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7. Application of the entropy based criteria on the ECG analysis

Author

Rosenberg, J., Krejčová, M., Nalos, L., Jarkovská, D., Štengl, M., Adámek, Vítězslav, Jonášová, Alena, Plánička, Stanislav, and Zajíček, Martin

Subjects
information exergy index, nová empirická amplituda, index exergie informací, EKG signál, ECG analysis, EKG analýza, ECG signal, new empirical amplitude, entropy, entropie
Abstract

European Regional Development Fund-Project ”Application of Modern Technologies in Medicine and Industry” (No. CZ.02.1.01/0.0/0.0/17 048/0007280) and project LO1506 of the Czech Ministry of Education, Youth and Sports. Nalos, Jarkovská and Štengl were supported by the National Sustainability Program I (NPU I) Nr. LO1503 provided by the Ministry of Education Youth and Sports of the Czech Republic

Published
2019

9. Hemadsorpční metody u kriticky nemocných - dvojitá sázka naslepo?

Author

Horák, J., Chvojka, J., Tégl, V., Nalos, L., Peltanová, M., Beneš, J., and Matějovič, M.

Abstract

Copyright of Anaesthesiology & Intensive Medicine / Anesteziologie a Intenzivní Medicína is the property of Czech Medical Association of JE Purkyne and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2020

10. Beneficial Effects of Mesenchymal Stem Cells on Adult Porcine Cardiomyocytes in Non-Contact Co-Culture

Author

MIKLÍKOVÁ, M., primary, JARKOVSKÁ, D., additional, ČEDÍKOVÁ, M., additional, ŠVÍGLEROVÁ, J., additional, KUNCOVÁ, J., additional, NALOS, L., additional, KUBÍKOVÁ, T., additional, LIŠKA, V., additional, HOLUBOVÁ, M., additional, LYSÁK, D., additional, KRÁLÍČKOVÁ, M., additional, VIŠTEJNOVÁ, L., additional, and ŠTENGL, M., additional

Published
2018
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11. Probing cardiac repolarization reserve in drug safety assessment

Author

Nalos, L., Vos, MA, van der Heyden, MAG, Rook, MB, and University Utrecht

Subjects
congenital, hereditary, and neonatal diseases and abnormalities, KIR2.1, drug safety assessment, hERG, cardiovascular diseases, cardiac repolarization reserve, QT prolongation
Abstract

Excessive prolongation of cardiac repolarization, manifested as QT prolongation on ECG, is common unwanted side effect of many drugs and drug candidates. Prolongation of QT interval may lead to life threatening cardiac arrhythmia – Torsade de Point (TdP). Number of drugs was withdrawn from the market and development of many new drug candidates is terminated because of this side effect. Block of the hERG channel is believed to be the principal reason of QT prolongation and thus current safety testing assays are based on determining the hERG block potency of new drug candidates. Here we demonstrate that focus on hERG block is counterproductive. Drugs affecting other repolarizing currents might be proarrhythmic as well. In the same time, potent hERG blocker with effect on depolarizing currents is not always proarrhythmic. We also show, that TdP can occur after chronic treatment due to effect on protein trafficking. This chronic effect is not tested in cardiac safety assessment at all. We have designed and synthesized 40 analogues of potent hERG blocker dofetilide to analyze molecular substructures required for hERG block. This approach may help design new drugs with low affinity to hERG channel. We identify pentamidine as a direct blocker of another important repolarizing current - IK1. The role of this current in cardiac arrhythmias is poorly studied, mainly because of absence of a specific IK1 blocker. We have tested 7 pentamidine analogues to find a specific and effective IK1 blocker applicable in vivo. Based on our findings, to improve current cardiac safety assessment, we employed five test assays and compare their sensitivity and specificity using hERG blockers with known proarrhythmic potential. We demonstrate that isolated cardiomyocytes lack sufficient specificity to correctly identify safe hERG blocker moxifloxacin. On the other hand, hESC-CM seems to be a promising alternative to current assays.

Published
2011

13. The anti-protozoal drug pentamidine blocks KIR2.x-mediated inward rectifier current by entering the cytoplasmic pore region of the channel

Author

de Boer, TP, Nalos, L, Stary, A, Kok, B, Houtman, MJC, Antoons, G, van Veen, TAB, Beekman, JDM, de Groot, BL, Opthof, T, Rook, MB, Vos, MA, and van der Heyden, MAG

Subjects
Cytoplasm, Dogs, Patch-Clamp Techniques, Blotting, Western, Mutation, Antiprotozoal Agents, Animals, Humans, Potassium Channels, Inwardly Rectifying, Research Papers, Pentamidine, Cell Line
Abstract

Pentamidine is a drug used in treatment of protozoal infections. Pentamidine treatment may cause sudden cardiac death by provoking cardiac arrhythmias associated with QTc prolongation and U-wave alterations. This proarrhythmic effect was linked to inhibition of hERG trafficking, but not to acute block of ion channels contributing to the action potential. Because the U-wave has been linked to the cardiac inward rectifier current (I(K1)), we examined the action and mechanism of pentamidine-mediated I(K1) block.Patch clamp measurements of I(K1) were made on cultured adult canine ventricular cardiomyocytes, K(IR)2.1-HEK293 cells and K(IR)2.x inside-out patches. Pentamidine binding to cytoplasmic amino acid residues of K(IR)2.1 channels was studied by molecular modelling.Pentamidine application (24 h) decreased I(K1) in cultured canine cardiomyocytes and K(IR)2.1-HEK293 cells under whole cell clamp conditions. Pentamidine inhibited I(K1) in K(IR)2.1-HEK293 cells 10 min after application. When applied to the cytoplasmic side under inside-out patch clamp conditions, pentamidine block of I(K1) was acute (IC(50)= 0.17 microM). Molecular modelling predicted pentamidine-channel interactions in the cytoplasmic pore region of K(IR)2.1 at amino acids E224, D259 and E299. Mutation of these conserved residues to alanine reduced pentamidine block of I(K1). Block was independent of the presence of spermine. K(IR)2.2, and K(IR)2.3 based I(K1) was also sensitive to pentamidine blockade.Pentamidine inhibits cardiac I(K1) by interacting with three negatively charged amino acids in the cytoplasmic pore region. Our findings may provide new insights for development of specific I(K1) blocking compounds.

