Your search keyword '"Delgado-Eckert E"' showing total 30 results

1. Using clusters of asthmatic patients to quantitatively estimate, prior to initiating treatment, the likelihood of β2-agonist response in asthma patients

Author

Delgado-Eckert, E, primary, Thamrin, C, additional, Town, I, additional, Taylor, D R, additional, and Frey, U, additional

Published

2022

2. Lung function fluctuation patterns unveil asthma and COPD phenotypes unrelated to type 2 inflammation

Author

Delgado-Eckert, E. James, A. Meier-Girard, D. Kupczyk, M. Andersson, L.I. Bossios, A. Mikus, M. Ono, J. Izuhara, K. Middelveld, R. Dahlén, B. Gaga, M. Siafakas, N.M. Papi, A. Beghe, B. Joos, G. Rabe, K.F. Sterk, P.J. Bel, E.H. Johnston, S.L. Chanez, P. Gjomarkaj, M. Howarth, P.H. Niżankowska-Mogilnicka, E. Dahlén, S.-E. Frey, U.

Subjects

respiratory system, respiratory tract diseases

Abstract

Background: In all chronic airway diseases, the dynamics of airway function are influenced by underlying airway inflammation and bronchial hyperresponsiveness along with limitations in reversibility owing to airway and lung remodeling as well as mucous plugging. The relative contribution of each component translates into specific clinical patterns of symptoms, quality of life, exacerbation risk, and treatment success. Objective: We aimed to evaluate whether subgrouping of patients with obstructive airway diseases according to patterns of fluctuation in lung function allows identification of specific phenotypes with distinct clinical characteristics. Methods: We applied the novel method of fluctuation-based clustering (FBC) to twice-daily FEV1 measurements recorded over a 1-year period in a mixed group of 134 adults with mild-to-moderate asthma, severe asthma, or chronic obstructive pulmonary disease from the European BIOAIR cohort. Results: Independently of clinical diagnosis, FBC divided patients into 4 fluctuation-based clusters with progressively increasing alterations in lung function that corresponded to patterns of increasing clinical severity, risk of exacerbation, and lower quality of life. Clusters of patients with airway disease with significantly elevated levels of biomarkers relating to remodeling (osteonectin) and cellular senescence (plasminogen activator inhibitor-1), accompanied by a loss of airway reversibility, pulmonary hyperinflation, and loss of diffusion capacity, were identified. The 4 clusters generated were stable over time and revealed no differences in levels of markers of type 2 inflammation (blood eosinophils and periostin). Conclusion: FBC-based phenotyping provides another level of information that is complementary to clinical diagnosis and unrelated to eosinophilic inflammation, which could identify patients who may benefit from specific treatment strategies or closer monitoring. © 2021

Published

2021

3. Monomial dynamical and control systems over a finite field and applications to agent-based models in immunology

Author

Delgado-Eckert, E.

Subjects

Time discrete dynamical systems, Monomial dynamical systems, Finite fields, reverse-engineering, Modeling, Immunology, EBV

Abstract

In this dissertation we study time discrete monomial dynamical systems as well as control systems over a finite field. Furthermore, we study the performance of a recently developed “reverse engineering” method that was conceived to reconstruct a time discrete dynamical system over a finite field out of biological time series data. We establish to what extent this method can be used to approximate the stochastic agent-based model PathSim, which simulates Epstein-Barr virus infection. The main results of this work are: Theorems that forecast the long term dynamics of the systems mentioned above and their algorithmic applications. Controllability results as well as methods for the synthesis of state feedback laws. Statements about the relationship between the performance of the “reverse engineering” method and the quantity or quality of the time series data used.

Published

2008

4. Competition-colonization trade-off promotes coexistence of low-virulence viral strains

Author

Ojosnegros, S, Delgado-Eckert, E, Beerenwinkel, N, Ojosnegros, S, Delgado-Eckert, E, and Beerenwinkel, N

Abstract

RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The evolution of virulence in viral populations is, however, poorly understood. On the basis of the experimental observation of an RNA virus clone in cell culture diversifying into two subpopulations of different virulence, we study the dynamics of mutating virus populations with varying virulence. We introduce a competition-colonization trade-off into standard mathematical models of intra-host viral infection. Colonizers are fast-spreading virulent strains, whereas the competitors are less-virulent variants but more successful within co-infected cells. We observe a two-step dynamics of the population. Early in the infection, the population is dominated by colonizers, which later are outcompeted by competitors. Our simulations suggest the existence of steady state in which all virulence classes coexist but are dominated by the most competitive ones. This equilibrium implies collective virulence attenuation in the population, in contrast to previous models predicting evolution of the population towards increased virulence.

Published

2012

5. A virtual look at Epstein–Barr virus infection: Simulation mechanism

Author

Shapiro, M., primary, Duca, K.A., additional, Lee, K., additional, Delgado-Eckert, E., additional, Hawkins, J., additional, Jarrah, A.S., additional, Laubenbacher, R., additional, Polys, N.F., additional, Hadinoto, V., additional, and Thorley-Lawson, D.A., additional

Published

2008

6. Symptom trajectories in infancy for the prediction of subsequent wheeze and asthma in the BILD and PASTURE cohorts: a dynamic network analysis.

Author

Nahum U, Gorlanova O, Decrue F, Oller H, Delgado-Eckert E, Böck A, Schulzke S, Latzin P, Schaub B, Karvonen AM, Lauener R, Divaret-Chauveau A, Illi S, Roduit C, von Mutius E, and Frey U

Subjects

Humans, Infant, Female, Male, Infant, Newborn, Risk Factors, Switzerland, Cohort Studies, Finland, France, Respiratory Sounds, Asthma diagnosis

