Biosensors for Virus Detection


Book Description

Developments and applications of biosensor platforms for analysis of viral infections including Coronavirus, HIV, Hepatitis, Ebola, Zika, Norovirus, Influenza, SARS etc. Embraces properties, fabrication, and recent research regarding optical, electrochemical, piezoelectric, fluorescence, thermal, magnetic and micromechanical sensor families.




Integrated Virus Detection


Book Description

Multiple viruses can be detected concurrently using the Integrated Virus Detection System (IVDS). Integrated Virus Detection describes this technology and provides many examples of applications including a chapter on viruses found in honeybees with descriptions of seasonal and yearly variation. This straightforward technology can be used to detect known, unknown, and unsequenced viruses collected from environmental and other complex biological sources. This book summarizes more than ten US patents issued for the invention of the IVDS, which is the common name of the electrospray–differential mobility analyzer method. The IVDS is powering mankind’s ability to rapidly detect, measure, and monitor viruses as well as virus-like particles. Three facts make rapid detection possible: virus size, which ranges from 20 to 800 nm.; disparity in each virus species’ particle size thus allowing size data to be used for detection and preliminary identification; and the fact that virus particle density is distinct from other nanoparticles. The IVDS can ascertain the absence of virion particles, thus presenting compelling evidence of a true negative, which is useful in verifying decontamination and other processes. In addition, large numbers of samples may be processed in an automated fashion, providing an excellent means to prescreen them for judicious targeting of subsequent tests such as PCR or the discriminating method for identifying microbes, which is mass spectrometry proteomics.* The book is helpful to anyone interested in virus detection, especially in situations where many viral types may coexist. *Identifying Microbes by Mass Spectrometry Proteomics (CRC Press 2013)




Virus Detection


Book Description

Viruses do not behave as other microbes; their life cycles require infecting healthy cells, commandeering their cellular apparatus, replicating and then killing the host cell. Methods for virus detection and identification have been developed only in the past few decades. These recently developed methods include molecular, physical, and proteomic techniques. All these approaches (Electron Microscopy, Molecular, Direct Counting, and Mass Spectrometry Proteomics) to detection and identification are reviewed in this succinct volume. It is written in approachable language with enough detail for trained professionals to follow and want to recommend to others. Key Features Covers common detection methods Reviews the history of detection from antiquity to the present Documents the strengths and weaknesses of various detection methods Describes how to detect newly discovered viruses Recommends specific applications for clinical, hospital, environmental, and public health uses




Advanced Biosensors for Virus Detection


Book Description

Advanced Biosensors for Virus Detection: Smart Diagnostics to Combat Against the SARS-CoV2 Pandemic covers the development of biosensor-based approaches for the diagnosis and prognosis of viral infections, specifically coronaviruses. The book discusses wide-ranging topics of available biosensor-based technologies and their application for early viral detection. Sections cover the emergence of SARS-CoV, MERS-CoV and SARS-CoV2, the global health response, the impact on affected populations, state-of-the art biomarkers, and risk factors. Specific focus is given to COVID-19, with coverage of genomic profiling, strain variation and the pathogenesis of SARS-CoV2. In addition, current therapeutics, nano-abled advancements and challenges in the detection of SARS-CoV2 and COVID-19 management are discussed, along with the role of nanomaterials in the development of biosensors and how biosensors can be scaled up for clinical applications and commercialization. - Deals with biosensors-based approaches that could be exploited to design and develop high throughput, rapid and cost-effective diagnostics technologies for the early detection of viral infections - Illustrates the development of multiplexed, miniaturized analytical systems for point-of-care applications - Provides information about fabrication protocols for various biosensor based diagnostic approaches that could be directly implemented to develop a novel biosensor - Includes the past, present and future status of biosensors, along with information about biosensors currently under clinical trials







Application of PCR Technologies for Virus Detection in Groundwater


Book Description

Presents a study of the application of the polymerase chain reaction (PCR) for the detection of enteric viruses in groundwater, in which the occurrence of enteric viruses in 150 groundwater samples was determined, as was the possible association of virus presence with several potential biological and physical indicators. No index. Annotation copyrighted by Book News, Inc., Portland, OR




Molecular Methods for Virus Detection


Book Description

Molecular diagnostic procedures have been described in a number of recent books and articles. However, these publications have not focused on virus detection, nor have they provided practical protocols for the newer molecular methods. Written by the inventors or principal developers of these technologies, Molecular Methods for Virus Detection provides both reviews of individual methods and instructions for detecting virus nucleic acid sequences in clinical specimens. Each procedure includes quality assurance protocols that are often ignored by other methodology books. Molecular Methods for Virus Detection provides clinically relevant procedures for many of the newer diagnostic methodologies. - Provides state-of-the-art PCR methods for amplification, quantitation, in situ hybridization, and multiplex reactions - Goes beyond PCR with protocols for 3SR, NASBA, LCR, SDA, and LAT - Covers important virus detection methods such as in situ hybridization; Southern, dot, and slot blots; branched chain signal amplification; and chemiluminescence - Includes quality control information crucial in research and clinical laboratories - Most chapters are written by the inventors and principal developers of the methodologies - Includes color plates, 77 figures, and 18 tables







Molecular diagnostic methods for bacteria and fungi detection


Book Description

Microorganisms, like bacteria and fungi, are ubiquitous worldwide and can have different roles in human’s lives. Some will bring beneficial effects which are exploited and used in industrial and agricultural sectors. Contrariwise, some are responsible for several life-threatening diseases. Microbial analysis, surveillance and research is therefore crucial. Until recently, the classical culturing methods were widely used to study bacteria and fungi. However these methods, although considered the gold standard, are becoming now obsolete since they tend to be time-consuming, have low sensitivity and are unable to detect some cellular morphological states, as the viable but non-culturable (VBNC) state, leading to false negative results. Moving away from the classical methods, microbial detection is now evolving to new effective and rapid diagnostics.




The Virus Cancer Program


Book Description




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