A balanced approach involving hard and soft factors for internalizing Lean Management and Six Sigma in hospitals

Relinde De Koeijer (Erasmus School of Health Policy and Management, Erasmus University Rotterdam, Rotterdam, The Netherlands)

Mathilde Strating (Erasmus School of Health Policy and Management, Erasmus University Rotterdam, Rotterdam, The Netherlands)

Jaap Paauwe (Human Resource Studies, Tilburg University, Tilburg, The Netherlands)

Robbert Huijsman (Erasmus School of Health Policy and Management, Erasmus University Rotterdam, Rotterdam, The Netherlands)

The TQM Journal

ISSN: 1754-2731

Article publication date: 11 October 2022

Issue publication date: 18 March 2024

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Abstract

Purpose

This study examines the theoretical and empirical relationships between LM&SS, human resource management (HRM), climate for LM&SS and outcomes (employee well-being and performance) in hospitals. As part of this research, the authors examine the interplay between “hard” and “soft” practices for LM&SS and “soft” HR practices.

Design/methodology/approach

A cross-sectional, multisite survey study covering all internal service units at all eight Dutch university hospitals was conducted (42 units, N = 218 supervisors, N = 1,668 employees), and multivariate multilevel regression analyses were performed.

Findings

A systems approach involving “soft” LM&SS practices that are specifically HR-related has a positive effect (β is 0.46) on a climate for LM&SS. A climate for LM&SS is not related to perceived performance or employee health. It is, however, positively related to employee happiness and trusting relationships (both βs are 0.33). We did not find that a climate for LM&SS had a mediating effect.

Research limitations/implications

This study shows that a balanced approach involving both “hard” and “soft” factors is crucial to achieving the desired breadth and depth of LM&SS adoption at the macro, meso, and micro levels. The authors found that a climate for LM&SS positively affects employee well-being in hospitals.

Practical implications

In their attempt to create mutual gains for both their organization and their employees, hospitals that adopt LM&SS should foster a climate for LM&SS by embracing a balanced approach consisting of both “hard” and “soft” practices, thereby internalizing LM&SS at the macro, meso, and micro levels.

Originality/value

This is one of the first studies to examine in-depth the impact of “hard” and “soft” LM&SS on both employee well-being (subdivided into different components) and performance in healthcare, as well as the role of “soft” HRM in this relationship. Linking LM&SS, HRM and outcomes to a climate for LM&SS is relatively a new approach and has led to a deeper understanding of the mechanisms underpinning the internalization of LM&SS in healthcare.

Keywords

Citation

De Koeijer, R., Strating, M., Paauwe, J. and Huijsman, R. (2024), "A balanced approach involving hard and soft factors for internalizing Lean Management and Six Sigma in hospitals", The TQM Journal, Vol. 36 No. 3, pp. 870-899. https://doi.org/10.1108/TQM-01-2022-0031

Publisher

:

Emerald Publishing Limited

License

Published by Emerald Publishing Limited. This article is published under the Creative Commons Attribution (CC BY 4.0) licence. Anyone may reproduce, distribute, translate and create derivative works of this article (for both commercial and non-commercial purposes), subject to full attribution to the original publication and authors. The full terms of this licence may be seen at http://creativecommons.org/licences/by/4.0/legalcode

1. Introduction

The COVID-19 pandemic has highlighted strengths, weaknesses, opportunities and challenges within healthcare systems across the globe (Bhat et al., 2022). Changed circumstances lead to different value trade-offs. For example, during the coronavirus crisis we started to look differently at lean approaches to organizing care, using as few supplies as possible (also called just-in-time management) (De Graaff et al., 2021; Kuiper et al., 2021). Other existing issues were put on edge by the crisis. Consider the challenges of access to healthcare services and of enhancing the quality of care and patient safety while reducing costs (Hundal et al., 2021; McDermott et al., 2021).

