Luciano Belotti scite author profile

Analysis of fuel emissions is crucial for understanding the pathogenesis of mortality because of air pollution. The objective of this study is to assess cardiovascular and inflammatory toxicity of diesel and biodiesel particles. Mice were exposed to fuels for 1 h. Heart rate (HR), heart rate variability, and blood pressure were obtained before exposure, as well as 30 and 60 min after exposure. After 24 h, bronchoalveolar lavage, blood, and bone marrow were collected to evaluate inflammation. B100 decreased the following emission parameters: mass, black carbon, metals, CO, polycyclic aromatic hydrocarbons, and volatile organic compounds compared with B50 and diesel; root mean square of successive differences in the heart beat interval increased with diesel (p < 0.05) compared with control; low frequency increased with diesel (p < 0.01) and B100 (p < 0.05) compared with control; HR increased with B100 (p < 0.05) compared with control; mean corpuscular volume increased with B100 compared with diesel (p < 0.01), B50, and control (p < 0.001); mean corpuscular hemoglobin concentration decreased with B100 compared with B50 (p < 0.001) and control (p < 0.05); leucocytes increased with B50 compared with diesel (p < 0.05); platelets increased with B100 compared with diesel and control (p < 0.05); reticulocytes increased with B50 compared with diesel, control (p < 0.01), and B100 (p < 0.05); metamyelocytes increased with B50 and B100 compared with diesel (p < 0.05); neutrophils increased with diesel and B50 compared with control (p < 0.05); and macrophages increased with diesel (p < 0.01), B50, and B100 (p < 0.05) compared with control. Biodiesel was more toxic than diesel because it promoted cardiovascular alterations as well as pulmonary and systemic inflammation.

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Early and late pulmonary effects of nebulized LPS in mice: An acute lung injury model

Costa

Júnior

Alemany

et al. 2017

PLoS ONE

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Background and objectiveAcute respiratory distress syndrome (ARDS) has a high mortality rate of 35–46% depending on its severity. Animal models are crucial to better understand the pathophysiology of diseases, including ARDS. This study presents a feasible animal model of acute lung injury (ALI) using nebulized lipopolysaccharide (LPS) in a non-invasive approach, focusing on its short and long-term effects.MethodsMice received nebulized LPS or vehicle only (control group). Blood, BALF and lung tissue were collected 24 hours (LPS 24h) or 5 weeks (LPS 5w) after the nebulized LPS-induced lung injury. Inflammatory cytokines were assessed in the blood serum, BALF and lung tissue. Stereological analyses and remodeling changes were assessed by histology and immunohistochemistry at the specified time points.ResultsThe LPS 24h group showed increased pro-inflammatory cytokine levels, intense cell influx, increased total septal volume, septal thickening and decreased surface density of the alveolar septa. The LPS 5w group showed persistent lung inflammation, septal thickening, increased total lung volume, accentuated collagen deposition, especially of collagen type I, and decreased MMP-2 protein expression.ConclusionWe present a feasible, reproducible and non-invasive nebulized-LPS animal model that allows the assessment of both the acute and late phases of acute lung injury. The presence of lung remodeling with collagen deposition after 5 weeks makes it useful to study the pathophysiology, complications, and possible therapeutic intervention studies that aim to understand and reduce pulmonary fibrosis in the late phases of ALI.

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Efeitos cardiopulmonares da exposição ao material particulado fino (MP2,5) proveniente do concentrador de partículas ambientais (CPA) na hipertrofia ventricular esquerda de ratos wistar

Belotti¹

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Aos amigos Luiz Afonso Pires, Mac Gayver da Silva Castro e RobsonSeriani pela amizade e companheirismo durante o todo o período de estudo e divertimento.Ao Guilherme, Gabriel e Laís minha sincera gratidão pela ajuda e dedicação que foram oferecidas neste trabalho. Epidemiological and experimental studies have consistently shown that both short-and long-term exposures to air pollution are associated with a variety of cardiovascular diseases. Air pollution is composed by a mixture of noxious substance including particles and gases. The cardiovascular adverse effects are more commonly attributed to particles and toxicological experiments have demonstrated several mechanisms by which particle exposure may trigger these effects. In this study we investigated the effects of time (7, 15 and 21 days) of exposure to concentrated ambient particles (dose = 600 µg/m³) on morphofunctional parameters of the heart in normal and rats with left ventricular hypertrophy (LVH) induced by isoproterenol (nonselective β-adrenergic agonist with direct action) (1.2 mg/kg). The use of LVH rats was motivated by the fact that individuals with cardiovascular diseases are considered at higher risk for effect of ambient PM. Our data have shown that time is an important factor on the magnitude of the effects of concentrated ambient particles on heart function and morphology, as shown by increased HRV (heart rate variability), decreased heart rate and increased volume of connective tissue in left ventricle myocardium. LVH rats presented similar outcomes but more severe effects on the heart which included decreased blood pressure and increased cardiomyocyte hypertrophy compared to non-exposed LVH rats. In conclusion, our results corroborate with previous findings that particulate air pollution induces changes in the autonomic control of the heart and that individual with previous cardiovascular disease are more affected than normal ones. We have further shown that concentrated ambient particles are capable of inducing changes in the microstructure of the myocardium depending on accumulated dose of exposure. SUMÁRIO Lista de quadros

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Air pollution impairs recovery and tissue remodeling in a murine model of acute lung injury

Costa

Júnior

Alemany

et al. 2020

Sci Rep

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Evidence regarding the impact of air pollution on acute respiratory distress syndrome (ARDS) is limited, and most studies focus on ARDS onset. Our study aimed to evaluate whether exposure to fine particulate matter interferes with lung recovery and remodeling in a murine model of acute lung injury. Forty-eight mice received nebulized LPS or the vehicle (controls). Blood, BALF, lungs and spleen were collected after 5 weeks of exposure to either PM2.5 (PM and LPS + PM group) or filtered air (control and LPS5w groups). Inflammatory cells and cytokines were assessed in the blood, BALF, lungs and spleen. Stereological analyses and remodeling assessments were performed by histology. The LPS + PM group showed increased BALF leukocytes, characterized by increased macrophages, increased IL-1β and IL-6 levels, anemia and thrombocytopenia. Moreover, we also observed septal thickening, decreased alveolar air space total volume and, septa surface density. Finally, regarding tissue remodeling, we observed elastosis of the lung parenchyma, and unlike in the LPS5w group, we did not observe fibrosis in the LPS + PM group. In conclusion, the delayed inflammation resolution due to subchronic exposure to PM2.5 could be influenced by low systemic and local lymphocyte counts, which lead to impaired lung injury recovery and tissue remodeling.

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Diesel exhaust exposure intensifies inflammatory and structural changes associated with lung aging in mice

Júnior

Costa

Belotti

et al. 2019

Ecotoxicology and Environmental Safety

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Luciano Belotti

Acute Cardiovascular and Inflammatory Toxicity Induced by Inhalation of Diesel and Biodiesel Exhaust Particles

Early and late pulmonary effects of nebulized LPS in mice: An acute lung injury model

Efeitos cardiopulmonares da exposição ao material particulado fino (MP2,5) proveniente do concentrador de partículas ambientais (CPA) na hipertrofia ventricular esquerda de ratos wistar

Air pollution impairs recovery and tissue remodeling in a murine model of acute lung injury

Diesel exhaust exposure intensifies inflammatory and structural changes associated with lung aging in mice

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