Your search keyword '"Daniela Mokra"' showing total 21 results

1. Anti-inflammatory activity of non-selective PDE inhibitor aminophylline on the lung tissue and respiratory parameters in animal model of ARDS

Author

Petra Kosutova, Pavol Mikolka, Daniela Mokra, and Andrea Calkovska

Subjects

Non-selective phosphodiesterase inhibitor, Aminophylline, ARDS model, Lung function, Inflammation, Therapeutics. Pharmacology, RM1-950

Abstract

Abstract Acute respiratory distress syndrome (ARDS) is a common complication of critical illness characterized by lung inflammation, epithelial and endothelial dysfunction, alveolar-capillary leakage, and worsening respiratory failure. The present study aimed to investigate the anti-inflammatory effects of non-selective phosphodiesterase (PDE) inhibitor aminophylline. New Zealand white rabbits were randomly divided into 3 groups: animals with respiratory failure defined as PaO2/FiO2 ratio (P/F) below

Published

2023

2. Effects of early dexamethasone treatment on several markers of inflammation and fibrosis in an animal model of lung silicosis in rats – A pilot study

Author

Jana Adamcakova, Sona Balentova, Juliana Hanusrichterova, Romana Barosova, Pavol Mikolka, Kristian Prso, Juraj Mokry, Dagmar Kalenska, Lenka Kunertova, and Daniela Mokra

Subjects

lung silicosis, animal model, inflammation, oxidative stress, dexamethasone, Medicine

Abstract

Lung silicosis is primarily caused by inhalation of particles of silicon oxide (silica). Despite a huge progress in understanding the interactions among the pathomechanisms of lung silicosis in the last years, there is a lack of effective therapy. With respect to a wide therapeutic action of corticosteroids, the purpose of this pilot study was to evaluate early effects of dexamethasone on several markers of inflammation and lung fibrosis in a rat model of silicosis. The silicosis model was induced by a single transoral intratracheal instillation of silica (50 mg/ml/animal), while the controls received an equivalent volume of sterile saline. The treatment with intraperitoneal dexamethasone initiated the next day after the silica instillation and was given 2-times a week at a dose of 1 mg/kg, while the controls received an equivalent volume of saline. The animals were euthanized 14 or 28 days after the treatment onset. Total and differential counts of leukocytes in the blood and bronchoalveolar lavage (BAL) fluid were determined. The presence of collagen in the bronchioles and lung vessels was detected by Sirius red staining and a smooth muscle mass was detected by smooth muscle actin. In comparison to saline, the instillation of silica increased the total count of circulating leukocytes after 14 and 28 days of the experiment (both p0.05 after 28 days) and slight but non-significant increases in neutrophils and eosinophils (both p>0.05). Although the total cell count in the BAL fluid did not change significantly, the percentages and absolute counts of neutrophils, eosinophils, and lymphocytes (p0.05), decline in lymphocytes (p0.05 for vessels after 24 days, p

Published

2022

3. Advances in the Use of N-Acetylcysteine in Chronic Respiratory Diseases

Author

Daniela Mokra, Juraj Mokry, Romana Barosova, and Juliana Hanusrichterova

Subjects

N-acetylcysteine, oxidative stress, chronic respiratory disorders, cystic fibrosis, COPD, asthma, Therapeutics. Pharmacology, RM1-950

Abstract

N-acetylcysteine (NAC) is widely used because of its mucolytic effects, taking part in the therapeutic protocols of cystic fibrosis. NAC is also administered as an antidote in acetaminophen (paracetamol) overdosing. Thanks to its wide antioxidative and anti-inflammatory effects, NAC may also be of benefit in other chronic inflammatory and fibrotizing respiratory diseases, such as chronic obstructive pulmonary disease, bronchial asthma, idiopathic lung fibrosis, or lung silicosis. In addition, NAC exerts low toxicity and rare adverse effects even in combination with other treatments, and it is cheap and easily accessible. This article brings a review of information on the mechanisms of inflammation and oxidative stress in selected chronic respiratory diseases and discusses the use of NAC in these disorders.

