In the twenty-first century, one of the aims of Europe 2020 is to manage knowledge and IC within organisations to maximize efficiency by identifying innovative solutions to reduce resource consumption, leading to structural, organisational, and process changes (Gogan et al., 2016). Specifically, the resource-based view (RBV) highlights the critical role of firm-specific resources and capabilities, including IC, in attaining sustainable competitive advantage (Enriquez, 2015; Huselid & Becker, 1997).

Among a firm's intangible assets, human IC are crucial drivers for their survival and success over time (Grant, 1996; Marulanda-Grisales & Vera-Acevedo, 2023). Human resources are recognized as the most valuable assets for firms (Baron & Armstrong, 2007). Indeed, it has been consistently reported that skilled employees represent a source of competitive advantage for organisations (Schuler & MacMillan, 1984). IC is defined as “intellectual material, knowledge, information, intellectual property, and experience that can be used to create wealth” (Stewart, 2007). It can be classified into three dimensions: (1) human capital, (2) structural capital, and (3) relational capital (Subramaniam & Youndt, 2005).

Structural capital includes tangible assets and systems that support an organisation's operations, such as patents, trademarks, copyrights, software, and organisational routines (Abdulaali, 2018). Relational capital is defined as the value of the organisation's brand, strong customer relationships, and consumer satisfaction (Ramezan, 2011; Sarwenda, 2020). Finally, human capital includes factors such as education, experience, expertise, creativity, and innovation (Ramírez-Solis et al., 2022). Therefore, it refers to the entire knowledge capital generated through relationships with external stakeholders (Mazzotta, 2018). IC can be a strong, sustainable competitive advantage if it satisfies the criteria of value, rarity, inimitability, and non-substitutability (Calza et al., 2014; Freeman et al., 2021). Therefore, organisations that strategically manage their human, structural, and relational capital integration and development can achieve a leading position in their sector (Alrowwad et al., 2020). This leads to increased efficiency and innovation, but above all, it enhances the ability to adapt to changes in the market in which they operate, maintaining their competitive advantage (Alvino et al., 2021).

In service industries, human interaction and expertise are critical to the quality of the service provided (Pelinescu, 2015). IC enables organisations to better manage intangible resources and adapt to increasingly competitive and dynamic environments (Rehman et al., 2022). Among these resources, human capital is particularly crucial, as employees' skills, knowledge, and experience directly impact operational efficiency and customer-perceived value (Sima et al., 2020). Service industries, compared to other sectors, often prioritize building and maintaining customer relationships, making relational capital a key factor for success (Wang et al., 2014). Establishing strong connections with clients, partners, suppliers, and employees is central to their achievements.

Service industries encompass various fields, including healthcare, education, financial services, and tourism. IC plays a pivotal role in each of these fields, with its significance particularly evident in healthcare. In healthcare organisations, human capital – represented by the expertise and skills of healthcare professionals – acts as the primary driver of value (Evans et al., 2015). Moreover, the quality of relationships within these organisations, which forms the foundation of their relational capital, is a critical factor in delivering high-quality care (Baker & Dutton, 2017).

In healthcare organisations, various types of relationships exist (Mason & Manzotti, 2009), including the critical relationship between doctors and patients. Additionally, these relationships extend to the networks managers build among different stakeholders, such as organisations, universities, and clients (Evans et al., 2015). IC and sense-making are inherently connected in healthcare. The knowledge embedded in human capital enables professionals to interpret complex medical situations, while the relationships within relational capital facilitate the exchange of critical information (Tasselli, 2015). These elements enhance an organisation's capacity to adapt to challenges, innovate, and deliver high-quality care. In healthcare, networks function as "self-supporting groups of professionals working together to ensure cross-speciality sharing of patients and expertise" (Skipper, 2010, p.241). These clinical networks foster the development of innovative practices, which are increasingly essential for improving the efficiency of healthcare systems (Schiavone et al., 2022).