Abstract

Background: Host and environment early-life risk factors are associated with progression of wheezing symptoms over time; however, their individual contribution is relatively small. We hypothesised that the dynamic interactions of these factors with an infant's developing respiratory system are the dominant factor for subsequent wheeze and asthma., Methods: In this dynamic network analysis we used data from term healthy infants from the Basel-Bern Infant Lung Development (BILD) cohort (435 neonates aged 0-4 weeks recruited in Switzerland between Jan 1, 1999, and Dec 31, 2012) and replicated the findings in the Protection Against Allergy Study in Rural Environments (PASTURE) cohort (498 infants aged 0-12 months recruited in Germany, Switzerland, Austria, France, and Finland between Jan 1, 2002, and Oct 31, 2006). BILD exclusion criteria for the current study were prematurity (<37 weeks), major birth defects, perinatal disease of the neonate, and incomplete follow-up period. PASTURE exclusion criteria were women younger than 18 years, a multiple pregnancy, the sibling of a child was already included in the study, the family intended to move away from the area where the study was conducted, and the family had no telephone connection. Outcome groups were subsequent wheeze, asthma, and healthy. The first outcome was defined as ever wheezed between the age of 2 years and 6 years. Week-by-week correlations of the determining factors with cumulative symptom scores (CSS) were calculated from weeks 2 to 52 (BILD) and weeks 8 to 52 (PASTURE). The complex dynamic interaction between the determining factors and the CSS was assessed via dynamic host-environment correlation network, quantified by a simple descriptor: trajectory function G(t). Wheeze outcomes at age 2-6 years were compared in 335 infants from BILD and 437 infants from PASTURE, and asthma outcomes were analysed at age 6 years in a merged cohort of 783 infants., Findings: CSS was significantly different for wheeze and asthma outcomes and became increasingly important during infancy in direct comparison with all determining factors. Weekly symptoms were tracked for groups of infants, showing a non-linear increase with time. Using logistic regression classification, G(t) distinguished between the healthy group and wheeze or asthma groups (area under the curve>0·97, p<0·0001; sensitivity analysis confirmed significant CSS association with wheeze [BILD p=0·0002 and PASTURE p=0·068]) and G(t) was also able to distinguish between the farming and non-farming exposure groups (p<0·0001)., Interpretation: Similarly to other risk factors, CSS had weak sensitivity and specificity to identify risks at the individual level. At group level however, the dynamic host-environment correlation network properties (G(t)) showed excellent discriminative ability for identifying groups of infants with subsequent wheeze and asthma. Results from this study are consistent with the 2018 Lancet Commission on asthma, which emphasised the importance of dynamic interactions between risk factors during development and not the risk factors per se., Funding: The Swiss National Science Foundation, the Kühne Foundation, the EFRAIM study EU research grant, the FORALLVENT study EU research grant, and the Leibniz Prize., Competing Interests: Declaration of interests PL reports board membership, funding grants, and speaking and lecture fees from Vertex and OM Pharma; speaking and lecture fees from Vifor Pharma Switzerland; and board membership with Polyphor, Santhera Pharmaceuticals Schweiz, Allecra Therapeutics, and Sanofi. AD-C reports consulting fees from Sanofi, Stallergens, ALK, and Aimmune Therapeutics; speaking fees and meeting attendance costs from Novartis and ALK; stock or stock options with Essilor Luxottica; a grant from Novartis and ARAIRLOR for asthma and cough research; received a grant from Don du Souffle, Fondation du Souffle, and ARAIRLOR for the PASTURE research; and received a contract with the French public agency ANSES. AMK reports that payments were made to their institution from the Juho Vanio Foundation, the Päiwikki and Sakari Sohlberg Foundation, the Finnish Cultural Foundation, the Academy of Finland, and the Finnish Institute for Health and Welfare. RL reports a research grant from the Kühne Foundation; and advisory board and lecture fees from ALK, Pfizer, Milupia, VIFOR, and Sanofi. BS reports research grants from Deutsche Forschungsgemeinschaft and consulting fees from GSK, Novartis, and Sanofi. EvM reports funding grants from the PASTURE study, the EFRAIM study, the FORALLVENT study, and the Leibniz Prize; research grants from the German Federal Ministry of Education and Research, the Bavarian State Ministry of Health and Care, OM Pharma, and the European Research Council; royalties or licences from Elsevier, Georg Thieme Verlag, Springer-Verlag, and Springer Nature Group; consulting fees from the Chinese University of Hong Kong, the European Commission, AstraZeneca, Imperial College London, and OM Pharma; lecture, speaker, or educational fees from ALK-Abello Arzneimittel, Japanese Society of Pediatric Allergy and Clinical Immunology, Klinikum Rechts der Isar, University of Colorado, Paul-Martini-Stiftung, AstraZeneca, Imperial College London, Children's Hospital Research Institute of Manitoba Kompetenzzentrum für Ernährung (Kern), OM Pharma, Swedish Pediatric Society for Allergy and Lung Medicine, Chinese College of Allergy and Asthma, Abbott Laboratories, Deutscher Apotheker Verlag, Socieded Chilena de Enfermedades Respiratorias, Japanese Society of Allergology,British Society for Asthma and Clinical Immunology, American Academy of Allergy, Asthma & Immunology, and the European Respiratory Society (ERS); meeting attendance support from Deutsches Zentrum für Lungenforschung, Fraunhofer ITEM Hannover, MCCA Institut für Immunologie Uni Wien, Karl-Landsteiner Privatuniversität für Gesundheitswissenschaften, Swiss Institute of Allergy and Asthma Research, Davos (Associated Institute of the University of Zurich), Medizinische Hochschule Hannover, Natasha Allergy Research Foundation, Deutsche Forschungsgemeinschaft, Gordon Research Conferences, Socieded Chilena de Enfermedades Respiratorias, Arla, Universität Leiden,OM Pharma, American Academy of Allergy, Asthma & Clinical Immunology, Deutsche Forschungsgemeinschaft, ERS, Deutsche Gesellschaft für Kinder- und Jugendmedizin, World Allergy Organization, and European Parliament; has a patent pending (PCT/EP2019/085016) for barn dust extract for the prevention and treatment of diseases; has royalties paid to ProtectImmun for a patent (EP2361632 for specific environmental bacteria for the protection from and/or the treatment of allergic, chronic inflammatory and/or autoimmune disorders, granted on March 19, 2014); has patents licensed to ProtectImmun (EP1411977 for composition containing bacterial antigens used for the prophylaxis and the treatment of allergic diseases, granted on April 18, 2007; EP1637147 for stable dust extract for allergy protection granted on Dec 10, 2008; and EP1964570 for pharmaceutical compound to protect against allergies and inflammatory diseases, granted on Nov 21, 2012); has a patent (EP21189353.2) for proteins identified from barn dust extract for the prevention and treatment of diseases; has a patent (PCT/US2021/016918) for therapeutic fractions and proteins from asthma-protective farm dust; has a patent (EP21189353.2) for proteins identified from barn dust extract for the prevention and treatment of diseases; and is a member of the EXPANSE (funded by European Commission) Scientific Advisory Board, the BEAMS External Scientific Advisory Board, the Editorial Board of The Journal of Allergy and Clinical Immunology: In Practice, the Scientific Advisory Board of the Children's Respiratory and Environmental Workgroup, the International Scientific & Societal Advisory Board of Utrecht Life Sciences University of Utrecht, the External Review Panel of the Faculty of Veterinary Science (University of Utrecht), the Selection Committee for the Gottfried Wilhelm Leibniz Programme, the International Advisory Board of Asthma UK Centre for Applied Research, the International Advisory Board of The Lancet Respiratory Medicine, the Scientific Advisory Board of the Canadian Healthy Infant Longitudinal Development study (McMaster University, Hamilton, Canada), the Asthma UK Centre for Applied Research, the Pediatric Scientific Advisory Board Iceland, and the Abbott Allergy Risk Reduction Advisory Board. All other authors declare no competing interests., (Copyright © 2024 The Author(s). Published by Elsevier Ltd. This is an Open Access article under the CC BY 4.0 license. Published by Elsevier Ltd.. All rights reserved.)

Published

2024

7. AQP1 in the Gastrointestinal Tract of Mice: Expression Pattern and Impact of AQP1 Knockout on Colonic Function.

Author

Volkart S, Kym U, Braissant O, Delgado-Eckert E, Al-Samir S, Angresius R, Huo Z, Holland-Cunz S, and Gros SJ

Subjects

Animals, Mice, Rats, Aquaporins metabolism, Duodenum metabolism, Edema, Hypoxia, Mammals metabolism, Mice, Knockout, Sheep, Aquaporin 1 genetics, Aquaporin 1 metabolism, Colon metabolism, Gastrointestinal Tract metabolism

Abstract

Aquaporin 1 (AQP1) is one of thirteen known mammalian aquaporins. Its main function is the transport of water across cell membranes. Lately, a role of AQP has been attributed to other physiological and pathological functions including cell migration and peripheral pain perception. AQP1 has been found in several parts of the enteric nervous system, e.g., in the rat ileum and in the ovine duodenum. Its function in the intestine appears to be multifaceted and is still not completely understood. The aim of the study was to analyze the distribution and localization of AQP1 in the entire intestinal tract of mice. AQP1 expression was correlated with the hypoxic expression profile of the various intestinal segments, intestinal wall thickness and edema, as well as other aspects of colon function including the ability of mice to concentrate stools and their microbiome composition. AQP1 was found in a specific pattern in the serosa, the mucosa, and the enteric nervous system throughout the gastrointestinal tract. The highest amount of AQP1 in the gastrointestinal tract was found in the small intestine. AQP1 expression correlated with the expression profiles of hypoxia-dependent proteins such as HIF-1α and PGK1. Loss of AQP1 through knockout of AQP1 in these mice led to a reduced amount of bacteroidetes and firmicutes but an increased amount of the rest of the phyla, especially deferribacteres, proteobacteria, and verrucomicrobia. Although AQP-KO mice retained gastrointestinal function, distinct changes regarding the anatomy of the intestinal wall including intestinal wall thickness and edema were observed. Loss of AQP1 might interfere with the ability of the mice to concentrate their stool and it is associated with a significantly different composition of the of the bacterial stool microbiome.

