Your search keyword '"lung surfactants"' showing total 13 results

1. New Respiratory Distress Syndrome Study Findings Have Been Reported by a Researcher at Medical City Dallas Hospital (Comparison of Efficacy and Pharmacoeconomic Outcomes Between Calfactant and Poractant Alfa in Preterm Infants With Respiratory...).

Subjects

RESPIRATORY distress syndrome, PREMATURE infants, URBAN hospitals, MEDICAL research personnel

Abstract

A recent study compared the efficacy and cost-effectiveness of two surfactant therapies, calfactant and poractant alfa, in preterm infants with respiratory distress syndrome (RDS). The study found that while the cost of poractant alfa was higher than calfactant, infants who received poractant alfa required fewer doses and had fewer administration complications compared to those who received calfactant. The study did not find significant differences in other outcomes such as the need for redosing, mechanical ventilation, hospital length of stay, in-hospital mortality, and development of bronchopulmonary dysplasia (BPD) between the two groups. This information may be useful for researchers and healthcare professionals working in the field of respiratory therapeutics. [Extracted from the article]

Published

2024

2. Report Summarizes Respiratory Distress Syndrome Study Findings from Queen Elizabeth Hospital (Pulmonary Complications In Premature Infants Using a Beractant or Poractant for Respiratory Distress Syndrome: a Retrospective Cohort Study).

Subjects

RESPIRATORY distress syndrome, PREMATURE infants, BRITISH kings & rulers, COHORT analysis, RESPIRATORY diseases, ARTIFICIAL respiration

Abstract

A new report discusses research findings on respiratory distress syndrome (RDS) in premature infants. The study compares the use of two natural surfactants, beractant and poractant, in the treatment of RDS. The primary outcome measured was the incidence of air leak syndrome (ALS) and pulmonary hemorrhage. The study found that there was a significantly higher incidence of pulmonary hemorrhage in the poractant group compared to the beractant group. Coagulopathy was identified as an independent risk factor for pulmonary hemorrhage. The researchers suggest that further studies are needed to establish the relationship between coagulopathy and pulmonary hemorrhage in premature infants receiving surfactant therapy for RDS. [Extracted from the article]

Published

2024

3. High-resolution and high-repetition-rate vibrational sum-frequency generation spectroscopy of one- and two-component phosphatidylcholine monolayers.

Author

Yesudas, Freeda, Mero, Mark, Kneipp, Janina, and Heiner, Zsuzsanna

Subjects

*MONOMOLECULAR films, *SURFACE tension, *PULMONARY surfactant, *SPECTROMETRY, *SIGNAL-to-noise ratio, *VIBRATIONAL spectra

Abstract

We present broadband vibrational sum-frequency generation (VSFG) spectra of Langmuir-Blodgett monolayers of 1,2-dipalmitoyl-sn-glycero-3-phosphocholine (DPPC), 1,2-dioleoyl-sn-glycero-3-phosphocholine (DOPC), and different mixtures of them as model systems of pulmonary surfactants. The systematic study explored the dependence of the vibrational spectra as a function of surface tension and mixture ratio in various polarization combinations. The extremely short acquisition time and the high spectral resolution of our recently developed spectrometer helped minimize sample degradation under ambient conditions throughout the duration of the measurement and allowed the detection of previously unseen vibrational bands with unprecedented signal-to-noise ratio. The dramatically improved capability to record reliable vibrational spectra together with the label-free nature of the VSFG method provides direct access to native lipid structure and dynamics directly in the monolayer. The resulting data deliver quantitative information for structural analysis of multi-component phospholipid monolayers and may aid in the development of new synthetic pulmonary surfactants. [ABSTRACT FROM AUTHOR]

Published

2019

4. The effect of chitin nanoparticles on surface behavior of DPPC/DPPG Langmuir monolayers.

Author

Wang, Ruijin, Guo, Yi, Liu, Hengjiang, Chen, Yuning, Shang, Yazhuo, and Liu, Honglai

Subjects

*NANOPARTICLES, *CHITIN, *SURFACE pressure, *LIPIDS, *PHOSPHOLIPIDS, *LANGMUIR isotherms

