Affiliation: | a Department of Biochemistry, Faculty of Biology, University of Sofia, 8 Dragan Tsankov Street, 1164, Sofia, Bulgaria b Department of Physical Chemistry, Faculty of Chemistry, University of Sofia, 1 James Bourchier Bul., 1126, Sofia, Bulgaria c Bulgarian Academy of Sciences, Institute of Biophysics, Sofia 1113, Bulgaria d Bulgarian Academy of Sciences, Institute of Physical Chemistry, Sofia 1113, Bulgaria e Faculty of Medicine, Medical University-Sofia, Clinics of Neonatology, 6 D. Nestorov Street, Sofia 1431, Bulgaria |
Abstract: | Surfactant replacement therapy has a vital role in the management of respiratory distress syndrome (RDS). Several techniques and models have been largely used to investigate interfacial physico-chemical properties in vitro and to assist clinical efficiency of exogenous surfactant preparations (ESPs) in vivo. Among them are interfacial tensiometry (Langmuir balance coupled with Wilhelmy plate method for surface tension measurement) and black foam film (BFF) method for measuring the capability of ESPs for bilayer foam film formation. Here, we report some freshly established data from a comparative study of Exosurf, Survanta, Curosurf, Alveofact and clinical samples of tracheal aspirate (TA) of newborns with RDS treated with Curosurf. New observations concerning the properties of foam films of ESPs are also reported and discussed. Measured interfacial physico-chemical parameters prove “better” properties in vitro of the SP-B and -C containing preparations Curosurf and Alveofact. Their properties are similar, Alveofact showing a higher surface tension lowering capacity under dynamic conditions. A comparison with measured interfacial parameters of clinical samples shows that after treatment with Curosurf the phospholipid concentration in tracheal aspirates (367 μg/ml) is higher than the minimum phospholipid concentration for stable black film formation (Ct) of all four ESPs studied, while before treatment this concentration (63 μg/ml) is lower than Ct. Values of measured “dynamic” parameters of clinical samples after treatment with Curosurf approach those of the exogenous surfactant preparation itself. |