INTRODUCTION
In recent decades, technological progress and forced migration have substantially altered interpersonal contact patterns and social diffusion processes at the global level. Developments in transportation – in particular air travel – have significantly contributed to reducing the friction of distance. In parallel, armed conflicts have led to that situation where millions of people have been forced to leave their homes to find temporary or permanent residence in a new region, country or even continent. These developments have given rise to challenges in other societal areas; for example, infectious disease control [Reference Cliff and Haggett1, Reference Colizza2]. Information and computer technology have increasingly been used to comprehend and respond to these challenges. Mathematical models and simulations have emerged as important methodological approaches for charting and understanding the population-level spread of infectious diseases, for example, tuberculosis [Reference Blower3–Reference Abu-Raddad6] and influenza [Reference Longini7–Reference Nsoesie11]. In such analyses, sound representations concerning social structures and interpersonal contacts need to be made, in addition to accurate estimates of disease natural history [Reference Timpka12, Reference Janes13].
Spatial proximity and neighbourhood effects constitute central components in shaping the outcome in social diffusion processes [Reference Hägerstrand14]. However, such geographical resistance to spread tends to coincide with patterns that are more hierarchical in nature, facilitated by infrastructure and gravitating towards centres of population distribution [Reference Hudson15]. Furthermore, social diffusion is mediated by individual demographic and socio-economic factors (such as age, sex and education level) through their influence on time use, activity patterns and interpersonal contact. In infectious disease epidemiology, the relative importance of such concrete (denoting physical locations) vs abstract (denoting, for instance, education level) representations of populations and communities has been debated for almost two centuries [Reference Eyler16]. Regarding the structuring of social contacts and mixing patterns relevant for infectious disease transmission, age has generally been shown to be a pivotal individual characteristic [Reference Mossong17, Reference Kwok18]. Substantial disparities in how males and females allocate their time have also been reported [Reference Sayer19], with females exhibiting a higher number of interpersonal contacts when professional contacts are excluded [Reference Mossong17]. In addition, educational level is relevant in this context, not only as a potential influence as such, but also by its strong association with employment in particular. For instance, Danon et al. [Reference Danon20] report marked differences in interpersonal contact by occupation.
However, how social contacts and mixing patterns of relevance for infectious disease transmission are conditioned by the location and characteristics of meeting places in the geographical environment has only been studied to a relatively small extent. An empirically verified, spatially explicit representation of meeting places thus has the potential to improve the modelling of infectious disease transmission, compared with approaches accounting only for the effect of individual demographic and socio-economic factors. The aim of this study is to develop a typology of generic meeting places based on social contact and mixing of relevance for infectious disease transmission. The typology is derived from an analysis accounting for four dimensions associated with transmission risk: visit propensity and its characteristics in terms of duration, number of other persons present and likelihood of physical contact. In the analysis, we also study demographic, socio-economic and geographical differences in the propensity of visiting meeting places.
METHODS
The study is based on a cross-sectional contact diary survey on time use and interpersonal contacts conducted on a representative sample of the Swedish population. The data were collected by means of telephone interviews in the first quarter of 2012. A random sample of 1011 persons was drawn from all persons aged 20–90 years residing in Sweden. The persons in the sample received a letter via postal mail, explaining the purpose of the survey and inviting them to participate. The document informed the addressees that they would be contacted by telephone on a specified day, and then asked to account for the whereabouts and contacts the day before the call pertaining to themselves and any children in the household.Footnote 1 Contact attempts were made based on available home and/or cell telephone numbers. When a person was not reached on the first call occasion, at least nine additional contact attempts were made before that individual was designated unreachable.Footnote 2
Data collection
We recorded detailed information on the adult respondents’ physical contacts for up to three places where the most time had been spent, as well as travel-related time use and contact information. In order for a meeting between a respondent and another person to qualify as a ‘physical contact’, at least a physical touch was required. Consequently, solely conversational encounters were not registered as constituting physical contact. The places reported were classified as belonging to one of 16 specified generic place types; or coded as ‘some other type of place’. If more than three place types had been visited, five attempts were made to record information from one additional type of place, randomly selected from the 13 remaining categories. This simplified survey template, producing detailed information on one to six place types, required an average time of approximately 20 min per completed telephone interview. The respondents also answered on behalf of up to two randomly selected children, accounting for up to three places where most time had been spent and physical contact occurring there. Although the survey was primarily designed to collect information regarding the specified day, a number of additional questions of both a general and health-specific nature were included, some of which are used in this study.