Published
2010

16. Efficient and specific cardiac IK1 inhibition by a new pentamidine analogue

Author

Takanari, H., primary, Nalos, L., additional, Stary-Weinzinger, A., additional, de Git, K. C. G., additional, Varkevisser, R., additional, Linder, T., additional, Houtman, M. J. C., additional, Peschar, M., additional, de Boer, T. P., additional, Tidwell, R. R., additional, Rook, M. B., additional, Vos, M. A., additional, and van der Heyden, M. A. G., additional

Published
2013
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17. Testing IKr blockers in five screening models of pro-arrhythmia shows insufficient specificity of isolated cardiomyocytes

Author

Peschar, Maaike, primary, Nalos, L., additional, Varkevisser, R., additional, van Veen, T.A.B., additional, Houtman, M.J.C., additional, Beekman, J.D., additional, van der Nagel, R., additional, Thomsen, M.B., additional, Duker, G., additional, Sartipy, P., additional, de Boer, T.P., additional, van der Heyden, M.A.G., additional, and Vos, M.A., additional

Published
2012
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18. Comparison of the IKr blockers moxifloxacin, dofetilide and E-4031 in five screening models of pro-arrhythmia reveals lack of specificity of isolated cardiomyocytes

Author

Nalos, L, primary, Varkevisser, R, additional, Jonsson, MKB, additional, Houtman, MJC, additional, Beekman, JD, additional, van der Nagel, R, additional, Thomsen, MB, additional, Duker, G, additional, Sartipy, P, additional, de Boer, TP, additional, Peschar, M, additional, Rook, MB, additional, van Veen, TAB, additional, van der Heyden, MAG, additional, and Vos, MA, additional

Published
2011
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20. Basic Science

Author

Varkevisser, R., primary, Nalos, L., additional, Jonsson, M. K. B., additional, Duker, G., additional, De Boer, T. P., additional, Van Veen, T. A. B., additional, Van Der Heyden, M. A. G., additional, Vos, M. A., additional, Milberg, P., additional, Frommeyer, G., additional, Ghezelbash, S., additional, Eckardt, L., additional, Bingen, B. O., additional, Askar, S. F. A., additional, Ypey, D. L., additional, Van Der Laarse, A., additional, Schalij, M. J., additional, Pijnappels, D. A., additional, Mor, M., additional, Beharier, O., additional, Blumenthal, D., additional, Gheber, L. A., additional, Peretz, A., additional, Katz, A., additional, Moran, A., additional, Etzion, Y., additional, Uldry, L., additional, Virag, N., additional, Vesin, J.- M., additional, Kappenberger, L., additional, Marques-Neto, S. R., additional, Pimenta, M. C., additional, Marocolo-Junior, M., additional, Maior, A. S., additional, Nascimento, J. H. M., additional, Flevari, P., additional, Theodorakis, G., additional, Leftheriotis, D., additional, Kroupis, C., additional, Kolokathis, F., additional, Dima, K., additional, Kremastinos, D., additional, Anastasiou-Nana, M., additional, Jowhari, H., additional, Jaydari, F., additional, Taati, M., additional, Manteghi, A., additional, Liew, R., additional, Katwadi, K. B., additional, Gu, Y., additional, Mohamed Atan, M. S. B., additional, Moe, K. T., additional, Urbanek, B., additional, Ruta, J., additional, Kudrynski, K., additional, Kaczmarek, K., additional, Chudzik, M., additional, Ptaszynski, P., additional, and Wranicz, J. K., additional

Published
2011
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24. Comparison of the IKr blockers moxifloxacin, dofetilide and E-4031 in five screening models of pro-arrhythmia reveals lack of specificity of isolated cardiomyocytes.

Author

Nalos, L, Varkevisser, R, Jonsson, MKB, Houtman, MJC, Beekman, JD, van der Nagel, R, Thomsen, MB, Duker, G, Sartipy, P, de Boer, TP, Peschar, M, Rook, MB, van Veen, TAB, van der Heyden, MAG, and Vos, MA

Subjects
*MOXIFLOXACIN, *DOFETILIDE, *ARRHYTHMIA, *HEART cells, *DRUG development, *DRUG side effects, *COMPARATIVE studies
Abstract

BACKGROUND AND PURPOSE Drug development requires the testing of new chemical entities for adverse effects. For cardiac safety screening, improved assays are urgently needed. Isolated adult cardiomyocytes (CM) and human embryonic stem cell-derived cardiomyocytes (hESC-CM) could be used to identify pro-arrhythmic compounds. In the present study, five assays were employed to investigate their sensitivity and specificity for evaluating the pro-arrhythmic properties of IKr blockers, using moxifloxacin (safe compound) and dofetilide or E-4031 (unsafe compounds). EXPERIMENTAL APPROACH Assays included the anaesthetized remodelled chronic complete AV block (CAVB) dog, the anaesthetized methoxamine-sensitized unremodelled rabbit, multi-cellular hESC-CM clusters, isolated CM obtained from CAVB dogs and isolated CM obtained from the normal rabbit. Arrhythmic outcome was defined as Torsade de Pointes (TdP) in the animal models and early afterdepolarizations (EADs) in the cell models. KEY RESULTS At clinically relevant concentrations (5-12 µM), moxifloxacin was free of pro-arrhythmic properties in all assays with the exception of the isolated CM, in which 10 µM induced EADs in 35% of the CAVB CM and in 23% of the rabbit CM. At supra-therapeutic concentrations (≥100 µM), moxifloxacin was pro-arrhythmic in the isolated rabbit CM (33%), in the hESC-CM clusters (18%), and in the methoxamine rabbit (17%). Dofetilide and E-4031 induced EADs or TdP in all assays (50-83%), and the induction correlated with a significant increase in beat-to-beat variability of repolarization. CONCLUSION AND IMPLICATIONS Isolated cardiomyocytes lack specificity to discriminate between TdP liability of the IKr blocking drugs moxifloxacin and dofetilide or E4031. [ABSTRACT FROM AUTHOR]

Published
2012
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26. Ineffectiveness of hemoadsorption in large animals with abdominal sepsis: a randomized controlled porcine study.

