La evidencia en tiempos de coronavirus (COVID-19) / Evidence in times of coronavirus (COVID-19)

La pandemia de COVID-19 está generando información epidemiológica y clínica en una escala sin precedentes para una enfermedad de reciente aparición. Aunque ya se han iniciado numerosos ensayos clínicos de fármacos antiguos y nuevos como potenciales antivirales específicos, la mayor parte de la información publicada hasta ahora carece de los controles básicos para la evaluación de la eficacia de un medicamento. Los medios de comunicación amplifican estos resultados preliminares y suman presión a los médicos asistenciales y a los decisores de políticas públicas. Este artículo revisa las pruebas disponibles sobre los cuatro tratamientos antivirales específicos más prometedores: hidroxicloroquina, lopinavir/ritonavir, remdesvir e interferones alfa y beta. Se comprueba en todos ellos que no hay demostración suficiente de eficacia como para recomendar su uso fuera de una investigación experimental adecuadamente controlada. En el uso individual de un medicamento no hay forma de saber si está beneficiando o perjudicando al paciente. Es erróneo asumir que la eventual curación se debe al fármaco y un mal desenlace debe atribuirse a la enfermedad. Sólo la comparación entre grupos de pacientes asignados al tratamiento experimental o a un control adecuado permite conocer la eficacia y seguridad de las intervenciones. El desafío es conciliar la urgencia de actuar con la generación de nuevos conocimientos.Aunque no resulta sencillo organizar ensayos clínicos en este contexto, las instituciones pueden sumarse a los proyectos en marcha a nivel nacional e internacional. El uso de estos fármacos debe considerarse experimental, por lo que es necesario obtener el consentimiento informado del paciente. (AU)

The COVID-19 pandemic is generating epidemiological and clinical information on an unprecedented scale for a newly emerging disease. Although numerous clinical trials of old and new drugs as potential specific antivirals have already been started, most of the information published so far lacks basic controls for evaluating drug efficacy. The media amplify these preliminary results and add pressure to doctors and policymakers. This article reviews the available evidence for the four most promising specific antiviral treatments: hydroxychloroquine, lopinavir / ritonavir, remdesvir, and alpha and beta interferons. The findings show that none of them has sufficient demonstration of efficacy to recommend its use outside ofthe adequately controlled experimental study. In the individual use of a drug there is no way of knowing if it is benefiting orharming the patient. It is wrong to assume that the eventual cure is due to the drug and a poor outcome must be attributed to the disease. Only the comparison between groups of patients assigned to the experimental treatment or to an adequate control can establish the efficacy and safety of the interventions. The challenge is to reconcile the urgency to act with the generation of new knowledge. Although it is not easy to organize clinical trials in this context, the institutions can join theongoing projects at the national and international levels. The use of these drugs should be considered experimental, so it is necessary to obtain the informed consent of the patient. (AU)

Lopinavir and curcumin directly alters BAX/BCL2 and VEFG165b mRNA levels to suppress human squamous cervical carcinoma cell growth / Lopinavir y curcumina alteran directamente los niveles de ARNm de BAX/ BCL 2 y VEFG165 para suprimir el crecimiento de células de carcinoma cervical escamoso humano

Following the success of the highly active antiretroviral therapy, the potential of multidrug combination regimen for the management of cancer is intensely researched. The anticancer effects of curcumin on some human cell lines have been documented. Lopinavir is a FDA approved protease inhibitor with known apoptotic activities. Dysregulated apoptosis is important for the initiation of cancer while angiogenesis is required for cancer growth and development, this study therefore investigated the effects of the combination of lopinavir and curcumin on cell viability, apoptosis and the mRNA expression levels of key apoptotic and angiogenic genes; BAX, BCL2 and VEGF165b in two human cervical cell lines; human squamous cell carcinoma cells - uterine cervix (HCS-2) and transformed normal human cervical cells (NCE16IIA). The two human cervical cell lines were treated with physiologically relevant concentrations of the agents for 120 h following which BAX, BCL2 and VEGF165b mRNA expression were determined by Real Time qPCR. The Acridine Orange staining for the morphological evaluation of apoptotic cells was also performed. The combination of lopinavir and curcumin up-regulated pro-apoptotic BAX and antiangiogenic VEGF165b but down-regulated the mRNA levels of anti-apoptotic BCL2 mRNA in the human squamous cell carcinoma (HCS-2) cells only. The fold changes were statistically significant. Micrographs from Acridine Orange staining showed characteristic evidence of apoptosis in the human squamous cell carcinoma (HCS-2) cells only. The findings reported here suggest that the combination of curcumin and the FDA approved drug-lopinavir modulate the apoptotic and angiogenic pathway towards the inhibition of cervical cancer.

