SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4200545164> ?p ?o ?g. }

Showing items 1 to 100 of ±155 with 100 items per page.

W4200545164 endingPage "222" @default.
W4200545164 startingPage "213" @default.
W4200545164 abstract "The COVID-19 pandemic demonstrated the public health benefits of reliable and accessible point-of-care (POC) diagnostic tests for viral infections. Despite the rapid development of gold-standard reverse transcription polymerase chain reaction (RT-PCR) assays for SARS-CoV-2 only weeks into the pandemic, global demand created logistical challenges that delayed access to testing for months and helped fuel the spread of COVID-19. Additionally, the extreme sensitivity of RT-PCR had a costly downside as the tests could not differentiate between patients with active infection and those who were no longer infectious but still shedding viral genomes. To address these issues for the future, we propose a novel membrane-based sensor that only detects intact virions. The sensor combines affinity and size based detection on a membrane-based sensor and does not require external power to operate or read. Specifically, the presence of intact virions, but not viral debris, fouls the membrane and triggers a macroscopically visible hydraulic switch after injection of a 40 μL sample with a pipette. The device, which we call the μSiM-DX (microfluidic device featuring a silicon membrane for diagnostics), features a biotin-coated microslit membrane with pores ∼2-3× larger than the intact virus. Streptavidin-conjugated antibody recognizing viral surface proteins are incubated with the sample for ∼1 hour prior to injection into the device, and positive/negative results are obtained within ten seconds of sample injection. Proof-of-principle tests have been performed using preparations of vaccinia virus. After optimizing slit pore sizes and porous membrane area, the fouling-based sensor exhibits 100% specificity and 97% sensitivity for vaccinia virus (n = 62). Moreover, the dynamic range of the sensor extends at least from 105.9 virions per mL to 1010.4 virions per mL covering the range of mean viral loads in symptomatic COVID-19 patients (105.6-107 RNA copies per mL). Forthcoming work will test the ability of our sensor to perform similarly in biological fluids and with SARS-CoV-2, to fully test the potential of a membrane fouling-based sensor to serve as a PCR-free alternative for POC containment efforts in the spread of infectious disease." @default.
W4200545164 created "2021-12-31" @default.
W4200545164 creator A5000959314 @default.
W4200545164 creator A5016600200 @default.
W4200545164 creator A5023609337 @default.
W4200545164 creator A5031684740 @default.
W4200545164 creator A5042003173 @default.
W4200545164 creator A5074677395 @default.
W4200545164 creator A5082654213 @default.
W4200545164 creator A5089374606 @default.
W4200545164 date "2022-01-01" @default.
W4200545164 modified "2023-10-16" @default.
W4200545164 title "Rapid and specific detection of intact viral particles using functionalized microslit silicon membranes as a fouling-based sensor" @default.
W4200545164 cites W2000656262 @default.
W4200545164 cites W2007739294 @default.
W4200545164 cites W2008083269 @default.
W4200545164 cites W2011416905 @default.
W4200545164 cites W2015587453 @default.
W4200545164 cites W2056066120 @default.
W4200545164 cites W2057440605 @default.
W4200545164 cites W2075423460 @default.
W4200545164 cites W2080627425 @default.
W4200545164 cites W2098694105 @default.
W4200545164 cites W2106044600 @default.
W4200545164 cites W2171120933 @default.
W4200545164 cites W2217368690 @default.
W4200545164 cites W2246577301 @default.
W4200545164 cites W2483707257 @default.
W4200545164 cites W2607472633 @default.
W4200545164 cites W2807165646 @default.
W4200545164 cites W2954534735 @default.
W4200545164 cites W2973878179 @default.
W4200545164 cites W2979680395 @default.
W4200545164 cites W2989589778 @default.
W4200545164 cites W3001195213 @default.
W4200545164 cites W3008116551 @default.
W4200545164 cites W3008602605 @default.
W4200545164 cites W3011642264 @default.
W4200545164 cites W3012568633 @default.
W4200545164 cites W3013013352 @default.
W4200545164 cites W3013893137 @default.
W4200545164 cites W3014080169 @default.
W4200545164 cites W3016053819 @default.
W4200545164 cites W3016605478 @default.
W4200545164 cites W3016955027 @default.
W4200545164 cites W3017106545 @default.
W4200545164 cites W3022007015 @default.
W4200545164 cites W3022711197 @default.
W4200545164 cites W3027829318 @default.
W4200545164 cites W3028715179 @default.
W4200545164 cites W3030968929 @default.
W4200545164 cites W3031735854 @default.
W4200545164 cites W3034862577 @default.
W4200545164 cites W3034951140 @default.
W4200545164 cites W3035634899 @default.
W4200545164 cites W3036973537 @default.
W4200545164 cites W3041632850 @default.
W4200545164 cites W3047349135 @default.
W4200545164 cites W3080083683 @default.
W4200545164 cites W3080652759 @default.
W4200545164 cites W3083288791 @default.
W4200545164 cites W3083783626 @default.
W4200545164 cites W3083816186 @default.
W4200545164 cites W3088418472 @default.
W4200545164 cites W3091816327 @default.
W4200545164 cites W3092802068 @default.
W4200545164 cites W3092863233 @default.
W4200545164 cites W3093522291 @default.
W4200545164 cites W3093751153 @default.
W4200545164 cites W3102037011 @default.
W4200545164 cites W3104457017 @default.
W4200545164 cites W3108601158 @default.
W4200545164 cites W3111997611 @default.
W4200545164 cites W3112465516 @default.
W4200545164 cites W3126818418 @default.
W4200545164 cites W3131296454 @default.
W4200545164 cites W3164220019 @default.
W4200545164 cites W3202168443 @default.
W4200545164 doi "https://doi.org/10.1039/d1an01504d" @default.
W4200545164 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/34933322" @default.
W4200545164 hasPublicationYear "2022" @default.
W4200545164 type Work @default.
W4200545164 citedByCount "3" @default.
W4200545164 countsByYear W42005451642022 @default.
W4200545164 countsByYear W42005451642023 @default.
W4200545164 crossrefType "journal-article" @default.
W4200545164 hasAuthorship W4200545164A5000959314 @default.
W4200545164 hasAuthorship W4200545164A5016600200 @default.
W4200545164 hasAuthorship W4200545164A5023609337 @default.
W4200545164 hasAuthorship W4200545164A5031684740 @default.
W4200545164 hasAuthorship W4200545164A5042003173 @default.
W4200545164 hasAuthorship W4200545164A5074677395 @default.
W4200545164 hasAuthorship W4200545164A5082654213 @default.
W4200545164 hasAuthorship W4200545164A5089374606 @default.
W4200545164 hasConcept C142724271 @default.
W4200545164 hasConcept C147789679 @default.
W4200545164 hasConcept C151552171 @default.
W4200545164 hasConcept C159047783 @default.