The key proposition of social capital theory is that access to valuable resources is dependent on a person’s network ties (Burt, 1992; Nahapiet & Ghoshal, 1998). In that regard, the seminal work of Burt (1992) does not only focus on the access to resources in itself (ability to gain resources not available to people without similar network contacts), but also pays particular attention to timing, i.e. the ability to access resources sooner than they become available to people without similar network contacts. This speed of access is also explored in subsequent conceptual research work, postulating a positive impact of social capital on the quality, relevance, but also timeliness of available information and resources (Adler & Kwon, 2002; Pearson et al. 2008).

However, in empirical studies, if some researchers evoke this dimension theoretically (e.g. Calciolari et al., 2017; Chen et al. 2007; Engelen et al., 2016; Jansen et al., 2011), they then fail to explore it in depth. In fact, they constrain their focus to the ability to access resources or not; consequently, the timing dimension remains unexplored in empirical research despite its key significance in specific contexts and situations. One notable exception is the study of Krause et al. (2007) in the U.S. automotive and electronics industries. The authors investigate the influence of buying firms’ social capital accumulation with key suppliers on their performance improvements in terms of cost, quality, flexibility, and delivery speed. Because these types of industries rely heavily on component suppliers, these four criteria are thought as primary competitive priorities affecting the end-customer. The delivery speed, in particular, is defined in terms of “short delivery times”, and measured through asking the buying company respondents to indicate the performance in terms of short delivery times on a Likert scale (Krause et al. 2007).

The healthcare industry in Germany shares some similar concerns and challenges. Private practitioners, usually single physicians or small offices with few employees, depend heavily on other market actors (i.e., hospitals, private clinics, specialized centres for diagnostics and care) to access the necessary medical technologies to provide diagnosis and treatment services to their patients (Busse & Blümel, 2014). If the access to medical technologies is granted for all practitioners in a similar way in terms of relevance and quality, the speed of access to those resources constitutes a key competitive factor, directly affecting patients. In a health economy characterized by a supply of diagnostic and therapeutic tools below demand (Breyer, 2012; Kopetsch, 2014; Shapiro, 2005), private practitioners compete with each other due to increasing resource constraints and higher time pressure (Busson-Villa et al., 2016; Calciolari et al., 2017; Shapiro, 2005). To gain timely access and provide an optimal service delivery process with low waiting times for treatment and diagnosis private practitioners have to connect to key providers of medical technologies.

The social capital literature (Bourdieu, 1984; Burt, 1992; Coleman, 1988; Granovetter, 1973; Nahapiet & Ghoshal, 1998) emphasizes the benefits of a structural position inside network structures. According to Burt (1992), the number and quality of relationships and collaborations an individual has can be subsumed under the notion of social capital. The seminal work of Granovetter (1973) and later Burt (1992) described how a network structure offers competitive advantage to its members. In particular, social capital theory highlights how actors can more efficiently access and use additional resources embedded in the network structure (Adler & Kwon, 2002; Engelen et al., 2016; Jansen et al., 2011; Jonsson & Lindbergh, 2011; Klyver & Schenkel, 2013; Pearson et al., 2008; Romero & Yu, 2015; Semrau & Werner, 2012).

In terms of gender, the extant literature indicates a variety of differences in men’s and women’s social capital, indicating how they benefit from it and access different types of resources (Jones, 2015; Lutter, 2015). Studies typically show that women are less present in networks and spend less time networking than men (Aldrich et al., 1989; Hampton, et al., 2009; Watson, 2012). In addition, women have fewer informal networks, while men are more likely to be affiliated with core associations that provide more information, resources, and higher economic returns (Beggs & Hurlbert, 1997; Davidsson & Honig, 2003; Lin, 2000; Watson, 2012). Gender differences in network use and composition and the resulting unequal access to resources (Liao & Stevens, 1994; McGowan et al., 2015; Unger & Crawford, 1992) have been highlighted as important disadvantages for women.

In the health sector, as in other industries, ‘old boys networks’ remain very powerful (Linehan & Scullion, 2008); hence, women tend to network less and differently than their male counterparts (Buddeberg-Fischer et al., 2010). This leads to additional career obstacles for female practitioners (Nomura & Gohchi, 2012) and persistent structural gender inequality, including unequal resource availability (Buddeberg-Fischer et al., 2010; Tesch et al., 1995). Given these arguments, we hypothesize that strategic positions to timely access medical technologies are occupied by men through a social reproduction process (Bourdieu, 1984) that places female practitioners in an asymmetric situation that disadvantages them. We thus formulate the following hypothesis.