Abstract

The effect of chitin nanoparticles on surface behavior of lipid systems containing dipalmitoylphosphatidylcholine (DPPC) and dipalmitoylphosphatidylglycerol (DPPG) is studied by surface pressure (π)-area (A) isotherms, polarization-modulation infrared reflection absorption spectroscopy (PM-IRRAS), Brewster angle microscopy (BAM). The variation of surface behavior of DPPC/DPPG monolayers is induced mainly by electrostatic interactions between nanoparticles and head groups of phospholipids. At lower surface pressure, nanoparticles can penetrate into the monolayers and the positive charges carried by nanoparticles benefits the enrichment of phospholipid molecules at surface, which not only increases the mean molecular area but also hinders the formation of phospholipid liquid-condensed (LC) phase. However, when surface pressure is higher, the nanoparticles flee away from the surface and some of the phospholipid molecules are pulled out of the monolayers together to the subphase and decrease the order degree of the monolayers. Moreover, nanoparticles can destroy the hydrogen-bond between water molecules and phosphate head groups and thus lead to the dehydration of phosphate groups. This work confirms that chitin nanoparticles can affect the surface behavior of DPPC/DPPG monolayers. Furthermore, the results obtained using mixed monolayer containing two major lung surfactants DPPC/DPPG and nanoparticles will be helpful for deep understanding the harm of PM2.5 to lung health. [ABSTRACT FROM AUTHOR]

Published

2018

5. Experimental and theoretical observations in a mixed mode dispersive solid phase extraction of exogenous surfactants from exhaled breath condensate prior to HPLC-MS/MS analysis.

Author

Khoubnasabjafari, Maryam, Altunay, Nail, Tuzen, Mustafa, Kaya, Savaş, Katin, Konstantin P., Farajzadeh, Mir Ali, Hosseini, Mohamadbagher, Afshar Mogaddam, Mohammad Reza, and Jouyban, Abolghasem

Subjects

*SOLID phase extraction, *PULMONARY surfactant, *ANALYTICAL chemistry, *SURFACE active agents, *PREMATURE infants, *DENSITY functional theory

Abstract

• A mixed mode DSPE approach was developed using organic polymers. • The method was used to lung surfactants determination in EBC samples. • Density functional theory calculations were used to show the nature of the chemical interactions. • Simplex centroid experimental design was used for optimization of the sorbent composition. A mixed mode dispersive solid phase extraction method was introduced for the extraction of three lung surfactants from exhaled breath condensate samples. Considering the trends to green analytical chemistry, organic polymers including polystyrene (PS), polymethylmethacrylate (PMMA-15 K), and polymethylmethacrylate (PMMA-45 K) were utilized as the sorbent for extraction of the analytes. The extraction capability for each polymer toward the studied analytes was evaluated using simplex centroid design. Based on the results, a mixture of sorbents consisting of PS, PMMA-15 K, and PMMA-45 K mixture with the mass ratio of 1:2:1: w/w/w was selected as the suitable sorbent. The effective parameters influencing the method's efficiency were investigated and optimized. Based on the figure of merit for the developed method, the calibration curves were linear in the concentration range of 0.76–1000 ng mL–1 and limits of detection were from 0.09 to 0.19 ng mL–1. The method repeatability was investigated at three concentrations as inter- and intra-day precisions and the obtained data showed that they were in the ranges of 5.2–9.1 and 4.2–8.9%, respectively. The enrichment factors were in the range of 88–100. The developed method was successfully employed in the analysis of the surfactants in the exhaled breath samples of three premature infants collected from the expiratory circuits of the mechanical ventilators. The nature of the chemical interactions with PMMA-PS complex system of the surfactants was investigated through Density Functional Theory calculations. Calculated binding energies showed that PMMA-PS complex system exhibit high performance in the extraction of lung surfactants. The most powerful interaction is between PMMA-PS complex system and 1-palmitoyl-2-oleoylsn‑glycero-3-phosphocholine. [ABSTRACT FROM AUTHOR]

Published

2023

6. Combined effect of synthetic protein, Mini-B, and cholesterol on a model lung surfactant mixture at the air–water interface.