Response rates, dropout analysis and representativeness
In the survey, 443 out of 1011 individuals submitted completed questionnaires, a response rate of 43·8%. When taking into account only the 757 persons reached by telephone, the participation rate was considerably higher (58·5%). The most common reason for declining to take part in the survey was time constraints. There were 288 children living in the respondents’ households, of which 251 (87·2%) were included in the survey.
A dropout analysis was performed based on the adult respondents’ sex, age and geographical location (Table 1). In the entire sample, the response rate was particularly high among elderly persons (54·4%) and individuals residing in small labour market regions (51·4%). Among potential respondents reached by telephone, it was instead the youngest age category that exhibited the highest age-based response rate (64·1%). This implies that although young people were comparatively harder to reach by phone, they were actually more inclined to take part in the survey if reached.
The representativeness of the adult respondents in relation to the Swedish population in the corresponding age range of 20–90 years was also examined, taking into account not only sex, age and geographical location, but also education level. We used χ 2 goodness-of-fit tests to make the comparisons; standardised residual values outside the range −1·96 to 1·96 were regarded as contributing to significant deviations. Significant differences relative to the reference population was found in terms of age and education. In the test of age representativeness, χ 2 (df = 3, n = 443) = 8·35, P = 0·039. In line with the result of the dropout analysis, the residual values show that the age category 65–90 years is especially prevalent in our data. For education level, χ 2 (df = 1, n = 443) = 23·42, P < 0·001; the residuals reveal overrepresentation of people with high education.
Such overrepresentation may cause problems regarding the possibility of drawing general conclusions from the study. However, in evaluating this potential problem, effect size rather than significance is a more informative measure; especially as χ 2 tests are sensitive to large sample sizes. We used Cramér's V as a measure of effect size. For the age category χ 2 test, V = 0·08, and in the test of representativeness of education level, V = 0·23; both values representing small effects [Reference Cohen21]. Thus, although elderly and highly educated individuals are especially prevalent in our data, the impact of these deviations from the reference population is of small magnitude.
Data analysis
Three related aspects of time use, activity patterns and interpersonal contact were investigated: places visited during the course of a typical day, the characteristics of such visits and the central relational perspective of who meets whom there. Although the survey initially distinguished between 17 types of meeting places, those visited by <5% of the study participants were excluded from further analysis. The 12 remaining categories were: (1) home, (2) work, (3) pre-school and (4) compulsory or upper secondary school; transport and movement by (5) car and (6) public transport, as well as in (7) public urban space; the shopping facilities (8) convenience and (9) large or specialist store; and leisure destinations in the form of visiting (10) friends and relatives, (11) restaurants and (12) sport venues.
The individual demographic and socio-economic characteristics taken into account in the analysis were sex, age and (for adults) education level. The study participants were evenly distributed between males and females, comprising 51·0% and 49·0% of the research population, respectively. Concerning age, we distinguished between six age classes: 0–6 years (15·8% of the study participants), 7–19 years (19·0%), 20–29 years (10·7%), 30–49 years (22·2%), 50–64 years (13·7%) and 65–90 years (18·6%). In our study, somewhat less than half of the adult respondents (44·2%) reported having some kind of higher education.