H1: Female private practitioners are disadvantaged in terms of speed of access to medical technologies in the healthcare sector.

An ongoing discussion in the literature on structural social capital concerns whether strong versus weak ties are more beneficial for resource acquisition and use (Efendic et al., 2015; Hmieleski et al., 2015; Jonsson & Lindbergh, 2011; Mamavi et al., 2015; Semrau & Werner, 2012; Zane & De Carolis, 2016).

Granovetter (1973) conceptualized the quality of relations as the strength of ties, i.e., the amount or frequency of contact, emotional affection, reciprocal behavior, or trustworthiness. Compared to strong ties, which may cause social fragmentation into cliques that allows little communication and resource exchange with outsiders, weak ties as door openers to other cliques provide access to more information and novel ideas. Essentially, being a broker in a social structure constitutes an advantage by exposing an individual to new opportunities (Burt, 1992; Granovetter, 1973). Therefore, weak ties may be powerful means for resource access because they expose people to new social groups and provide novel and diversified information and resources (Carter et al., 2003; Jansen et al., 2011; Jones, 2015; Jonsson & Lindbergh, 2011; Long et al., 2013; Manolova et al., 2006; Renzulli et al., 2000).

However, the classical social capital approach by Coleman (1988) assumes that strong, dense, and cohesive ties create a network closure fostering trust, common norms and sanctions, and reciprocity among actors. Strong ties therefore enable efficient information flow and enhance the timing, relevance, and quality of information (Adler & Kwon, 2002; De Carolis et al., 2009; Pearson et al., 2008). The nature and configuration of links that a person maintains within his/her social environment are therefore crucial to resource access, whereas social capital – both strong and weak ties – appears to have a contingent value (Ahuja, 2000; Hmieleski et al., 2015; Hoang & Antoncic, 2003; Klyver & Foley, 2012). Hence, depending on the context, strong or weak ties can be more or less important in accessing resources.

Regarding the contingent factors, research indicates that small enterprises and entrepreneurs rely primarily on strong ties in the form of informal and personal relationships, which can be particularly valuable for resource acquisition in this context. Strong ties are also particularly efficient during firm emergence, as they lead to a cohesive network structure allowing for increased resource accessibility (Felício et al., 2012; Ingram & Roberts, 2000; Jonsson & Lindbergh, 2011). Moreover, strong ties appear to have particular importance in industries characterized by high expertise and knowledge as well as advanced technologies. For instance, in the university sector, individuals with a cohesive network have early access to technologies, as their contacts may have accumulated obligations with respect to each other (De Carolis et al., 2009). Finally, strong ties have also been shown to be particularly relevant for gaining access to technical resources (Mosey & Wright, 2007).

Given the above arguments and the specific context of private healthcare professionals who run unipersonal or very small structures in a sector characterized by high expertise and advanced medical technologies, we hypothesize that female and male practitioners who rely on strong ties can enhance the speed of access to medical technologies. Strong ties should leverage this strategic resource more efficiently than weak ties. We formulate the following hypothesis.

H2: Relying on strong ties is significantly and positively related to the speed of access to medical technologies for private practitioners.

Consistent with the theoretical approaches on social capital, gender research has examined what type of ties women rely on to acquire different types of resources. Men and women were found to have different social network structures (Jones, 2015). Several studies verify that women primarily use strong ties (in particular family and friends) to obtain different types of resources, including funding for business start-up and growth (Carter et al., 2007; Orhan & Scott, 2001; Singh & Lucas, 2005). Accordingly, women are less likely to have weak ties in their job- or business-related networks (Eddleston, 2013; Klyver & Terjesen, 2007; Powell & Rankin, 2002; Renzulli et al., 2000; Robinson & Stubberud, 2009). Some researchers thus conclude that women benefit less from their networks than men do (Jones, 2015; Lin, 2002; Molyneux, 2002; Shaw et al., 2001) because women tend to turn to more affective family-to-business support to gain access to resources (McGowan et al., 2015; Powell & Eddleston, 2013; Watson, 2012). However, recent research has shown that relying on strong ties can be beneficial for women in some contexts. Strong ties, characterized by trust-based relations, lower the need to protect oneself against opportunistic behavior and therefore enhance resource and information flow. This type of relational social capital has been described as positively affecting female entrepreneurship, particularly through their wider use of cooperative behaviors (De Jong & Marsili, 2015; Efendic et al., 2015; Vosta & Jalilvand, 2014).