Published

2023

4. Sex-Based Differences in Bronchial Asthma: What Are the Mechanisms behind Them?

Author

Daniela Mokra, Romana Barosova, and Juraj Mokry

Subjects

bronchial asthma, asthma endotypes, asthma phenotypes, sex hormones, sex-based differences, obesity, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Sex-based differences in bronchial asthma can already be observed in childhood, at which time allergic atopic asthma is more frequently found in boys than in girls. In adulthood, higher prevalence of asthma is reported in women, especially for the more severe neutrophilic subtype associated with obesity, which responds poorly to corticosteroids. Sex-based differences seem to be attributable to changing levels of estrogens, progesterone, and testosterone, which may exert mainly pro-inflammatory (estrogens, progesterone) or anti-inflammatory effects (testosterone). Sex steroids differentially influence lung immune responses, airway reactivity, and pulmonary circulation and may thereby contribute to the higher susceptibility of females to more serious complications resulting from inflammatory lung diseases compared to males. However, other factors, such as anatomical and physiological differences in the lungs, differences in genetically conditioned factors, obesity and lifestyle, smoking, exposure to environmental and occupational factors, chronic stress, etc., may also contribute to the sex-based differences in asthma. Elucidation of the mechanisms behind these differences may contribute to more appropriate personalized therapy for asthma. For the review, articles in the English language from the PubMed database were used.

Published

2023

5. Experimental Models of Pulmonary Fibrosis and their Translational Potential

Author

Jana Adamcakova, Romana Palova, and Daniela Mokra

Subjects

animal model, idiopathic pulmonary fibrosis, bleomycin, fluorescein isothiocyanate (fitc), asbestos, Medicine

Abstract

Pulmonary fibrosis, represented mainly by idiopathic pulmonary fibrosis, develops chronic and progressive changes in lung parenchyma with high mortality and limited therapeutic options. The aim of this review was to summarize the most common experimental models used in the research of pulmonary fibrosis. Lung damage associated with development of pulmonary fibrosis can be caused by irradiation or by instillation of bleomycin, fluorescein isothiocyanate (FITC), silicon dioxide (silica), asbestos, etc. This article reviews the characteristics of the most frequently used animal models of fibrosis, including the limitations of their use. Although none of the used animal models resembles completely the changes in human pulmonary fibrosis, similarities between them allow preclinical testing of novel treatment approaches or their combinations in the laboratory conditions before their use in the clinical practice.

Published

2019

6. Time-Dependent Oxidative Alterations in Plasma and Lung Tissue after Meconium Aspiration in a Rabbit Model

Author

Petra Kosutova, Nikolett Nemcova, Maros Kolomaznik, Daniela Mokra, Andrea Calkovska, and Pavol Mikolka

Subjects

meconium aspiration, surfactant inactivation, oxidative damage, inflammation, Therapeutics. Pharmacology, RM1-950

Abstract

Aspirated meconium into a newborn’s airways induces the transcription of pro-oxidative mediators that cooperate in the pathogenesis of inflammatory changes and may negatively affect the commonly used exogenous surfactant therapy. However, inflammation is not treated at present, nor is the time dependence of oxidative damage known. The aim of our study was to describe the time course of oxidative stress marker production during meconium aspiration syndrome (MAS) and its relationship to leukocyte infiltration. New Zealand rabbits were instilled with saline or meconium suspension and ventilated for 5.5 h. Respiratory parameters were recorded and blood samples were taken before meconium application and in time intervals of 15 and 30 min, 1.0, 1.5, 3.5 and 5.5 h after application to evaluate oxidative markers and differential leukocytes count. Meconium aspiration led to a worsening of respiratory parameters and a decrease in leukocytes in the first 15 min. Changes in leukocytes were correlated both with nitrotyrosine (3NT) levels and thiobarbituric acid reactive substance (TBARS) levels, with the latter also related to changes in neutrophil count. The production of 3NT and TBARS increased in 1.5 and 3.5 h, respectively, in different ways, suggesting more than one source of oxidative agents and a potential risk of exogenous surfactant inactivation in a short time. We observed that MAS triggered neutrophil migration to the alveolar space and activation, as shown by the increased expression of pro-inflammatory cytokines and generation of indicators of oxidative damage to proteins and lipids during the time period when iNOS and NO metabolites were released.