Among the aspects of geographical location that influence social contacts and mixing patterns, the urban–rural dichotomy is central. Accessibility to amenities, such as employment, services and leisure, varies across space; regional population density is related to the diversity and number of, as well as distance to, available facilities that could potentially function as arenas for daily interaction [Reference Haugen22]. This geographical dimension was operationalised as the size of the labour market region in which the respondents resided. The labour market regions (N = 75) are formed by aggregating Sweden's 290 municipalities based on commuting patterns [23]. Labour market region population size is highly correlated with actual regional population density (Ρ = 0·85). We distinguished between three categories of labour market regions: small (<100 000 inhabitants), medium-sized (100 000–1 000 000) and large (>1 000 000). A majority of the respondents (53·5%) lived in large labour market regions, 35·3% in medium-sized regions and 11·2% in small regions.
In examining who visits different places during the course of a typical day, we compared visit propensity by individual attributes and geographical location to the corresponding averages. Specifically, the proportion of all respondents who frequented a specific type of place was subtracted from the proportion of groups of participants who did so. This yields numbers that express, in percentage points, the degree to which the various groups of study participants were more (positive number) or less (negative number) inclined to visit the specific places compared with the corresponding averages. Notable differences from the mean values were identified based on Wilson confidence intervals [Reference Brown, Cai and Dasgupta24].
The typology of generic meeting places is created by means of a cluster analysis that identifies place types with similar characteristics. The analysis takes into account four meeting place dimensions associated with transmission risk: visit propensity and its characteristics in terms of duration, number of other persons present and likelihood of physical contact. The specific form of cluster analysis used is hierarchical cluster analysis based on standardised versions of the included variables, using Ward's method and a squared Euclidean distance measure. Squared Euclidean distance is a commonly used distance measure for scale data, and Ward's method has the benefit of providing comparatively high statistical power. The clustering technique used is agglomerative in character; at the outset, each observation (i.e. meeting place) is a cluster of its own; observations are subsequently iteratively grouped together or not based on their degree of (dis)similarity [Reference Romesburg25]. The final number of clusters was determined by interpreting changes in the distance coefficient, as reported in the resulting agglomeration schedule.Footnote 3
RESULTS
The home was the meeting place reported to be visited by the largest proportion of participants (95·0%) on the day surveyed (Table 2). The next most common place was a car, reported by 58·7%. Thereafter, the respondents had to a similar extent visited a large or specialist store (24·1%), been at work (21·2%) and visited friends and relatives (21·0%). Other place types frequented by at least 5% of the study participants were public transport (16·3%), compulsory or upper secondary school (12·0%), sports venue (11·5%), restaurant (9·4%), pre-school (8·6%), public urban space (6·6%) and convenience store (5·2%).
Proportions of individuals who visited the meeting place on an average day shown with variations (in percentage points) by age and regional population density.
*P < 0·10; **P < 0·05; ***P < 0·01.
a Adult respondents only (n = 443).
Meeting place visit propensity
As expected, meeting place visit propensity was highly stratified by age (Table 2). The youngest study participants (0–6 years) tended to be in pre-school (25·9 percentage points above the average), whereas the older children (7–19 years) more often attended compulsory or upper secondary school (+44·9 percentage points) (Table 2). Correspondingly, adult study participants were more likely to be at a workplace, particularly those aged 30–49 years (+30·7 percentage points); the obvious exception was the oldest age category (65–90 years) of retirement age (−15·8 percentage points). Furthermore, adults were more likely to visit shopping facilities; the differences were especially pronounced for large or specialist stores. Visiting friends and relatives was most common among children aged 0–6 years (+9·9 percentage points) and the least common in the age group 30–49 years (−7·4 percentage points). The older children (7–19 years) were least likely to visit restaurants (−7·9 percentage points) and most likely to visit sports venues (+10·5 percentage points). For obvious reasons, visits to work and school were far less common during weekends, especially for people in concerned age groups. In fact, the only place type that exhibited a substantially larger visit propensity during weekend days was friends and relatives. Even here, however, the difference was quite small (an overall increase of 2 percentage points).