Author

Tegl V, Horak J, Nalos L, Horakova M, Stengl M, Matejovic M, and Benes J

Abstract

Objectives: The use of hemoadsorption (HA) has become popular in the treatment of vasoplegic states associated with massive cytokine release, including septic shock. However, this approach does not seem to be based on robust evidence, and it does not follow international guidelines. To understand the pathophysiological rationale and timing of HA, we conducted a large animal septic shock experiment., Design: Prospective randomized large-animal peritoneal septic shock experiment., Setting: Laboratory investigation., Subjects: Twenty-six anesthetized, mechanically ventilated, and instrumented pigs randomly assigned into (1) sham-operated group with HA (SHAM, n = 5); (2) sepsis animals without HA (SEPSIS, n = 5); (3) sepsis group with HA at norepinephrine initiation (EARLY, n = 8); and (4) sepsis group with HA initiated at norepinephrine rate reaching 0.5 μg/kg/min (LATE, n = 8)., Interventions: Peritoneal sepsis was induced by cultivated autologous feces inoculation. A CytoSorb cartridge (200 g) with a blood flow rate of 200 mL/min and heparin anticoagulation was used to perform HA. The animals received sedation and intensive organ support up to 48 h or until they experienced cardiovascular collapse., Measurements and Main Results: Systemic hemodynamics, multiple-organ functions, and immune-inflammatory response were measured at predefined periods. The HA treatment was not associated with any measurable benefit in terms of systemic hemodynamics and organ support. The systemic inflammatory markers were unaffected by any of the treatment timings. In contrast, the HA resulted in higher vasopressor load and decreased 36-h survival (5 animals in SHAM (100%), 4 (80%) in SEPSIS, 4 (57%) in EARLY, and 2 (25%) in LATE; p = 0.041). The HA exposure in healthy animals was associated with hemodynamic deterioration, systemic inflammatory response, and cytopenia., Conclusions: In this large-animal-controlled fulminant sepsis study, the HA was unable to counteract the disease progression in the early or advanced septic shock phase. However, findings from the HA-exposed sham animals suggest potential safety concerns., (© 2024. The Author(s).)

Published
2024
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27. Modeling sepsis, with a special focus on large animal models of porcine peritonitis and bacteremia.

Author

Vintrych P, Al-Obeidallah M, Horák J, Chvojka J, Valešová L, Nalos L, Jarkovská D, Matějovič M, and Štengl M

Abstract

Infectious diseases, which often result in deadly sepsis or septic shock, represent a major global health problem. For understanding the pathophysiology of sepsis and developing new treatment strategies, reliable and clinically relevant animal models of the disease are necessary. In this review, two large animal (porcine) models of sepsis induced by either peritonitis or bacteremia are introduced and their strong and weak points are discussed in the context of clinical relevance and other animal models of sepsis, with a special focus on cardiovascular and immune systems, experimental design, and monitoring. Especially for testing new therapeutic strategies, the large animal (porcine) models represent a more clinically relevant alternative to small animal models, and the findings obtained in small animal (transgenic) models should be verified in these clinically relevant large animal models before translation to the clinical level., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Vintrych, Al-Obeidallah, Horák, Chvojka, Valešová, Nalos, Jarkovská, Matějovič and Štengl.)

Published
2023
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28. Gut microbiome diversity of porcine peritonitis model of sepsis.

Author

Chalupova M, Horak J, Kramna L, Nalos L, Stengl M, Chudejova K, Kraftova L, Cinek O, Klein P, Matejovic M, and Hrabak J

Subjects
Swine, Animals, RNA, Ribosomal, 16S genetics, Bacteria genetics, DNA, Ribosomal genetics, Gastrointestinal Microbiome genetics, Sepsis, Peritonitis
Abstract

Animal models are essential in understanding of the mechanisms of sepsis moreover the development and the assessment of emerging therapies. In clinically relevant porcine model, however, a significant variability in the host response has been observed among animals. Thus, there is a strong demand to better understand the potential sources of this heterogeneity. In this study, we compared faecal microbiome composition of 12 animals. Three samples were collected at different time points from each animal. Bacteriome was subjected to 16S rDNA profiling. A significant difference in bacterial composition was associated with the season (p < 0.001) but not with the sex of the pig (p = 0.28), the timing of sample collection (p = 0.59), or interactions thereof (all p > 0.3). The season batch explained 55% of the total variance in the bacteriome diversity. The season term was highly significant from the high-resolution level of the bacterial amplicon sequencing variants up to the level of phylum. The diversity of the microbiome composition could significantly influence experimental model of sepsis, and studies are warranted to demonstrate the effects of gut microbiome diversity on the host-response. If confirmed, control of the gut microbiome should become a standard part of the pre-clinical sepsis experiments., (© 2022. The Author(s).)

Published
2022
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29. TdP Incidence in Methoxamine-Sensitized Rabbit Model Is Reduced With Age but Not Influenced by Hypercholesterolemia.

Author

Nalos L, Jarkovská D, Švíglerová J, Süß A, Záleský J, Rajdl D, Krejčová M, Kuncová J, Rosenberg J, and Štengl M

Abstract

Metabolic syndrome is associated with hypercholesterolemia, cardiac remodeling, and increased susceptibility to ventricular arrhythmias. Effects of diet-induced hypercholesterolemia on susceptibility to torsades de pointes arrhythmias (TdP) together with potential indicators of arrhythmic risk were investigated in three experimental groups of Carlsson's rabbit model: (1) young rabbits (YC, young control, age 12-16 weeks), older rabbits (AC, adult control, age 20-24 weeks), and older age-matched cholesterol-fed rabbits (CH, cholesterol, age 20-24 weeks). TdP was induced by α-adrenergic stimulation by methoxamine and I Kr block in 83% of YC rabbits, 18% of AC rabbits, and 21% of CH rabbits. High incidence of TdP was associated with high incidence of single (SEB) and multiple ectopic beats (MEB), but the QTc prolongation and short-term variability (STV) were similar in all three groups. In TdP-susceptible rabbits, STV was significantly higher compared with arrhythmia-free rabbits but not with rabbits with other than TdP arrhythmias (SEB, MEB). Amplitude-aware permutation entropy analysis of baseline ECG could identify arrhythmia-resistant animals with high sensitivity and specificity. The data indicate that the TdP susceptibility in methoxamine-sensitized rabbits is affected by the age of rabbits but probably not by hypercholesterolemia. Entropy analysis could potentially stratify the arrhythmic risk and identify the low-risk individuals., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Nalos, Jarkovská, Švíglerová, Süß, Záleský, Rajdl, Krejčová, Kuncová, Rosenberg and Štengl.)