Published

2022

7. Editorial: Phosphodiesterases as Drug Targets in Airway and Inflammatory Diseases

Author

Juraj Mokry, Mark Giembycz, and Daniela Mokra

Subjects

Phosphodiesterase, PDE inhibitor, roflumilast, Respiratory disease, Ciliary activity, Therapeutics. Pharmacology, RM1-950

Published

2021

8. Green Tea Polyphenol (-)-Epigallocatechin-3-Gallate (EGCG): A Time for a New Player in the Treatment of Respiratory Diseases?

Author

Daniela Mokra, Jana Adamcakova, and Juraj Mokry

Subjects

epigallocatechin-3-gallate, green tea, polyphenols, respiratory diseases, inflammation, oxidative stress, Therapeutics. Pharmacology, RM1-950

Abstract

(-)-Epigallocatechin-3-gallate (EGCG) is a major polyphenol of green tea that possesses a wide variety of actions. EGCG acts as a strong antioxidant which effectively scavenges reactive oxygen species (ROS), inhibits pro-oxidant enzymes including NADPH oxidase, activates antioxidant systems including superoxide dismutase, catalase, or glutathione, and reduces abundant production of nitric oxide metabolites by inducible nitric oxide synthase. ECGC also exerts potent anti-inflammatory, anti-fibrotic, pro-apoptotic, anti-tumorous, and metabolic effects via modulation of a variety of intracellular signaling cascades. Based on this knowledge, the use of EGCG could be of benefit in respiratory diseases with acute or chronic inflammatory, oxidative, and fibrotizing processes in their pathogenesis. This article reviews current information on the biological effects of EGCG in those respiratory diseases or animal models in which EGCG has been administered, i.e., acute respiratory distress syndrome, respiratory infections, COVID-19, bronchial asthma, chronic obstructive pulmonary disease, lung fibrosis, silicosis, lung cancer, pulmonary hypertension, and lung embolism, and critically discusses effectiveness of EGCG administration in these respiratory disorders. For this review, articles in English language from the PubMed database were used.

Published

2022

9. N-Acetylcysteine in Mechanically Ventilated Rats with Lipopolysaccharide-Induced Acute Respiratory Distress Syndrome: The Effect of Intravenous Dose on Oxidative Damage and Inflammation

Author

Maros Kolomaznik, Pavol Mikolka, Juliana Hanusrichterova, Petra Kosutova, Katarina Matasova, Daniela Mokra, and Andrea Calkovska

Subjects

ARDS, bacterial lipopolysaccharide, N-acetylcysteine, lung functions parameters, inflammation, oxidative damage, Biology (General), QH301-705.5

Abstract

Treatment of acute respiratory distress syndrome (ARDS) is challenging due to its multifactorial aetiology. The benefit of antioxidant therapy was not consistently demonstrated by previous studies. We evaluated the effect of two different doses of intravenous (i.v.) N-acetylcysteine (NAC) on oxidative stress, inflammation and lung functions in the animal model of severe LPS-induced lung injury requiring mechanical ventilation. Adult Wistar rats with LPS (500 μg/kg; 2.2 mL/kg) were treated with i.v. NAC 10 mg/kg (NAC10) or 20 mg/kg (NAC20). Controls received saline. Lung functions, lung oedema, total white blood cell (WBC) count and neutrophils count in blood and bronchoalveolar lavage fluid, and tissue damage in homogenized lung were evaluated. NAC significantly improved ventilatory parameters and oxygenation, reduced lung oedema, WBC migration and alleviated oxidative stress and inflammation. NAC20 in comparison to NAC10 was more effective in reduction of oxidative damage of lipids and proteins, and inflammation almost to the baseline. In conclusion, LPS-instilled and mechanically ventilated rats may be a suitable model of ARDS to test the treatment effects at organ, systemic, cellular and molecular levels. The results together with literary data support the potential of NAC in ARDS.