The most tangible difference related to regional population density (defined as geographically defined labour market regions) related to the transport and movement domain. Respondents living in medium-sized and especially small regions were more likely to travel by car (7·2 and 17·2 percentage points above the average, respectively), and less prone to use public transport (−9·0 and −12·6 percentage points, respectively). Conversely, in large regions, there was a higher reliance on public transport (+9·5 percentage points) and car use was less prominent (−9·4 percentage points). Another notable difference was that, in small labour market regions, visiting friends and relatives was a popular leisure activity (+9·8 percentage points). On the other hand, visits to public urban space were not surprisingly relatively uncommon (−5·3 percentage points) in such geographical settings.
There were no significant differences in visit propensity by sex. For instance, males were only slightly more prone to travel by car (1·7 percentage points above the average), whereas females opted for using public transport to a larger degree (+1·5 percentage points). The figures for education, which only pertain to the adult respondents, distinguish between those respondents who have a higher (university-level) education and those who do not. Although such differences in visit propensity in general were small, there was one exception: respondents with higher education were more likely to make use of public transport (+5·1 percentage points; P < 0·10) than those with a lower level of education (−4·2 percentage points; P < 0·10).
Meeting place visit characteristics
There were substantial variations in visit duration by meeting place among the adult respondents. The most time was spent at home and at work; on average, 18·4 and 7·6 h, respectively (Table 3). Other than that, the average duration of visits to public urban space and places related to leisure-related activities exceeded 1 h. Particularly notable is that, the mean duration of a visit to friends and relatives was about 5 h. The activities that took the least time on average were shopping in large or specialist stores (0·8 h) and convenience stores (0·4 h).
a Adult respondents only (n = 443).
b Duration refers to time spent in a meeting place, conditioned on having reported visiting it.
c Figure omitted because of the small number of observations.
The number of other persons present also varied considerably; generally, the highest values were found for place types where the average duration was moderate or low. The values refer to the median number of additional persons who were present, and again only pertain to the adult respondents. The two place types, home and car, had the lowest values, each having a median value of one other person present, followed by visits to friends and relatives with a value of 3. At the other extreme, the values were 40 other persons for public transport, 35 for sports venues and 30 for restaurants. For workplaces, the median number of other persons present was 20. The standard deviation for sports venue is very high, which reflects the fact that this kind of visit sometimes involves being part of the audience to large-scale sports events.
The likelihood of physical contact was by far the highest for four particular place types, namely friends and relatives (80·1%), followed by home (73·7%), pre-school (73·3%) and compulsory or upper secondary school (71·1%). At work, the likelihood of physical contact was 55·8%. The two other place types within the leisure domain, that is, sports venues and restaurants, also had comparatively high contact probabilities: 53·8% and 30·8%, respectively. The likelihood of physical contact was lowest when using public transportation or visiting a convenience store.
A typology of generic meeting places of relevance for infectious disease transmission
The cluster analysis resulted in a typology representing five generic meeting places with similar properties with regard to visit propensity and its characteristics in terms of duration, number of other persons present and likelihood of physical contact: (1) the family venue, (2) the fixed activity site, (3) the family vehicle, (4) the trading plaza and (5) the social network hub. Three of the clusters consisted of a single meeting place; the remaining two were made up of four and five place types, respectively (Fig. 1).
The family venue is a clearly distinguishable generic meeting place of its own in the typology. Almost everyone in the survey had been at home, and had spent by far the most time there. This meeting place type has a high likelihood of physical contact, generally occurring among a few permanent members.
The fixed activity site consists of different types of meeting places (N = 4) away from home where people regularly spend time on long-term contracted premises for work, education and sports activities. The specific setting visited was largely contingent on age: pre-school or compulsory or upper secondary school among young people; work among adults below retirement age. For these meeting places, visit duration as well as likelihood of physical contact were high. Compared with the family venue, they had lower visit propensity but a higher number of other persons present.
The family vehicle is characterised by a high visit propensity; the second most common place visited on an average day was a car, mostly involving driving or riding in a family automobile. The average duration, however, was low, as was the median number of other persons present. The likelihood of physical contact was the same as that for public urban spaces and restaurants.
