Title of article
Anti-Inflammatory and Anti-Remodelling Potential of Ethanol Extract Rhodomyrtus Tomentosa in Combination of Asthma and Coal Dust Models
Author/Authors
Fujiati, Fujiati Department Biochemistry and Biomolecular - Faculty of Medicine - Lambung Mangkurat University - Banjarmasin - South Kalimantan, Indonesia , Haryati, Haryati Department Pulmonology and Respiratory Medicine - Faculty of Medicine - Lambung Mangkurat University - Banjarmasin - South Kalimantan, Indonesia
Pages
11
From page
686
To page
696
Abstract
Background: Combination of asthma and coal dust is a chronic and recurring airway disease related to
inflammation cell activation. The Rhodomyrtus tomentosa flowering plants native to South Kalimantan
exhibit a broad therapeutic potential, like anti-inflammatory and anti-remodelling properties. This study
aims to analyze the effect of ethanol extract of R. tomentosa leaves (EERTL) nebulizer on the number of
inflammatory cells and histomorphometry of lung tissue in a mice-like model of a combination of asthma
and coal dust.
Methods: The 24 BALB/c mice were divided into four treatment groups (n= 6 per group), were sensitized
with normal saline (K), OVA + coal dust (P1), OVA + coal dust + salbutamol (P2), and OVA + coal dust +
EERTL (P3). Eosinophil cells, neutrophils, lymphocytes, epithelial thickness, smooth muscle, fibrosis
subepithelial bronchioles, and the number of goblet cells as indicators of anti-inflammatory and antiremodelling
airways.
Results: The number of eosinophils, neutrophils, and lymphocytes cells are given salbutamol or EERTL
was significantly lower than the OVA-sensitized and coal dust exposure group only. There are meaningful
differences in the average thickness of the epithelium, smooth muscle, and subepithelial fibrosis of
bronchiolus. The histopathology picture of goblet cells showed an increase in the number and size
(hyperplasia) in OVA-sensitized and coal dust exposure compared to another group.
Conclusions: It was concluded that the EERTL nebulizer could reduce inflammatory cells and
remodelling process from bronchoalveolar lavage in the mice combination of asthma and coal dust
models.
Keywords
Anti-Inflammatory , Anti-Remodelling , Asthma , Coal Dust , Rhodomyrtus tomentosa
Journal title
Reports of Biochemistry and Molecular Biology (RBMB)
Serial Year
2022
Record number
2720824
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