Published

2023

8. Lung function fluctuation patterns unveil asthma and COPD phenotypes unrelated to type 2 inflammation.

Author

Delgado-Eckert E, James A, Meier-Girard D, Kupczyk M, Andersson LI, Bossios A, Mikus M, Ono J, Izuhara K, Middelveld R, Dahlén B, Gaga M, Siafakas NM, Papi A, Beghe B, Joos G, Rabe KF, Sterk PJ, Bel EH, Johnston SL, Chanez P, Gjomarkaj M, Howarth PH, Niżankowska-Mogilnicka E, Dahlén SE, and Frey U

Subjects

Adult, Aged, Asthma pathology, Female, Humans, Inflammation pathology, Inflammation physiopathology, Male, Middle Aged, Pulmonary Disease, Chronic Obstructive pathology, Airway Remodeling, Asthma physiopathology, Pulmonary Disease, Chronic Obstructive physiopathology, Respiratory Function Tests

Abstract

Background: In all chronic airway diseases, the dynamics of airway function are influenced by underlying airway inflammation and bronchial hyperresponsiveness along with limitations in reversibility owing to airway and lung remodeling as well as mucous plugging. The relative contribution of each component translates into specific clinical patterns of symptoms, quality of life, exacerbation risk, and treatment success., Objective: We aimed to evaluate whether subgrouping of patients with obstructive airway diseases according to patterns of fluctuation in lung function allows identification of specific phenotypes with distinct clinical characteristics., Methods: We applied the novel method of fluctuation-based clustering (FBC) to twice-daily FEV 1 measurements recorded over a 1-year period in a mixed group of 134 adults with mild-to-moderate asthma, severe asthma, or chronic obstructive pulmonary disease from the European BIOAIR cohort., Results: Independently of clinical diagnosis, FBC divided patients into 4 fluctuation-based clusters with progressively increasing alterations in lung function that corresponded to patterns of increasing clinical severity, risk of exacerbation, and lower quality of life. Clusters of patients with airway disease with significantly elevated levels of biomarkers relating to remodeling (osteonectin) and cellular senescence (plasminogen activator inhibitor-1), accompanied by a loss of airway reversibility, pulmonary hyperinflation, and loss of diffusion capacity, were identified. The 4 clusters generated were stable over time and revealed no differences in levels of markers of type 2 inflammation (blood eosinophils and periostin)., Conclusion: FBC-based phenotyping provides another level of information that is complementary to clinical diagnosis and unrelated to eosinophilic inflammation, which could identify patients who may benefit from specific treatment strategies or closer monitoring., (Copyright © 2021. Published by Elsevier Inc.)

Published

2021

9. Can Measurements of Inflammatory Biomarkers be Used to Spot Respiratory Viral Infections?

Author

Sinha A, Lutter R, Dekker T, Dierdorp B, Sterk PJ, Frey U, and Delgado-Eckert E

Subjects

Adult, Biomarkers analysis, Cytokines immunology, Female, Humans, Inflammation virology, Longitudinal Studies, Male, Nose immunology, Picornaviridae Infections immunology, Picornaviridae Infections virology, Prospective Studies, Respiratory Function Tests, Respiratory Tract Infections diagnosis, Rhinovirus, Young Adult, Asthma immunology, Asthma virology, Inflammation diagnosis, Picornaviridae Infections diagnosis, Respiratory Tract Infections virology

Abstract

Accurate detection of human respiratory viral infections is highly topical. We investigated how strongly inflammatory biomarkers (FeNO, eosinophils, neutrophils, and cytokines in nasal lavage fluid) and lung function parameters change upon rhinovirus 16 infection, in order to explore their potential use for infection detection. To this end, within a longitudinal cohort study, healthy and mildly asthmatic volunteers were experimentally inoculated with rhinovirus 16, and time series of these parameters/biomarkers were systematically recorded and compared between the pre- and post-infection phases of the study, which lasted two months and one month, respectively. We found that the parameters'/biomarkers' ability to discriminate between the infected and the uninfected state varied over the observation time period. Consistently over time, the concentration of cytokines, in nasal lavage fluid, showed moderate to very good discrimination performance, thereby qualifying for disease progression monitoring, whereas lung function and FeNO, while quickly and non-invasively measurable using cheap portable devices (e.g., at airports), performed poorly.

Published

2020

10. Fluctuation-based clustering reveals phenotypes of patients with different asthma severity.

Author

Jochmann A, Artusio L, Sharifian H, Jamalzadeh A, Fleming LJ, Bush A, Frey U, and Delgado-Eckert E

Abstract

Serial peak expiratory flow (PEF) measurements can identify phenotypes in severe adult asthma, enabling more targeted treatment. The feasibility of this approach in children has not been investigated. Overall, 105 children (67% male, median age 12.4 years) with a range of asthma severities were recruited and followed up over a median of 92 days. PEF was measured twice daily. Fluctuation-based clustering (FBC) was used to identify clusters based on PEF fluctuations. The patients' clinical characteristics were compared between clusters. Three PEF clusters were identified in 44 children with sufficient measurements. Cluster 1 (27% of patients: n=12) had impaired spirometry (mean forced expiratory volume in 1 s (FEV 1 ) 71% predicted), significantly higher exhaled nitric oxide (≥35 ppb) and uncontrolled asthma (asthma control test (ACT) score <20 of 25). Cluster 2 (45%: n=20) had normal spirometry, the highest proportion of difficult asthma and significantly more patients on a high dose of inhaled corticosteroids (≥800 µg budesonide). Cluster 3 (27%: n=12) had mean FEV 1 92% predicted, the highest proportion of patients with no bronchodilator reversibility, a low ICS dose (≤400 µg budesonide), and controlled asthma (ACT scores ≥20 of 25). Three clinically relevant paediatric asthma clusters were identified using FBC analysis on PEF measurements, which could improve telemonitoring diagnostics. The method remains robust even when 80% of measurements were removed. Further research will determine clinical applicability., Competing Interests: Conflict of interest: A. Jochmann has nothing to disclose. Conflict of interest: L. Artusio has nothing to disclose. Conflict of interest: H. Sharifian is a full-time employee of AstraZeneca and owns stock/stock options in AstraZeneca. Conflict of interest: A. Jamalzadeh has nothing to disclose. Conflict of interest: L.J. Fleming has nothing to disclose. Conflict of interest: A. Bush has nothing to disclose. Conflict of interest: U. Frey has nothing to disclose. Conflict of interest: E. Delgado-Eckert has nothing to disclose., (Copyright ©ERS 2020.)

