BACKGROUND: Acute lung inflammation can be monitored by various biochemical readouts of bronchoalveolar lavage fluid (BALF). OBJECTIVE: To analyze the BALF content of ultrafine particles (UFP; <100 nm) as an inflammatory biomarker in early diagnosis of acute and chronic lung diseases. METHODS: Mice were exposed to different stress conditions and inflammatory insults (acute lipopolysaccharide inhalation, tobacco smoke and lethal dose of total body irradiation, i.e. 950 rad). After centrifugation, the cellular pellet was assessed while cytokines and ultrafine particles were measured in the soluble fraction of the BALF. RESULTS: A characteristic UFP distribution with a D50 (i.e. the dimension of the 50th UFP percentile) was shared by all tested mouse strains in the BALF of resting lungs. All tested inflammatory insults similarly shifted this size distribution, resulting in a unique UFP fingerprint with an averaged D50 of 58.6 nm, compared with the mean UFP D50 of 23.7 nm for resting BALF (p < 0.0001). This UFP profile was highly reproducible and independent of the intensity or duration of the inflammatory trigger. It returned to baseline after resolution of the inflammation. Neither total body irradiation nor induction of acute cough induced this fingerprint. CONCLUSIONS: The UFP fingerprint in the BALF of resting and inflamed lungs can serve as a binary biomarker of healthy and acutely inflamed lungs. This marker can be used as a novel readout for the onset of inflammatory lung diseases and for complete lung recovery from different insults.
BACKGROUND: Acute lung inflammation can be monitored by various biochemical readouts of bronchoalveolar lavage fluid (BALF). OBJECTIVE: To analyze the BALF content of ultrafine particles (UFP; <100 nm) as an inflammatory biomarker in early diagnosis of acute and chronic lung diseases. METHODS:Mice were exposed to different stress conditions and inflammatory insults (acute lipopolysaccharide inhalation, tobacco smoke and lethal dose of total body irradiation, i.e. 950 rad). After centrifugation, the cellular pellet was assessed while cytokines and ultrafine particles were measured in the soluble fraction of the BALF. RESULTS: A characteristic UFP distribution with a D50 (i.e. the dimension of the 50th UFP percentile) was shared by all tested mouse strains in the BALF of resting lungs. All tested inflammatory insults similarly shifted this size distribution, resulting in a unique UFP fingerprint with an averaged D50 of 58.6 nm, compared with the mean UFP D50 of 23.7 nm for resting BALF (p < 0.0001). This UFP profile was highly reproducible and independent of the intensity or duration of the inflammatory trigger. It returned to baseline after resolution of the inflammation. Neither total body irradiation nor induction of acute cough induced this fingerprint. CONCLUSIONS: The UFP fingerprint in the BALF of resting and inflamed lungs can serve as a binary biomarker of healthy and acutely inflamed lungs. This marker can be used as a novel readout for the onset of inflammatory lung diseases and for complete lung recovery from different insults.
Authors: Einat Fireman Klein; Yotam Elimeleh; Yochai Adir; Lana Majdoub; Michal Shteinberg; Aharon Kessel Journal: Int J Environ Res Public Health Date: 2022-05-01 Impact factor: 4.614
Authors: Noa Ophir; Amir Bar Shai; Rafi Korenstein; Mordechai R Kramer; Elizabeth Fireman Journal: Occup Environ Med Date: 2019-09-27 Impact factor: 4.402