Modelling excitation coupling in ventricular cardiac myocytes

Vierheller, Janine

14 May 2018

Um die Kontraktion einer Herzmuskelzelle durch den Kalziumeinstrom zu ermöglichen, ist die Kopplung von Erregung und Kontraktion (ECC) von zentraler Bedeutung. Durch das elektrische Signal einer Nachbarzelle wird die Depolarisation des Sarkolemmas verursacht, wodurch sich die L-Typ-Kalziumkanäale (LKK) öffnen und der Amplifizierungsprozess eingeleitet wird. Letzterer ist bekannt als Kalzium induzierte Kalzium Freisetzung (CICR). Durch die LKK wird ein Kalziumeinstrom in die Zelle ermöglicht, welcher zur Öffnung der Ryanodinrezeptoren (RyR) des Sarkoplasmatischen Retikulums (SR) führt. Durch die Kalziumfreisetzung des SR wird dieses im Cytoplasma akkumuliert. Modelle für diese Prozesse werden seit mehreren Jahrzenten entwickelt. Bisher fehlte jedoch die Kombination aus räumlich aufgelösten Kalziumkonzentrationen der dyadischen Spalte mit stochastischen Simulationen der einzelnen Kalziumkanäle und die Kalziumdynamiken in der ganzen Zelle mit einem Elektrophysiologiemodell einer ganzen Herzmuskelzelle. In dieser Arbeit entwickleten wir ein neues Modell, in welchem die Konzentrationsgradienten von einzelnen Kanälen bis zum Ganzzelllevel räumlich aufgelöst werden. Es wurde der quasistatische Ansatz und die Finite-Elemente-Methode zur Integration partieller Differentialgleichungen verwendet. Es wurden Simulationen mit unterschiedlichen RyR Markow-Kette-Modellen, verschiedenen Parametern für die Bestandteile des SR, verschiedenen Konditionen des Natrium-Kalzium-Austauschers und unter Einbindung der Mitochondrien durchgeführt. Ziel war es, das physiologische Verhalten einer Kaninchen-Herzmuskelzelle zu simulieren. In dem neu entwickelten Multiskalenmodell wurden Hochleistungsrechner verwendet, um detaillierte Informationen über die Verteilung, die Regulation und die Relevanz von den im ECC involvierten Komponenten aufzuzeigen. Zukünftig soll das entwickelte Modell Anwendung bei der Untersuchung von Herzkontraktionen und Herzmuskelversagen finden. / Excitation contraction coupling (ECC) is of central importance to enable the contraction of the cardiac myocyte via calcium in ux. The electrical signal of a neighbouring cell causes the membrane depolarization of the sarcolemma and L-type Ca2+ channels (LCCs) open. The amplifcation process is initiated. This process is known as calcium-induced calcium release (CICR). The calcium in ux through the LCCs activates the ryanodine receptors (RyRs) of the sarcoplasmic reticulum (SR). The Ca2+ release of the SR accumulates calcium in the cytoplasm. For many decades models for these processes were developed. However, previous models have not combined the spatially resolved concentration dynamics of the dyadic cleft including the stochastic simulation of individual calcium channels and the whole cell calcium dynamics with a whole cardiac myocyte electrophysiology model. In this study, we developed a novel approach to resolve concentration gradients from single channel to whole cell level by using quasistatic approximation and finite element method for integrating partial differential equations. We ran a series of simulations with different RyR Markov chain models, different parameters for the SR components, sodium-calcium exchanger conditions, and included mitochondria to approximate physiological behaviour of a rabbit ventricular cardiac myocyte. The new multi-scale simulation tool which we developed makes use of high performance computing to reveal detailed information about the distribution, regulation, and importance of components involved in ECC. This tool will find application in investigation of heart contraction and heart failure.

Herzmuskelzelle

Kalziumzirkulation

Räumlich aufgelöstes Model

Finite Elemente

Stochastisch

Markow-Kette

Sarkoplasmatisches Retikulum

Natrium-Kalzium-Austauscher

Mitochondrien

cardiac myocyte

calcium cycling

spatially resolved model

finite elements

stochastic

Markov chain

sarcoplasmic reticulum

sodium-calcium exchanger

mitochondria

570 Biowissenschaften; Biologie

530 Physik

WW 7703

WD 9200

ddc:570

ddc:530

Garantie de la qualité de service et évaluation de performance des réseaux de télécommunications