These challenges, amplified during the COVID-19 pandemic, make healthcare an attractive domain for operations management (Barjis, 2011). The Lean Management and Six Sigma (LM&SS) approach has taken a central role in healthcare quality management (Antony et al., 2019; Niñerola et al., 2020; Bhat et al., 2022) within the larger framework of TQM (Klefsjö et al., 2001). There is, however, a need for more empirical research on the application of LM&SS in healthcare (Bertolaccini et al., 2015; Ko et al., 2016; Da Silva et al., 2018; Wilson et al., 2018; Anthony et al., 2018; Bhat et al., 2022). One of the main gaps in studies on LM&SS in healthcare is that they fail to address the interplay between its “hard” and “soft” factors (Lau and Idris, 2001; Ershadi et al., 2019; Khalili et al., 2019). For example, although research shows that “soft” practices, i.e. those concerning people and relationships (Mamata et al., 2015), are crucial for achieving superior performance, LM&SS is often perceived as a set of “hard” practices, i.e. practices involving tools and techniques for improving processes (e.g. Poksinska, 2010; Stamatis, 2011), especially in healthcare. This study distinguishes itself from earlier research by examining a systems approach that encompasses interrelated “hard” and “soft” LM&SS practices (Bortolotti et al., 2015; De Koeijer et al., 2022) adapted from manufacturing.

Another gap in the literature on LM&SS is the inconsistent evidence regarding the effect of these “hard” and “soft” LM&SS factors on outcomes (Abdullah and Tarí, 2017). Some studies suggest a positive effect between “hard” practices and performance (Kaynak, 2003; Rahman and Bullock, 2005), while other studies state the opposite (Ho et al., 2001; Parast et al., 2011). In addition, few studies have attempted to assess how implementing LM&SS in hospitals impacts outcomes (Antony et al., 2019). This study is one of the first to examine in detail the impact of a systems approach encompassing interrelated “hard” and “soft” LM&SS practices on both employee well-being and performance in hospitals.

Finally, there is a dearth of research investigating the organizational patterns (routines) that LM&SS implementation may enable (Antony et al., 2019). Adopting LM&SS in such a way that it becomes a permanent part of the organization's routines can be described as internalization (Kostova and Roth, 2002). Although growing research on LM&SS internalization underlines the importance of “soft” human resource (HR) practices (e.g. Schneider, 1975; Ostroff and Bowen, 2000; Veld et al., 2010; Thirkell and Ashman, 2014), empirical evidence is lacking. Whereas most studies consider HR practices as part of the LM&SS systems approach, we constructed a separate HRM systems approach for “soft” LM&SS practices that are specifically HR-related, such as teamwork, participation and training. This is relevant in light of researchers' disagreement about the interplay between different “soft” practices in establishing a commitment to organizational excellence (Durairatnam et al., 2021). Such considerations call for additional research that clarifies the importance of “soft” HR practices in enacting an organizational climate supportive of a quality orientation (Cavallone and Palumbo, 2021). The present study is unique in that it focuses on both the role of “soft” HR practices and climate as related to “hard” and “soft” LM&SS factors and outcomes in healthcare. The main research question is therefore: Is a balanced approach involving “hard” and “soft” LM&SS practices combined with “soft” HR practices positively related to a climate for LM&SS, and is a climate for LM&SS positively related to outcomes in hospitals?

The article is organized as follows: Section 2 discusses the literature study that inspired our research and helped us articulate the research hypotheses. Section 3 presents the research methods and provides information on the sample used in our empirical analysis. Section 4 reports on the data analysis and findings, which are discussed in Section 5. Lastly, Section 6 concludes the paper by summarizing its main implications for theory and practice and by discussing limitations of the study and an agenda for future research.

2. Theoretical background and research hypotheses

2.1 Lean Management and Six Sigma in healthcare

Total quality management (TQM) has been widely adopted by the healthcare systems of many countries and stresses quality across all processes and procedures in health-care delivery (Alzoubi et al., 2019). TQM is an overarching description for a set of related organizational interventions (Hackman and Wageman, 1995), such as Lean Management and Six Sigma (LM&SS) (Juran and Godfrey, 1998; Dahlgaard et al., 2001; Andersson et al., 2006). This article will focus on LM&SS as an approach within the larger framework of TQM (Klefsjö et al., 2001). LM&SS represents one chapter in a long history of quality improvement (Waring and Bishop, 2010), starting in the early twentieth century with mass production and the influence of Henry Ford and others (Womack et al., 1990), followed by the Toyota Production System (TPS) in the Japanese automotive industry (Spear and Bowen, 1999) and, since 1980, embraced in the Western world as Lean Management (LM) (Womack and Jones, 2003; Stamatis, 2011). Around the same time that LM was introduced, many large companies, including Motorola and General Electric, implemented Six Sigma (SS) with a view to reducing errors and minimizing variability. While the definitions of LM and SS differ, both serve the aim of reducing waste and resources while improving customer satisfaction and financial results (Andersson et al., 2006) and organizations increasingly combine these methods into a single approach, LM&SS (Glasgow et al., 2010).

