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1. Network memory in the movement of hospital patients carrying drug-resistant bacteria

Author

Myall, Ashleigh C., Peach, Robert L., Weiße, Andrea Y., Davies, Frances, Mookerjee, Siddharth, Holmes, Alison, and Barahona, Mauricio

Subjects
Physics - Physics and Society
Abstract

Hospitals constitute highly interconnected systems that bring into contact an abundance of infectious pathogens and susceptible individuals, thus making infection outbreaks both common and challenging. In recent years, there has been a sharp incidence of antimicrobial-resistance amongst healthcare-associated infections, a situation now considered endemic in many countries. Here we present network-based analyses of a data set capturing the movement of patients harbouring drug-resistant bacteria across three large London hospitals. We show that there are substantial memory effects in the movement of hospital patients colonised with drug-resistant bacteria. Such memory effects break first-order Markovian transitive assumptions and substantially alter the conclusions from the analysis, specifically on node rankings and the evolution of diffusive processes. We capture variable length memory effects by constructing a lumped-state memory network, which we then use to identify overlapping communities of wards. We find that these communities of wards display a quasi-hierarchical structure at different levels of granularity which is consistent with different aspects of patient flows related to hospital locations and medical specialties., Comment: 16 pages. 8 main figures. Submitted to the Applied Network Science Special Issue on Epidemic Dynamics and Control on Networks

Published
2020

2. Prediction of cellular burden with host-circuit models

Author

Nikolados, Evangelos-Marios, Weiße, Andrea Y., and Oyarzún, Diego A.

Subjects
Quantitative Biology - Molecular Networks, Quantitative Biology - Biomolecules, Quantitative Biology - Cell Behavior, Quantitative Biology - Subcellular Processes
Abstract

Heterologous gene expression draws resources from host cells. These resources include vital components to sustain growth and replication, and the resulting cellular burden is a widely recognised bottleneck in the design of robust circuits. In this tutorial we discuss the use of computational models that integrate gene circuits and the physiology of host cells. Through various use cases, we illustrate the power of host-circuit models to predict the impact of design parameters on both burden and circuit functionality. Our approach relies on a new generation of computational models for microbial growth that can flexibly accommodate resource bottlenecks encountered in gene circuit design. Adoption of this modelling paradigm can facilitate fast and robust design cycles in synthetic biology.

Published
2020

8. Integrated Analysis of Patient Networks and Plasmid Genomes to Investigate a Regional, Multispecies Outbreak of Carbapenemase-Producing Enterobacterales Carrying Both blaIMP and mcr-9 Genes

Author

Wan, Yu, primary, Myall, Ashleigh C, additional, Boonyasiri, Adhiratha, additional, Bolt, Frances, additional, Ledda, Alice, additional, Mookerjee, Siddharth, additional, Weiße, Andrea Y, additional, Getino, Maria, additional, Turton, Jane F, additional, Abbas, Hala, additional, Prakapaite, Ruta, additional, Sabnis, Akshay, additional, Abdolrasouli, Alireza, additional, Malpartida-Cardenas, Kenny, additional, Miglietta, Luca, additional, Donaldson, Hugo, additional, Gilchrist, Mark, additional, Hopkins, Katie L, additional, Ellington, Matthew J, additional, Otter, Jonathan A, additional, Larrouy-Maumus, Gerald, additional, Edwards, Andrew M, additional, Rodriguez-Manzano, Jesus, additional, Didelot, Xavier, additional, Barahona, Mauricio, additional, Holmes, Alison H, additional, Jauneikaite, Elita, additional, and Davies, Frances, additional

Published
2024
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9. Integrated Analysis of Patient Networks and Plasmid Genomes to Investigate a Regional, Multispecies Outbreak of Carbapenemase-Producing Enterobacterales Carrying Both blaIMP and mcr-9 Genes.