Tomasik, Joanna

04 January 2012

Notre recherche porte sur des méthodes pour garantir la QoS dans les réseaux filaires classiques, optiques, ad hoc et le réseau global Internet au niveau des domaines. Afin de valider les méthodes proposées, nous créons des modèles à partir des outils de la théorie des files d'attente. Nous étudions les méthodes analytiques et les méthodes numériques afin de traiter les générateurs de chaînes de Markov. Nous utilisons également dans nos études la simulation à évènements discrets. Le travail sur le réseau inter-domaine a nécessité le développement d'un outil pour la génération de topologies aléatoires avec une hiérarchie correspondant à celle observée dans l'Internet.

qualité de service

réseaux de télécommunications

méthodes d'optimisation

évaluation de performance

chaînes de Markow

Transformation model selection by multiple hypotheses testing

Lehmann, Rüdiger

17 October 2016

Transformations between different geodetic reference frames are often performed such that first the transformation parameters are determined from control points. If in the first place we do not know which of the numerous transformation models is appropriate then we can set up a multiple hypotheses test. The paper extends the common method of testing transformation parameters for significance, to the case that also constraints for such parameters are tested. This provides more flexibility when setting up such a test. One can formulate a general model with a maximum number of transformation parameters and specialize it by adding constraints to those parameters, which need to be tested. The proper test statistic in a multiple test is shown to be either the extreme normalized or the extreme studentized Lagrange multiplier. They are shown to perform superior to the more intuitive test statistics derived from misclosures. It is shown how model selection by multiple hypotheses testing relates to the use of information criteria like AICc and Mallows’ Cp, which are based on an information theoretic approach. Nevertheless, whenever comparable, the results of an exemplary computation almost coincide.

Koordinatentransformation

Hypothesentest

Affintransformation

Ähnlichkeitstransformation

Gauß-Markow-Model mit Nebenbedingungen

Normierter Lagrange-Multiplikator

Studentisierter Lagrange-Multiplikator

Akaike's Informationskriterium

Mallows’ Cp

Coordinate transformation

Hypothesis test

Affine transformation

Similarity transformation

Gauss-Markov model with constraints

Normalized Lagrange multiplier

Studentized Lagrange multiplier

Akaike information criterion

Mallows’ Cp

ddc:500

rvk:ZI 9070

Transformation model selection by multiple hypotheses testing

Lehmann, Rüdiger

January 2014

Transformations between different geodetic reference frames are often performed such that first the transformation parameters are determined from control points. If in the first place we do not know which of the numerous transformation models is appropriate then we can set up a multiple hypotheses test. The paper extends the common method of testing transformation parameters for significance, to the case that also constraints for such parameters are tested. This provides more flexibility when setting up such a test. One can formulate a general model with a maximum number of transformation parameters and specialize it by adding constraints to those parameters, which need to be tested. The proper test statistic in a multiple test is shown to be either the extreme normalized or the extreme studentized Lagrange multiplier. They are shown to perform superior to the more intuitive test statistics derived from misclosures. It is shown how model selection by multiple hypotheses testing relates to the use of information criteria like AICc and Mallows’ Cp, which are based on an information theoretic approach. Nevertheless, whenever comparable, the results of an exemplary computation almost coincide.

