TY - JOUR
T1 - Atrial fibrosis and decreased connexin 43 in rat hearts after exposure to high-intensity infrasound
AU - Lousinha, Ana
AU - Pereira, Gonçalo
AU - Borrecho, Gonçalo
AU - Brito, José
AU - Oliveira de Carvalho, António
AU - Freitas, Diamantino
AU - Oliveira, Pedro
AU - Maria, Maria João
AU - Antunes, Eduardo
N1 - Publisher Copyright:
© 2020 Elsevier Inc.
PY - 2020/6
Y1 - 2020/6
N2 - Background: Noise is an important environmental risk factor. Industrial environments are rich in high-intensity infrasound (hi-IFS), which we have found to induce myocardial and coronary perivascular fibrosis in rats. The effects of exposure to IFS on the ventricles have been studied, but not on the atria. We hypothesized that rats exposed to hi-IFS develop atrial remodeling involving fibrosis and connexin 43, which we sought to evaluate. Material and methods: Seventy-two Wistar rats, half exposed to hi-IFS (120 dB, <20 Hz) during a maximum period of 12 weeks and half age-matched controls, were studied. Atrial fibrosis was analyzed by Chromotrope-aniline blue staining. The immunohistochemical evaluation of Cx43 was performed using the polyclonal antibody connexin-43 m diluted 1:1000 at 4 °C overnight. Digitized images were obtained with an optical microscope using 400× magnifications. The measurements were performed using image J software. A two-way ANOVA model was used to compare the groups. Results: The mean values of the ratio “atrial fibrosis / cardiomyocytes” increased to a maximum of 0.1095 ± 0,04 and 0.5408 ± 0,01, and of the ratio “CX43 / cardiomyocytes” decreased to 0.0834 ± 0,03 and 0.0966 ± 0,03, respectively in IFS-exposed rats and controls. IFS-exposed rats exhibited a significantly higher ratio of fibrosis (p < .001) and lower ratio of Cx43 (p = .009). Conclusion: High-intensity infrasound exposure leads to an increase in atrial interstitial fibrosis and a decrease in connexin 43 in rat hearts. This finding reinforces the need for further experimental and clinical studies concerning the effects of exposure to infrasound.
AB - Background: Noise is an important environmental risk factor. Industrial environments are rich in high-intensity infrasound (hi-IFS), which we have found to induce myocardial and coronary perivascular fibrosis in rats. The effects of exposure to IFS on the ventricles have been studied, but not on the atria. We hypothesized that rats exposed to hi-IFS develop atrial remodeling involving fibrosis and connexin 43, which we sought to evaluate. Material and methods: Seventy-two Wistar rats, half exposed to hi-IFS (120 dB, <20 Hz) during a maximum period of 12 weeks and half age-matched controls, were studied. Atrial fibrosis was analyzed by Chromotrope-aniline blue staining. The immunohistochemical evaluation of Cx43 was performed using the polyclonal antibody connexin-43 m diluted 1:1000 at 4 °C overnight. Digitized images were obtained with an optical microscope using 400× magnifications. The measurements were performed using image J software. A two-way ANOVA model was used to compare the groups. Results: The mean values of the ratio “atrial fibrosis / cardiomyocytes” increased to a maximum of 0.1095 ± 0,04 and 0.5408 ± 0,01, and of the ratio “CX43 / cardiomyocytes” decreased to 0.0834 ± 0,03 and 0.0966 ± 0,03, respectively in IFS-exposed rats and controls. IFS-exposed rats exhibited a significantly higher ratio of fibrosis (p < .001) and lower ratio of Cx43 (p = .009). Conclusion: High-intensity infrasound exposure leads to an increase in atrial interstitial fibrosis and a decrease in connexin 43 in rat hearts. This finding reinforces the need for further experimental and clinical studies concerning the effects of exposure to infrasound.
KW - Atrial fibrosis
KW - Connexin 43
KW - Infrasound
UR - http://www.scopus.com/inward/record.url?scp=85080047007&partnerID=8YFLogxK
U2 - 10.1016/j.yexmp.2020.104409
DO - 10.1016/j.yexmp.2020.104409
M3 - Article
C2 - 32088192
AN - SCOPUS:85080047007
SN - 0014-4800
VL - 114
JO - Experimental and Molecular Pathology
JF - Experimental and Molecular Pathology
M1 - 104409
ER -