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1 – 10 of over 91000Amalya L. Oliver and Noam Frank
Israel, characterized by various knowledge-intensive entrepreneurial firms, provides an interesting case study for examining sector-based differences and “small country” regional…
Abstract
Israel, characterized by various knowledge-intensive entrepreneurial firms, provides an interesting case study for examining sector-based differences and “small country” regional patterns. This chapter has a dual goal of exploring sector and regional differences of knowledge-intensive firms in Israel. The first goal is to depict similarities and differences between firms in three knowledge-intensive sectors: Life Sciences, information technology, and Cleantech. The second goal questions whether the geographical distribution of these firms across regions is associated with different levels of knowledge concentration and organizational homogeneity. Regional and sector-based differences were measured by firm-level network structures, funding patterns, and innovation proxies. One way analysis of variance tests were conducted for attaining these research goals. The main findings show that while most regions exhibit similar patterns of firm and network characteristics, many differences exist on the sector level that are associated with sector-specific attributes. These findings support the notion of a “small country inter-regional homogeneity effect.”
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Bhuvaneashwar Subramanian and Som Sekhar Bhattacharyya
The purpose of this study is to identify the factors that contribute to the successful implementation and management of sustainable innovation in research-intensive sectors such…
Abstract
Purpose
The purpose of this study is to identify the factors that contribute to the successful implementation and management of sustainable innovation in research-intensive sectors such as the life sciences industry.
Design/methodology/approach
The study was conducted through a combination of two methods. The first was qualitative interviews of 21 sustainability experts and leaders in the life sciences industry who were responsible for implementing sustainable innovation. They were selected through nonprobabilistic purposive sampling. The second method was thematic content analysis using the MAXQDA software.
Findings
The study identified that successful implementation of sustainable innovation in research-intensive firms begins with the alignment of the executive vision for sustainability with the business objectives of the research-intensive firm. Furthermore, implementation of sustainability practices is identified as a function of organizational reconfigurations that facilitate purposeful inflow and outflow of ideas and knowledge between internal firm resources and external stakeholders, anchored by the objectives of the research-intensive firm.
Research limitations/implications
The study explicated factors only within life sciences industry based on qualitative interviews. The study offers scope for cross-sector quantitative evaluation.
Originality/value
To the best of the authors’ knowledge, this study is among the first studies to systematically delineate the underlying factors that govern successful implementation of sustainable innovation in research-intensive industries, through integration of the resource-based view and stakeholder theory and thereby provide a framework for research-intensive organizations to implement sustainable innovation practices.
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Anne Sisko Patana, Matti Pihlajamaa, Kirsi Polvinen, Tamara Carleton and Laura Kanto
This paper aims to identify inducement and blocking mechanisms which impact the development of the life sciences innovation system in Finland. Innovation system analysis of…
Abstract
Purpose
This paper aims to identify inducement and blocking mechanisms which impact the development of the life sciences innovation system in Finland. Innovation system analysis of emerging technologies is important for the design of technology-specific innovation policy measures to promote desirable futures
Design/methodology/approach
This exploratory study uses a functional technological innovation system analysis framework designed to identify policy goals for emerging technological fields. The data consist of 33 qualitative face-to-face interviews with senior managers and decision-makers. Best practices are identified from the San Francisco Bay Area and the Finnish life sciences innovation system is analyzed in detail.
Findings
The Finnish system has a good capability to perform top-level basic research, but the commercial aspect is largely missing because of the lack of business know-how, small size of the domestic market, networking failures, scarcity of funding and poor public image.
Research limitations/implications
The two regions have different scopes which prevents direct comparisons between them.
Originality/value
This study applies the technological innovation system model to the life sciences industry. It provides new information on the characteristics of the industry and factors affecting its dynamics. The results can be applied for policy design by policy makers.
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Daniel J. Rees, Victoria Bates, Roderick A. Thomas, Simon B. Brooks, Hamish Laing, Gareth H. Davies, Michael Williams, Leighton Phillips and Yogesh K. Dwivedi
The UK Government-funded National Health Service (NHS) is experiencing significant pressures because of the complexity of challenges to, and demands of, health-care provision…
Abstract
Purpose
The UK Government-funded National Health Service (NHS) is experiencing significant pressures because of the complexity of challenges to, and demands of, health-care provision. This situation has driven government policy level support for transformational change initiatives, such as value-based health care (VBHC), through closer alignment and collaboration across the health-care system-life science sector nexus. The purpose of this paper is to evaluate the necessary antecedents to collaboration in VBHC through a critical exploration of the existing literature, with a view to establishing the foundations for further development of policy, practice and theory in this field.
Design/methodology/approach
A literature review was conducted via searches on Scopus and Google Scholar between 2009 and 2019 for peer-reviewed articles containing keywords and phrases “Value-based healthcare industry” and “healthcare industry collaboration”. Refinement of the results led to the identification of “guiding conditions” (GCs) for collaboration in VBHC.
Findings
Five literature-derived GCs were identified as necessary for the successful implementation of initiatives such as VBHC through system-sector collaboration. These are: a multi-disciplinarity; use of appropriate technological infrastructure; capturing meaningful metrics; understanding the total cycle-of-care; and financial flexibility. This paper outlines research opportunities to empirically test the relevance of the five GCs with regard to improving system-sector collaboration on VBHC.
Originality/value
This paper has developed a practical and constructive framework that has the potential to inform both policy and further theoretical development on collaboration in VBHC.