Published
2021
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30. SOFA Score, Hemodynamics and Body Temperature Allow Early Discrimination between Porcine Peritonitis-Induced Sepsis and Peritonitis-Induced Septic Shock.

Author

Al-Obeidallah M, Jarkovská D, Valešová L, Horák J, Jedlička J, Nalos L, Chvojka J, Švíglerová J, Kuncová J, Beneš J, Matějovič M, and Štengl M

Abstract

Porcine model of peritonitis-induced sepsis is a well-established clinically relevant model of human disease. Interindividual variability of the response often complicates the interpretation of findings. To better understand the biological basis of the disease variability, the progression of the disease was compared between animals with sepsis and septic shock. Peritonitis was induced by inoculation of autologous feces in fifteen anesthetized, mechanically ventilated and surgically instrumented pigs and continued for 24 h. Cardiovascular and biochemical parameters were collected at baseline (just before peritonitis induction), 12 h, 18 h and 24 h (end of the experiment) after induction of peritonitis. Analysis of multiple parameters revealed the earliest significant differences between sepsis and septic shock groups in the sequential organ failure assessment (SOFA) score, systemic vascular resistance, partial pressure of oxygen in mixed venous blood and body temperature. Other significant functional differences developed later in the course of the disease. The data indicate that SOFA score, hemodynamical parameters and body temperature discriminate early between sepsis and septic shock in a clinically relevant porcine model. Early pronounced alterations of these parameters may herald a progression of the disease toward irreversible septic shock.

Published
2021
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31. Evaluation of Mesenchymal Stem Cell Therapy for Sepsis: A Randomized Controlled Porcine Study.

Author

Horak J, Nalos L, Martinkova V, Tegl V, Vistejnova L, Kuncova J, Kohoutova M, Jarkovska D, Dolejsova M, Benes J, Stengl M, and Matejovic M

Subjects
Animals, Disease Models, Animal, Random Allocation, Swine, Mesenchymal Stem Cell Transplantation methods, Sepsis therapy
Abstract

Background: Treatment with mesenchymal stem cells (MSCs) has elicited considerable interest as an adjunctive therapy in sepsis. However, the encouraging effects of experiments with MSC in rodents have not been adequately studied in large-animal models with better relevance to human sepsis. Objectives: Here, we aimed to assess safety and efficacy of bone marrow-derived MSCs in a clinically relevant porcine model of progressive peritonitis-induced sepsis. Methods: Thirty-two anesthetized, mechanically ventilated, and instrumented pigs were randomly assigned into four groups ( n = 8 per group): (1) sham-operated group (CONTROL); (2) sham-operated group treated with MSCs (MSC-CONTROL); (3) sepsis group with standard supportive care (SEPSIS); and (4) sepsis group treated with MSCs (MSC-SEPSIS). Peritoneal sepsis was induced by inoculating cultivated autologous feces. MSCs (1 × 10 6 /kg) were administered intravenously at 6 h after sepsis induction. Results: Before, 12, 18, and 24 h after the induction of peritonitis, we measured systemic, regional, and microvascular hemodynamics, multiple-organ functions, mitochondrial energy metabolism, systemic immune-inflammatory response, and oxidative stress. Administration of MSCs in the MSC-CONTROL group did not elicit any measurable acute effects. Treatment of septic animals with MSCs failed to mitigate sepsis-induced hemodynamic alterations or the gradual rise in Sepsis-related organ failure assessment scores. MSCs did not confer any protection against sepsis-mediated cellular myocardial depression and mitochondrial dysfunction. MSCs also failed to modulate the deregulated immune-inflammatory response. Conclusion: Intravenous administration of bone marrow-derived MSCs to healthy animals was well-tolerated. However, in this large-animal, clinically relevant peritonitis-induced sepsis model, MSCs were not capable of reversing any of the sepsis-induced disturbances in multiple biological, organ, and cellular systems., (Copyright © 2020 Horak, Nalos, Martinkova, Tegl, Vistejnova, Kuncova, Kohoutova, Jarkovska, Dolejsova, Benes, Stengl and Matejovic.)

Published
2020
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32. Mechanical Circulatory Support in Refractory Vasodilatory Septic Shock: a Randomized Controlled Porcine Study.

Author

Chvojka J, Martinkova V, Benes J, Valesova L, Danihel V, Nalos L, and Matejovic M

Subjects
Animals, Energy Metabolism physiology, Inflammation metabolism, Inflammation physiopathology, Swine, Extracorporeal Membrane Oxygenation, Shock, Septic metabolism, Shock, Septic physiopathology
Abstract

As controversy persists regarding the benefits of mechanical circulatory support in septic shock with a predominantly vasoplegic phenotype, preclinical studies may provide a useful alternative to fill the actual knowledge gap. Here, we investigated the physiologic responses to venoarterial extracorporeal membrane oxygenation therapy (VA-ECMO) in a clinically relevant porcine peritonitis-induced model of refractory vasodilatory septic shock. In 12 anesthetized, mechanically ventilated, and instrumented domestic pigs, septic shock was induced by intraperitoneally inoculating autologous feces. After reaching the threshold for refractory vasodilatory shock (norepinephrine dose ≥1 μg/kg/min), the pigs were randomized into the conservative treatment group (control) or the VA-ECMO group (target flow 100 mL/kg/min). The time to develop refractory vasodilatory shock was similar in both groups (18.8 h in the ECMO group, 18.1 h in the control group). There was no difference between the groups in terms of time to death measured from the point of reaching the predefined vasopressor threshold (7.1 h for the ECMO group, 7.9 h for the control group). The initiation of ECMO resulted in a markedly increased fluid and vasopressor support. Although treatment with ECMO compromised neither renal nor carotid blood flow initially, both progressively decreased later during the experiment. The pattern of sepsis-induced multiorgan injury, alterations in energy metabolism, and the systemic inflammatory response were remarkably similar between both groups. In conclusion, the application of VA-ECMO in this model of peritonitis-induced refractory vasodilatory septic shock aggravated hemodynamic deterioration. Our findings contribute to increasing equipoise with respect to the clinical utility of VA-ECMO in refractory vasodilatory shock.