Published

2021

10. Nitric-Oxide-Releasing Dexamethasone Derivative NCX-1005 Improves Lung Function and Attenuates Inflammation in Experimental Lavage-Induced ARDS

Author

Petra Kosutova, Maros Kolomaznik, Andrea Calkovska, Daniela Mokra, and Pavol Mikolka

Subjects

NCX-1005, nitro-steroid, nitric oxide donor, dexamethasone, ARDS, animal model, Pharmacy and materia medica, RS1-441

Abstract

Acute respiratory distress syndrome (ARDS) is a common complication of critical illness and remains a major source of morbidity and mortality in the intensive care unit (ICU). ARDS is characterised by diffuse lung inflammation, epithelial and endothelial deterioration, alveolar–capillary leak and oedema formation, and worsening respiratory failure. The present study aimed to investigate the anti-inflammatory activity of nitric-oxide-releasing dexamethasone derivative NCX-1005 as a potential novel drug for ARDS. Adult rabbits with lavage-induced ARDS were treated with dexamethasone i.v. (0.5 mg/kg; DEX) and nitro-dexamethasone i.v. (0.5 mg/kg, NCX-1005) or were untreated (ARDS). Controls represented healthy ventilated animals. The animals were subsequently oxygen-ventilated for an additional 4 h and respiratory parameters were recorded. Lung oedema, inflammatory cell profile in blood and bronchoalveolar lavage, levels of the cytokines (IL-1β, IL-6, IL-8, TNF-α), and oxidative damage (TBARS, 3NT) in the plasma and lung were evaluated. Nitric oxide-releasing dexamethasone derivative NCX-1005 improved lung function, reduced levels of cytokines, oxidative modifications, and lung oedema formation to similar degrees as dexamethasone. Only NCX-1005 prevented the migration of neutrophils into the lungs compared to dexamethasone. In conclusion, the nitric oxide-releasing dexamethasone derivative NCX-1005 has the potential to be effective drug with anti-inflammatory effect in experimental ARDS.

Published

2021

11. The Effect of Modified Porcine Surfactant Alone or in Combination with Polymyxin B on Lung Homeostasis in LPS-Challenged and Mechanically Ventilated Adult Rats

Author

Maros Kolomaznik, Jana Kopincova, Zuzana Nova, Juliana Topercerova, Ivan Zila, Pavol Mikolka, Petra Kosutova, Katarina Matasova, Henrieta Skovierova, Marian Grendar, Daniela Mokra, and Andrea Calkovska

Subjects

ARDS, bacterial lipopolysaccharide, pulmonary surfactant, surfactant proteins, Organic chemistry, QD241-441

Abstract

The study aimed to prove the hypothesis that exogenous surfactant and an antibiotic polymyxin B (PxB) can more effectively reduce lipopolysaccharide (LPS)-induced acute lung injury (ALI) than surfactant treatment alone, and to evaluate the effect of this treatment on the gene expression of surfactant proteins (SPs). Anesthetized rats were intratracheally instilled with different doses of LPS to induce ALI. Animals with LPS 500 μg/kg have been treated with exogenous surfactant (poractant alfa, Curosurf®, 50 mg PL/kg b.w.) or surfactant with PxB 1% w.w. (PSUR + PxB) and mechanically ventilated for 5 hrs. LPS at 500 μg/kg increased lung edema, oxidative stress, and the levels of proinflammatory mediators in lung tissue and bronchoalveolar lavage fluid (BALF). PSUR reduced lung edema and oxidative stress in the lungs and IL-6 in BALF. This effect was further potentiated by PxB added to PSUR. Exogenous surfactant enhanced the gene expression of SP-A, SP-B, and SP-C, however, gene expression for all SPs was reduced after treatment with PSUR + PxB. In mechanically ventilated rats with LPS-induced ALI, the positive effect of exogenous surfactant on inflammation and oxidative stress was potentiated with PxB. Due to the tendency for reduced SPs gene expression after surfactant/PxB treatment topical use of PxB should be considered with caution.