Published

2020

11. Association of long-term exposure to traffic-related PM 10 with heart rate variability and heart rate dynamics in healthy subjects.

Author

Meier-Girard D, Delgado-Eckert E, Schaffner E, Schindler C, Künzli N, Adam M, Pichot V, Kronenberg F, Imboden M, Frey U, and Probst-Hensch N

Subjects

Aged, Air Pollutants analysis, Cardiovascular Diseases chemically induced, Cohort Studies, Female, Follow-Up Studies, Glutathione Transferase genetics, Healthy Volunteers, Humans, Linear Models, Male, Middle Aged, Obesity chemically induced, Particulate Matter analysis, Smoking, Air Pollutants toxicity, Heart Rate drug effects, Particulate Matter toxicity

Abstract

Background: Epidemiological evidence on the influence of long-term exposure to traffic-related particulate matter (TPM 10 ) on heart rate variability (HRV) is weak., Objective: To evaluate the association of long-term exposure (10 years) with TPM 10 on the regulation of the autonomic cardiovascular system and heart rate dynamics (HRD) in an aging general population, as well as potential modifying effects by the a priori selected factors sex, smoking status, obesity, and gene variation in selected glutathione S-transferases (GSTs)., Methods: We analyzed data from 1593 SAPALDIA cohort participants aged ≥ 50 years. For each participant, various HRV and HRD parameters were derived from 24-hour electrocardiogram recordings. Each parameter obtained was then used as the outcome variable in multivariable mixed linear regression models in order to evaluate the association with TPM 10 . Potential modifying effects were assessed using interaction terms., Results: No association between long-term exposure to TPM 10 and HRV/HRD was observed in the entire study population. However, HRD changes were found in subjects without cardiovascular morbidity and both HRD and HRV changes in non-obese subjects without cardiovascular morbidity. Subjects without cardiovascular morbidity with homozygous GSTM1 gene deletion appeared to be more susceptible to the effects of TPM 10 ., Conclusion: This study suggests that long-term exposure to TPM 10 triggers adverse changes in the regulation of the cardiovascular system. These adverse effects were more visible in the subjects without cardiovascular disease, in whom the overall relationship between TPM 10 and HRV/HRD could not be masked by underlying morbidities and the potential counteracting effects of related drug treatments., (Copyright © 2019 The Authors. Published by Elsevier Ltd.. All rights reserved.)

Published

2019

12. Dynamics of respiratory symptoms during infancy and associations with wheezing at school age.

Author

Usemann J, Xu B, Delgado-Eckert E, Korten I, Anagnostopoulou P, Gorlanova O, Kuehni C, Röösli M, Latzin P, and Frey U

Abstract

Children with frequent respiratory symptoms in infancy have an increased risk for later wheezing, but the association with symptom dynamics is unknown. We developed an observer-independent method to characterise symptom dynamics and tested their association with subsequent respiratory morbidity. In this birth-cohort of healthy neonates, we prospectively assessed weekly respiratory symptoms during infancy, resulting in a time series of 52 symptom scores. For each infant, we calculated the transition probability between two consecutive symptom scores. We used these transition probabilities to construct a Markov matrix, which characterised symptom dynamics quantitatively using an entropy parameter. Using this parameter, we determined phenotypes by hierarchical clustering. We then studied the association between phenotypes and wheezing at 6 years. In 322 children with complete data for symptom scores during infancy (16 864 observations), we identified three dynamic phenotypes. Compared to the low-risk phenotype, the high-risk phenotype, defined by the highest entropy parameter, was associated with an increased risk of wheezing (odds ratio (OR) 3.01, 95% CI 1.15-7.88) at 6 years. In this phenotype, infants were more often male (64%) and had been exposed to environmental tobacco smoke (31%). In addition, more infants had siblings (67%) and attended childcare (38%). We describe a novel method to objectively characterise dynamics of respiratory symptoms in infancy, which helps identify abnormal clinical susceptibility and recovery patterns of infant airways associated with persistent wheezing., Competing Interests: Conflict of interest: P. Latzin reports receiving personal fees from Vertex, Novartis, Roche, Polyphor, Vifor and Gilead outside the submitted work.

Published

2018

13. Functional phenotypes determined by fluctuation-based clustering of lung function measurements in healthy and asthmatic cohort participants.

Author

Delgado-Eckert E, Fuchs O, Kumar N, Pekkanen J, Dalphin JC, Riedler J, Lauener R, Kabesch M, Kupczyk M, Dahlen SE, Mutius EV, and Frey U

Subjects

Adult, Case-Control Studies, Child, Cluster Analysis, Cohort Studies, Female, Forced Expiratory Volume physiology, Humans, Male, Peak Expiratory Flow Rate physiology, Phenotype, Proof of Concept Study, Asthma complications, Asthma physiopathology

Abstract

Rationale: Asthma is characterised by inflammation and reversible airway obstruction. However, these features are not always closely related. Fluctuations of daily lung function contain information on asthma phenotypes, exacerbation risk and response to long-acting β-agonists., Objectives: In search of subgroups of asthmatic participants with specific lung functional features, we developed and validated a novel clustering approach to asthma phenotyping, which exploits the information contained within the fluctuating behaviour of twice-daily lung function measurements., Methods: Forced expiratory volume during the first second (FEV 1 ) and peak expiratory flow (PEF) were prospectively measured over 4 weeks in 696 healthy and asthmatic school children (Protection Against Allergy - Study in Rural Environments (PASTURE)/EFRAIM cohort), and over 1 year in 138 asthmatic adults with mild-to-moderate or severe asthma (Pan-European Longitudinal Assessment of Clinical Course and BIOmarkers in Severe Chronic AIRway Disease (BIOAIR) cohort). Using enrichment analysis, we explored whether the method identifies clinically meaningful, distinct clusters of participants with different lung functional fluctuation patterns., Measurements and Main Results: In the PASTURE/EFRAIM dataset, we found four distinct clusters. Two clusters were enriched in children with well-known clinical characteristics of asthma. In cluster 3, children from a farming environment predominated, whereas cluster 4 mainly consisted of healthy controls. About 79% of cluster 3 carried the asthma-risk allele rs7216389 of the 17q21 locus. In the BIOAIR dataset, we found two distinct clusters clearly discriminating between individuals with mild-to-moderate and severe asthma., Conclusions: Our method identified dynamic functional asthma and healthy phenotypes, partly independent of atopy and inflammation but related to genetic markers on the 17q21 locus. The method can be used for disease phenotyping and possibly endotyping. It may identify participants with specific functional abnormalities, potentially needing a different therapeutic approach., Competing Interests: Competing interests: None declared., (© Article author(s) (or their employer(s) unless otherwise stated in the text of the article) 2018. All rights reserved. No commercial use is permitted unless otherwise expressly granted.)

Published

2018

14. Electronic monitoring of adherence to inhaled corticosteroids: an essential tool in identifying severe asthma in children.