Published
2020
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33. The method of long-term catheterization of the vena jugularis in pigs.

Author

Klein P, Nalos L, Dejmek J, and Soukup M

Subjects
Animals, Blood Specimen Collection methods, Female, Male, Swine, Taurine administration & dosage, Taurine analogs & derivatives, Thiadiazines administration & dosage, Catheterization methods, Jugular Veins surgery
Abstract

Introduction: The pig is one of the most valuable in vivo models in biomedical research, however with only a few well-accessible veins suitable for venipuncture. Moreover, most of the known methods of blood collection are suitable only for a limited time period. The aim of the study was to verify an improved method of long-term catheterization of the jugular vein in pigs., Methods: A 420 mm polyurethane catheter 16G tube was surgically inserted using the Seldinger technique. The part of the tube that was not inserted into the vein was threaded through a subcutaneously introduced trocar into the occipital area, where it was well accessible and well protected from damage. The catheters were flushed with sterile 0.9% saline solution and locked with 4% citrate between frequent blood samplings, or with 30% citrate at intervals of 1-2-days. Once a week, the catheters were locked with 4% citrate containing taurolidine for 24 h in order to prevent infection. The method was verified in 14 pigs., Results: The catheters were fully functional for up to 11 weeks and no infection or thrombus was observed., Discussion: This method of catheterization and catheter care allows the realization of long-term experiments with comfortable and stress-free blood sampling., (Copyright © 2019 The Authors. Published by Elsevier Inc. All rights reserved.)

Published
2019
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34. Vagus Nerve Stimulation Attenuates Multiple Organ Dysfunction in Resuscitated Porcine Progressive Sepsis.

Author

Kohoutova M, Horak J, Jarkovska D, Martinkova V, Tegl V, Nalos L, Vistejnova L, Benes J, Sviglerova J, Kuncova J, Matejovic M, and Stengl M

Subjects
Animals, Disease Models, Animal, Disease Progression, Electric Stimulation Therapy, Female, Heart physiopathology, Hemodynamics, Hyperlactatemia blood, Hyperlactatemia prevention & control, Leukocyte Count, Male, Mitochondria, Heart physiology, Myocardium pathology, Organ Dysfunction Scores, Prospective Studies, Random Allocation, Swine, Vasoconstrictor Agents therapeutic use, Monocytes, Multiple Organ Failure physiopathology, Multiple Organ Failure therapy, Sepsis physiopathology, Sepsis therapy, Vagus Nerve
Abstract

Objectives: To investigate the potential benefits of vagus nerve stimulation in a clinically-relevant large animal model of progressive sepsis., Design: Prospective, controlled, randomized trial., Setting: University animal research laboratory., Subjects: Twenty-five domestic pigs were divided into three groups: 1) sepsis group (eight pigs), 2) sepsis + vagus nerve stimulation group (nine pigs), and 3) control sham group (eight pigs)., Interventions: Sepsis was induced by cultivated autologous feces inoculation in anesthetized, mechanically ventilated, and surgically instrumented pigs and followed for 24 hours. Electrical stimulation of the cervical vagus nerve was initiated 6 hours after the induction of peritonitis and maintained throughout the experiment., Measurements and Main Results: Measurements of hemodynamics, electrocardiography, biochemistry, blood gases, cytokines, and blood cells were collected at baseline (just before peritonitis induction) and at the end of the in vivo experiment (24 hr after peritonitis induction). Subsequent in vitro analyses addressed cardiac contractility and calcium handling in isolated tissues and myocytes and analyzed mitochondrial function by ultrasensitive oxygraphy. Vagus nerve stimulation partially or completely prevented the development of hyperlactatemia, hyperdynamic circulation, cellular myocardial depression, shift in sympathovagal balance toward sympathetic dominance, and cardiac mitochondrial dysfunction, and reduced the number of activated monocytes. Sequential Organ Failure Assessment scores and vasopressor requirements significantly decreased after vagus nerve stimulation., Conclusions: In a clinically-relevant large animal model of progressive sepsis, vagus nerve stimulation was associated with a number of beneficial effects that resulted in significantly attenuated multiple organ dysfunction and reduced vasopressor and fluid resuscitation requirements. This suggests that vagus nerve stimulation might provide a significant therapeutic potential that warrants further thorough investigation.

Published
2019
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35. Cellular Mechanisms of Myocardial Depression in Porcine Septic Shock.

Author

Jarkovska D, Markova M, Horak J, Nalos L, Benes J, Al-Obeidallah M, Tuma Z, Sviglerova J, Kuncova J, Matejovic M, and Stengl M

Abstract

The complex pathogenesis of sepsis and septic shock involves myocardial depression, the pathophysiology of which, however, remains unclear. In this study, cellular mechanisms of myocardial depression were addressed in a clinically relevant, large animal (porcine) model of sepsis and septic shock. Sepsis was induced by fecal peritonitis in eight anesthetized, mechanically ventilated, and instrumented pigs of both sexes and continued for 24 h. In eight control pigs, an identical experiment but without sepsis induction was performed. In vitro analysis of cardiac function included measurements of action potentials and contractions in the right ventricle trabeculae, measurements of sarcomeric contractions, calcium transients and calcium current in isolated cardiac myocytes, and analysis of mitochondrial respiration by ultrasensitive oxygraphy. Increased values of modified sequential organ failure assessment score and serum lactate levels documented the development of sepsis/septic shock, accompanied by hyperdynamic circulation with high heart rate, increased cardiac output, peripheral vasodilation, and decreased stroke volume. In septic trabeculae, action potential duration was shortened and contraction force reduced. In septic cardiac myocytes, sarcomeric contractions, calcium transients, and L-type calcium current were all suppressed. Similar relaxation trajectory of the intracellular calcium-cell length phase-plane diagram indicated unchanged calcium responsiveness of myofilaments. Mitochondrial respiration was diminished through inhibition of Complex II and Complex IV. Defective calcium handling with reduced calcium current and transients, together with inhibition of mitochondrial respiration, appears to represent the dominant cellular mechanisms of myocardial depression in porcine septic shock.