Tras el éxito de la terapia antirretroviral altamente activa, se investiga intensamente el potencial del régimen de combinación de múltiples fármacos para el tratamiento del cáncer. Se han documentado los efectos anticancerígenos de la curcumina en algunas líneas celulares humanas. Lopinavir es un inhibidor de proteasa aprobado por la FDA con actividades apoptóticas conocidas. La apoptosis disrregulada es importante para el inicio del cáncer, mientras que la angiogénesis es necesaria para el crecimiento y desarrollo del cáncer. Por lo tanto, este estudio investigó los efectos de la combinación de lopinavir y curcumina sobre la viabilidad celular, la apoptosis y los niveles de expresión del ARNm de genes apoptóticos y angiogénicos clave: BAX, BCL2 y VEGF165b en dos líneas celulares cervicales humanas; células de carcinoma de células escamosas humanas: cérvix uterino (HCS-2) y células cervicales humanas transformadas (NCE16IIA). Las dos líneas celulares cervicales humanas se trataron con concentraciones fisiológicamente relevantes de los agentes durante 120 horas, después de lo cual la expresión de ARNm de BAX, BCL2 y VEGF165b se determinó mediante qPCR en tiempo real. También se realizó la tinción con naranja de acridina para la evaluación morfológica de células apoptóticas. La combinación de lopinavir y curcumina reguló incrementando BAX proapoptósicos y VEGF165b antiangiogénicos, pero reguló a la baja los niveles de ARNm del BCL2 antiapoptótico en células de carcinoma de células escamosas humanas (HCS-2) únicamente. Los cambios en el pliegue fueron estadísticamente significativos. Las micrografías de la tinción con naranja de acridina mostraron evidencia característica de apoptosis solo en las células del carcinoma de células escamosas humanas (HCS-2). Los hallazgos reportados aquí sugieren que la combinación de curcumina y el fármaco aprobado por la FDA lopinavir modulan la vía apoptótica y angiogénica hacia la inhibición del cáncer cervical.

A novel validated UPLC method for quantitation of lopinavir and ritonavir in bulk drug and pharmaceutical formulation with its impurities

A simple gradient Ultra Performance liquid chromatographic method (UPLC) was developed for determination of lopinavir and ritonavir from its related impurities and assay for the first time. This method involves the use of a C18 (Acquity UPLC BEH C18, 50 × 2.1 mm, 1.7 µm) column thermostated at 30 oC using triethylamine (pH 2.2): 0.1% H3PO4 in acetonitrile and methanol (85:15) as mobile phase in gradient elution mode. A Photo Diode Array (PDA) detector set at 215 nm was used for detection with flow rate 0.4 mL/min. This method was validated over the range of limit of quantitation (LOQ) to 50 to 150% of impurity specification limit and of working concentration for assay. The developed method was validated for linearity, range, precision, accuracy and specificity. This method was successfully applied for content determination of lopinavir and ritonavir in pharmaceutical formulations. This method can be conveniently used in quality control laboratory for routine analysis for assay and related substances as well as for evaluation of stability samples of bulk drugs and pharmaceutical formulations.

Desenvolveu-se, pela primeira vez, método de cromatografia líquida de ultra-eficiência (UPLC), com gradiente simples, para a determinação de lopinavir e ritonavir e suas impurezas relativas. Esse método envolve o uso de C18 (Acquity UPLC BEH C18, 50 × 2,1 mm, 1,7 µm), termostatizada a 30 oC, utilizando-se trietilamina (pH 2,2) e fase móvel de H3PO4 0,1% em acetonitrila e metanol (85:15), em eluição por gradiente. Detector de arranjo de fotodiiodo (PDA), fixado a 215 nm, foi utilizado para a detecção, com fluxo de 0,4 mL/min. Esse método foi validado em faixa de limite de quantificação (LOQ) de 50 a 150% de limite de impureza e da concentração de trabalho para o ensaio. O método desenvolvido foi validado quanto à linearidade, faixa, precisão, exatidão e especificidade. Esse método foi aplicado com sucesso para a determinação de lopinavir e de ritonavir em formulações farmacêuticas. Tal método pode ser convenientemente utilizado em laboratório de controle de qualidade, não só para análise de rotina e ensaio de substâncias relacionadas, como também para a avaliação da estabilidade de amostras a granel ou em formulações farmacêuticas.