Author

Jochmann A, Artusio L, Jamalzadeh A, Nagakumar P, Delgado-Eckert E, Saglani S, Bush A, Frey U, and Fleming LJ

Subjects

Administration, Inhalation, Adolescent, Child, Child, Preschool, Drug Monitoring, Electrical Equipment and Supplies, Female, Humans, Male, Prospective Studies, United Kingdom, Adrenal Cortex Hormones administration & dosage, Anti-Asthmatic Agents administration & dosage, Asthma drug therapy, Medication Adherence statistics & numerical data

Abstract

International guidelines recommend that severe asthma can only be diagnosed after contributory factors, including adherence, have been addressed. Accurate assessment of adherence is difficult in clinical practice. We hypothesised that electronic monitoring in children would identify nonadherence, thus delineating the small number with true severe asthma.Asthmatic children already prescribed inhaled corticosteroids were prospectively recruited and persistence of adherence assessed using electronic monitoring devices. Spirometry, airway inflammation and asthma control were measured at the start and end of the monitoring period.93 children (62 male; median age 12.4 years) were monitored for a median of 92 days. Median (range) monitored adherence was 74% (21-99%). We identified four groups: 1) good adherence during monitoring with improved control, 24% (likely previous poor adherence); 2) good adherence with poor control, 18% (severe therapy-resistant asthma); 3) poor adherence with good control, 26% (likely overtreated); and 4) poor adherence with poor control, 32%. No clinical parameter prior to monitoring distinguished these groups.Electronic monitoring is a useful tool for identifying children in whom a step up in treatment is indicated. Different approaches are needed in those who are controlled when adherent or who are nonadherent. Electronic monitoring is essential in a paediatric severe asthma clinic., Competing Interests: Conflict of interest: None declared., (Copyright ©ERS 2017.)

Published

2017

15. Breath-to-breath variability of exhaled CO 2 as a marker of lung dysmaturity in infancy.

Author

Fouzas S, Theodorakopoulos I, Delgado-Eckert E, Latzin P, and Frey U

Subjects

Capnography, Female, Humans, Infant, Infant, Premature, Lung Diseases physiopathology, Male, Prospective Studies, Carbon Dioxide analysis, Exhalation, Lung physiopathology

Abstract

The concept of diffusional screening implies that breath-to-breath variations in CO 2 clearance, when related to the variability of breathing, may contain information on the quality and utilization of the available alveolar surface. We explored the validity of the above hypothesis in a cohort of young infants of comparable postmenstrual age but born at different stages of lung maturity, namely, in term-born infants ( n = 128), preterm-born infants without chronic lung disease of infancy (CLDI; n = 53), and preterm infants with moderate/severe CLDI ( n = 87). Exhaled CO 2 volume (V E,CO2 ) and concentration (F E,CO2 ) were determined by volumetric capnography, whereas their variance was assessed by linear and nonlinear variability metrics. The relationship between relative breath-to-breath change of V E,CO2 (ΔV E,CO2 ) and the corresponding change of tidal volume (ΔV T ) was also analyzed. Nonlinear F E,CO2 variability was lower in CLDI compared with term and non-CLDI preterm group ( P < 0.001 for both comparisons). In CLDI infants, most of the V E,CO2 variability was attributed to the variability of V T ( r 2 = 0.749), whereas in term and healthy preterm infants this relationship was weaker ( r 2 = 0.507 and 0.630, respectively). The ΔV E,CO2 - ΔV T slope was less steep in the CLDI group (1.06 ± 0.07) compared with non-CLDI preterm (1.16 ± 0.07; P < 0.001) and term infants (1.20 ± 0.10; P < 0.001), suggesting that the more dysmature the infant lung, the less efficiently it eliminates CO 2 under tidal breathing conditions. We conclude that the temporal variation of CO 2 clearance may be related to the degree of lung dysmaturity in early infancy. NEW & NOTEWORTHY Young infants exhibit appreciable breath-to-breath CO 2 variability that can be quantified by nonlinear variability metrics and may reflect the degree of lung dysmaturity. In infants with moderate/severe chronic lung disease of infancy (CLDI), the variability of the exhaled CO 2 is mainly driven by the variability of breathing, whereas in term-born and healthy preterm infants this relationship is less strong. The slope of the relative CO 2 -to-volume change is less steep in CLDI infants, suggesting that dysmature lungs are less efficient in eliminating CO 2 under tidal breathing conditions.

Published

2017

16. Dynamics and complexity of body temperature in preterm infants nursed in incubators.

Author

Jost K, Pramana I, Delgado-Eckert E, Kumar N, Datta AN, Frey U, and Schulzke SM

Subjects

Body Size, Comorbidity, Female, Gestational Age, Humans, Incubators, Infant, Infant, Newborn, Linear Models, Male, Regression Analysis, Body Temperature, Body Temperature Regulation, Infant, Premature physiology

Abstract

Background: Poor control of body temperature is associated with mortality and major morbidity in preterm infants. We aimed to quantify its dynamics and complexity to evaluate whether indices from fluctuation analyses of temperature time series obtained within the first five days of life are associated with gestational age (GA) and body size at birth, and presence and severity of typical comorbidities of preterm birth., Methods: We recorded 3h-time series of body temperature using a skin electrode in incubator-nursed preterm infants. We calculated mean and coefficient of variation of body temperature, scaling exponent alpha (Talpha) derived from detrended fluctuation analysis, and sample entropy (TSampEn) of temperature fluctuations. Data were analysed by multilevel multivariable linear regression., Results: Data of satisfactory technical quality were obtained from 285/357 measurements (80%) in 73/90 infants (81%) with a mean (range) GA of 30.1 (24.0-34.0) weeks. We found a positive association of Talpha with increasing levels of respiratory support after adjusting for GA and birth weight z-score (p<0.001; R2 = 0.38)., Conclusion: Dynamics and complexity of body temperature in incubator-nursed preterm infants show considerable associations with GA and respiratory morbidity. Talpha may be a useful marker of autonomic maturity and severity of disease in preterm infants.

Published

2017

17. Immediate effects of phototherapy on sleep in very preterm neonates: an observational study.

Author

Cremer M, Jost K, Gensmer A, Pramana I, Delgado-Eckert E, Frey U, Schulzke SM, and Datta AN

Subjects

Birth Weight, Female, Gestational Age, Humans, Infant, Newborn, Movement, Pregnancy, Respiration, Sleep, REM physiology, Sleep, REM radiation effects, Ultradian Rhythm physiology, Ultradian Rhythm radiation effects, Video Recording, Wakefulness physiology, Wakefulness radiation effects, Infant, Extremely Premature physiology, Phototherapy, Sleep physiology, Sleep radiation effects

Abstract

Process C (internal clock) and Process S (sleep-wake homeostasis) are the basis of sleep-wake regulation. In the last trimester of pregnancy, foetal heart rate is synchronized with the maternal circadian rhythm. At birth, this interaction fails and an ultradian rhythm appears. Light exposure is a strong factor influencing the synchronization of sleep-wake processes. However, little is known about the effects of phototherapy on the sleep rhythm of premature babies. It was hypothesized that sleep in preterm infants would not differ during phototherapy, but that a maturation effect would be seen. Sleep states were studied in 38 infants born < 32 weeks gestational age and/or < 1 500 g birth weight. Videos of 3 h were taken over the first 5 days of life. Based on breathing and movement patterns, behavioural states were defined as: awake; active sleep; or quiet sleep. Videos with and without phototherapy were compared for amounts of quiet sleep and active states (awake + active sleep). No significant association between phototherapy and amount of quiet sleep was found (P = 0.083). Analysis of videos in infants not under phototherapy revealed an increase in time spent awake with increasing gestational age. The current data suggest that the ultradian rhythm of preterm infants seems to be independent of phototherapy, supporting the notion that sleep rhythm in this population is mainly driven by their internal clock., (© 2016 European Sleep Research Society.)