Published
2018
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36. Class III antiarrhythmic drugs amiodarone and dronedarone impair K IR 2.1 backward trafficking.

Author

Ji Y, Takanari H, Qile M, Nalos L, Houtman MJC, Romunde FL, Heukers R, van Bergen En Henegouwen PMP, Vos MA, and van der Heyden MAG

Subjects
Animals, Anti-Arrhythmia Agents pharmacology, COS Cells, Cell Line, Tumor, Cells, Cultured, Chlorocebus aethiops, Dronedarone, HEK293 Cells, Humans, Ion Channel Gating genetics, Ion Channel Gating physiology, Mice, Myocytes, Cardiac cytology, Myocytes, Cardiac drug effects, Myocytes, Cardiac physiology, Potassium Channels, Inwardly Rectifying genetics, Rabbits, Amiodarone analogs & derivatives, Amiodarone pharmacology, Ion Channel Gating drug effects, Potassium Channels, Inwardly Rectifying physiology
Abstract

Drug-induced ion channel trafficking disturbance can cause cardiac arrhythmias. The subcellular level at which drugs interfere in trafficking pathways is largely unknown. K IR 2.1 inward rectifier channels, largely responsible for the cardiac inward rectifier current (I K 1 ), are degraded in lysosomes. Amiodarone and dronedarone are class III antiarrhythmics. Chronic use of amiodarone, and to a lesser extent dronedarone, causes serious adverse effects to several organs and tissue types, including the heart. Both drugs have been described to interfere in the late-endosome/lysosome system. Here we defined the potential interference in K IR 2.1 backward trafficking by amiodarone and dronedarone. Both drugs inhibited I K 1 in isolated rabbit ventricular cardiomyocytes at supraclinical doses only. In HK-KWGF cells, both drugs dose- and time-dependently increased K IR 2.1 expression (2.0 ± 0.2-fold with amiodarone: 10 μM, 24 hrs; 2.3 ± 0.3-fold with dronedarone: 5 μM, 24 hrs) and late-endosomal/lysosomal K IR 2.1 accumulation. Increased K IR 2.1 expression level was also observed in the presence of Na v 1.5 co-expression. Augmented K IR 2.1 protein levels and intracellular accumulation were also observed in COS-7, END-2, MES-1 and EPI-7 cells. Both drugs had no effect on K v 11.1 ion channel protein expression levels. Finally, amiodarone (73.3 ± 10.3% P < 0.05 at -120 mV, 5 μM) enhanced I KIR 2.1 upon 24-hrs treatment, whereas dronedarone tended to increase I KIR 2.1 and it did not reach significance (43.8 ± 5.5%, P = 0.26 at -120 mV; 2 μM). We conclude that chronic amiodarone, and potentially also dronedarone, treatment can result in enhanced I K 1 by inhibiting K IR 2.1 degradation., (© 2017 The Authors. Journal of Cellular and Molecular Medicine published by John Wiley & Sons Ltd and Foundation for Cellular and Molecular Medicine.)

Published
2017
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37. Heart-rate variability depression in porcine peritonitis-induced sepsis without organ failure.

Author

Jarkovska D, Valesova L, Chvojka J, Benes J, Danihel V, Sviglerova J, Nalos L, Matejovic M, and Stengl M

Subjects
Animals, Disease Models, Animal, Female, Male, Sus scrofa, Heart Rate, Peritonitis complications, Sepsis pathology
Abstract

Depression of heart-rate variability (HRV) in conditions of systemic inflammation has been shown in both patients and experimental animal models and HRV has been suggested as an early indicator of sepsis. The sensitivity of HRV-derived parameters to the severity of sepsis, however, remains unclear. In this study we modified the clinically relevant porcine model of peritonitis-induced sepsis in order to avoid the development of organ failure and to test the sensitivity of HRV to such non-severe conditions. In 11 anesthetized, mechanically ventilated and instrumented domestic pigs of both sexes, sepsis was induced by fecal peritonitis. The dose of feces was adjusted and antibiotic therapy was administered to avoid multiorgan failure. Experimental subjects were screened for 40 h from the induction of sepsis. In all septic animals, sepsis with hyperdynamic circulation and increased plasma levels of inflammatory mediators developed within 12 h from the induction of peritonitis. The sepsis did not progress to multiorgan failure and there was no spontaneous death during the experiment despite a modest requirement for vasopressor therapy in most animals (9/11). A pronounced reduction of HRV and elevation of heart rate developed quickly (within 5 h, time constant of 1.97 ± 0.80 h for HRV parameter TINN) upon the induction of sepsis and were maintained throughout the experiment. The frequency domain analysis revealed a decrease in the high-frequency component. The reduction of HRV parameters and elevation of heart rate preceded sepsis-associated hemodynamic changes by several hours (time constant of 11.28 ± 2.07 h for systemic vascular resistance decline). A pronounced and fast reduction of HRV occurred in the setting of a moderate experimental porcine sepsis without organ failure. Inhibition of parasympathetic cardiac signaling probably represents the main mechanism of HRV reduction in sepsis. The sensitivity of HRV to systemic inflammation may allow early detection of a moderate sepsis without organ failure. Impact statement A pronounced and fast reduction of heart-rate variability occurred in the setting of a moderate experimental porcine sepsis without organ failure. Dominant reduction of heart-rate variability was found in the high-frequency band indicating inhibition of parasympathetic cardiac signaling as the main mechanism of heart-rate variability reduction. The sensitivity of heart-rate variability to systemic inflammation may contribute to an early detection of moderate sepsis without organ failure.

Published
2017
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38. Mesenchymal Stem Cells in Sepsis and Associated Organ Dysfunction: A Promising Future or Blind Alley?

Author

Horák J, Nalos L, Martínková V, Beneš J, Štengl M, and Matějovič M

Abstract

Sepsis, newly defined as a life-threatening organ dysfunction caused by a dysregulated host response to infection, is the most common cause of death in ICUs and one of the principal causes of death worldwide. Although substantial progress has been made in the understanding of fundamental mechanisms of sepsis, translation of these advances into clinically effective therapies has been disappointing. Given the extreme complexity of sepsis pathogenesis, the paradigm "one disease, one drug" is obviously flawed and combinations of multiple targets that involve early immunomodulation and cellular protection are needed. In this context, the immune-reprogramming properties of cell-based therapy using mesenchymal stem cells (MSC) represent an emerging therapeutic strategy in sepsis and associated organ dysfunction. This article provides an update of the current knowledge regarding MSC in preclinical models of sepsis and sepsis-induced acute kidney injury. Recommendations for further translational research in this field are discussed.