info:eu-repo/classification/ddc/500

ddc:500

Stochastic and temperature-related aspects of the Preisach model of hysteresis

Schubert, Sven

07 December 2011

Ziel der vorliegenden Arbeit ist es, das Preisach-Modell bezüglich stochastischer äußerer Felder und temperaturbezogener Aspekte zu untersuchen. Das phänomenologische Preisach-Modell wird oft erfolgreich angewendet, um Systeme mit Hysterese zu beschreiben. Im ersten Teil der Arbeit wird die Antwort des Preisach-Modells auf stochastische äußere Felder untersucht. Hier liegt das Augenmerk hauptsächlich auf der Autokorrelation; sie dient dazu den Einfluss des hysteretischen Gedächtnisses zu quantifizieren. Mit analytischen Methoden wird gezeigt, dass sich ein Langzeitgedächtnis, sichtbar in der Autokorrelation der Systemantwort, entwickeln kann, selbst wenn das treibende Feld unkorreliert ist. Im Anschluss werden diese Resultate, m.H. von Simulationen, auf äußere Felder ausgeweitet, die selbst Korrelationen aufweisen können. Der zweite Teil der Arbeit befasst sich mit dem Einfluss einer endlichen Temperatur auf das Preisach-Modell. Es werden unterschiedliche Methoden besprochen, wie das Nichtgleichgewichtsmodell in seiner mikromagnetischen Interpretation mit Temperatur als Gleichgewichtseigenschaft verknüpft werden kann. Eine Formulierung wird genutzt, um die Magnetisierung von Nickelnanopartikeln in einer Fullerenmatrix zu simulieren und mit Experimenten zu vergleichen. Des Weiteren wird die Relaxationsdynamik des Gedächtnisses des Preisach-Modells bei endlichen Temperaturen untersucht. / The aim of this thesis is to investigate the Preisach model in regard to stochastically driving and temperature-related aspects. The Preisach model is a phenomenological model for systems with hysteresis which is often successfully applied. Hysteresis is a widespread phenomenon which is observed in nature and the key feature of certain technological applications. Further, it contributes to phenomena of interest in social science and economics as well. Prominent examples are the magnetization of ferromagnetic materials in an external magnetic field or the adsorption-desorption hysteresis observed in porous media. Hysteresis involves the development of a hysteresis memory, and multistability in the interrelations between external driving fields and system response. In the first part, we mainly investigate the response of Preisach hysteresis models driven by stochastic input processes with regard to autocorrelation functions to quantify the influence of the system’s memory. Using rigorous methods, it is shown that the development of a hysteresis memory is reflected in the possibility of long-time tails in the autocorrelation functions, even for uncorrelated driving fields. In the case of uncorrelated driving, these long-time tails in the autocorrelations of the system’s response are determined only by the tails of the involved densities. They will be observed if there are broad Preisach densities assigning a high weight to elementary loops of large width and narrow input densities such that rare extreme events of the input time series contribute significantly to the output for a long period of time. Afterwards, these results are extended by simulations to driving fields which themselves show correlations. It is shown that the autocorrelation of the output does not decay faster than the autocorrelation of the input process. Further, there is a possibility that long-term memory in the hysteretic response is more pronounced in the case of uncorrelated driving than in the case of correlated driving. The behavior of the output probability distribution at the saturation values is quite universal. It is not affected by the presence of correlations and allows conclusions whether the input density is much more narrow than the Preisach density or not. Moreover, the existence of effective Preisach densities is shown which define equivalence classes of systems of input and Preisach densities which lead to realizations of the same output variable. The asymptotic behavior of an effective Preisach density determines the asymptotic correlation decay of the system’s response in the case of uncorrelated driving. In the second part, temperature-related effects are considered. It is reviewed how the non-equilibrium Preisach model in its micromagnetic picture can be related to temperature within the framework of extended irreversible thermodynamics. The irreversible response of a ferromagnetic material, namely, Nickel nanoparticles in a fullerene matrix, is simulated. The model includes superparamagnetism where ferromagnetism breaks down at temperatures lower than the Curie temperature and the results are compared to experimental data. Furthermore, we adapt known results for the thermal relaxation of the system’s memory in the form of a front propagation in the Preisach plane derived basically from solving a master equation and by the use of a contradictory assumption. A closer look is taken at short time scales which dissolves the contradiction and shows that the known results apply, taking into account the fact that the dividing line propagation starts with an additional delay time depending on the front coordinates in the Preisach plane. Additionally, it is outlined how thermal relaxation behavior in the Preisach model of hysteresis can be studied using a Fokker-Planck equation. The latter is solved analytically in the non-hysteretic limit using eigenfunction methods. The results indicate a change in the relaxation behavior, especially on short time scales.