Author

Chakraborty, Aishik, Hui, Erica, Waring, Alan J., and Dhar, Prajnaparamita

Subjects

*SYNTHETIC proteins, *CHOLESTEROL, *AIR-water interfaces, *SURFACE active agents, *PHOSPHATIDYLGLYCEROL, *SURFACE tension

Abstract

The overall goal of this work is to study the combined effects of Mini-B, a 34 residue synthetic analog of the lung surfactant protein SP-B, and cholesterol, a neutral lipid, on a model binary lipid mixture containing dipalmitolphosphatidylcholine (DPPC) and palmitoyl-oleoyl-phosphatidylglycerol (POPG), that is often used to mimic the primary phospholipid composition of lung surfactants. Using surface pressure vs. mean molecular area isotherms, fluorescence imaging and analysis of lipid domain size distributions; we report on changes in the structure, function and stability of the model lipid-protein films in the presence and absence of varying composition of cholesterol. Our results indicate that at low cholesterol concentrations, Mini-B can prevent cholesterol's tendency to lower the line tension between lipid domain boundaries, while maintaining Mini-B's ability to cause reversible collapse resulting in the formation of surface associated reservoirs. Our results also show that lowering the line tension between domains can adversely impact monolayer folding mechanisms. We propose that small amounts of cholesterol and synthetic protein Mini-B can together achieve the seemingly opposing requirements of efficient LS: fluid enough to flow at the air–water interface, while being rigid enough to oppose irreversible collapse at ultra-low surface tensions. [ABSTRACT FROM AUTHOR]

Published

2016

7. Reports on Respiratory Distress Syndrome Findings from Tabriz University of Medical Sciences Provide New Insights [A Randomized, Single-blind, Comparison Trial of Beractant (BeraksurfTM) versus Poractant Alfa (Curosurf(R)) in the Treatment of...].

Subjects

RESPIRATORY distress syndrome, RESPIRATORY agents

Abstract

Keywords: Beractant Therapy; Curosurf Therapy; Drugs and Therapies; Health and Medicine; Lung Surfactants; Pharmaceuticals; Poractant Alfa Therapy; Poractant Therapy; Pulmonology; Respiratory Agents; Respiratory Distress Syndrome; Respiratory Tract Diseases and Conditions EN Beractant Therapy Curosurf Therapy Drugs and Therapies Health and Medicine Lung Surfactants Pharmaceuticals Poractant Alfa Therapy Poractant Therapy Pulmonology Respiratory Agents Respiratory Distress Syndrome Respiratory Tract Diseases and Conditions 1289 1289 1 05/02/23 20230505 NES 230505 2023 MAY 5 (NewsRx) -- By a News Reporter-Staff News Editor at Respiratory Therapeutics Week -- Investigators publish new report on respiratory distress syndrome. For more information on this research see: A Randomized, Single-blind, Comparison Trial of Beractant (BeraksurfTM) versus Poractant Alfa (Curosurf(R)) in the Treatment of Respiratory Distress Syndrome in Preterm Infants. [Extracted from the article]

Published

2023

8. INTERFACIAL REORGANIZATION OF MOLECULAR ASSEMBLIES USED AS DRUG DELIVERY SYSTEMS.

Author

Panaiotov, I., Ivanova, Tz., Balashev, K., Grozev, N., Minkov, I., and Mircheva, K.

Subjects

*DRUG delivery systems, *ARTIFICIAL membranes, *MOLECULAR self-assembly, *STABILITY (Mechanics), *BIODEGRADABLE plastics, *POLYESTERS

Abstract

The number of potential applications of nanosized molecular assemblies such as vesicles, nanocapsules, biodegradable polyester matrix and more complex structures in drug research and nanomedicine is rapidly increasing with the developed technologies to tune and control their bulk and mainly surface properties. For a better understanding of nanoparticle behavior at the membrane interfaces an in vitro study of the mechanisms of loss of mechanical stability and their reorganization on various membrane systems seems indispensable. By using the simplest convenient monolayer models the mechanisms of destabilization and reorganization of various classical or modifi ed nanosized molecular assemblies spread or adsorbed on pure air/water interface or at the preformed model membrane were studied. [ABSTRACT FROM AUTHOR]

Published

2015

9. Visualizing monolayers with a water-soluble fluorophore to quantify adsorption, desorption, and the double layer.

Author

Shieh, Ian C. and Zasadzinski, Joseph A.