Published
2017
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39. Heart Rate Variability in Porcine Progressive Peritonitis-Induced Sepsis.

Author

Jarkovska D, Valesova L, Chvojka J, Benes J, Sviglerova J, Florova B, Nalos L, Matejovic M, and Stengl M

Abstract

Accumulating evidence suggests that heart rate variability (HRV) alterations could serve as an indicator of sepsis progression and outcome, however, the relationships of HRV and major pathophysiological processes of sepsis remain unclear. Therefore, in this experimental study HRV was investigated in a clinically relevant long-term porcine model of severe sepsis/septic shock. HRV was analyzed by several methods and the parameters were correlated with pathophysiological processes of sepsis. In 16 anesthetized, mechanically ventilated, and instrumented domestic pigs of either gender, sepsis was induced by fecal peritonitis. Experimental subjects were screened up to the refractory shock development or death. ECG was continuously recorded throughout the experiment, afterwards RR intervals were detected and HRV parameters computed automatically using custom made measurement and analysis MATLAB routines. In all septic animals, progressive hyperdynamic septic shock developed. The statistical measures of HRV, geometrical measures of HRV and Poincaré plot analysis revealed a pronounced reduction of HRV that developed quickly upon the onset of sepsis and was maintained throughout the experiment. The frequency domain analysis demonstrated a decrease in the high frequency component and increase in the low frequency component together with an increase of the low/high frequency component ratio. The reduction of HRV parameters preceded sepsis-associated hemodynamic changes including heart rate increase or shock progression. In a clinically relevant porcine model of peritonitis-induced progressive septic shock, reduction of HRV parameters heralded sepsis development. HRV reduction was associated with a pronounced parasympathetic inhibition and a shift of sympathovagal balance. Early reduction of HRV may serve as a non-invasive and sensitive marker of systemic inflammatory syndrome, thereby widening the therapeutic window for early interventions.

Published
2016
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40. Cardiac remodeling in rats with renal failure shows interventricular differences.

Author

Svíglerová J, Kuncová J, Nalos L, Holas J, Tonar Z, Rajdl D, and Stengl M

Subjects
Animals, Cardiovascular Diseases complications, Hypertension, Hypertrophy, Left Ventricular complications, Hypertrophy, Left Ventricular physiopathology, Kidney Failure, Chronic complications, Lithium Compounds pharmacology, Male, Membrane Potentials, Myocardial Contraction, Nephrectomy, Random Allocation, Rats, Rats, Wistar, Ventricular Function, Cardiovascular Diseases physiopathology, Heart Ventricles physiopathology, Kidney Failure, Chronic physiopathology, Ventricular Remodeling
Abstract

Chronic renal failure (CRF) is associated with an increased incidence of cardiovascular diseases. Intensive research revealed a number of alterations in the heart during CRF; however, possible interventricular differences in CRF-induced cardiac remodeling have so far not been addressed. CRF was induced by two-stage surgical 5/6 nephrectomy (NX) in male Wistar rats. Cellular hypertrophy was quantified using immunohistological morphometric analysis. Contraction force and membrane potential were recorded in left and right ventricle papillary muscles with an isometric force transducer and high-resistance glass microelectrodes. Hypertrophy was present in the left ventricle (LV) of NX animals, but not in the right ventricle (RV) of NX animals, as documented by both ventricle/body weight ratios and cellular morphometric analysis of the cross-sectional area of myocytes. The contraction force was reduced in the LV of NX animals but increased in the RV of NX animals compared with sham-operated rats. Rest potentiation of contraction force was relatively more pronounced in the LV of NX rats. Fifty percent substitution of extracellular sodium with lithium significantly increased the contraction force only in the LV of NX animals. Action potential durations were shortened in both ventricles of CRF animals. Cardiac structural and contractile remodeling in CRF shows significant interventricular differences. CRF induces hypertrophy of the LV but not of the RV. LV hypertrophy was associated with a reduction of contraction force, whereas in the RV, the contraction force was enhanced. Partial recovery of contractile function of the LV by rest potentiation or lithium substitution indicates a role of the Na(+)/Ca(2+) exchanger in this phenomenon.

Published
2012
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41. Plasma and tissue levels of neuropeptide y in experimental septic shock: relation to hemodynamics, inflammation, oxidative stress, and hemofiltration.

Author

Kuncová J, Sýkora R, Chvojka J, Svíglerová J, Stengl M, Kroužecký A, Nalos L, and Matějovič M

Subjects
Animals, Interleukin-6 blood, Neuropeptide Y isolation & purification, Peritonitis complications, Shock, Septic immunology, Shock, Septic metabolism, Swine, Tumor Necrosis Factor-alpha blood, Hemodynamics, Hemofiltration, Neuropeptide Y blood, Neuropeptide Y metabolism, Oxidative Stress, Shock, Septic blood
Abstract

Neuropeptide Y (NPY), a potent vasoconstrictor released from the sympathetic nerves, has been suggested to counterbalance sepsis-induced vasodilation. Thus, the changes in plasma and tissue NPY concentrations in relation to hemodynamic variables and inflammatory markers in a porcine model of moderate septic shock were investigated. Susceptibility of NPY to be removed by continuous hemofiltration in two settings has been also studied. Thirty-four domestic pigs were divided into five groups: (i) control group; (ii) control group with conventional hemofiltration; (iii) septic group; (iv) septic group with conventional hemofiltration; and (v) septic group with high-volume hemofiltration. Sepsis induced by fecal peritonitis continued for 22 h. Hemofiltration was applied for the last 10 h. Hemodynamic and inflammatory parameters (heart rate, mean arterial pressure, cardiac output, systemic vascular resistance, plasma concentrations of tumor necrosis factor-α, interleukin-6, and NPY) were measured before and at 12 and 22 h of peritonitis. NPY tissue levels were determined in the left ventricle and mesenteric and coronary arteries. Sepsis induced long-lasting increases in the systemic NPY levels without affecting its tissue concentrations. Continuous hemofiltration at any dose did not reduce sepsis-induced elevations in NPY plasma concentrations, nor did it affect the peptide tissue levels. The increases in NPY systemic levels were significantly correlated with changes in the systemic vascular resistance. The results support the hypothesis of NPY implication in the regulation of the vascular resistance under septic conditions and indicate that NPY clearance rate during hemofiltration does not exceed the capacity of perivascular nerves to release it., (© 2011, Copyright the Authors. Artificial Organs © 2011, International Center for Artificial Organs and Transplantation and Wiley Periodicals, Inc.)