Published

2020

12. Recombinant Human Superoxide Dismutase and N-Acetylcysteine Addition to Exogenous Surfactant in the Treatment of Meconium Aspiration Syndrome

Author

Jana Kopincova, Maros Kolomaznik, Pavol Mikolka, Petra Kosutova, Juliana Topercerova, Katarina Matasova, Andrea Calkovska, and Daniela Mokra

Subjects

meconium aspiration syndrome, surfactant treatment, oxidative stress, superoxide dismutase, N-acetylcysteine, Organic chemistry, QD241-441

Abstract

This study aimed to evaluate the molecular background of N-acetylcysteine (NAC) and recombinant human superoxide dismutase (rhSOD) antioxidant action when combined with exogenous surfactant in the treatment of meconium aspiration syndrome (MAS), considering redox signalling a principal part of cell response to meconium. Young New Zealand rabbits were instilled with meconium suspension (Mec) and treated by surfactant alone (Surf) or surfactant in combination with i.v. NAC (Surf + NAC) or i.t. rhSOD (Surf + SOD), and oxygen-ventilated for 5 h. Dynamic lung-thorax compliance, mean airway pressure, PaO2/FiO2 and ventilation efficiency index were evaluated every hour; post mortem, inflammatory and oxidative markers (advanced oxidation protein products, total antioxidant capacity, hydroxynonenal (HNE), p38 mitogen activated protein kinase, caspase 3, thromboxane, endothelin-1 and secretory phospholipase A2) were assessed in pulmonary tissue homogenates. rhSOD addition to surfactant improved significantly, but transiently, gas exchange and reduced levels of inflammatory and oxidative molecules with higher impact; Surf + NAC had stronger effect only on HNE formation, and duration of treatment efficacy in respiratory parameters. In both antioxidants, it seems that targeting reactive oxygen species may be strong supporting factor in surfactant treatment of MAS due to redox sensitivity of many intracellular pathways triggered by meconium.

Published

2019

13. Experimental Models of Acute Lung Injury: their Advantages and Limitations

Author

P Kosutova, Daniela Mokra, Andrea Calkovska, and Pavol Mikolka

Subjects

0301 basic medicine, medicine.medical_specialty, business.industry, direct lung injury, animal model, Lung injury, acute respiratory distress syndrome, General Biochemistry, Genetics and Molecular Biology, respiratory tract diseases, 03 medical and health sciences, 030104 developmental biology, 0302 clinical medicine, acute lung injury, 030220 oncology & carcinogenesis, indirect lung injury, medicine, Medicine, Intensive care medicine, business, General Nursing

Abstract

Acute damage to the lung may originate from various direct and indirect reasons. Direct lung injury may be caused by pneumonia, near-drowning, aspiration, inhalation of toxic gases etc., while indirect lung injury is secondary, following any severe extra-pulmonary disease, e.g. sepsis, acute pancreatitis, or severe trauma. Due to a complex pathophysiology of the acute lung injury, the treatment is also extremely complicated and except for lung-protective ventilation there have been no specific treatment approaches recommended. An urgent need for a reliable and sufficiently effective treatment forces the researchers into testing novel therapeutic strategies. However, most of these determinations should be done in the laboratory conditions using animals. Complex methods of preparation of various experimental models of the acute lung injury has gradually developed within decades. Nowadays, there have been the models of direct, indirect, or mixed lung injury well established, as well as the models evoked by a combination of two triggering factors. Although the applicability of the results from animal experiments to patients might be limited by many factors, animal models are essential for understanding the patho-physiology of acute lung injury and provide an exceptional opportunity to search for novel therapeutical strategies.