The level of sense-making in a network can indicate the intensity of cooperation within the network (Boud, Cressey, & Docherty, 2006). Sense-making is defined as the process through which members of organisations collectively develop an understanding of their environment (Cristofaro, 2022). Organisations can acquire crucial information, share knowledge, and develop a shared understanding of their challenges and opportunities through a network of strong and well-managed relationships. Sense-making can be facilitated and amplified by strong relational capital, as established relationships provide a constant flow of information and social support that contribute to the construction of shared meaning within the organisation (Choo, 2002).

Hence, IC and sense-making are closely related, enabling business organisations to adapt and operate in complex and dynamic environments (Maitlis & Christianson, 2014). In the literature, scholars (Alfiero et al., 2021; Paloni, 2020) analyse the contributions of the different dimensions of IC within the healthcare sector (Tardieu et al., 2020). They emphasize that IC has the potential to generate significant value within the organisations where it is created and developed, helping managers improve the quality of healthcare transformation.

A significant body of literature addresses structural capital (Evans et al., 2015; Guo et al., 2017); however, fewer contributions focus on relational capital, particularly human capital (Cavicchi et al., 2017; Evans et al., 2015). Despite its pivotal role in healthcare organisations, this finding underscores the limited attention given to human capital studies. Further research is required to understand what types of organisational activities can be used to increase, improve, and leverage human and relational capital in healthcare organisations. For this reason, our research aims to fill the gap in the literature by examining the factors that influence the content, quality, and ease of transfer of IC characteristics within and across organisational performance. The theoretical framework is supported by Table 1, which summarize the background and limitations of the most recent literature. The studies included in Table 1 were selected as the most relevant and up-to-date references on IC in healthcare, particularly concerning performance enhancement, IC in digitalized health networks, and sense-making. The first study was chosen for its discussion of IC's impact on the healthcare sector and its potential to improve performance. However, it does not fully explore how IC influences skills development and network dynamics within healthcare performance. The second study investigates the creation of an IC-based framework aimed at improving healthcare policies, focusing on the role of digital platforms and their impact on various healthcare actors, such as physicians, nurses, administrators, and patients. Given the critical role of digital platforms in decision-making processes, further research could explore these aspects in greater depth, incorporating actual data and practical case studies to enhance healthcare policy. The third study highlights the significance of sense-making in team dynamics within healthcare, leaving room for further exploration into how managers use sense-making to inform decision-making and improve organisational activities in healthcare.

One of the key drivers of value creation in the healthcare industry is the high level of expertise and the quality of services provided, making it a highly “knowledge-rich” environment. This positions healthcare organisations not only as service providers but also as knowledge creators. Developing, acquiring, and enhancing intangible assets, such as IC, is a major source of value creation today. The exchange of information is thus essential to the sector's development processes, particularly within healthcare networks, which consist of diverse actors with a wide range of skills and interests working together in a coordinated way to ensure equitable, high-quality healthcare provision.

A new organisational paradigm in oncology has recently emerged at the global level, centred on the creation of regional cancer networks. Cancer networks have long been the preferred organisational approach for oncology healthcare management. They enable healthcare organisations, companies, and indirectly, their stakeholders, to realize numerous benefits. These include improved clinical and organisational efficiency, enhanced professional information exchange, and the delivery of care services more precisely focused on the needs of oncology patients. An example is the so-called “Campania Oncology Network” (ROC), which was founded to bring together all the institutions involved in the prevention, diagnosis, treatment, and rehabilitation of malignant cancers. The Campania Region established the Campania Oncological Network (ROC) in September 2016 to create efficient and well-defined diagnostic and treatment pathways. This initiative aims to prevent delays in diagnosis and treatment while promoting equitable access to care, appropriate treatment settings, and better coordination between hospitals and community healthcare services (Crispo et al., 2022).