There are several meeting places, primarily within the shopping and leisure domains, that people visit to restore their supplies and associate with people. These place types (N = 5), which together make up the trading plaza, are convenience stores, large or specialist stores, public transport, restaurants and public urban spaces. Meeting places in the trading plaza are characterised by comparatively low visit propensity, average duration and likelihood of physical contact. The median number of other persons present ranged between 10 (convenience store) and 40 (public urban transport).
The social network hub represents the homes of friends and relatives. At this meeting place type, the likelihood of physical contact is the highest – surpassing even the family venue. Although similar in many ways to the fixed activity site, the social contact hub stands out in that the median number of other persons present was lower.
There were differences between and within the generic meeting places in terms of not only who visits but also concerning who they meet there. Table 4 shows that non-family encounters made up the highest proportion of contacts at work (100·0%), as well as in restaurants (91·2%) and large or specialist stores (87·5%). Based solely on the observed distribution of respondents’ whereabouts by sex, the expected proportion of intergender physical contact would be about 50% for all place types. As Table 4 illustrates, certain place types deviated from this expected pattern by exhibiting a lower proportion of physical contact between men and women. In particular, this was the case for the meeting places work (27·0%), large or specialist stores (28·1%) and sports venues (28·6%). Physical contact was most likely to concern a first-time personal encounter in a public urban space (25·0%), a large or specialist store (17·9%) and a sports venue (14·7%).
a Non-family contacts only.
b Figure omitted because of the small number of observations.
DISCUSSION
This study set out to develop a typology of generic meeting places based on social contact and mixing of relevance for infectious disease transmission. We derived the typology from an analysis that accounted for four dimensions associated with transmission risk: visit propensity and its characteristics in terms of duration, number of other persons present and likelihood of physical contact. Five generic meeting places were identified, where the representation of the family venue was strong in all four transmission-related dimensions. The thematically related family vehicle had the second highest visit propensity, but lower average duration and likelihood of physical contact. The fixed activity site and trading plaza are both public in nature, but also exhibit important differences. The fixed activity site is characterised by regular, longer visits to specific instances of places, is largely stratified by age and tends to involve persons with whom one is already acquainted. The trading plaza, on the other hand, is characterised by less regular, shorter visits to different instances of meeting places, is more heterogeneous in terms of who visits and tends to involve persons with whom one is not already acquainted. The social network hub also largely involves non-family members. However, like the family venue, it is characterised by a low proportion of first-time contacts.
In the preparatory analyses underpinning the typology, we identified the meeting places most commonly visited by the Swedish population, but also found that there were significant differences within the population depending on personal and geographical characteristics. Not surprisingly, persons of working and school age were more likely to be at work and in school, respectively. In addition, young individuals were also more likely to visit sports venues and friends and relatives. With regard to geographical location, defined as labour market regions of different population density, we found that the lower the population density, the higher the reliance on car use and the lower the use of public transport. In addition, individuals living in small labour market regions were more likely to visit friends and relatives. Regarding meeting place visit characteristics, the duration of stay was longest for home, work and public urban spaces, plus leisure-related activities, particularly visits to friends and relatives. The number of other persons present was largely related to degree of ‘publicness’ of the place: low for home, car and friends and relatives; high, for example, for public transport and sports venues. The likelihood of physical contact while visiting a certain place type was the highest at friends and relatives, followed by the fixed activity sites. The importance of leisure-related activities in facilitating social contacts, especially among young persons, was recently corroborated in a similar study conducted in Russia [Reference Ajelli and Litvinova26].
