Oscar Eder Flores-Colorado

Colegio de Postgraduados | CP · Department of Phytosanitary

App-ExploraCitricos v2.0 is an application for assessing epidemiological variables with a spatio-temporal, multicrop, multivariety-species, multivariable, multi-pest, multi-user and multi-criteria approach for risk analysis in the citrus productive chain. This work aimed to develop an application for Android® mobile devices higher than 5.0, allowin...

Figure 1. Self-collected mouthwash–saliva (MWS) and RT-qPCR-based protocol for SARS-CoV-2 detection incorporated to a surveillance web–mobile application platform system to integrate real-time epidemiological and clinical core baseline database with laboratory results for decision making on testing, confining, and self-report to family–social–cowor...

This study provides a safe and low-cost in-house protocol for RT-qPCR-based detection of SARS-CoV-2 using mouthwash–saliva self-collected specimens to achieve clinical and epidemiological surveillance in a real-time web environment applied to ambulatory populations. The in-house protocol comprises a mouthwash–saliva self-collected specimen, heat vi...

Citation: Mora-Aguilera, G.; Martínez-Bustamante, V.; Acevedo-Sánchez, G.; Coria-Contreras, J.J.; Guzmán-Hernández, E.; Flores-Colorado, O.E.; Mendoza-Ramos, C.; Hernández-Nava, G.; Álvarez-Maya, I.; Gutiérrez-Espinosa, M.A.; et al. Surveillance Web System and Mouthwash-Saliva qPCR for Labor Ambulatory SARS-CoV-2 Detection and Prevention. Int. J. E...

The advancement of digital technology has made it possible to conceive automated Epidemiological Surveillance Systems (ESS) with a holistic-systemic approach allowing effective operation, management, and processing of phytosanitary data for fast decision making applied to regional prevention and pest management. This surveillance type focuses on pl...