The ROC's mission, through the definition of Diagnostic Therapeutic Care Pathways (PDTA), is to “ensure a multidisciplinary approach to patient management throughout the entire care pathway, providing continuous diagnostic and therapeutic care, timely and appropriate interventions, reducing waiting times, and ensuring that treatments are delivered in the correct sequence”. The ROC has three main constituent bodies: (1) Level II Centres, or Multi-Specialist Oncology Reference Centres (CORP), which perform diagnostic, therapeutic, and follow-up oncology functions; (2) hospices and pain therapy wards/outpatient clinics; and (3) Regional Reference Centres for specific activities in the field of oncology (CORPUS). A Multidisciplinary Oncology Group (GOM) consisting of “specialists responsible for defining and implementing the diagnostic, therapeutic, and care pathway for patients”, has been established for each PDTA. A digital platform has been adopted to facilitate communication between participants and provide a significantly broader range of information at each stage of cancer treatment. This platform allows each professional to record tests and visits conducted with the patient, enabling efficient monitoring of the patient's progress throughout the network. Additionally, the platform provides access to a comprehensive range of data related to both patients and medical professionals.

The diversity and multidisciplinarity of the network's stakeholders thus highlight the necessity for ROC to rely on IC to drive innovation, quality improvement, and patient engagement, and to develop strategies to meet the challenges of a dynamic and increasingly complex healthcare system. The capacity of health networks to provide high-quality care is contingent upon the competencies of their workforce. Furthermore, the advancement of healthcare is contingent upon the generation of novel IC, which in turn facilitates the development of innovative therapies, tools, and practices that enhance patient care.

Based on these assumptions, the ROC's value and success are grounded in its intangible assets IC. The relationships between the various stakeholders are intrinsic to the network's nature. Additionally, the technological infrastructure developed and implemented by the ROC enables real-time data and information exchange, enhancing coordination and sharing, which makes care processes more efficient. This underscores the importance of the network's intangible resources, whose effective use allows the organisation to enhance the sense-making of those involved, thereby increasing the value of the care provided. Several activities and features of the network are designed to boost the value of the collective experience of stakeholders: (1) continuous training and the exchange of best practices; (2) the development of multidisciplinary groups that facilitate the exchange of objectives and opinions, leading to the alignment of clinical strategies; (3) coordination and standardization of care to reduce fragmentation and make professional interventions more efficient; (4) the creation and implementation of a digital platform that ensures quick and concise access to patient information, fostering a transparent and collaborative decision-making process; (5) joint and multidisciplinary research projects that enrich the network's collective intelligence by improving decision-making.

There were several critical issues in carrying out such a study. Firstly, the ROC is characterised by a large amount of sensitive data. Therefore, the researchers had to design a research protocol to ensure data protection compliance with the GDPR. Secondly, IC is a very complex intangible concept to measure accurately and objectively. This complexity is particularly evident in the healthcare context, where the value of human resources is constantly being updated. In addition, there are organisations with different objectives and values. The authors, therefore, sought to understand and overcome possible conflicts and resistance.

To tackle the research question, an exploratory qualitative analysis was undertaken (Eisenhardt, 1989; Yin, 2013) to elucidate the enhancement of community sense-making through the development of IC. Data triangulation was employed to ensure methodological rigor, drawing upon several sources of evidence (Eisenhardt, 1989; Yin, 2017). Specifically, the investigation encompassed: (1) participant observations, (2) online documentation, (3) reports, and (4) archival records. Our study focuses on examining the impact of IC on the creation of community sense-making within the healthcare network.

We conducted the case study following the Rashid et al., (2019) steps: (1) foundation phase, (2) prefield phase, (3) field phase, and (4) reporting phase. Specifically, the first phase involved studying the social phenomenon of interest to identify the most appropriate research method based on various ontological and epistemological perspectives (Coll & Chapman, 2000; Maree, 2015). An abductive approach was adopted with the aim of understanding “social phenomena in terms of the motivations and understanding of social actors” (Rashid et al., 2019, p.11) through the observation of everyday activities and the analysis of relevant theories (Dubois & Gadde, 2002; Järvensivu & Törnroos, 2010). The second phase involved designing a protocol to define the set of procedures for collecting empirical material (Yin, 2009). During the field phase, the authors contacted participants and defined the appropriate data collection tools to ensure triangulation of sources. Finally, the structure for writing the case study itself was established.

