SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3136151390> ?p ?o ?g. }

Showing items 1 to 100 of ±129 with 100 items per page.

W3136151390 endingPage "392" @default.
W3136151390 startingPage "375" @default.
W3136151390 abstract "Nanotechnology relates to microbiology at a number of levels as the microbial entities are nano-machines. In the second half of this decade, nanotechnology expanding its applications in the field of medical microbiology. Nanotechnology is clinically appropriate and retains the potential to be valuable in the diagnosis of general and microbial infections. The rapid detection of pathogenic microbes at the point of care is extremely critical. The application of nanoparticles permits for the detection of infectious pathogens in small sample volumes directly in a sensitive, specific, and rapid format at lower costs than current in-use technologies. A bio-conjugated nanoparticle-based bioassay for in situ pathogen quantification can detect a single microbe. The waveguide technology is an emergent area in the medical microbiology for the fast and successful diagnosis of infectious diseases. Nanotechnology is demonstrated for the detection of Avian influenza virus H5N1, Respiratory Syncytial Virus (RSV), HIV, and Severe acute respiratory syndrome (SARS) Coronavirus in clinical samples with a great degree of sensitivity. Nanoparticle-based bio-barcode amplification (BCA) assay is being applied for early detection of HIV-1 capsid antigen. The gold nanoparticle interferometer sensor has been validated for detection of Herpes simplex virus (HSV) and silver nanorod array substrates can detect spectral differences between the viral strains. A nanoparticle label technology with highly fluorescent chelated nanoparticle label has been developed for Adenovirus and Human papillomavirus (HPV). The nano-gold labelled amplification is a novel technique for the detection of Hepatitis B virus, Hepatitis C virus, and Hepatitis E virus in patient’s samples. Norovirus is a leading cause of gastroenteritis and nanospray mass spectrometry is evaluated for norovirus detection. With the manifestation and intensification of microbes resistant to antibiotics, silver nanoparticle antiseptics have been evaluated for the antimicrobial activity against Gram-positive and Gram-negative bacteria. All these technologies would have to be assessed in clinical settings prior to their complete admission is highly recommended." @default.
W3136151390 created "2021-03-29" @default.
W3136151390 creator A5014807377 @default.
W3136151390 creator A5040535954 @default.
W3136151390 creator A5044232508 @default.
W3136151390 creator A5049186313 @default.
W3136151390 date "2021-01-01" @default.
W3136151390 modified "2023-09-23" @default.
W3136151390 title "Nanotechnology-A New Frontier in Medical Microbiology" @default.
W3136151390 cites W1559815414 @default.
W3136151390 cites W1608004313 @default.
W3136151390 cites W1675370828 @default.
W3136151390 cites W1918070089 @default.
W3136151390 cites W1972285018 @default.
W3136151390 cites W1981855264 @default.
W3136151390 cites W1987822226 @default.
W3136151390 cites W1990640161 @default.
W3136151390 cites W1993268543 @default.
W3136151390 cites W2000509549 @default.
W3136151390 cites W2019878257 @default.
W3136151390 cites W2028441282 @default.
W3136151390 cites W2036817225 @default.
W3136151390 cites W2038817133 @default.
W3136151390 cites W2043754805 @default.
W3136151390 cites W2043772385 @default.
W3136151390 cites W2053647215 @default.
W3136151390 cites W2054949696 @default.
W3136151390 cites W2061073363 @default.
W3136151390 cites W2062618523 @default.
W3136151390 cites W2066399117 @default.
W3136151390 cites W2068118045 @default.
W3136151390 cites W2069218973 @default.
W3136151390 cites W2071384031 @default.
W3136151390 cites W2073556554 @default.
W3136151390 cites W2083619585 @default.
W3136151390 cites W2085241772 @default.
W3136151390 cites W2094118326 @default.
W3136151390 cites W2094296077 @default.
W3136151390 cites W2113084589 @default.
W3136151390 cites W2118866513 @default.
W3136151390 cites W2127254715 @default.
W3136151390 cites W2129998516 @default.
W3136151390 cites W2130335736 @default.
W3136151390 cites W2132260239 @default.
W3136151390 cites W2135614629 @default.
W3136151390 cites W2142343447 @default.
W3136151390 cites W2144440398 @default.
W3136151390 cites W2147819711 @default.
W3136151390 cites W2157451753 @default.
W3136151390 cites W2162485829 @default.
W3136151390 cites W2163928659 @default.
W3136151390 cites W2167681239 @default.
W3136151390 cites W2167912146 @default.
W3136151390 cites W2220528754 @default.
W3136151390 cites W2302059285 @default.
W3136151390 cites W2308120959 @default.
W3136151390 cites W2311403159 @default.
W3136151390 cites W2371754822 @default.
W3136151390 cites W2518513452 @default.
W3136151390 cites W2532043364 @default.
W3136151390 cites W2540604270 @default.
W3136151390 cites W2541546268 @default.
W3136151390 cites W2563933458 @default.
W3136151390 cites W2605277900 @default.
W3136151390 cites W2739368492 @default.
W3136151390 cites W2744904696 @default.
W3136151390 cites W2755794318 @default.
W3136151390 cites W2791453909 @default.
W3136151390 cites W2891486793 @default.
W3136151390 cites W2898663465 @default.
W3136151390 cites W2904930049 @default.
W3136151390 cites W2924137257 @default.
W3136151390 cites W2964517557 @default.
W3136151390 cites W3010096359 @default.
W3136151390 cites W3015371627 @default.
W3136151390 cites W3015636815 @default.
W3136151390 cites W3018987818 @default.
W3136151390 cites W3100073632 @default.
W3136151390 cites W4229878568 @default.
W3136151390 cites W4246606413 @default.
W3136151390 cites W4246844772 @default.
W3136151390 cites W4248833514 @default.
W3136151390 cites W4255496055 @default.
W3136151390 cites W634565439 @default.
W3136151390 cites W979486701 @default.
W3136151390 doi "https://doi.org/10.1007/978-981-15-9916-3_16" @default.
W3136151390 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/7984746" @default.
W3136151390 hasPublicationYear "2021" @default.
W3136151390 type Work @default.
W3136151390 sameAs 3136151390 @default.
W3136151390 citedByCount "0" @default.
W3136151390 crossrefType "book-chapter" @default.
W3136151390 hasAuthorship W3136151390A5014807377 @default.
W3136151390 hasAuthorship W3136151390A5040535954 @default.
W3136151390 hasAuthorship W3136151390A5044232508 @default.
W3136151390 hasAuthorship W3136151390A5049186313 @default.
W3136151390 hasConcept C159047783 @default.
W3136151390 hasConcept C171250308 @default.