Novel Lateral Flow-Based Assay for Simple and Visual Detection of SARS-CoV-2 Mutations.

Identification of the main SARS-CoV-2 variants in real time is of interest to control the virus and to rapidly devise appropriate public health responses. The RT-qPCR is currently considered to be the reference method to screen SARS-CoV-2 mutations, but it has some limitations. The multiplexing capability is limited when the number of markers to detect increases.

Near-point-of-care assay with a visual readout for detection of HIV-1 drug resistance mutations: A proof-of-concept study.

Human immunodeficiency virus (HIV) infection is a chronic disease that can be treated with antiretroviral (ARV) therapy. However, the success of this treatment has been jeopardized by the emergence of HIV infections resistant to ARV drugs. In low-to middle-income countries (LMICs), where transmission of resistant viruses has increased over the past decade, there is an urgent need to improve access to HIV drug resistance testing.

An Innovative Multiplexed and Flexible Molecular Approach for the Differential Detection of Arboviruses.

Nucleic acid testing during the preseroconversion viremic phase is required to differentially diagnose arboviral infections. The continuing emergence of arboviruses, such as Zika virus (ZIKV), dengue virus (DENV), and chikungunya virus (CHIKV), necessitates the development of a flexible diagnostic approach. Similar clinical signs and the priority to protect pregnant women from ZIKV infection indicate that the differential diagnosis of arboviruses is essential for effective patient management, clinical care, and epidemiologic surveillance.

Multiplex Lateral Flow Assay for Rapid Visual Blood Group Genotyping.

Conventional blood group phenotyping by hemagglutination assays, carried out pretransfusion, is unsuitable in certain clinical situations. Molecular typing offers an alternative method, allowing the deduction of blood group phenotype from genotype. However, current methods require a long turnaround time and are not performed on-site, limiting their application in emergency situations.

Flexible automated platform for blood group genotyping on DNA microarrays.

The poor suitability of standard hemagglutination-based assay techniques for large-scale automated screening of red blood cell antigens severely limits the ability of blood banks to supply extensively phenotype-matched blood. With better understanding of the molecular basis of blood antigens, it is now possible to predict blood group phenotype by identifying single-nucleotide polymorphisms in genomic DNA. Development of DNA-typing assays for antigen screening in blood donation qualification laboratories promises to enable blood banks to provide optimally matched donations.

Multipurpose high-throughput filtering microarrays (HiFi) for DNA and protein assays.

We are reporting here a low cost colorimetric device for high-throughput multiplexed blood group genotyping and allergy diagnosis, displayed as an automated 96-well microtiter plate format. A porous polymeric membrane sealed at the bottom of each well accounts for the sensor support. For each sensing unit, a 6×6 matrix of specific probes is spotted on the external surface of the membrane resulting in 5 mm(2) microarrays.

Robust, high-throughput solution for blood group genotyping.

With the concomitant increase of blood transfusions and safety rules, there is a growing need to integrate high-throughput and multiparametric assays within blood qualification centers. Using a robust and automated solution, we describe a new method for extended blood group genotyping (HiFi-Blood 96) bringing together the throughput possibilities of complete automation and the microarray multiplexed analysis potential. Our approach provides a useful resource for upgrading blood qualification center facilities.