One researcher engaged in eight months of participant observation (October 2023-June 2024) within the activities of Campania's Oncology Network to document observations and gather data. Kawulich (2005) defined participant observation as the methodological approach whereby researchers immerse themselves in the natural setting of the subjects under investigation, thereby gaining insights through observation and participation. Furthermore, it affords opportunities to witness and engage with unforeseen occurrences, thereby enriching the comprehensiveness and accuracy of data collection and analysis (Kawulich, 2005; Musante & DeWalt, 2010).

The authors chose to participate in three main IC development activities: (1) research projects, (2) scientific events, and (3) training events. Particularly, the authors attended three scientific events, two training events and ten research project meetings.

Through their observation, we identified the range of actions targeted at building the IC that enables the network to generate value and improve stakeholders’ sense-making. The authors classified the network's operations as either regular or irregular (DeWalt & DeWalt, 2002), alerting participants to the researcher's goal and emphasising the need for their attendance to ensure adherence to ethical standards. To avoid any potential bias or prejudice on the part of the observer, all elements were recorded in an impromptu manner without regard to their significance to the prevailing conceptual framework (Becker, 2017).

Regarding the archival records and online documentation, we analysed several reports about research projects and official events from ROC's digital platform. Thus, an analysis of the official website of ROC was conducted to get different activities carried out and stakeholders involved. To ensure the quality of the sources, Hox and Boeije's (2005) approach involved selecting secondary sources based on their relevance to the research objectives. Additional information was gathered regarding the study's aim, the data collection methods, and the units analysed.

The data were transcribed for content analysis using NVivo software (Krippendorff, 2018). The content analysis created a taxonomy of IC-based strategies for generating and promoting sense-making within the network. Four strategies were identified: (1) education-based strategy, (2) knowledge exchange strategy, (3) scientific excellence strategy, and (4) e-health adoption strategy. The following section will give the key sentences that allowed for their identification.

Organisational learning - acquiring and integrating new knowledge - expands a firm's range of strategic choices and enhances its innovativeness (Kang & Snell, 2008; Yu et al., 2013). It also improves the organisation's ability to continuously build and adapt unique capabilities (Snell & Morris, 2014; Vera et al., 2012) and prevents core capabilities from becoming rigidities (Leonard-Barton, 1995; Starbuck, 2017). Structural capital relates to learning and knowledge retention (Kong & Thomson, 2009).

The ROC network organises training events and workshops for case managers, doctors, general practitioners (GPs), and patients. These events, targeted at different stakeholders, enhance IC by fostering learning, information sharing, involvement, and professional development. They also strengthen stakeholders' understanding of the network's purpose, fostering engagement and professional growth. According to Alfiero et al. (2021), IC inside a healthcare network is represented through continuous medical education, which influences both corporate culture and the skills of individuals and teams (Evans et al., 2015). In the healthcare sector, relational capital also depends on patient satisfaction with care received (Alfiero et al., 2021). ROC network is fostering a cultural shift towards continuous learning, which is vital in these strategies. In order to promote an environment where open communication, curiosity, and innovative approaches to healthcare challenges are encouraged, The ROC healthcare organisations are carrying on education-based initiatives, in which case managers, GPs, nurses, and patients are involved.

Education-based strategies are closely related to knowledge exchange. Firms operating in dynamic environments rely on intangible resources and competencies to survive in a knowledge-based economy (Denford, 2013; Schiliro, 2012). According to the knowledge-based view (KBV) (Grant, 1996; Grant & Phene, 2022), the uneven distribution of knowledge within organisations requires the sharing of knowledge (KS) among individuals, teams, and units. Capturing, creating, and accumulating knowledge is crucial for organisations to structure resources and build capacity (Iqbal et al., 2019; Wang et al., 2012).