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Jukka Majava, Pekka Leviäkangas, Tuomo Kinnunen, Pekka Kess and Del Foit
Increasing competition in global markets requires many countries to seek new growth sectors. In addition, the nature of competition is changing. This paper applies the business…
Abstract
Purpose
Increasing competition in global markets requires many countries to seek new growth sectors. In addition, the nature of competition is changing. This paper applies the business ecosystem concept and studies San Diego as a spatial health and life sciences ecosystem. The purpose of this paper is to identify issues that should be considered in design of innovation policies and regional industry development.
Design/methodology/approach
The research approach is built on a literature review of business ecosystems and spatial innovation. The empirical study is based on semi-structured interviews, observations, and information gathering and verification during field research.
Findings
The results include a description of the ecosystem structure and dynamics. This paper demonstrates the bottom-up nature of San Diego’s health and life sciences ecosystem without a dominant lead actor, and presents prerequisites for fostering spatial ecosystems.
Research limitations/implications
A single case may not be able to offer a generalized picture of this topic. However, the study raises several considerations for researchers and decision-makers involved in innovation policy design. Future work should extend the study and involve other spatial and substance contexts to compare findings and to pursue a more generic picture of innovation ecosystems and networks.
Originality/value
This paper demonstrates that applying the concept of business ecosystems to the spatial context provides new insights in terms of dynamic mechanisms and factors contributing to economic growth in a particular location. Understanding how to facilitate the creation of successful spatial ecosystems is in the focal point of innovation policies.
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Ignat Kulkov, Magnus Hellström and Kim Wikström
Business accelerators have recently received increasing attention as important cogs in business ecosystem development. However, their exact role in the ecosystem is not yet well…
Abstract
Purpose
Business accelerators have recently received increasing attention as important cogs in business ecosystem development. However, their exact role in the ecosystem is not yet well known, especially outside the IT sector. The purpose of this study is, therefore, twofold: to determine the position of life science accelerators in the business ecosystem and the attributes of support for companies and to identify key features of the life science accelerators that contribute to the change in business ecosystems.
Design/methodology/approach
The authors offer an exploratory case study of five life science business accelerators and analyze the main factors affecting the companies and the whole business ecosystem. The authors build upon the scarce literature on business accelerators and consider a new type of accelerator that specializes in life science projects and study its role in the transformation and evolution of the life science industry.
Findings
The authors have defined the role and key parameters of life science accelerators that influence the existing business ecosystems: (1) cooperation with other regions and countries, (2) development of entrepreneurial skills among participants of the business accelerators program and (3) a project on demand-based approach.
Originality/value
The key parameters of the life science accelerators allow to concentrate these efforts on the activities that are most demanded by the market. Business accelerators can increase the created value for other program participants.
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Laura Eselius, Mohan Nimmagadda, Ajit Kambil, R.T. (Terry) Hisey and John Rhodes
Convergence in the life sciences and health care industries – the combining of two or more of drugs, diagnostics and devices to create an improved health care product – is leading…
Abstract
Purpose
Convergence in the life sciences and health care industries – the combining of two or more of drugs, diagnostics and devices to create an improved health care product – is leading to new opportunities for business growth and product differentiation. This report aims to examine the issues around convergence, including the drivers, risks and regulatory issues.
Design/methodology/approach
This report is based on industry and literature reviews and builds on research carried out by Deloitte Research on the life sciences and health care industry.
Findings
The paper finds that technological advances, evolving health care needs and shifting market conditions are creating favourable conditions for convergence. Developing convergent technologies, however, has risks and uncertainties that life sciences companies need to consider along with regulatory issues. Cross‐sector partnerships are becoming more of a necessity and reality for health care firms, who have to be aware of the many operational and ownership issues involved.
Practical implications
Market pressures and opportunities are motivating life sciences firms of all types and sizes to invest in convergence. Convergent technology is transforming cardiovascular care, orthopedic treatment, tissue wound management and other clinical areas by creating solutions that are less invasive, less painful, more patient‐specific, more convenient and sometimes more affordable. Consequently, players from all sectors are entering the competition for R&D assets, setting up new rivalries and alliances.
Originality/value
In mapping the many factors surrounding convergence in the life sciences industry, this report enables firms to evaluate their own opportunities and priorities. It proposes a framework that companies can use to decide which pathway to convergence is best for them.
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Francois Brouard, Tyler Chamberlin, Jerome Doutriaux and John de la Mothe
Stefanos Marangos and Lorraine Warren
The purpose of this paper is to examine what strategies the CEOs of research and development (R&D) intensive small/medium enterprises (SMEs) in the life sciences sector carry out…
Abstract
Purpose
The purpose of this paper is to examine what strategies the CEOs of research and development (R&D) intensive small/medium enterprises (SMEs) in the life sciences sector carry out in regard to open innovation (OI), as R&D costs continue to rise, placing pressure on innovation managers.
Design/methodology/approach
A qualitative study was carried out, consisting of 30 semi-structured interviews with CEOs of small R&D intensive SMEs in the life sciences sector. The authors analysed the key factors identified by the CEOs in relation to their OI strategies.
Findings
SMEs adopt a range of OI strategies and collaborations, subject to certain conditions. A multilevel mapping developed from the analysis connects actors to the wider domain, setting the outcomes of the research in context.
Research limitations/implications
This qualitative study provides detailed understandings that could provide the basis for a wider quantitative study that would provide greater coverage of the sector, thus reinforcing the outcomes.
Practical implications
The study will be relevant to practising CEOs who are considering the range of options offered by OI.
Originality/value
While large firms are adopting OI strategies, less is known about the OI strategies developed in SMEs. The study addresses that gap. The life sciences context is also novel.
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Keywords
The US life sciences sector.