It has recently been indicated that demography, particularly in terms of age, is of great importance in explaining infectious disease transmission [Reference Kwok18]. While generally largely the case (infectious diseases where infection tend to take place at low age, such as measles, constitute notable exceptions) [Reference Merler and Ajelli27], this inference may lead to important information being neglected in the analyses. Throughout history, meeting places have reflected essential aspects of human social life: how human beings protect themselves and their families from the environment, fulfil their basic needs and learn from each other [Reference Polanyi, Polanyi, Arensberg and Pearson28]. One consequence of the current focus on mixing by age is that the spatial representation of meeting places has not been developed to the level that makes such models optimally efficient [Reference Kretzschmar and Mikolajczyk29]. It is noteworthy that mixing group representations introduced by, for instance, Elveback et al. [Reference Elveback30] and refined by Longini et al. [Reference Longini31], Halloran et al. [Reference Halloran10, Reference Halloran32] and others are still widely used in infectious disease modelling, even though their empirical relevance has seldom been verified. It can be questioned, for instance, whether ‘family’, ‘playgroup’ and ‘community’ are sufficient representations of social contact and mixing in today's dynamic societies. In the present study, we used an inductive statistical method to identify the family venue, the fixed activity site, the family vehicle, the trading plaza and the social network hub as spatially explicit generic meeting places. These meeting place types, with their empirically verified characteristics and urban–rural variations, provide a current and detailed spatial foundation for modelling of infectious disease transmission based on social contacts and mixing patterns. Previous empirical studies of interpersonal contact vary in their approach, ranging from focusing on arguably the most pertinent place types such as home, work and school [Reference Danon20, Reference Potter33] to incorporating a more extensive set of meeting places [Reference Mossong17, Reference Polanyi, Polanyi, Arensberg and Pearson28, Reference Read, Eames and Edmunds34]. There are also studies that make ambitious efforts to integrate social contact information with data on time spent in specific locations [Reference Zagheni35–Reference Fumanelli37]. The general impression, however, is that the thematic ‘resolution’ of the specific places where people meet and interact in everyday life thus far has been coarse, distinguishing between a limited number of meeting place types.
The main contribution of the meeting place typology to infectious disease modelling and control is that it provides a stable yet flexible spatial framework accounting for social contact and mixing, where the social context of the outbreak can be highlighted in light of the actual infectious agent. The typology can be compared with previously identified personal meeting place-adjusted contact profiles [Reference Kretzschmar and Mikolajczyk29], also derived by means of cluster analysis. The clusters represent contact profiles related to (1) work (‘professional’), (2) school, (3) leisure, (4) the family (‘big home’), (5) other places, (6) multiple locations (‘mixed’) and (7) having a low degree of contact. Evidently, there are both similarities and differences between the approaches. While the meeting place typology focuses on specific spatial locations, the contact profiles describe how particular individuals habitually visit and experience social contacts there. In other words, the typology and profiles meet different needs and purposes. For instance, the meeting place typology can be particularly used in planning of social distancing policies, such as closing of certain meeting places, in the early phases of disease outbreaks. Representation of meeting places that are stable over time is also of particular interest for control of infectious agents for which transmission mainly takes place in settings where infected and susceptible individuals meet regularly and during extended periods of time, for example, for control of tuberculosis [Reference Dye and Williams5, Reference Abu-Raddad6]. In contrast, regarding bioterror threats, spread of certain agents such as anthrax is expected to occur through aerosols at large meeting places [Reference Tang38]. By distinguishing the number of visitors and mixing patterns for each type of large meeting place, the typology can be used in modelling the secondary dissemination patterns resulting from such attacks. Finally, the recent outbreak of Ebola in West Africa highlights the importance of expanding the typology of meeting places, when needed, to represent even more specific meeting places with relevance to the infectious agent in questions, such as those related to local funeral practices [Reference Frieden39]. The typology presented in this paper can thus provide a pre-processed representation that can support an earlier start of transmission pattern analyses and more rapid response planning when a less known infectious disease is encountered.
Geography also influences social contacts and mixing patterns in a wider sense. Interpersonal contacts are likely to be influenced by the availability of physical places that can function as arenas for such encounters, and the supply of amenities in spatial proximity to the home is highly dependent on population density [Reference Haugen22]. There are only a few studies [Reference Moore, Carrasco and Tudela40] explicitly addressing this link between space on the one hand and social contact and mixing on the other. Another way of expressing the importance of geography in infectious disease diffusion is to acknowledge the fundamental difference between types of meeting places and specific instances of meeting places within each type. People do not actually meet within a type (e.g. work), but mainly within one specific instance of the type (i.e. their own workplace). This applies, in particular, to meeting places with largely permanent members such as those belonging to the family venue and fixed activity site. Not taking this distinction into account blurs the heterogeneity of pairwise social contacts in the population, thus also contributing to an ostensible but illusory unimportance of place and space in infectious disease modelling.