Published

2020

14. Editorial: Phosphodiesterases as Drug Targets in Airway and Inflammatory Diseases

Author

Mark A. Giembycz, Juraj Mokry, and Daniela Mokra

Subjects

Pharmacology, Drug, PDE inhibitor, business.industry, Ciliary activity, media_common.quotation_subject, Respiratory disease, lcsh:RM1-950, roflumilast, Phosphodiesterase, medicine.disease, lcsh:Therapeutics. Pharmacology, PDE Inhibitor, medicine, Pharmacology (medical), Airway, business, Roflumilast, medicine.drug, media_common

Published

2021

15. The Effect of Modified Porcine Surfactant Alone or in Combination with Polymyxin B on Lung Homeostasis in LPS-Challenged and Mechanically Ventilated Adult Rats

Author

Zuzana Nová, Pavol Mikolka, Juliana Topercerova, Andrea Calkovska, Henrieta Škovierová, J Kopincova, Katarina Matasova, M Kolomaznik, Daniela Mokra, I. Zila, Marian Grendar, and P Kosutova

Subjects

Lipopolysaccharides, Lipopolysaccharide, Swine, Pharmaceutical Science, Pharmacology, medicine.disease_cause, Analytical Chemistry, chemistry.chemical_compound, Leukocyte Count, 0302 clinical medicine, Pulmonary surfactant, Drug Discovery, Homeostasis, Drug Interactions, Lung, Polymyxin B, 0303 health sciences, medicine.diagnostic_test, respiratory system, surfactant proteins, Anti-Bacterial Agents, Chemistry (miscellaneous), 030220 oncology & carcinogenesis, Molecular Medicine, Cytokines, medicine.drug, pulmonary surfactant, Lung injury, Article, Proinflammatory cytokine, lcsh:QD241-441, 03 medical and health sciences, bacterial lipopolysaccharide, Surface-Active Agents, lcsh:Organic chemistry, medicine, Poractant alfa, Animals, Physical and Theoretical Chemistry, 030304 developmental biology, Organic Chemistry, Respiration, Artificial, respiratory tract diseases, Rats, Oxidative Stress, Bronchoalveolar lavage, chemistry, Gene Expression Regulation, ARDS, Oxidative stress, Biomarkers

Abstract

The study aimed to prove the hypothesis that exogenous surfactant and an antibiotic polymyxin B (PxB) can more effectively reduce lipopolysaccharide (LPS)-induced acute lung injury (ALI) than surfactant treatment alone, and to evaluate the effect of this treatment on the gene expression of surfactant proteins (SPs). Anesthetized rats were intratracheally instilled with different doses of LPS to induce ALI. Animals with LPS 500 μg/kg have been treated with exogenous surfactant (poractant alfa, Curosurf®, 50 mg PL/kg b.w.) or surfactant with PxB 1% w.w. (PSUR + PxB) and mechanically ventilated for 5 hrs. LPS at 500 μg/kg increased lung edema, oxidative stress, and the levels of proinflammatory mediators in lung tissue and bronchoalveolar lavage fluid (BALF). PSUR reduced lung edema and oxidative stress in the lungs and IL-6 in BALF. This effect was further potentiated by PxB added to PSUR. Exogenous surfactant enhanced the gene expression of SP-A, SP-B, and SP-C, however, gene expression for all SPs was reduced after treatment with PSUR + PxB. In mechanically ventilated rats with LPS-induced ALI, the positive effect of exogenous surfactant on inflammation and oxidative stress was potentiated with PxB. Due to the tendency for reduced SPs gene expression after surfactant/PxB treatment topical use of PxB should be considered with caution.

