CHUNYANG XU^1,#, CAIYUN YANG^1,#, JINSONG ZHANG², XIAOHUA PAN³, JUN WANG⁴, LEI JIANG², HONGWEI YE^1,*, BO CHEN^1,*

BIOCELL, Vol.47, No.9, pp. 2027-2035, 2023, DOI:10.32604/biocell.2023.029277

Abstract Background: The lung is one of the primary target organs of hydrogen sulfide (H₂S), as exposure to H₂S can cause acute lung injury (ALI) and pulmonary edema. Dexamethasone (Dex) exerts a protective effect on ALI caused by exposure to toxic gases and is commonly used in the clinic; however, the underlying mechanisms remain elusive, and the dose is unclear. Methods: In vivo experiments: divided C57BL6 mice into 6 groups at random, 12 in each group. The mice were exposed to H₂S for 3 h and 5 or 50 mg/kg Dex pretreated before exposure, sacrificed 12 h later. The morphological changes… More >

EJDER SAYLAV BORA^1,*, MüMIN ALPER ERDOĞAN², BAHATTIN ÖZKUL³, İBRAHIM HALIL SEVER⁴, İBRAHIM SÖĞÜT⁵, CANAN HÜRDAĞ⁶, OYTUN ERBAŞ⁷

BIOCELL, Vol.46, No.2, pp. 433-439, 2022, DOI:10.32604/biocell.2022.018510

Abstract Purpose: Digitoxin is a cardiac glycoside used in the treatment of heart failure. Inspired by its known anti-inflammatory effect, this study aims to investigate the effect of digoxin in a sepsis model and to bring to light its effect and underlying mechanism in acute lung injury (ALI). Method: 28 wistar albino rats were divided into 4 groups. Sepsis model is performed by the feces intraperitoneal-injection procedure (FIP). Results: TNF-a, CRP, IL-6, IL 1-Beta, lactic acid, and MDA values were significantly decreased in the FIP+digitoxin group compared to the FIP+Saline group. When the same groups were examined, histological improvements such as… More >

Angela Reynolds^∗,†, Kittisak Koombua^‡, Ramana M. Pidaparti^{†,‡, §}, Kevin R. Ward^†,¶

Molecular & Cellular Biomechanics, Vol.9, No.2, pp. 141-156, 2012, DOI:10.3970/mcb.2012.009.141

Abstract Better understanding of the acute/chronic inflammation in airways is very important in order to avoid lung injuries for patients undergoing mechanical ventilation for treatment of respiratory problems. Local lung inflammation is triggered by many mechanisms within the lung, including pathogens. In this study, a cellular automata based model (CA) for pulmonary inflammation that incorporates biophysical processes during inflammatory responses was developed. The developed CA results in three possible outcomes related to homeostasis (healing), persistent infection, and resolved infection with high inflammation (inflamed state). The results from the model are validated qualitatively against other existing computational models. A sensitivity analysis was… More >