An infectious disease model on empirical networks of human contact: bridging the gap between dynamic network data and contact matrices

Anna Machens, Francesco Gesualdo, Caterina Rizzo, Alberto E Tozzi, Alain Barrat, Ciro Cattuto. BMC Infectious Diseases 13:185 (2013)

The integration of empirical data in computational frameworks designed to model the spread of infectious diseases
poses a number of challenges that are becoming more pressing with the increasing availability of high-resolution
information on human mobility and contacts. This deluge of data has the potential to revolutionize the computational
efforts aimed at simulating scenarios, designing containment strategies, and evaluating outcomes. However, the integration
of highly detailed data sources yields models that are less transparent and general in their applicability. Hence, given a specific
disease model, it is crucial to assess which representations of the raw data work best to inform the model, striking a balance between simplicity and detail.

We consider high-resolution data on the face-to-face interactions of individuals in a pediatric hospital ward, obtained by using wearable proximity sensors.
We simulate the spread of a disease in this community by using an SEIR model on top of different mathematical representations of the empirical contact
patterns. At the most detailed level, we take into account all contacts between individuals and their exact timing and order. Then, we build a hierarchy
of coarse-grained representations of the contact patterns that preserve only partially the temporal and structural information available in the data. We
compare the dynamics of the SEIR model across these representations.

We show that a contact matrix that only contains average contact durations between role classes fails to reproduce the size of the epidemic
obtained using the high-resolution contact data and also fails to identify the most at-risk classes. We introduce a contact matrix of probability
distributions that takes into account the heterogeneity of contact durations between (and within) classes of individuals, and we show that, in the
case study presented, this representation yields a good approximation of the epidemic spreading properties obtained by using the high-resolution data.

Our results mark a first step towards the definition of synopses of high-resolution dynamic contact networks, providing a compact
representation of contact patterns that can correctly inform computational models designed to discover risk groups and evaluate
containment policies. We show in a typical case of a structured population that this novel kind of representation can


URL: http://www.biomedcentral.com/1471-2334/13/185/abstract

BIBTEX:

@Article{1471-2334-13-185,
	AUTHOR = "Anna Machens and Francesco Gesualdo and Caterina Rizzo and Alberto Tozzi and Alain Barrat and Ciro Cattuto",
	TITLE = "An infectious disease model on empirical networks of human contact: bridging the gap between dynamic network data and contact matrices",
	JOURNAL = "BMC Infectious Diseases",
	VOLUME = "13",
	YEAR = "2013",
	NUMBER = "1",
	PAGES = "185",
	URL = "http://www.biomedcentral.com/1471-2334/13/185",
	DOI = "10.1186/1471-2334-13-185",
	ISSN = "1471-2334",
	ABSTRACT = "BACKGROUND:The integration of empirical data in computational frameworks designed to model the spread of infectious diseases poses a number of challenges that are becoming more pressing with the increasing availability of high-resolution information on human mobility and contacts. This deluge of data has the potential to revolutionize the computational efforts aimed at simulating scenarios, designing containment strategies, and evaluating outcomes. However, the integration of highly detailed data sources yields models that are less transparent and general in their applicability. Hence, given a specific disease model, it is crucial to assess which representations of the raw data work best to inform the model, striking a balance between simplicity and detail.METHODS:We consider high-resolution data on the face-to-face interactions of individuals in a pediatric hospital ward, obtained by using wearable proximity sensors. We simulate the spread of a disease in this community by using an SEIR model on top of different mathematical representations of the empirical contact patterns. At the most detailed level, we take into account all contacts between individuals and their exact timing and order. Then, we build a hierarchy of coarse-grained representations of the contact patterns that preserve only partially the temporal and structural information available in the data. We compare the dynamics of the SEIR model across these representations.RESULTS:We show that a contact matrix that only contains average contact durations between role classes fails to reproduce the size of the epidemic obtained using the high-resolution contact data and also fails to identify the most at-risk classes. We introduce a contact matrix of probability distributions that takes into account the heterogeneity of contact durations between (and within) classes of individuals, and we show that, in the case study presented, this representation yields a good approximation of the epidemic spreading properties obtained by using the high-resolution data.CONCLUSIONS:Our results mark a first step towards the definition of synopses of high-resolution dynamic contact networks, providing a compact representation of contact patterns that can correctly inform computational models designed to discover risk groups and evaluate containment policies. We show in a typical case of a structured population that this novel kind of representation can preserve in simulation quantitative features of the epidemics that are crucial for their study and management."
}

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