Duchenne and Becker muscular dystrophy: Cellular mechanisms, image analysis, and computational models: A review.

The muscle is the principal tissue that is capable to transform potential energy into kinetic energy. This process is due to the transformation of chemical energy into mechanical energy to enhance the movements and all the daily activities. However, muscular tissues can be affected by some pathologies associated with genetic alterations that affect the expression of proteins. As the muscle is a highly organized structure in which most of the signaling pathways and proteins are related to one another, pathologies may overlap. Duchenne muscular dystrophy (DMD) is one of the most severe muscle pathologies triggering degeneration and muscle necrosis. Several mathematical models have been developed to predict muscle response to different scenarios and pathologies. The aim of this review is to describe DMD and Becker muscular dystrophy in terms of cellular behavior and molecular disorders and to present an overview of the computational models implemented to understand muscle behavior with the aim of improving regenerative therapy.

In Vitro Evaluation of the Effect of Stimulation with Magnetic Fields on Chondrocytes.

Magnetic fields (MFs) have been used as an external stimulus to increase cell proliferation in chondrocytes and extracellular matrix (ECM) synthesis of articular cartilage. However, previously published studies have not shown that MFs are homogeneous through cell culture systems. In addition, variables such as stimulation times and MF intensities have not been standardized to obtain the best cellular proliferative rate or an increase in molecular synthesis of ECM. In this work, a stimulation device, which produces homogeneous MFs to stimulate cell culture surfaces was designed and manufactured using a computational model. Furthermore, an in vitro culture of primary rat chondrocytes was established and stimulated with two MF schemes to measure both proliferation and ECM synthesis. The best proliferation rate was obtained with an MF of 2 mT applied for 3 h, every 6 h for 8 days. In addition, the increase in the synthesis of glycosaminoglycans was statistically significant when cells were stimulated with an MF of 2 mT applied for 5 h, every 6 h for 8 days. These findings suggest that a stimulation with MFs is a promising tool that could be used to improve in vitro treatments such as autologous chondrocyte implantation, either to increase cell proliferation or stimulate molecular synthesis. Bioelectromagnetics. 2020;41:41-51 © 2019 Bioelectromagnetics Society.

Evaluación de las pruebas de PCR TcH2AF-R y S35-S36 para la detección de Trypanosoma cruzi en tejido cardiaco de ratón / Evaluation of TcH2AF-R and S35-S36 primers in PCR tests for the detection of Trypanosoma cruzi in mouse cardiac tissue

Introducción. El trasplante es una opción terapéutica en la cardiomiopatía chagásica. Para la detección temprana de una posible reactivación de la infección, se propone el uso de pruebas de reacción en cadena de la polimerasa (PCR) a partir de biopsias endomiocárdicas; el modelo de ratón es una aproximación preliminar para evaluar la aplicación de éstas. Objetivo. Evaluar la aplicación de las pruebas de PCR basadas en los iniciadores TcH2AF-R y S35-S36 para la detección de T. cruzi en tejido cardiaco de ratones infectados con el parásito. Materiales y métodos. Se infectaron por vía intraperitoneal dos grupos de ratones ICR de 15 y 10 individuos con 0,3 ml de PBS que contenían 1x106 tripomastigotes de la cepa MHOM/CO/2001/D.A. (T. cruzi I) o 1x104 tripomastigotes de la cepa MHOM/BR/00/Y (T. cruzi II), respectivamente. El seguimiento de la parasitemia se realizó mediante microhematocrito y presencia de parásitos en el corazón a los 30, 60 (modelo agudo), 100 y 150 (modelo crónico) días por medio de histopatología y de las PCR TcH2AF-R y S35-S36. Resultados. La histopatología mostró alteraciones en el miocardio y presencia de amastigotes en los modelos agudo y crónico. En contraste al microhematocrito y al análisis histopatológico, la PCR S35-S36 permitió la detección de ambas cepas del parásito. La PCR TcH2AF-R detectó la cepa T. cruzi I con un desempeño superior al microhematocrito y al análisis histopatológico. Conclusiones. El uso de ambas pruebas de PCR puede ser útil en la confirmación de la reactivación de la infección postrasplante.

[Evaluation of TcH2AF-R and S35-S36 primers in PCR tests for the detection of Trypanosoma cruzi in mouse cardiac tissue]. / Evaluación de las pruebas de PCR TcH2AF-R y S35-S36 para la detección de Trypanosoma cruzi en tejido cardiaco de ratón.

INTRODUCTION: Heart transplant is a therapeutic option in the treatment of chagasic cardiomyopathy. For early detection of Chagas reactivation cases, the use of PCR tests using endomyocardial biopsies has been proposed. Development of an animal model will be the first step in evaluating the applicability of this approach. OBJECTIVE: PCR tests based on the TcH2AF-R and S35-S36 primers were evaluated for the detection of T. cruzi in heart tissue of mice experimentally infected with the parasite. MATERIALS AND METHODS: Two groups of ICR mice of 15 and 10 individuals were infected by intraperitoneal injection with 0.3 ml of PBS containing 1 x 10(6) trypomastigotes of the MHOM/CO/2001/D.A. (T. cruzi I) strain or 1 x 10(4) trypomastigotes of MHOM/BR/00/Y (T. cruzi II) strain. Parasitemia and cardiac parasitic infection were determined at 30, 60 (acute model), 100 and 150 (chronic model) days by means of histopathological examination and by PCR, using the TcH2AF-R and S35-S36 primers. RESULTS: The histopathological findings revealed alterations in the heart and the presence of intracellular amastigotes in acute and chronic models. In contrast to parasitemia levels and histopathological analyses, S35-S36 PCR detected infections in mice that were infected with either parasite strain. TcH2AF-R PCR detected T. cruzi I-infected mice earlier and more frequently than inspection for parasitemia or histopathological examination. CONCLUSIONS: Applying PCR tests with both primers proved superior for Chagas disease confirmation over currently standard detection methods.