Vigilancia tecnológica e inteligencia competitiva de un desarrollo tecnológico para la detección de Giardia, una innovación en salud

La giardiasis es una enfermedad causada por Giardia duodenalis, protozoario enteropatógeno que también es responsable de la enfermedad diarreica aguda y la gastroenteritis en humanos. Dadas las características de excreción intermitente propias de este parásito, la probabilidad de obtener resultados falsos negativos durante el proceso de diagnóstico es alta. En el Grupo de Parasitología del Instituto Nacional de Salud de Colombia se identificaron proteínas inmunogénicas presentes en quistes y trofozoítos del parásito en aislamientos colombianos de Giardia con potencial comercial y posibilidad de ser patentadas. Se realizó un estudio exploratorio descriptivo a partir de las características de la técnica en estudio, su estado de desarrollo y la viabilidad comercial de la invención. Se encontraron 390 patentes y se seleccionaron cinco invenciones similares que no representaban ningún riesgo frente a una eventual solicitud de patente. De los 36 estuches para el diagnóstico de Giardia disponibles en el mercado y las 21 licencias sanitarias otorgadas hasta diciembre del 2017, sólo cuatro y tres, respectivamente, proponen técnicas similares a la de la estudiada, pero ninguna de ellas cuenta con un registro de patente relacionado. La técnica en desarrollo es innovadora y puede aplicarse en el campo de la salud pública en la Región de las Américas con beneficios previsibles

Detection of Giardia duodenalis antigen in human fecal eluates by enzyme-linked immunosorbent assay using polyclonal antibodies

The present study developed and standardized an enzime-linked immunosorbent assay (ELISA) to detect Giardia antigen in feces using rabbit polyclonal antibodies. Giardia cysts were purified from human fecal samples by sucrose and percoll gradients. Gerbils (Meriones unguiculatus) were infected to obtain trophozoites. Rabbits were inoculated with either cyst or trophozoite antigens of 14 Colombian Giardia isolates to develop antibodies against the respective stages. The IgG anti-Giardia were purified by sequential caprylic acid and ammonium sulfate precipitation. A portion of these polyclonal antibodies was linked to alkaline phosphatase (conjugate). One hundred and ninety six samples of human feces, from different patients, were tested by parasitologic diagnosis: 69 were positive for Giardia cysts, 56 had no Giardia parasites, and 71 revealed parasites other than Giardia. The optimal concentration of polyclonal antibodies for antigen capture was 40 µg/ml and the optimal conjugate dilution was 1:100. The absorbance cut-off value was 0.24. The parameters of the ELISA test for Giardia antigen detection were: sensitivity, 100% (95% CI: 93.4-100%); specificity, 95% (95% CI: 88.6-97.6%); positive predictive value, 91% (95% CI: 81.4-95.9%); and negative predictive value, 100% (95% CI: 96.1-100%). This ELISA will improve the diagnosis of Giardia infections in Colombia and will be useful in following patients after treatment

COVID-19 Infection Detection and Prevention by SARS-CoV-2 Active Antigens: A Synthetic Vaccine Approach

COVID-19, a global pandemic causing to date more than 50 million cases and more than a million deaths, has to be controlled. SARS-CoV-2 (severe acute respiratory syndrome coronavirus 2) was identified as the causative agent. Controversy about this virus origin and infectious mechanism for adapting to humans remains a matter for discussion. Among all strategies for obtaining safe and potent vaccines, approaches based on attenuated-killed virus and non-replicating RNA viral vectors are demonstrating promising results. However, specificity of viral components targeted by human antibodies so far has not been demonstrated. A consistent strategy for obtaining functional-active antigens from SARS-CoV-2 specific ligands lead us to propose and test a number of synthetic components. From hundreds of starting sequences only fifteen fulfilled the design requirements and were produced as monomer and polymer forms and immuno-chemically tested. The design was based on worldwide representative reported virus genomes. A bioinformatics scheme by conventional methods and knowledge on MHC-I and II antigen processing mechanisms and HLA haplotype-restriction was performed including sensitive and resistant human populations to virus infection. Covid-19 patients’ sera reactivity for synthetic SARS-CoV-2-designed components have proven a high recognition of specific molecules, as well as some evidence for a long-lasting humoral immune response