FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2019957426> ?p ?o ?g. }

• W2019957426 endingPage "2180" @default.
• W2019957426 startingPage "2174" @default.
• W2019957426 abstract "The present technique describes a simple, sensitive spot test for the rapid one-shot detection of dopamine in human urine using lipid films with incorporated resorcin[4]arene receptor that are synthesized by a chemical reaction with a methacrylate polymer on a glass fiber filter. The lipid films without the receptor provided fluorescence under a UV lamp. The use of the receptor in these films quenched this fluorescence, and the color became similar to that of the filters without the lipid films. A drop of dopamine or urine containing this stimulant provided a “switching on” of the fluorescence, which allows the rapid detection of this stimulant in human urine at 10-8 M concentrations. The novelty of the present work is that it opens new routes in the field of biosensing, i.e., development of sensitive, rapid, and simple methods for detecting species based on the fluorescence of the lipid membranes on a polymer film, and provides a spot test technique for the rapid detection of dopamine. The effect of potent interferences including a wide range of compounds usually found in human urine (i.e., ascorbic aid, glucose, leucine, glycine, tartrate, citrate, bicarbonate, and caffeine) was examined using an aqueous buffered solution that contained the potent interference and dopamine at two lower concentration levels (i.e., 3 × 10-8−10-8 M). The effect of proteins and lipids was also investigated at these two lower dopamine concentration levels in aqueous buffered solution. The results showed no interferences from all these constituents at concentrations usually found in human urine samples; for example, albumin up to 3.22 g/L concentration levels did not provide any interference (i.e., no fluorescence). A drop of urine containing this stimulant provided similar results, i.e., a “switching on” of the fluorescence that allows a technique for the rapid detection of this stimulant in human urine at 10-8 M concentrations. The technique is not based on a calibration graph but is a semiquantitative method for the detection of dopamine in real samples of urine that can be complimentary to HPLC methods. The difference in color between the samples containing dopamine at concentration levels of 10-8−10-7 M can be easily distinguished by naked eye and a digital camera. An increase of dopamine concentration from 10-8 to 10-7 M makes the color more blue whereas the color of the filters remains purple in the blank test (i.e., addition of a urine sample without dopamine or dopamine at concentration levels of 10-9 M to the filters that contain the lipid membranes with incorporated receptor). The reproducibility of the method was checked in ∼100 samples, and all of them were found to provide similar results. Note that it was also found that the colors remain stable in the samples containing dopamine for periods of more than two months." @default.
• W2019957426 created "2016-06-24" @default.
• W2019957426 creator A5016514496 @default.
• W2019957426 creator A5059361786 @default.
• W2019957426 creator A5086420067 @default.
• W2019957426 creator A5088836171 @default.
• W2019957426 date "2004-03-09" @default.
• W2019957426 modified "2023-10-08" @default.
• W2019957426 title "An Optical Spot Test for the Detection of Dopamine in Human Urine Using Stabilized in Air Lipid Films" @default.
• W2019957426 cites W1945213263 @default.
• W2019957426 cites W1972880467 @default.
• W2019957426 cites W1981023749 @default.
• W2019957426 cites W1995802231 @default.
• W2019957426 cites W2003468634 @default.
• W2019957426 cites W2017308769 @default.
• W2019957426 cites W2027497101 @default.
• W2019957426 cites W2030172740 @default.
• W2019957426 cites W2041632646 @default.
• W2019957426 cites W2084304155 @default.
• W2019957426 cites W2099350449 @default.
• W2019957426 cites W2108607169 @default.
• W2019957426 doi "https://doi.org/10.1021/ac0499470" @default.
• W2019957426 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15080725" @default.
• W2019957426 hasPublicationYear "2004" @default.
• W2019957426 type Work @default.
• W2019957426 sameAs 2019957426 @default.
• W2019957426 citedByCount "69" @default.
• W2019957426 countsByYear W20199574262012 @default.
