Your browser doesn't support javascript.
loading
IInvestigation of possible oxidative damage caused by formaldehyde exposure in the rat's heart and aorta tissue / Investigación de posible daño oxidativo causado por la exposición al formaldehído en el corazón de la rata y tejido de la aorta
Tasdemir, Rabia; Acar, Esra; Colak, Tuncay; Hunc, Fatih; Bamac, Belgin; Kir, Hale Maral; Eraldemir, Fatma Ceyla.
  • Tasdemir, Rabia; Gaziantep Islam Science and Tecnology University. Faculty of Medicine. Department of Anatomy. Gaziantep. TR
  • Acar, Esra; Kocaeli University. Faculty of Medicine. Department of Biochemistry. Kocaeli. TR
  • Colak, Tuncay; Kocaeli University. Faculty of Medicine. Department of Anatomy. Kocaeli. TR
  • Hunc, Fatih; Kocaeli University. Faculty of Medicine. Department of Biochemistry. Kocaeli. TR
  • Bamac, Belgin; Kocaeli University. Faculty of Medicine. Department of Anatomy. Kocaeli. TR
  • Kir, Hale Maral; Kocaeli University. Faculty of Medicine. Department of Biochemistry. Kocaeli. TR
  • Eraldemir, Fatma Ceyla; Kocaeli University. Faculty of Medicine. Department of Biochemistry. Kocaeli. TR
Int. j. morphol ; 39(4): 1042-1047, ago. 2021. ilus, tab
Article in English | LILACS | ID: biblio-1385449
ABSTRACT

SUMMARY:

Formaldehyde (FA) is a toxic substance used frequently in the field of medicine as well as in many industrial areas. Especially people working in the field of anatomy, histology, and pathology are in high risk group because of the use of the FA. Studies showing the effects of FA on the cardiovascular system are few in number. The purpose of the present study was to investigate the effects of FA exposure, which we believe can cause oxidative stress, on the heart and aorta with various biochemical analyses. A total of 24 Wistar Albino rats were used in our study. We divided the rats into 3 groups as the Control Group (CG), the group exposed to low-dose FA (avg. 1 ppm) (DDG) Group, and the group exposed to high-dose FA (avg. 10 ppm) (YDG). At the end of the subchronic FA exposure, the blood samples, heart and aorta tissues of the rats were taken and subjected to biochemical analyses. As a result of the analyses, statistically significant differences were detected between CG (2.96?0.85 ng/mg), and HDG (2.08?0.77 ng/mg) in aortic tissues in TXNIP analysis (p<0.05). In heart tissues, significant differences were detected between CG (0.73?0.27 ng/mg) and LDG (1.13?0.22 ng/mg) (p<0.05). Statistically significant differences were also detected between CG (1.98?0.31 mM/ml) and YDG (2.43?0.31 mM/ml) in serum MDA analyses (p<0.05). It was shown that subchronic application of FA to LDG rats through inhalation had no effects on apoptosis markers in heart tissues. More studies are required to show FA toxicity and the mechanism of action of pathology on the cardiovascular system. We believe that our study will contribute to clarifying the roles of mild and subchronic exposure of FA in heart and aortic tissues in terms of oxidative stress risk.
RESUMEN
RESUMEN El formaldehído es una sustancia tóxica que se utiliza con frecuencia en el campo de la medicina, así como en muchas áreas industriales. Especialmente las personas que trabajan en el area de la anatomía, y patología se encuentran en el grupo de alto riesgo debido al uso de esta sustancia. Pocos son los estudios que muestran los efectos del formaldehído en el sistema cardiovascular. El propósito del presente estudio fue investigar a través de análisis bioquímicos, los efectos de la exposición a formaldehído, que podría causar estrés oxidativo, en el corazón y la aorta. Se utilizaron un total de 24 ratas Albinas Wistar. Dividimos a las ratas en 3 grupos grupo control (GC), grupo expuesto a dosis bajas de AG (promedio 1 ppm) (DDG) y grupo expuesto a dosis altas de AG (promedio 10 ppm) (YDG). Al término de la exposición a FA subcrónica, se tomaron muestras de sangre, tejido cardíaco y aorta de las ratas y se sometieron a análisis bioquímicos. Como resultado de los análisis, se detec- taron diferencias estadísticamente significativas entre GC (2,96 ? 0,85 ng / mg) y HDG (2,08 ? 0,77 ng / mg) en los tejidos aórticos en el análisis TXNIP (p <0,05). En los tejidos cardíacos se detectaron diferencias significativas entre GC (0,73 ? 0,27 ng / mg) y LDG (1,13 ? 0,22 ng / mg) (p <0,05). También se detectaron diferencias estadísticamente significativas entre CG (1,98 ? 0,31 mM / ml) y YDG (2,43 ? 0,31 mM / ml) en los análisis de MDA en suero (p <0,05). Se demostró que la aplicación subcrónica de formaldehído a ratas LDG a través de la inhalación no tuvo efectos sobre los marcadores de apoptosis en los tejidos del corazón. Se requieren más estudios para demostrar la toxicidad de los AG y el mecanismo de acción de la patología en el sistema cardiovascular. Creemos que nuestro estudio contribuirá a aclarar las funciones de la exposición leve y subcrónica de formaldehído en los tejidos cardíacos y aórticos en términos de riesgo al estrés oxidativo.
Subject(s)

Fulltext
Print
XML
Search on Google

Full text: Available Index: LILACS (Americas) Main subject: Aorta / Oxidative Stress / Formaldehyde / Heart Limits: Animals Language: English Journal: Int. j. morphol Journal subject: Anatomy Year: 2021 Type: Article Affiliation country: Turkey Institution/Affiliation country: Gaziantep Islam Science and Tecnology University/TR / Kocaeli University/TR

Similar

MEDLINE
LILACS
LIS
Fulltext
Print
XML
Search on Google

Full text: Available Index: LILACS (Americas) Main subject: Aorta / Oxidative Stress / Formaldehyde / Heart Limits: Animals Language: English Journal: Int. j. morphol Journal subject: Anatomy Year: 2021 Type: Article Affiliation country: Turkey Institution/Affiliation country: Gaziantep Islam Science and Tecnology University/TR / Kocaeli University/TR