While female practitioners receive less mentoring than men for their career advancement in the medical field (Buddeberg-Fischer, et al., 2010; Carr et al., 2009; Seraj et al., 2015), recent research reveals that cooperative behavior is gaining more attention in the field and that empathy and sharing of ideas and resources through tied networks might be more important for female than for male physicians (Buddeberg-Fischer et al., 2010; Busse & Blümel, 2014; Carr et al., 2009; Schröder, 2010).

Given the medical context, hypothesized as favorable to strong tie mobilization, as well as the propensity of women to rely on such ties, we expect female private practitioners to rely on strong ties to compensate for their gender-based disadvantage in accessing medical technologies. In other words, female private practitioners who use strong ties might access medical technologies as efficiently (or even more efficiently) than men using the same type of ties. We formulate the following hypothesis about the moderating effect of gender.

H3: Being a woman positively affects the relationship between strong ties and speed of access to medical technologies for private practitioners.

We tested our hypotheses utilizing a sample of private practitioners in Germany. After selecting medical private practitioners and obtaining their contact details from the Schober Business TargetBase, emails soliciting participation in an online survey were sent during January and February 2013. After two follow-up emails, we received 98 completed questionnaires (return rate: 3.05 percent). As indicated in Table 1, most of these private practitioners are male (84.7 percent), with an average tenure of 30 years. The vast majority (89.8 percent) work in practices with an average of two employees. Private practitioners in our sample work in a hospital or a clinic (92.86 percent). Our sample also contains general practitioners (29.73 percent) and specialists.

As highlighted in our literature review, the time spent on care delivery is a central issue in the German healthcare industry. However, a scale to measure speedof access to medical technologies does not exist in the literature. In line with Krause et al. (2007) and their empirical approach, we measured speedof access to medical technologies through asking private practitioner to assess the speed of access on a six-point Likert scale, with the following items: (1) access to diagnostic and therapeutic facilities, (2) access to medical technologies, and (3) access to high-technology equipment for diagnosis and treatment. Variance is 83 percent and Cronbach’s alpha 0.883.

Measuring the strength of ties requires specific methods. In explaining how to delimitate a personal network, Chollet (2005) first differentiates two types of methods. In the first case, the respondent does not participate in the data construction. The researcher can use archives, communication support, or observations to describe the network. In the second case, the respondent does participate in the data construction by reports of his/her daily relationships and interactions, a list of people, or a name generator. Each method has advantages and disadvantages, but the name generator has the advantage of determining the respondent’s self-perception of who is relevant in his/her personal network to achieve certain goals. Thus, consistent with previous studies (e.g., Burt, 1992), we utilized a name generator to measure the strength of ties. Respondents were asked to provide the names of those individuals with whom they maintained contact to (1) obtain a second opinion about a diagnosis, (2) receive a complementary opinion, (3) receive a supplementary opinion, and (4) seek advice. The fifth generator was more open, with the goal of identifying any person the respondent considers important for performing his/her job well. Each respondent could enter up to 18 names. For each name, the respondent was then expected to answer a number of other questions. As demonstrated by Marsden and Campbell (1984), emotional closeness is the most reliable variable with which to measure the strength of ties. Our data collection tool therefore asked the respondents to position each of their listed contacts on a four-point Likert scale ranging from distant to especially close (Burt, 1992). The strength of ties variable is then calculated as the average of the listed contact scores.

To reduce the risk of underestimating access to medical technologies, we included gender as a theoretical dummy variable as well as the number of employees on a five-point Likert variable (from I work alone to more than 500 employees). We added tenure as a typical control. In management studies, it is common practice to control for tenure as it may have an impact on individual or organizational performance (Chollet et al., 2014). With regard to our sample, tenure (i.e., the number of years of professional experience) should could have an impact on the speed of access to medical technologies because network ties to access medical technologies form over time.

We conduct a hierarchical regression analysis to test our set of hypotheses[1]. First, we present the effect of controls and introduce the theoretical variables. Second, we add the moderating effect (Gender X strength of ties) to determine to what extent men and women benefit more from their weak/strong ties. Third, we present the moderating effect through a graph showing interaction (Figure 2).

As expected, gender and the strength of ties influence access to medical technologies. Our analysis also reveals the existence of an effect of the interaction between gender and the strength of ties on the speedof access to medical technologies.