Knowledge sharing is a key feature of network communities (Kwok & Gao, 2004). Collaboration between healthcare stakeholders fosters innovative solutions to complex problems and enhances IC by integrating diverse perspectives. Knowledge sharing is also tied to health literacy initiatives (Andrus & Roth, 2002; De Wit et al., 2018; Weiss, 2003), which help improve community and patient understanding of healthcare information. Scientific dissemination activities (Huang et al., 2021) further co-create IC and strengthen community sense-making. The ROC organises a series of events such as workshops and seminars to bring together healthcare professionals, community members, and experts to share knowledge, exchange ideas, and tackle healthcare challenges collaboratively. Key ROC stakeholders involved in knowledge exchange initiatives include researchers, GPs, medical specialists, other healthcare practitioners, and patients.

Scientific excellence studied and debated for decades, includes institutional and cognitive dimensions (Al Shobaki & Naser, 2016). In Europe, scientific excellence is often measured quantitatively (Sunkel, 2015). International and multidisciplinary collaborations involving researchers, healthcare professionals, policymakers, and community stakeholders address healthcare challenges, creating a stimulating environment where members feel part of a high-level scientific community. These networks promote interdisciplinary collaboration, generating insights and innovative solutions, such as the ROC network does.

Scientific journals, conferences, webinars, and online repositories ensure that research knowledge related to the ROC is accessible and actionable. By encouraging healthcare institutions to adopt evidence-based practices through training, guidelines, and quality improvement initiatives, the network enhances care quality and fosters community sense-making.

The ROC scientific committee ensures that research conducted within its stakeholder community upholds the highest scientific rigor and ethics standards. Through collaboration with universities, several healthcare organisations (Local Health Authorities – ASLs), research institutions, and policymakers, scientific excellence strategies carried out by ROC network enhance IC and, thus, community sense-making.

E-health offers predictive, personalized, preventive, and participatory medical services, playing a crucial role in improving care for patients with various conditions (Alonso et al., 2019; Paoloni et al., 2023). The ROC utilizes a modular web platform to manage patient pathways within the regional healthcare system and monitor GOM care.

This platform enables bi-monthly monitoring of network activities, helping prevent diagnostic delays. It also facilitates the continuity of care by allowing the request for territorial services to be sent directly to the patient's residence. The use of this platform improves healthcare access, increases patient engagement, and enhances knowledge sharing among healthcare providers. Data analysis through this platform provides actionable insights for improving care delivery, enhancing community sense-making, and supporting evidence-based practices. The stakeholders of this platform and this strategy are patients, caregivers, GPs, nurses, and medical specialists.

The ROC's IC-related activities are addressed to identify IC-based strategies to enhance sense-making inside the network. These strategies involve the different stakeholders of the network and are executed through various initiatives.

Furthermore, given that IC consists of human, structural, and relational capital (Bontis, 1998; Edvinsson & Malone, 1997; Leitner, 2005; Vergauwen, 2007), it is possible to derive a taxonomy in which the IC category is linked to the pursued strategy, the activities carried out, and the stakeholder involved (Table 2).

The ROC network adopted strategies well-established in literature as mechanisms to enhance IC (human, structural, and relational capital). More precisely, in the ROC case: 1) human capital is crucial as the skills of GPs, medical specialists, and nurses, together with their knowledge and experience, directly impact the operational efficiency of the network and the value perceived by patients and caregivers; 2) structural capital encompasses the organisation's culture, systems and structures. It pertains to the retention and learning of knowledge within the network; 3) the constant flow of information generated by substantial relational capital contributes to the construction of shared meaning within the network. Multiple stakeholders are involved in the various initiatives, which can be considered as a series of different types of IC development processes.