Seasonal influenza in medical students:an outbreak simulation model based on a social network approach

Edge, Rhiannon and Heath, Joseph and Rowlingson, Barry and Keegan, Thomas and Isba, Rachel (2014) Seasonal influenza in medical students:an outbreak simulation model based on a social network approach. Lancet, 384 (Supple). ISSN 0140-6736

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Abstract

Background There is increasing interest in the effects of social networks on disease dynamics. We simulated the spread of influenza through a population of medical students where transmission was related to the social network structure and vaccination status of individuals. Methods All students at Lancaster Medical School, Lancaster, UK (n=253) were asked to rate the strength of their relationship with all other students from the medical school. Students also self-reported their influenza vaccination status. An individual-based outbreak model was developed using R statistical software. Using these data, combined with appropriate transmission parameters, we simulated an influenza outbreak and assessed the effects of preferentially vaccinating according to the social network analysis data. We ran the simulation 1500 times. Each simulation selected a random student to introduce the virus into the population. For each vaccination strategy, the likelihood of each individual being infected was calculated as a percentage of the number of times they were infected in the 1500 possible outbreaks. Findings 215 students (85%) responded. Non-responders were assumed to have reciprocal relationships with responders; therefore it was possible to construct the entire medical student network. We found that the outcomes of vaccination strategies based on between-ness (the extent to which an individual lies between others in the network) and degree (the number of connections an individual has), which are both measures of connectedness, quickly converged. As more individuals were vaccinated, the likelihood of individuals contracting the infection tended to be similar, irrespective of vaccination based on between-ness or degree. After vaccination of an additional 8% of the population (20 students) the outcome of the experimental influenza outbreak was similar for both strategies. Interpretation Our results add to a small pool of evidence supporting targeting vaccination of individuals according to between-ness in an attempt to reduce the spread of influenza. However, in small, densely connected populations, vaccination according to degree might be preferential because of the rapid convergence and the relative ease of locating individuals with a high degree versus those with high between-ness. This study suggests that vaccination strategies that target highly connected individuals within a network might limit spread of infectious disease. Future work could include evaluating current vaccination approaches using social network analysis. Funding University Hospitals of Morecambe Bay NHS Foundation Trust funded data collection. Contributors RI conceived the programme of research of which this was a part. JH collected the data. RE was responsible for input and analysis of the data, supervised by RI and TK. RE developed the model and BR developed the software. RE wrote the abstract with input from RI and TK. All authors have approved the original version of the abstract for publication. Declaration of interests We declare no competing interests.

Item Type:
Journal Article
Journal or Publication Title:
Lancet
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2700
Subjects:
ID Code:
71841
Deposited By:
Deposited On:
21 Nov 2014 14:13
Refereed?:
Yes
Published?:
Published
Last Modified:
29 Oct 2020 03:45