…With this portable biosensor, an LOD of 3.4 × 10 4 CFU mL −1 was obtained, which is lower that the threshold of urinary tract infections (10 5 CFU mL −1 ). The LOD obtained with the microfluidic biosensor proposed by Safavieh et al [138] was greater (24 CFU mL −1 ) than that obtained by Yang et al [137]. Safavieh et al [138] developed a biosensor employing loop-mediated isothermal amplification, which played a key role in quantifying the bacteria.…”
Section: Bacteriamentioning
confidence: 90%
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“…With this portable biosensor, an LOD of 3.4 × 10 4 CFU mL −1 was obtained, which is lower that the threshold of urinary tract infections (10 5 CFU mL −1 ). The LOD obtained with the microfluidic biosensor proposed by Safavieh et al [138] was greater (24 CFU mL −1 ) than that obtained by Yang et al [137]. Safavieh et al [138] developed a biosensor employing loop-mediated isothermal amplification, which played a key role in quantifying the bacteria.…”
Section: Bacteriamentioning
confidence: 90%
“…For example, Yang et al [137] and Safavieh et al [138] proposed two electrochemical immunosensors based on microfluidics for the detection of E. coli in urine samples ( Table 6). Detection of E. coli in human urine is used to diagnose urinary tract infections commonly related to the kidney, as it is known to cause up to 80% of such infections and is present at concentrations ≥10 5 CFU mL −1 [137]. Microfluidics reduces the consumption of costly reagents, as small volumes of liquid are manipulated in closed microscale channels.…”
Section: Bacteriamentioning
confidence: 99%
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“…As reported, there are few LFA or mPAD methods that can efficiently detect bacteria. There are minimal amounts of methods (lines 1-4; Liao et al, 2006;Bercovici et al, 2011;Safavieh et al, 2012;Yang et al, 2011) that detect bacteria directly from a urine sample matrix using microfluidic platforms (not LFA or mPAD). Unfortunately, either pretreatment (filtration, centrifugation, and/or rinsing) was necessary or the detection limit was quite high (10 5 -10 8 CFU/mL).…”
Section: Referencementioning
confidence: 99%