Plasmodium vivax displays a high genetic variability for recurrent episodes of illness. Objectives: To determine the genetic variability of P. vivax and patterns of recurrence in asymptomatic malaria. Design: Descriptive analytical. Setting: Laboratory of Infectious Disease Research, Universidad Peruana Cayetano Heredia. Population: Individuals from Mazan, Iquitos, Peru, a malaria endemic region. Intervention: Between June 2006 and November 2008, 222 individuals were analyzed with two sequential blood samples. Main outcome measures: Identification of P. vivax, genotyping based on gene pvmsp3-α, genetic variability of P. vivax and patterns of recurrence. Results: First evaluation: Positive for P. vivax 191/222 (86%), P. falciparum 2/222 (0.9%), mixed infection 21/222 (9.5%) and negative 8/222 (3.6%). Second evaluation: 180/191 (94.2%) remained positive for P. vivax. Genotyping by nested ...

Plasmodium vivax agente etiológico de la malaria, exhibe una gran variabilidad genética durante episodios recurrentes de la enfermedad. Esta recurrencia es informada como de baja prevalencia asociada con la malaria asintomática. Así mismo los episodios recurrentes (reinfecciones o relapsos) a menudo pueden ser confundidos por resistencia a fármacos como la cloroquina. Por lo tanto el objetivo principal de este estudio fue relacionar los patrones de recurrencia y la resistencia con la variabilidad genética de P. vivax. En este estudio se evaluaron las muestras secuenciales de individuos provenientes de una región endémica del Perú (Mazán-Iquitos), diagnosticados previamente con malaria, por microscopía, durante seguimientos activos y sometidos a un régimen de tratamiento estándar con cloroquina. La genotipificación realizada en base al gen pvmsp3-α, utilizando el Nested PCR...

Humankind is currently facing a challenge that distinguishes no borders, ideologies, socioeconomic systems, ethnic groups, religions or cultures. It is a war that unites us as a biological species, in which the main weapons come from research aimed at improving health systems. In this war, governments and international health organizations define the strategy; and health systems and law enforcement agencies, together with citizens’ support, carry out actions and fight the battles. However, the most important battle is fought inside each of us. Just like Perseus fought against Hades in a battle of titans to prevent the Earth from turning into hell, the immune system activates a powerful machinery in which molecules and cells of the innate and acquired immune system jointly act to defeat SARS-Cov-2: a machinery that follows a script written by evolution, and that will leave in our immune...

In 2019, in the city of Wuhan, China, patients were diagnosed with a novel coronavirus originally named 2019-nCoV, currently known as SARS-CoV-2. The alarming expansion of this pandemic makes it necessary to find out and implement reliable diagnostic methods in order to properly detect and treat patients, thus contributing to slowing down the spread of the disease. It is extremely important to have trained professionals in sample collection, good clinical laboratory practices, and molecular and hematological techniques to adequately detect any cases of infection with this virus. Moreover, standardized protocols are essential for obtaining, transferring and storing samples to stop the spread of the COVID-19 pandemic caused by SARS-CoV-2.

The novel COVID-19 pandemic caused by the SARS-CoV-2 virus is currently challenging humankind. This virus originated in bats has probably been transmitted to humans through pangolins in the Wuhan marine market (China) by the end of 2019. It is spread by droplets of saliva or through contaminated materials, making it extremely important to isolate infected people who may be symptomatic or asymptomatic. The typical clinical features of this disease are fever, dry cough, shortness of breath and general malaise. This member of the coronavirus family shows higher infectivity but lower mortality rates (2–3 %) than its predecessors. Laboratory tests to detect the virus include reverse transcriptasepolymerase chain reaction (RT-PCR) tests or immunoassays.