Author

Wan, Yu, Myall, Ashleigh C, Boonyasiri, Adhiratha, Bolt, Frances, Ledda, Alice, Mookerjee, Siddharth, Weiße, Andrea Y, Getino, Maria, Turton, Jane F, Abbas, Hala, Prakapaite, Ruta, Sabnis, Akshay, Abdolrasouli, Alireza, Malpartida-Cardenas, Kenny, Miglietta, Luca, Donaldson, Hugo, Gilchrist, Mark, Hopkins, Katie L, Ellington, Matthew J, and Otter, Jonathan A

Subjects
HORIZONTAL gene transfer, ELECTRONIC health records, GENOMICS, DNA sequencing, ESCHERICHIA coli, KLEBSIELLA pneumoniae
Abstract

Background Carbapenemase-producing Enterobacterales (CPE) are challenging in healthcare, with resistance to multiple classes of antibiotics. This study describes the emergence of imipenemase (IMP)–encoding CPE among diverse Enterobacterales species between 2016 and 2019 across a London regional network. Methods We performed a network analysis of patient pathways, using electronic health records, to identify contacts between IMP-encoding CPE–positive patients. Genomes of IMP-encoding CPE isolates were overlaid with patient contacts to imply potential transmission events. Results Genomic analysis of 84 Enterobacterales isolates revealed diverse species (predominantly Klebsiella spp, Enterobacter spp, and Escherichia coli); 86% (72 of 84) harbored an IncHI2 plasmid carrying bla IMP and colistin resistance gene mcr-9 (68 of 72). Phylogenetic analysis of IncHI2 plasmids identified 3 lineages showing significant association with patient contacts and movements between 4 hospital sites and across medical specialties, which was missed in initial investigations. Conclusions Combined, our patient network and plasmid analyses demonstrate an interspecies, plasmid-mediated outbreak of bla IMPCPE, which remained unidentified during standard investigations. With DNA sequencing and multimodal data incorporation, the outbreak investigation approach proposed here provides a framework for real-time identification of key factors causing pathogen spread. Plasmid-level outbreak analysis reveals that resistance spread may be wider than suspected, allowing more interventions to stop transmission within hospital networks. Summary This was an investigation, using integrated pathway networks and genomics methods, of the emergence of imipenemase-encoding carbapenemase-producing Enterobacterales among diverse Enterobacterales species between 2016 and 2019 in patients across a London regional hospital network, which was missed on routine investigations. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Adaptive Approach for Modelling Variability in Pharmacokinetics

Author

Weiße, Andrea Y., Horenko, Illia, Huisinga, Wilhelm, Hutchison, David, editor, Kanade, Takeo, editor, Kittler, Josef, editor, Kleinberg, Jon M., editor, Mattern, Friedemann, editor, Mitchell, John C., editor, Naor, Moni, editor, Nierstrasz, Oscar, editor, Pandu Rangan, C., editor, Steffen, Bernhard, editor, Sudan, Madhu, editor, Terzopoulos, Demetri, editor, Tygar, Dough, editor, Vardi, Moshe Y., editor, Weikum, Gerhard, editor, Istrail, Sorin, editor, Pevzner, Pavel, editor, Waterman, Michael, editor, R. Berthold, Michael, editor, Glen, Robert C., editor, and Fischer, Ingrid, editor

Published
2006
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19. Integrated patient network and genomic plasmid analysis reveal a regional, multi-species outbreak of carbapenemase-producing Enterobacterales carrying both blaIMP and mcr-9 genes

Author

Boonyasiri, Adhiratha, primary, Myall, Ashlegh, additional, Wan, Yu, additional, Bolt, Frances, additional, Ledda, Alice, additional, Mookerjee, Siddharth, additional, Weisse, Andrea Y., additional, Turton, Jane F., additional, Abbas, Hala, additional, Prakapaite, Ruta, additional, Sabnis, Akshay, additional, Abdolrasouli, Alireza, additional, Malpartida Cardenas, Kenny, additional, Miglietta, Luca, additional, Donaldson, Hugo, additional, Gilchrist, Mark, additional, Hopkins, Katie L., additional, Ellington, Matthew J., additional, Otter, Jonathan A., additional, Larrouy-Maumus, Gerald, additional, Edwards, Andrew M., additional, Rodriguez Manzano, Jesus, additional, Didelot, Xavier, additional, Barahona, Mauricio, additional, Holmes, Alison H., additional, Jauneikaite, Elita, additional, and Davies, Frances, additional