Published

2020

16. What is a Therapeutic Potential of N-Acetylcysteine in Lung Silicosis?

Author

Jana, Adamcakova and Daniela, Mokra

Subjects

*SILICOSIS, *LUNGS, *ACETYLCYSTEINE, *LUNG diseases, *SILICA

Abstract

Lung silicosis is a serious pulmonary disease caused by an exposure of lung to inhaled silicon dioxide (SiO2) or silica. Although pathomechanisms of the disease have not been fully elucidated, oxidative stress has been recognized as a fundamental factor triggering a fibrotizing inflammation leading to irreversible changes in lung tissue. Based on this knowledge, therapeutic potential of various antioxidants has been intensively discussed. Among them, N-acetylcysteine with its multiple anti-inflammatory and antioxidant actions and a long-term experience with its clinical use in various diseases appears as a very promising choice. The purpose of this article is to review the therapeutic effects of N-acetylcysteine particularly in relation to a lung injury and to point out a potential of N-acetylcysteine in the treatment of lung silicosis. [ABSTRACT FROM AUTHOR]

Published

2021

17. Ventilator 'Chirana Aura V' In Two Models Of Neonatal Acute Lung Injury - A Pilot Study

Author

L. Tomclkova, P. Istona, Daniela Mokra, Andrea Calkovska, M. Jurcek, M Petraskova, H. Plstekova, and Kamil Javorka

Subjects

Mechanical ventilation, Pressure control ventilation, Aura, business.industry, medicine.medical_treatment, meconium aspiration syndrome, Lung injury, acute respiratory distress syndrome, mechanical ventilation, medicine.disease, General Biochemistry, Genetics and Molecular Biology, pressure control ventilation, Anesthesia, respiratory insufficiency, Meconium aspiration syndrome, Medicine, business, General Nursing

Abstract

In severe respiratory insufficiency, neonatal and pediatric patients should be ventilated artificially by a ventilator. Aim of this experimental study was to evaluate whether the newly developed ventilator Chirana Aura V may effectively ventilate the lungs of animals with two different models of acute lung injury: acute respiratory distress syndrome (ARDS) induced by repetitive saline lavage and meconium aspiration syndrome (MAS) induced by intratracheal instillation of neonatal meconium. The experiments were performed on 10 adult rabbits (New Zealand white). In ARDS group (n=5), the lungs were repetitively lavaged with saline (30 ml/kg) until partial pressure of oxygen (PaO2) in arterial blood was under 26.7 kPa at inspiratory fraction of oxygen FiO2=1.0. In MAS group (n=5), animals were instilled 4 ml/kg of suspension of human meconium (25 mg/ml). When the model of acute lung injury was developed, animals were ventilated for additional 2 hours with pressure control ventilation (PCV) regime by ventilator Chirana Aura V. Ventilatory parameters, blood gases, acid-base balance, end-tidal CO2, O2 saturation of hemoglobin, oxygenation indexes, ventilation efficiency index, dynamic lung compliance, and right-to-left pulmonary shunts were measured and calculated in regular time intervals. In both experimental groups, used ventilatory settings provided acceptable gas exchange within the period of observation. Thus, the results indicate that ventilator Chirana Aura V might be suitable for ventilation of animal models of acute lung injury. However, further pre-clinical investigation is needed before its use may be recommended in neonatal and/or pediatric patients with acute lung injury.

Published

2014

18. Anti-Inflammatory Drugs in the Treatment of Meconium Aspiration Syndrome

Author

Daniela Mokra, Andrea Calkovska, and Juraj Mokry

Subjects

musculoskeletal diseases, anti-inflammatory drugs, Inflammation, Atelectasis, General Biochemistry, Genetics and Molecular Biology, Meconium, newborn, Hypoxic pulmonary vasoconstriction, Edema, Meconium aspiration syndrome, Medicine, General Nursing, Respiratory distress, business.industry, animal model, fungi, meconium aspiration syndrome, medicine.disease, inflammation, Anesthesia, lipids (amino acids, peptides, and proteins), Bronchoconstriction, medicine.symptom, business