Hysterese

Preisach-Modell

Magnetisierungskurven

magnetische Nanopartikel

magnetische Nachwirkung

stochastische Prozesse

Markow-Prozesse

Fokker-Planck-Gleichung

Mastergleichung

Autokorrelation

1/f-Rauschen

Hysteresis

Preisach model

magnetization curves

magnetic nanoparticles

magnetic after-effects

stochastic processes

Markov processes

Fokker-Planck and master equation

autocorrelations

1/f-noise

ddc:530

ddc:538

Hysterese

Nichtgleichgewicht

Nichtgleichgewichtsstatistik

Magnetisierungskurve

Nanopartikel

Magnetische Relaxation

Stochastische Anregung

Fokker-Planck-Gleichung

Master-Gleichung

Autokorrelation

Eins-durch-f-Rauschen

Stochastic and temperature-related aspects of the Preisach model of hysteresis

Schubert, Sven

22 June 2011

Ziel der vorliegenden Arbeit ist es, das Preisach-Modell bezüglich stochastischer äußerer Felder und temperaturbezogener Aspekte zu untersuchen. Das phänomenologische Preisach-Modell wird oft erfolgreich angewendet, um Systeme mit Hysterese zu beschreiben. Im ersten Teil der Arbeit wird die Antwort des Preisach-Modells auf stochastische äußere Felder untersucht. Hier liegt das Augenmerk hauptsächlich auf der Autokorrelation; sie dient dazu den Einfluss des hysteretischen Gedächtnisses zu quantifizieren. Mit analytischen Methoden wird gezeigt, dass sich ein Langzeitgedächtnis, sichtbar in der Autokorrelation der Systemantwort, entwickeln kann, selbst wenn das treibende Feld unkorreliert ist. Im Anschluss werden diese Resultate, m.H. von Simulationen, auf äußere Felder ausgeweitet, die selbst Korrelationen aufweisen können. Der zweite Teil der Arbeit befasst sich mit dem Einfluss einer endlichen Temperatur auf das Preisach-Modell. Es werden unterschiedliche Methoden besprochen, wie das Nichtgleichgewichtsmodell in seiner mikromagnetischen Interpretation mit Temperatur als Gleichgewichtseigenschaft verknüpft werden kann. Eine Formulierung wird genutzt, um die Magnetisierung von Nickelnanopartikeln in einer Fullerenmatrix zu simulieren und mit Experimenten zu vergleichen. Des Weiteren wird die Relaxationsdynamik des Gedächtnisses des Preisach-Modells bei endlichen Temperaturen untersucht. / The aim of this thesis is to investigate the Preisach model in regard to stochastically driving and temperature-related aspects. The Preisach model is a phenomenological model for systems with hysteresis which is often successfully applied. Hysteresis is a widespread phenomenon which is observed in nature and the key feature of certain technological applications. Further, it contributes to phenomena of interest in social science and economics as well. Prominent examples are the magnetization of ferromagnetic materials in an external magnetic field or the adsorption-desorption hysteresis observed in porous media. Hysteresis involves the development of a hysteresis memory, and multistability in the interrelations between external driving fields and system response. In the first part, we mainly investigate the response of Preisach hysteresis models driven by stochastic input processes with regard to autocorrelation functions to quantify the influence of the system’s memory. Using rigorous methods, it is shown that the development of a hysteresis memory is reflected in the possibility of long-time tails in the autocorrelation functions, even for uncorrelated driving fields. In the case of uncorrelated driving, these long-time tails in the autocorrelations of the system’s response are determined only by the tails of the involved densities. They will be observed if there are broad Preisach densities assigning a high weight to elementary loops of large width and narrow input densities such that rare extreme events of the input time series contribute significantly to the output for a long period of time. Afterwards, these results are extended by simulations to driving fields which themselves show correlations. It is shown that the autocorrelation of the output does not decay faster than the autocorrelation of the input process. Further, there is a possibility that long-term memory in the hysteretic response is more pronounced in the case of uncorrelated driving than in the case of correlated driving. The behavior of the output probability distribution at the saturation values is quite universal. It is not affected by the presence of correlations and allows conclusions whether the input density is much more narrow than the Preisach density or not. Moreover, the existence of effective Preisach densities is shown which define equivalence classes of systems of input and Preisach densities which lead to realizations of the same output variable. The asymptotic behavior of an effective Preisach density determines the asymptotic correlation decay of the system’s response in the case of uncorrelated driving. In the second part, temperature-related effects are considered. It is reviewed how the non-equilibrium Preisach model in its micromagnetic picture can be related to temperature within the framework of extended irreversible thermodynamics. The irreversible response of a ferromagnetic material, namely, Nickel nanoparticles in a fullerene matrix, is simulated. The model includes superparamagnetism where ferromagnetism breaks down at temperatures lower than the Curie temperature and the results are compared to experimental data. Furthermore, we adapt known results for the thermal relaxation of the system’s memory in the form of a front propagation in the Preisach plane derived basically from solving a master equation and by the use of a contradictory assumption. A closer look is taken at short time scales which dissolves the contradiction and shows that the known results apply, taking into account the fact that the dividing line propagation starts with an additional delay time depending on the front coordinates in the Preisach plane. Additionally, it is outlined how thermal relaxation behavior in the Preisach model of hysteresis can be studied using a Fokker-Planck equation. The latter is solved analytically in the non-hysteretic limit using eigenfunction methods. The results indicate a change in the relaxation behavior, especially on short time scales.

info:eu-repo/classification/ddc/530

ddc:530

info:eu-repo/classification/ddc/538

ddc:538