Aleatory Trypanosoma cruzi Vertical Transmission in Chiapas, Mexico: A Case Report

  • Sury Antonio López-Cancino Laboratory of Parasitology Research, Federico Gómez Children´s Hospital of Mexico, Mexico City, Mexico
  • Jorge Fernando Méndez-Galván Unit of Emerging Infectious Diseases Research, Federico Gómez Children Hospital of Mexico, Mexico City, Mexico
  • Mariana Soria-Guerrero Laboratory of Parasitology Research, Federico Gómez Children´s Hospital of Mexico, Mexico City, Mexico
  • Marcos Meneses-Mayo Research Center of Health Sciences, Faculty of Health Sciences, Anahuac México University, Huixquilucan, State of Méxi-co, México
  • Sergio Agustin Islas-Andrade Research Center of Health Sciences, Faculty of Health Sciences, Anahuac México University, Huixquilucan, State of Méxi-co, México
  • Enedina Jiménez-Cardoso Laboratory of Parasitology Research, Federico Gómez Children´s Hospital of Mexico, Mexico City, Mexico
Keywords: Congenital Chagas dis-ease; Trypanosoma cruzi; Pregnancy; Mexico

Abstract

Congenital Chagas disease is considered a form of dispersion of Trypanosoma cruzi related to human migration from endemic, often rural to previously non-endemic urban areas. This fact increases the Chagas disease establishment risk inside of family members by vertical transmission pathway. Congenital Chagas disease cases in newborns could not identified by the health professional even in endemic regions. Here we present the first family cluster of Chagas disease cases from Chiapas: one of the most important endemic areas in South of Mexico, where vertical T. cruzi transmission incidence rate is ranged between 2% to 22% revealing an important public health problem. Two cases inside a family from Chiapas, México with positive antibodies against T. cruzi detected by ELISA are presented; one of them got the infection through vertical pathway. We think that congenital Chagas disease should not be ignored in a newborn born from an asymptomatic Chagas disease mother, who may transmit the parasite infection randomly.

Published
2021-11-29
Section
Articles