Published
2021
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20. Predicting hospital-onset COVID-19 infections using dynamic networks of patient contacts: an observational study

Author

Myall, Ashleigh, primary, Price, James R, additional, Peach, Robert L, additional, Abbas, Mohamed, additional, Mookerjee, Siddharth, additional, Zhu, Nina, additional, Ahmad, Isa, additional, Ming, Damien, additional, Ramzan, Farzan, additional, Teixeira, Daniel, additional, Graf, Christophe, additional, Weiße, Andrea Y, additional, Harbarth, Stephan, additional, Holmes, Alison, additional, and Barahona, Mauricio, additional

Published
2021
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21. Additional file 1 of Network memory in the movement of hospital patients carrying antimicrobial-resistant bacteria

Author

Myall, Ashleigh C., Peach, Robert L., Weiße, Andrea Y., Siddharth Mookerjee, Davies, Frances, Holmes, Alison, and Barahona, Mauricio

Abstract

Additional file 1: Fig. S1. State networks of $${\mathcal {M}}_1$$ M 1 and $${\mathcal {M}}_2$$ M 2 . Fig. S2. PageRank difference between $${\mathcal {M}}_1$$ M 1 and $${\mathcal {M}}_2$$ M 2 over specialities and buildings. Fig. S3. Optimisation of clustering rate for state lumping. Fig. S4. Markov Stability run statistics. Fig. S5. Markov stability community partitions. Fig. S6. Variation of Information between hospital structures in community partitions. Fig. S7. 2-Way community partition to hospital site. Fig. S8. Hospital wards overlapping communities across Markov stability partitions. Figs. S9, S10. Multiscale centrality model comparison. Fig. S11. Distribution of node statistics. Table S1. Cross validation ranking significance. Tables S2–S4. Examining the overlap between Markov stability community partitions and known hospital structures.

Published
2021
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22. Additional file 1 of Informing antimicrobial management in the context of COVID-19: understanding the longitudinal dynamics of C-reactive protein and procalcitonin

Author

Ming, Damien K., Myall, Ashleigh C., Hernandez, Bernarnd, Weiße, Andrea Y., Peach, Robert L., Barahona, Mauricio, Rawson, Timothy M., and Holmes, Alison H.

Subjects
mental disorders, psychological phenomena and processes
Abstract

Additional file 1: Table S1. Details of positive microbiology cultures by site of sampling and patient outcome. Numbers (n) denote patients who had a positive microbiology result for that particular organism during hospital admission

Published
2021
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24. Detecting carbapenemase-producing Enterobacterales (CPE): an evaluation of an enhanced CPE infection control and screening programme in acute care

Author

Otter, Jonathan A, primary, Mookerjee, Siddharth, additional, Davies, Frances, additional, Bolt, Frances, additional, Dyakova, Eleonora, additional, Shersing, Yeeshika, additional, Boonyasiri, Adhiratha, additional, Weiße, Andrea Y, additional, Gilchrist, Mark, additional, Galletly, Tracey J, additional, Brannigan, Eimear T, additional, and Holmes, Alison H, additional

Published
2020
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32. Prediction of Cellular Burden with Host-Circuit Models.

Author

Nikolados EM, Weiße AY, and Oyarzún DA

Subjects
Bacterial Physiological Phenomena, Bacterial Proteins genetics, Gene Expression, Genes, Synthetic, Models, Biological, Synthetic Biology, Bacteria genetics, Gene Regulatory Networks, Systems Biology methods
Abstract

Heterologous gene expression draws resources from host cells. These resources include vital components to sustain growth and replication, and the resulting cellular burden is a widely recognized bottleneck in the design of robust circuits. In this tutorial we discuss the use of computational models that integrate gene circuits and the physiology of host cells. Through various use cases, we illustrate the power of host-circuit models to predict the impact of design parameters on both burden and circuit functionality. Our approach relies on a new generation of computational models for microbial growth that can flexibly accommodate resource bottlenecks encountered in gene circuit design. Adoption of this modeling paradigm can facilitate fast and robust design cycles in synthetic biology.

Published
2021
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