• W2019957426 countsByYear W20199574262013 @default.
• W2019957426 countsByYear W20199574262014 @default.
• W2019957426 countsByYear W20199574262015 @default.
• W2019957426 countsByYear W20199574262016 @default.
• W2019957426 countsByYear W20199574262017 @default.
• W2019957426 countsByYear W20199574262018 @default.
• W2019957426 countsByYear W20199574262019 @default.
• W2019957426 countsByYear W20199574262020 @default.
• W2019957426 countsByYear W20199574262021 @default.
• W2019957426 countsByYear W20199574262022 @default.
• W2019957426 countsByYear W20199574262023 @default.
• W2019957426 crossrefType "journal-article" @default.
• W2019957426 hasAuthorship W2019957426A5016514496 @default.
• W2019957426 hasAuthorship W2019957426A5059361786 @default.
• W2019957426 hasAuthorship W2019957426A5086420067 @default.
• W2019957426 hasAuthorship W2019957426A5088836171 @default.
• W2019957426 hasConcept C121332964 @default.
• W2019957426 hasConcept C160756335 @default.
• W2019957426 hasConcept C169760540 @default.
• W2019957426 hasConcept C185592680 @default.
• W2019957426 hasConcept C2780026642 @default.
• W2019957426 hasConcept C28344629 @default.
• W2019957426 hasConcept C2986274086 @default.
• W2019957426 hasConcept C31903555 @default.
• W2019957426 hasConcept C43617362 @default.
• W2019957426 hasConcept C513476851 @default.
• W2019957426 hasConcept C55493867 @default.
• W2019957426 hasConcept C62520636 @default.
• W2019957426 hasConcept C86803240 @default.
• W2019957426 hasConcept C91881484 @default.
• W2019957426 hasConceptScore W2019957426C121332964 @default.
• W2019957426 hasConceptScore W2019957426C160756335 @default.
• W2019957426 hasConceptScore W2019957426C169760540 @default.
• W2019957426 hasConceptScore W2019957426C185592680 @default.
• W2019957426 hasConceptScore W2019957426C2780026642 @default.
• W2019957426 hasConceptScore W2019957426C28344629 @default.
• W2019957426 hasConceptScore W2019957426C2986274086 @default.
• W2019957426 hasConceptScore W2019957426C31903555 @default.
• W2019957426 hasConceptScore W2019957426C43617362 @default.
• W2019957426 hasConceptScore W2019957426C513476851 @default.
• W2019957426 hasConceptScore W2019957426C55493867 @default.
• W2019957426 hasConceptScore W2019957426C62520636 @default.
• W2019957426 hasConceptScore W2019957426C86803240 @default.
• W2019957426 hasConceptScore W2019957426C91881484 @default.
• W2019957426 hasIssue "8" @default.
• W2019957426 hasLocation W20199574261 @default.
• W2019957426 hasLocation W20199574262 @default.
• W2019957426 hasOpenAccess W2019957426 @default.
• W2019957426 hasPrimaryLocation W20199574261 @default.
• W2019957426 hasRelatedWork W1491785374 @default.
• W2019957426 hasRelatedWork W1992943367 @default.
• W2019957426 hasRelatedWork W2085044184 @default.
• W2019957426 hasRelatedWork W2239919633 @default.
• W2019957426 hasRelatedWork W2322026400 @default.
• W2019957426 hasRelatedWork W2385551767 @default.
• W2019957426 hasRelatedWork W2394979372 @default.
• W2019957426 hasRelatedWork W2410155092 @default.
• W2019957426 hasRelatedWork W4290258708 @default.
• W2019957426 hasRelatedWork W48627708 @default.
• W2019957426 hasVolume "76" @default.
• W2019957426 isParatext "false" @default.
• W2019957426 isRetracted "false" @default.
• W2019957426 magId "2019957426" @default.
• W2019957426 workType "article" @default.