Published

2016

18. Air pollution modelling for birth cohorts: a time-space regression model.

Author

Proietti E, Delgado-Eckert E, Vienneau D, Stern G, Tsai MY, Latzin P, Frey U, and Röösli M

Subjects

Air Pollution analysis, Environmental Exposure analysis, Humans, Regression Analysis, Switzerland, Air Pollutants analysis, Models, Theoretical, Nitrogen Dioxide analysis

Abstract

Background: To investigate air pollution effects during pregnancy or in the first weeks of life, models are needed that capture both the spatial and temporal variability of air pollution exposures., Methods: We developed a time-space exposure model for ambient NO2 concentrations in Bern, Switzerland. We used NO2 data from passive monitoring conducted between 1998 and 2009: 101 rural sites (24,499 biweekly measurements) and 45 urban sites (4350 monthly measurements). We evaluated spatial predictors (land use; roads; traffic; population; annual NO2 from a dispersion model) and temporal predictors (meteorological conditions; NO2 from continuous monitoring station). Separate rural and urban models were developed by multivariable regression techniques. We performed ten-fold internal cross-validation, and an external validation using 57 NO2 passive measurements obtained at study participant's homes., Results: Traffic related explanatory variables and fixed site NO2 measurements were the most relevant predictors in both models. The coefficient of determination (R(2)) for the log transformed models were 0.63 (rural) and 0.54 (urban); cross-validation R(2)s were unchanged indicating robust coefficient estimates. External validation showed R(2)s of 0.54 (rural) and 0.67 (urban)., Conclusions: This approach is suitable for air pollution exposure prediction in epidemiologic research with time-vulnerable health effects such as those occurring during pregnancy or in the first weeks of life.

Published

2016

19. Long-term smoking cessation and heart rate dynamics in an aging healthy cohort: Is it possible to fully recover?

Author

Girard D, Delgado-Eckert E, Schaffner E, Häcki C, Adam M, Stern GL, Kumar N, Felber Dietrich D, Turk A, Pons M, Künzli N, Gaspoz JM, Rochat T, Schindler C, Probst-Hensch N, and Frey U

Subjects

Cohort Studies, Electrocardiography, Ambulatory, Female, Humans, Life Style, Linear Models, Male, Middle Aged, Recovery of Function, Smoking adverse effects, Smoking epidemiology, Switzerland, Time Factors, Aging physiology, Heart Rate physiology, Smoking Cessation statistics & numerical data, Smoking Prevention

Abstract

Aim: To evaluate the long-term influence of smoking cessation on the regulation of the autonomic cardiovascular system in an aging general population, using the subpopulation of lifelong non-smokers as control group., Methods: We analyzed 1481 participants aged ≥50 years from the SAPALDIA cohort. In each participant, heart rate variability and heart rate dynamics were characterized by means of various quantitative analyzes of the inter-beat interval time series generated from 24-hour electrocardiogram recordings. Each parameter obtained was then used as the outcome variable in multivariable linear regression models in order to evaluate the association with smoking status and time elapsed since smoking cessation. The models were adjusted for known confounding factors and stratified by the time elapsed since smoking cessation., Results: Our findings indicate that smoking triggers adverse changes in the regulation of the cardiovascular system, even at low levels of exposure since current light smokers exhibited significant changes as compared to lifelong non-smokers. Moreover, there was evidence for a dose-response effect. Indeed, the changes observed in current heavy smokers were more marked as compared to current light smokers. Furthermore, full recovery was achieved in former smokers (i.e., normalization to the level of lifelong non-smokers). However, while light smokers fully recovered within the 15 first years of cessation, heavy former smokers might need up to 15-25 years to fully recover., Conclusion: This study supports the substantial benefits of smoking cessation, but also warns of important long-term alterations caused by heavy smoking., (Copyright © 2015 Elsevier Inc. All rights reserved.)

Published

2015

20. Large-scale protein analysis of European beech trees following four vegetation periods of twice ambient ozone exposure.

Author

Kerner R, Delgado-Eckert E, Ernst D, Dupuy JW, Grams TE, Barbro Winkler J, Lindermayr C, and Müller-Starck G

Subjects

Europe, Mass Spectrometry, Proteomics, Fagus metabolism, Oxidants, Photochemical pharmacology, Ozone pharmacology, Plant Leaves metabolism, Plant Proteins metabolism, Proteome metabolism

Abstract

In the present study, we performed a large-scale protein analysis based on 2-DE DIGE to examine the effects of ozone on the leaves of juvenile European beech (Fagus sylvatica L.), one of the most important deciduous tree species in Central Europe. To this end, beech trees were grown under field conditions and subjected to ambient and twice ambient ozone concentrations during the vegetation periods of four consecutive years. The twice ambient ozone concentration altered the abundance of 237 protein spots, which showed relative ratios higher than 30% compared to the ambient control trees. A total of 74 protein spots were subjected to mass spectrometry identification (LC-MS/MS), followed by homology-driven searches. The differentially expressed proteins participate in key biological processes including the Calvin cycle and photosynthesis, carbon metabolism, defense- and stress-related responses, detoxification mechanisms, protein folding and degradation, and mechanisms involved in senescence. The ozone-induced responses provide evidence of a changing carbon metabolism and counteraction against increased levels of reactive oxygen species., Biological Significance: This study provides useful information on how European beech, an economically and ecologically important tree species, reacts on the molecular level to increased ozone concentrations expected in the near future. The main emphasis in the present study was placed on identifying differentially abundant proteins after long-term ozone exposure under climatically realistic settings, rather than short-term responses or reactions under laboratory conditions. Additionally, using nursery-grown beech trees, we took into account the natural genotypic variation of this species. As such, the results presented here provide information on molecular responses to ozone in an experimental plant system at very close to natural conditions. Furthermore, this proteomic approach was supported by previous studies on the present experiment. Ultimately, the combination of this proteomic approach with several approaches including transcriptomics, analysis of non-structural carbohydrates, and morphological effects contributes to a more global picture of how beech trees react under increased ozone concentrations., (Copyright © 2014. Published by Elsevier B.V.)

Published

2014

21. Volumetric capnography in infants with bronchopulmonary dysplasia.

Author

Fouzas S, Häcki C, Latzin P, Proietti E, Schulzke S, Frey U, and Delgado-Eckert E

Subjects

Bronchopulmonary Dysplasia diagnosis, Cross-Sectional Studies, Female, Follow-Up Studies, Gestational Age, Humans, Infant, Newborn, Infant, Premature, Infant, Premature, Diseases diagnosis, Infant, Premature, Diseases physiopathology, Male, Reproducibility of Results, Respiratory Rate, Retrospective Studies, Severity of Illness Index, Tidal Volume, Bronchopulmonary Dysplasia physiopathology, Capnography methods, Lung physiopathology

Abstract

Objectives: To assess the feasibility of using volumetric capnography in spontaneously breathing small infants and its ability to discriminate between infants with and without bronchopulmonary dysplasia (BPD)., Study Design: Lung function variables for 231 infants (102 term, 52 healthy preterm, 77 BPD), matched for post-conceptional age of 44 weeks, were collected. BPD was defined as supplemental oxygen requirement at 36 weeks post-menstrual age. Tidal breath-by-breath volume capnograms were obtained by mainstream capnography. The capnographic slope of phase II (SII) and slope of phase III (SIII) were calculated and compared between study groups. The effect of BPD, tidal volume (VT), respiratory rate (RR), and prematurity on the magnitude of the slopes was assessed., Results: SII was steeper in infants with BPD (100 ± 28/L) compared with healthy preterm (88 ± 22/L; P = .007) and term infants (79 ± 18/L; P < .001), but this finding was attributed to differences in VT, RR, and gestational age. SIII was steeper in the BPD group (26.8 ± 14.1/L) compared with healthy preterm (16.2 ± 6.2/L; P < .001) and term controls (14.8 ± 5.4/L; P < .001). BPD was a significant predictor of SIII independently of VT, RR, and gestational age. The ability of SIII to discriminate between BPD and controls was significantly higher compared with lung clearance index (area under the curve 0.83 vs 0.56; P < .001)., Conclusions: Volumetric capnography may provide valuable information regarding functional lung alterations related to BPD and might be considered as an alternative to more involved lung function techniques for monitoring chronic lung disease during early infancy., (Copyright © 2014 Mosby, Inc. All rights reserved.)