Abstract

Meconium aspiration syndrome (MAS) is a major cause of respiratory distress in both the term and postterm neonates. Obstruction of the airways, dysfunction of pulmonary surfactant, inflammation, lung edema, pulmonary vasoconstriction and bronchoconstriction participate in the pathogenesis of this disorder. Since the inflammatory changes associated with meconium aspiration cause a severe impairment of the lung parenchyma including surfactant and influence the reactivity of both vascular and airway smooth muscle, administration of anti-inflammatory drugs may be of benefit also in the management of MAS. This article reviews effects of various anti-inflammatory drugs used in experimental models of MAS as well as in the treatment of newborns with meconium aspiration. Meconium aspiration syndrome (MAS) MAS is a serious disease in both the term and post-term newborns. Obstruction of the airways by aspirated meconium with subsequent alveolar atelectasis behind the plug and air-trapping, inactivation of pulmonary surfactant, inflammation, edema, pulmonary vasoconstriction are often leading to persistent pulmonary hypertension (PPHN), and bronchoconstriction participate in the pathogenesis of MAS (Figure 1). Because meconium-induced inflammation with its multiple impacts on the lungs plays more important role than was previously thought, various anti-inflammatory drugs have been tested in the treatment of MAS. This article reviews inflammatory changes in MAS as a rationale for anti-inflammatory treatment and introduces anti-inflammatory drugs mostly used in the treatment of MAS.

Published

2011

19. Meconium Aspiration Syndrome: From Pathomechanisms to Treatment

Author

Daniela Mokra and Daniela Mokra

Subjects

Newborn infants, Meconium aspiration syndrome

Abstract

Meconium aspiration syndrome (MAS) is a major cause of respiratory morbidity and mortality in the term and post-term newborns. Aspirated meconium obstructs the airways and subsequently may cause an alveolar atelectasis behind the plug, air-trapping, and air leak. In a very short time after the aspiration, meconium triggers a progressive dysfunction of pulmonary surfactant, chemical pneumonia, and ventilation/perfusion mismatch, which often leads to persistent pulmonary hypertension. Due to complex pathophysiology and multiple interactions between the individual pathomechanisms, MAS is often difficult to treat. Therapeutic protocols usually include airway suctioning, ventilator support or artificial ventilation, in severe cases also administration of exogenous surfactant, inhaled NO, partial liquid ventilation, or anti-inflammatory treatment. Growing information on the role of various pathomechanisms participating in the meconium-induced respiratory, inflammatory, and cardiovascular changes widens the spectrum of drugs which may be perspectively beneficial in the treatment of MAS

Published

2010

20. Glucocorticoids in the treatment of neonatal meconium aspiration syndrome

Author

Juraj Mokry and Daniela Mokra

Subjects

Inflammation, medicine.medical_specialty, business.industry, Infant, Newborn, Review, Disease, medicine.disease, Pathophysiology, Meconium Aspiration Syndrome, Treatment Outcome, Mode of delivery, Pediatrics, Perinatology and Child Health, medicine, Meconium aspiration syndrome, Humans, Dosing, LUNG EDEMA, Pediatrics, Perinatology, and Child Health, medicine.symptom, Intensive care medicine, business, Glucocorticoids, hormones, hormone substitutes, and hormone antagonists, Meconium aspiration

Abstract

Meconium aspiration syndrome is a serious neonatal disease with complex pathophysiology. With respect to the contribution of meconium-induced lung edema, inflammation and vasoconstriction on the course of the disease, glucocorticoids are increasingly used in the treatment of MAS despite the fact that principal questions on the choice of GCs derivative, mode of delivery and dosing have not been answered yet. To bring a complex insight into the topic, this article reviews the pathomechanisms of MAS, mechanisms of action of GCs, as well as the advantages and disadvantages of GCs administration in experimental models and newborns with MAS.

21. Dexamethasone Alleviates Meconium‐Induced Airway Hyperresponsiveness and Lung Inflammation in RabbitsThis paper was presented in part at the 81st Czech and Slovak Physiological Days, February 2–4, 2005, Kosice, Slovakia.

Author

Juraj Mokry, Daniela Mokra, Martina Antosova, Janka Bulikova, Andrea Calkovska, and Gabriela Nosalova

Published

2006