Indeed, the discussion concerning the importance of individual demographic and socio-economic vs meeting place-related characteristics for infectious disease transmission sometimes seems to miss a fundamental point: transmission is not a social construction but a biological, space-related phenomenon requiring physical nearness. While susceptibility can be directly affected by factors such as age, the role of individual attributes is mainly indirect, influencing the selection of specific persons meeting each other. Demographic and socio-economic characteristics help substantially in pinpointing which types of meeting places different persons tend to visit. It is, for instance, more likely that two randomly selected children meet (at school), compared with two randomly selected persons from the same overall population. Much more precise information about the process is gained from knowing which specific instances of meeting places persons visit. Individual attributes, however, does not reveal much about the selection into instances, which instead first and foremost comes about based on geography and proximity. A large part of this spatially structured selection of instance-specific meeting place members is often as available empirically from register and/or survey data (or possible to impute) as are demographic and socio-economic characteristics. Consequently, main findings about meeting place types, such as visit propensity and its characteristics in terms of duration, likelihood of physical contact and number of other persons present as presented in this article, provides a foundation for the explicit use of geography in creating relevant instances of meeting places of different types.
Regarding our study, a pertinent issue relates to the validity of social contact and mixing data in understanding the transmission of infectious disease. We based our analyses on a cross-sectional contact diary survey conducted on a representative sample of the Swedish population. The contact diary approach to data capture is one among several available techniques, in itself requiring additional methodological considerations and choices [Reference Bolton41]; the other ‘families’ of methods are direct observation, use of proximity sensors and making inferences from secondary data analysis [Reference Read42]. Although a relationship reported physical contacts–infection risk cannot be taken for granted, there exists ‘strong circumstantial evidence that the contact diary approach, with a definition of contact which includes conversational or physical touch encounters, can capture aspects of social interaction important for the transmission of infection of influenza’ [Reference Read42, p. 2125]. Even so, there are some limitations to our study that should be kept in mind. The form of physical contact is an important factor influencing transmission risk for different types of infectious disease. In our survey, ‘physical contact’ meant at least actually touching another person, but we did not distinguish between such contacts in more detail. We also mainly took into account the locations where study participants spent the majority of their time. In the vast majority of cases, our survey template managed to capture more or less a whole day, but for a few respondents more time was unaccounted for. In addition, data were collected during the first quarter of the year, and climate may influence social contacts and mixing patterns. In particular, this is likely to be the case in a country like Sweden, where seasons tend to differ substantially in terms of temperature and snow cover.
In conclusion, we set out to develop a typology of generic meeting places of relevance for infectious disease transmission. The typology, comprising five generic meeting places, was derived from an analysis that accounted for four central dimensions associated with transmission risk. However, the fundamental difference between types of meeting places and specific instances of meeting places within each type needs to be acknowledged. Furthermore, the daily mobility between different meeting places, as well as instances of the same type, constitutes a pivotal issue in infectious disease transmission. More research is also warranted on how the typology can be made more detailed by further integrating demographic and socio-economic data related to visits to and contacts in different meeting places. These aspects of social contacts and mixing patterns are not addressed in this study, and thus constitute highly relevant topics for further research.
ACKNOWLEDGEMENTS
This study was supported by grants from the Swedish Civil Contingencies Agency (T.T., grant no. 2010-2788); the Swedish Science Council (T.T., grant no. 2008-5252); and the Swedish Governmental Agency for Innovations Systems (VINNOVA) (T.T., grant no. 2011-03231). The funders had no role in study design, data collection and analysis, preparation of the manuscript or decision to publish.
DECLARATION OF INTEREST
None.