Published

2014

22. Correlation properties of spontaneous motor activity in healthy infants: a new computer-assisted method to evaluate neurological maturation.

Author

Waldmeier S, Grunt S, Delgado-Eckert E, Latzin P, Steinlin M, Fuhrer K, and Frey U

Subjects

Cross-Sectional Studies, Female, Humans, Infant, Newborn, Male, Acceleration, Child Development physiology, Diagnosis, Computer-Assisted methods, Motor Activity physiology, Movement physiology

Abstract

Qualitative assessment of spontaneous motor activity in early infancy is widely used in clinical practice. It enables the description of maturational changes of motor behavior in both healthy infants and infants who are at risk for later neurological impairment. These assessments are, however, time-consuming and are dependent upon professional experience. Therefore, a simple physiological method that describes the complex behavior of spontaneous movements (SMs) in infants would be helpful. In this methodological study, we aimed to determine whether time series of motor acceleration measurements at 40-44 weeks and 50-55 weeks gestational age in healthy infants exhibit fractal-like properties and if this self-affinity of the acceleration signal is sensitive to maturation. Healthy motor state was ensured by General Movement assessment. We assessed statistical persistence in the acceleration time series by calculating the scaling exponent α via detrended fluctuation analysis of the time series. In hand trajectories of SMs in infants we found a mean α value of 1.198 (95 % CI 1.167-1.230) at 40-44 weeks. Alpha changed significantly (p = 0.001) at 50-55 weeks to a mean of 1.102 (1.055-1.149). Complementary multilevel regression analysis confirmed a decreasing trend of α with increasing age. Statistical persistence of fluctuation in hand trajectories of SMs is sensitive to neurological maturation and can be characterized by a simple parameter α in an automated and observer-independent fashion. Future studies including children at risk for neurological impairment should evaluate whether this method could be used as an early clinical screening tool for later neurological compromise.

Published

2013

23. The cycle of EBV infection explains persistence, the sizes of the infected cell populations and which come under CTL regulation.

Author

Hawkins JB, Delgado-Eckert E, Thorley-Lawson DA, and Shapiro M

Subjects

B-Lymphocytes pathology, CD8-Positive T-Lymphocytes pathology, Epstein-Barr Virus Infections pathology, Germinal Center immunology, Germinal Center pathology, Humans, B-Lymphocytes immunology, CD8-Positive T-Lymphocytes immunology, Epstein-Barr Virus Infections immunology, Herpesvirus 4, Human immunology, Immunity, Cellular, Models, Immunological

Abstract

Previous analysis of Epstein-Barr virus (EBV) persistent infection has involved biological and immunological studies to identify and quantify infected cell populations and the immune response to them. This led to a biological model whereby EBV infects and activates naive B-cells, which then transit through the germinal center to become resting memory B-cells where the virus resides quiescently. Occasionally the virus reactivates from these memory cells to produce infectious virions. Some of this virus infects new naive B-cells, completing a cycle of infection. What has been lacking is an understanding of the dynamic interactions between these components and how their regulation by the immune response produces the observed pattern of viral persistence. We have recently provided a mathematical analysis of a pathogen which, like EBV, has a cycle of infected stages. In this paper we have developed biologically credible values for all of the parameters governing this model and show that with these values, it successfully recapitulates persistent EBV infection with remarkable accuracy. This includes correctly predicting the observed patterns of cytotoxic T-cell regulation (which and by how much each infected population is regulated by the immune response) and the size of the infected germinal center and memory populations. Furthermore, we find that viral quiescence in the memory compartment dictates the pattern of regulation but is not required for persistence; it is the cycle of infection that explains persistence and provides the stability that allows EBV to persist at extremely low levels. This shifts the focus away from a single infected stage, the memory B-cell, to the whole cycle of infection. We conclude that the mathematical description of the biological model of EBV persistence provides a sound basis for quantitative analysis of viral persistence and provides testable predictions about the nature of EBV-associated diseases and how to curb or prevent them.

Published

2013

24. Finding the probability of infection in an SIR network is NP-Hard.

Author

Shapiro M and Delgado-Eckert E

Subjects

Humans, Models, Statistical, Communicable Diseases epidemiology, Communicable Diseases transmission, Disease Outbreaks, Models, Biological

Abstract

It is the purpose of this article to review results that have long been known to communications network engineers and have direct application to epidemiology on networks. A common approach in epidemiology is to study the transmission of a disease in a population where each individual is initially susceptible (S), may become infective (I) and then removed or recovered (R) and plays no further epidemiological role. Much of the recent work gives explicit consideration to the network of social interactions or disease-transmitting contacts and attendant probability of transmission for each interacting pair. The state of such a network is an assignment of the values {S,I,R} to its members. Given such a network, an initial state and a particular susceptible individual, we would like to compute their probability of becoming infected in the course of an epidemic. It turns out that this and related problems are NP-hard. In particular, it belongs in a class of problems for which no efficient algorithms for their solution are known. Moreover, finding an efficient algorithm for the solution of any problem in this class would entail a major breakthrough in computer science., (Copyright © 2012 Elsevier Inc. All rights reserved.)

Published

2012

25. Competition-colonization trade-off promotes coexistence of low-virulence viral strains.

Author

Ojosnegros S, Delgado-Eckert E, and Beerenwinkel N

Subjects

Animals, Humans, RNA Virus Infections, Biological Evolution, Host-Pathogen Interactions physiology, Microbial Interactions physiology, Models, Biological, RNA Viruses pathogenicity, RNA Viruses physiology, Selection, Genetic physiology

Abstract

RNA viruses exist as genetically diverse populations displaying a range of virulence degrees. The evolution of virulence in viral populations is, however, poorly understood. On the basis of the experimental observation of an RNA virus clone in cell culture diversifying into two subpopulations of different virulence, we study the dynamics of mutating virus populations with varying virulence. We introduce a competition-colonization trade-off into standard mathematical models of intra-host viral infection. Colonizers are fast-spreading virulent strains, whereas the competitors are less-virulent variants but more successful within co-infected cells. We observe a two-step dynamics of the population. Early in the infection, the population is dominated by colonizers, which later are outcompeted by competitors. Our simulations suggest the existence of steady state in which all virulence classes coexist but are dominated by the most competitive ones. This equilibrium implies collective virulence attenuation in the population, in contrast to previous models predicting evolution of the population towards increased virulence.