Published
2011
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42. Inhibition of lysosomal degradation rescues pentamidine-mediated decreases of K(IR)2.1 ion channel expression but not that of K(v)11.1.

Author

Nalos L, de Boer TP, Houtman MJ, Rook MB, Vos MA, and van der Heyden MA

Subjects
Animals, Blotting, Western, Cells, Cultured, Dogs, ERG1 Potassium Channel, Ether-A-Go-Go Potassium Channels genetics, Gene Expression Regulation drug effects, HEK293 Cells, Humans, Membrane Potentials drug effects, Microscopy, Confocal, Patch-Clamp Techniques, Potassium Channels, Inwardly Rectifying genetics, RNA, Messenger metabolism, Reverse Transcriptase Polymerase Chain Reaction, Antiprotozoal Agents pharmacology, Ether-A-Go-Go Potassium Channels metabolism, Lysosomes metabolism, Pentamidine pharmacology, Potassium Channels, Inwardly Rectifying metabolism
Abstract

The antiprotozoal drug pentamidine inhibits two types of cardiac rectifier potassium currents, which can precipitate life-threatening arrhythmias. Here, we use pentamidine as a tool to investigate whether a single drug affects trafficking of two structurally different potassium channels by identical or different mechanisms, and whether the adverse drug effect can be suppressed in a channel specific fashion. Whole cell patch clamp, Western blot, real time PCR, and confocal laser scanning microscopy were used to determine potassium current density, ion channel protein levels, mRNA expression levels, and subcellular localization, respectively. We demonstrate that pentamidine inhibits delayed (I(Kr)) and inward (I(K1)) rectifier currents in cultured adult canine cardiomyocytes. In HEK293 cells, pentamidine inhibits functional K(v)11.1 channels, responsible for I(Kr), by interfering at the level of full glycosylation, yielding less mature form of K(v)11.1 at the plasma membrane. In contrast, total K(IR)2.1 expression levels, underlying I(K1), are strongly decreased, which cannot be explained from mRNA expression levels. No changes in molecular size of K(IR)2.1 protein were observed, excluding interference in overt glycosylation. Remaining K(IR)2.1 protein is mainly expressed at the plasma membrane. Inhibition of lysosomal protein degradation is able to partially rescue K(IR)2.1 levels, but not those of K(v)11.1. We conclude that 1) a single drug can interfere in cardiac potassium channel trafficking in a subtype specific mode and 2) adverse drug effects can be corrected in a channel specific manner., (2010 Elsevier B.V. All rights reserved.)

Published
2011
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43. Differential effects of hemofiltration and of coupled plasma filtration adsorption on cardiac repolarization in pigs with hyperdynamic septic shock.

Author

Stengl M, Sykora R, Chvojka J, Krouzecky A, Novak I, Varnerova V, Kuncova J, Nalos L, Sviglerova J, and Matejovic M

Subjects
Action Potentials, Animals, Electrophysiology, Hemodynamics, Peritonitis complications, Peritonitis physiopathology, Shock, Septic metabolism, Swine, Hemofiltration, Shock, Septic physiopathology, Shock, Septic therapy
Abstract

The aim was to investigate effects of continuous hemofiltration (CHF) and of coupled plasma filtration adsorption (CPFA) on electrophysiological properties of the septic heart. Sepsis was induced in anesthetized pigs by fecal peritonitis and continued for 22 h either without intervention (control sepsis) or with intervention (CHF or CPFA) applied for the last 10 h of this period. Electrocardiograms were recorded at baseline, before induction of peritonitis, and 22 h later, at the end of in vivo experiment. In vitro, action potentials were recorded in right ventricular trabeculae. RR, QT, and QTc (QT corrected for heart rate) intervals were shortened by sepsis. Action potential durations (APDs) were shortened by CHF, but not by CPFA, compared with control sepsis. Continuous hemofiltration prolonged APD. Coupled plasma filtration adsorption filtrate did not exert any effect on APD. Plasma separated during CPFA prolonged APD. Continuous hemofiltration shortened cardiac repolarization, and this effect was reversed by the hemofiltrate. In contrast, neither CPFA nor the CPFA filtrate influenced APD. The data indicate that some inflammatory mediators able to delay cardiac repolarization were removed from plasma to hemofiltrate by CHF but not by CPFA.

Published
2010
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44. Exploring chemical substructures essential for HERG k(+) channel blockade by synthesis and biological evaluation of dofetilide analogues.

Author

Guo D, Klaasse E, de Vries H, Brussee J, Nalos L, Rook MB, Vos MA, van der Heyden MA, and Ijzerman AP

Subjects
Cell Line, ERG1 Potassium Channel, Humans, Molecular Structure, Phenethylamines chemical synthesis, Phenethylamines pharmacology, Potassium Channel Blockers chemical synthesis, Potassium Channel Blockers pharmacology, Structure-Activity Relationship, Sulfonamides chemical synthesis, Sulfonamides pharmacology, Drug Design, Ether-A-Go-Go Potassium Channels antagonists & inhibitors, Phenethylamines chemistry, Potassium Channel Blockers chemistry, Sulfonamides chemistry
Abstract

In this study we followed a new approach to analyze molecular substructures required for hERG channel blockade. We designed and synthesized 40 analogues of dofetilide (1), a potent hERG potassium channel blocker, and established structure-activity relationships (SAR) for their interaction with this important cardiotoxicity-related off-target. Structural modifications to dofetilide were made by diversifying the substituents on the phenyl rings and the protonated nitrogen and by varying the carbon chain length. The analogues were evaluated in a radioligand binding assay and SAR data were derived with the aim to specify structural features that give rise to hERG toxicity.

Published
2009
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