Subjects

*LIQUID-liquid transformations, *PHASE transitions, *MONOMOLECULAR films, *WATER damage, *MICROSCOPY

Abstract

Contrast in confocal microscopy of phase-separated monolayers at the air-water interface can be generated by the selective adsorption of water-soluble fluorescent dyes to disordered monolayer phases. Optical sectioning minimizes the fluorescence signal from the subphase, whereas convolution of the measured point spread function with a simple box model of the interface provides quantitative assessment of the excess dye concentration associated with the monolayer. Coexisting liquid-expanded, liquid-condensed, and gas phases could be visualized due to differential dye adsorption in the liquid-expanded and gas phases. Dye preferentially adsorbed to the liquid-disordered phase during immiscible liquid-liquid phase coexistence, and the contrast persisted through the critical point as shown by characteristic circle-to-stripe shape transitions. The measured dye concentration in the disordered phase depended on the phase composition and surface pressure, and the dye was expelled from the film at the end of coexistence. The excess concentration of a cationic dye within the double layer adjacent to an anionic phospholipid monolayer was quantified as a function of subphase ionic strength, and the changes in measured excess agreed with those predicted by the mean-field Gouy-Chapman equations. This provided a rapid and noninvasive optical method of measuring the fractional dissociation of lipid headgroups and the monolayer surface potential. [ABSTRACT FROM AUTHOR]

Published

2015

10. Surface properties of sulfur- and ether-linked phosphonolipids with and without purified hydrophobic lung surfactant proteins

Author

Chang, Yusuo, Wang, Zhengdong, Schwan, Adrian L., Wang, Zhongyi, Holm, Bruce A., Baatz, John E., and Notter, Robert H.

Subjects

*SURFACE active agents, *LUNGS, *ORGANIC compounds, *SURFACE chemistry

Abstract

Abstract: Two novel C16:0 sulfur-linked phosphonolipids (S-lipid and SO2-lipid) and two ether-linked phosphonolipids (C16:0 DEPN-8 and C16:1 UnDEPN-8) were studied for surface behavior alone and in mixtures with purified bovine lung surfactant proteins (SP)-B and/or SP-C. Synthetic C16:0 phosphonolipids all had improved adsorption and film respreading compared to dipalmitoyl phosphatidylcholine, and SO2-lipid and DEPN-8 reached maximum surface pressures of 72mN/m (minimum surface tensions of <1mN/m) in compressed films on the Wilhelmy balance (23°C). Dispersions of DEPN-8 (0.5mg/ml) and SO2-lipid (2.5mg/ml) also reached minimum surface tensions of <1mN/m on a pulsating bubble surfactometer (37°C, 20cycles/min, 50% area compression). Synthetic lung surfactants containing DEPN-8 or SO2-lipid+0.75% SP-B+0.75% SP-C had dynamic surface activity on the bubble equal to that of calf lung surfactant extract (CLSE). Surfactants containing DEPN-8 or SO2-lipid plus 1.5% SP-B also had very high surface activity, but less than when both apoproteins were present together. Adding 10wt.% of UnDEPN-8 to synthetic lung surfactants did not improve dynamic surface activity. Surfactants containing DEPN-8 or SO2-lipid plus 0.75% SP-B/0.75% SP-C were chemically and biophysically resistant to phospholipase A2 (PLA2), while CLSE was severely inhibited by PLA2. The high activity and inhibition resistance of synthetic surfactants containing DEPN-8 or SO2-lipid plus SP-B/SP-C are promising for future applications in treating surfactant dysfunction in inflammatory lung injury. [Copyright &y& Elsevier]

Published

2005

11. Effects of pulmonary surfactant system on rifampicin release from rifampicin-loaded PLGA microspheres

Author

Tomoda, Keishiro, Kojima, Sayaka, Kajimoto, Megumi, Watanabe, Daisuke, Nakajima, Takehisa, and Makino, Kimiko