Published

2012

26. Comprehensive proteome analysis in Cenococcum geophilum Fr. as a tool to discover drought-related proteins.

Author

Kerner R, Delgado-Eckert E, Del Castillo E, Müller-Starck G, Peter M, Kuster B, Tisserant E, and Pritsch K

Subjects

Fungal Proteins analysis, Heat-Shock Proteins analysis, Heat-Shock Proteins chemistry, Heat-Shock Proteins metabolism, Proteome analysis, Ascomycota metabolism, Droughts, Fungal Proteins chemistry, Fungal Proteins metabolism, Heat-Shock Response physiology, Proteome chemistry, Proteome metabolism

Abstract

Cenococcum geophilum is a widely distributed ectomycorrhizal fungus potentially playing a significant role in resistance and resilience mechanisms of its tree hosts exposed to drought stress. In this study, we performed a large scale protein analysis in pure cultures of C. geophilum in order to gain first global insights into the proteome assembly of this fungus. Using 1-D gel electrophoresis coupled with ESI-MS/MS, we indentified 638 unique proteins. Most of these proteins were related to the metabolic and cellular processes, and the transport machinery of cells. In a second step, we examined the influence of water deprivation on the proteome of C. geophilum pure cultures at three time points of gradually imposed drought. The results indicated that 12 proteins were differentially abundant in mycelia subjected to drought compared to controls. The induced responses in C. geophilum point towards regulation of osmotic stress, maintainance of cell integrity, and counteracting increased levels of reactive oxygen species formed during water deprivation., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published

2012

27. The evolution of virulence in RNA viruses under a competition-colonization trade-off.

Author

Delgado-Eckert E, Ojosnegros S, and Beerenwinkel N

Subjects

Basic Reproduction Number, Computer Simulation, Mutation, Virulence, Evolution, Molecular, Models, Genetic, RNA Viruses genetics, RNA Viruses pathogenicity

Abstract

RNA viruses exist in large intra-host populations which display great genotypic and phenotypic diversity. We analyze a model of viral competition between two viruses infecting a constantly replenished cell pool. We assume a trade-off between the ability of the virus to colonize new cells (cell killing rate or virulence) and its local competitiveness (replicative success within coinfected cells). We characterize the conditions that allow for viral spread by means of the basic reproductive number and show that a local coexistence equilibrium exists, which is asymptotically stable. At this equilibrium, the less virulent competitor has a reproductive advantage over the more virulent colonizer reflected by a larger equilibrium population size of the competitor. The equilibria at which one virus outcompetes the other one are unstable, i.e., a second virus is always able to permanently invade. We generalize the two-virus model to multiple viral strains, each displaying a different virulence. To account for the large phenotypic diversity in viral populations, we consider a continuous spectrum of virulences and present a continuum limit of this multiple viral strains model that describes the time evolution of an initial continuous distribution of virulence without mutations. We provide a proof of the existence of solutions of the model equations, analytically assess the properties of stationary solutions, and present numerical approximations of solutions for different initial distributions. Our simulations suggest that initial continuous distributions of virulence evolve toward a distribution that is extremely skewed in favor of competitors. At equilibrium, only the least virulent part of the population survives. The discrepancy of this finding in the continuum limit with the two-virus model is attributed to the skewed equilibrium subpopulation sizes and to the transition to a continuum. Consequently, in viral quasispecies with high virulence diversity, the model predicts collective virulence attenuation. This result may contribute to understanding virulence attenuation, which has been reported in several experimental studies.

Published

2011

28. A model of host response to a multi-stage pathogen.

Author

Delgado-Eckert E and Shapiro M

Subjects

Animals, Epstein-Barr Virus Infections immunology, Epstein-Barr Virus Infections virology, Herpesvirus 4, Human immunology, Host-Pathogen Interactions immunology, Models, Immunological

Abstract

We model the immune surveillance of a pathogen which passes through n immunologically distinct stages. The biological parameters of this system induce a partial order on the stages, and this, in turn, determines which stages will be subject to immune regulation. This corresponds to the system's unique asymptotically stable fixed point.

Published

2011

29. Reverse engineering time discrete finite dynamical systems: a feasible undertaking?

Author

Delgado-Eckert E

Subjects

Mathematics, Algorithms, Computational Biology methods, Metabolic Networks and Pathways, Models, Theoretical

Abstract

With the advent of high-throughput profiling methods, interest in reverse engineering the structure and dynamics of biochemical networks is high. Recently an algorithm for reverse engineering of biochemical networks was developed by Laubenbacher and Stigler. It is a top-down approach using time discrete dynamical systems. One of its key steps includes the choice of a term order, a technicality imposed by the use of Gröbner-bases calculations. The aim of this paper is to identify minimal requirements on data sets to be used with this algorithm and to characterize optimal data sets. We found minimal requirements on a data set based on how many terms the functions to be reverse engineered display. Furthermore, we identified optimal data sets, which we characterized using a geometric property called "general position". Moreover, we developed a constructive method to generate optimal data sets, provided a codimensional condition is fulfilled. In addition, we present a generalization of their algorithm that does not depend on the choice of a term order. For this method we derived a formula for the probability of finding the correct model, provided the data set used is optimal. We analyzed the asymptotic behavior of the probability formula for a growing number of variables n (i.e. interacting chemicals). Unfortunately, this formula converges to zero as fast as , where and . Therefore, even if an optimal data set is used and the restrictions in using term orders are overcome, the reverse engineering problem remains unfeasible, unless prodigious amounts of data are available. Such large data sets are experimentally impossible to generate with today's technologies.

Published

2009

30. A virtual look at Epstein-Barr virus infection: biological interpretations.

Author

Duca KA, Shapiro M, Delgado-Eckert E, Hadinoto V, Jarrah AS, Laubenbacher R, Lee K, Luzuriaga K, Polys NF, and Thorley-Lawson DA

Subjects

Adolescent, Adult, B-Lymphocytes immunology, B-Lymphocytes pathology, B-Lymphocytes virology, Herpesvirus 4, Human isolation & purification, Herpesvirus 4, Human pathogenicity, Humans, Infectious Mononucleosis pathology, Palatine Tonsil immunology, Palatine Tonsil pathology, Software, Stochastic Processes, Time Factors, Virus Activation immunology, Virus Latency, Virus Physiological Phenomena, Computer Simulation, Herpesvirus 4, Human physiology, Infectious Mononucleosis immunology, Infectious Mononucleosis virology, Models, Immunological

Abstract

The possibility of using computer simulation and mathematical modeling to gain insight into biological and other complex systems is receiving increased attention. However, it is as yet unclear to what extent these techniques will provide useful biological insights or even what the best approach is. Epstein-Barr virus (EBV) provides a good candidate to address these issues. It persistently infects most humans and is associated with several important diseases. In addition, a detailed biological model has been developed that provides an intricate understanding of EBV infection in the naturally infected human host and accounts for most of the virus' diverse and peculiar properties. We have developed an agent-based computer model/simulation (PathSim, Pathogen Simulation) of this biological model. The simulation is performed on a virtual grid that represents the anatomy of the tonsils of the nasopharyngeal cavity (Waldeyer ring) and the peripheral circulation--the sites of EBV infection and persistence. The simulation is presented via a user friendly visual interface and reproduces quantitative and qualitative aspects of acute and persistent EBV infection. The simulation also had predictive power in validation experiments involving certain aspects of viral infection dynamics. Moreover, it allows us to identify switch points in the infection process that direct the disease course towards the end points of persistence, clearance, or death. Lastly, we were able to identify parameter sets that reproduced aspects of EBV-associated diseases. These investigations indicate that such simulations, combined with laboratory and clinical studies and animal models, will provide a powerful approach to investigating and controlling EBV infection, including the design of targeted anti-viral therapies.

Published

2007