Subjects

*SURFACE active agents, *BIOSURFACTANTS, *PHOSPHOLIPIDS, *TUBERCULOSIS, *ANTIGEN-antibody reactions

Abstract

Abstract: Pulmonary surfactants little affected the release ratio of rifampicin from rifampicin-loaded poly(lactide-co-glycolide) PLGA microspheres. The release ratio of rifampicin was depending on pH of pulmonary surfactant solution, showing that rifampicin-loaded PLGA microspheres have an ideal property to deliver rifampicin into alveolar macrophages inside of which Mycobacterium tuberculosis bacilli reside and to kill them. That is, little amount of rifampicin is released in alveolar lining liquid before the microspheres are phagocytosed by alveolar macrophages, then rifampicin is released in phagosome or cytoplasm, but little amount of rifampicin is released in lysosome of alveolar macrophages after the microspheres are internalized. Pulmonary surfactants also little affected the changes in molecular weight of residual PLGA during its hydrolytic degradation process. From the electrophoretic mobility measurements of PLGA microspheres, it was shown that pulmonary surfactants changed the surface charge density of PLGA microspheres by adsorbing on their surfaces. [Copyright &y& Elsevier]

Published

2005

12. Relation between rheological properties and structural changes in monolayers of model lung surfactant under compression

Author

Grigoriev, D.O., Krägel, J., Akentiev, A.V., Noskov, B.A., Miller, R., and Pison, U.

Subjects

*SURFACE active agents, *RHEOLOGY (Biology), *PROTEINS

Abstract

rSP-C surfactant monolayers spread on a native physiological model substrate show two plateau regions in the π/A-isotherm. The first corresponds to the main phase transition in the monolayer from a LE to a LC phase. Its course is non-horizontal because of the complex composition of the lung surfactant. The second plateau, which is much more pronounced, cannot be attributed to a change of the phase state. Brewster angle microscopy images taken in this region show a sharp apparent decrease of the aggregation degree from the LE to the LC state. This process can be considered as a change in the monolayer orientation relative to the direction of the propagated light. Such a change can be the result of monolayer folding and formation of a thicker layer, which is supported by results of rheological measurements. The dilatation elasticity obtained from oscillating barrier and longitudinal wave measurements reveals a pure elastic behaviour with a steep increase in the second plateau region. Because of the insolubility of the pure lipid components, a possible explanation is squeezing protein components of rSP-C or its complexes with lipids out of the monolayer into the bulk. [Copyright &y& Elsevier]

Published

2003

13. Impact of Engineered Carbon Nanodiamonds on the Collapse Mechanism of Model Lung Surfactant Monolayers at the Air-Water Interface.

Author

Chakraborty, Aishik, Hertel, Amanda, Ditmars, Hayley, Dhar, Prajnaparamita, and Campbell, Richard A

Subjects

*AIR-water interfaces, *PULMONARY surfactant, *SURFACE pressure, *NANODIAMONDS, *CARBON, *MONOMOLECULAR films

Abstract

Understanding interactions between inhaled nanoparticles and lung surfactants (LS) present at the air-water interface in the lung, is critical to assessing the toxicity of these nanoparticles. Specifically, in this work, we assess the impact of engineered carbon nanoparticles (ECN) on the ability of healthy LS to undergo reversible collapse, which is essential for proper functioning of LS. Using a Langmuir trough, multiple compression-expansion cycles are performed to assess changes in the surface pressure vs. area isotherms with time and continuous cyclic compression-expansion. Further, theoretical analysis of the isotherms is used to calculate the ability of these lipid systems to retain material during monolayer collapse, due to interactions with ECNs. These results are complemented with fluorescence images of alterations in collapse mechanisms in these monolayer films. Four different model phospholipid systems, that mimic the major compositions of LS, are used in this study. Together, our results show that the ECN does not impact the mechanism of collapse. However, the ability to retain material at the interface during monolayer collapse, as well as re-incorporation of material after a compression-expansion cycle is altered to varying extent by ECNs and depends on the composition of the lipid mixtures. [ABSTRACT FROM AUTHOR]

Published

2020