An approach that integrates Lean Management and Six Sigma is essential to efforts to reduce errors and maintain results in healthcare settings (Noronha et al., 2021; Leite et al., 2018; Furterer, 2018; Zwetsloot et al., 2018; Deithorn and Kovach, 2018; Bhat et al., 2022). Most research on LM&SS in healthcare is conceptual rather than empirical in nature, however (Seidl and Newhouse, 2012). There is also little uniformity in the theoretical conceptualizations of LM&SS in healthcare (D'Andreamatteo et al., 2015; Aboelmaged, 2015). The LM&SS toolbox that healthcare organizations deploy tends to be filled with “hard” LM&SS practices focusing on process improvements (Poksinska, 2010; Stamatis, 2011; Radnor et al., 2012; De Koeijer et al., 2022). For example, the systematic review by Henrique and Filho (2020) shows that the most common techniques used in healthcare are VSM, Standardization of Work, and Visual Management. The outcomes of healthcare organizations depend, on the one hand, on routine and standardized processes and, on the other hand, on employees with the right customer mindset and ability to anticipate changing demands from their customers (De Koeijer et al., 2022). “Hard” and “soft” LM&SS practices should thus go hand in hand: a singular focus on a “hard” approach to optimizing processes neglects the human factor, while a one-dimensional focus on a “soft” approach complicates the attainment of performance outcomes. It is important to examine the effects of multiple dimensions of LM&SS empirically (Wright and Boswell, 2002; Shah and Ward, 2003) and that is why we have included LM&SS in our research as a systems approach consisting of interrelated “soft” and “hard” LM&SS practices (Table 1).

2.2 LM&SS and Human Resource Management

Although systematic reviews by D'Andreamatteo et al. (2015) and Moraros et al. (2016) mention both efficiency and employee goals as drivers for applying LM&SS in healthcare organizations, the narrow focus on “hard” LM&SS practices disregards issues concerning people and relationships (Radnor et al., 2012; Mamata et al., 2015). For example, studies by Chung and Kwon (2016), Begen et al. (2016) and Cardon and Bribiescas (2015) on LM&SS in healthcare emphasize supply chain principles and cost reduction while largely ignoring the human side. A recent study by De Koeijer et al. (2022) shows that a combination of LM&SS and HRM positively impacts both performance and employee well-being in hospitals. Although the evidence suggests that HRM is important for a successful implementation of LM&SS (e.g. Jørgensen et al., 2007; Zacharatos et al., 2007), little research has been done on this topic in the context of healthcare (Hasle et al., 2012; Cullinane et al., 2014), or the outcomes of research are contradictory (e.g. Seppälä and Klemola, 2004; Bonavia and Marin-Garcia, 2011).

Unlike previous research in which HR practices are often regarded as part of the LM&SS systems approach, we constructed a separate HRM systems approach for those “soft” LM&SS practices that are specifically HR-related. For example, cross-functional teams could help to generate ideas for science-based, systematic quality initiatives (Näslund, 2013). Performance appraisal and rewards could also function as morale boosters and encourage employee engagement (Sreedharan et al., 2018; Sony et al., 2020; Clegg et al., 2010; Manville et al., 2012). In addition, training and development are crucial to getting skilled and motivated people to work on LM&SS projects (Sanders and Karr, 2015; Anthony et al., 2018). Employee participation and engagement in decision-making and problem-solving can also help inspire commitment to organizational excellence (Cavallone and Palumbo, 2021).

The rationale behind constructing an HRM systems approach is threefold. First, the growing critique of the negative effect of LM&SS on employees argued for the HR side to be viewed separately (Holden, 2011; Moraros et al., 2016; Goodridge et al., 2015). Second, LM&SS practices such as process management and the focus on metrics appear to be of a different order than, for example, LM&SS practices such as training and teamwork. Where the first two practices are usually related directly to the adoption of LM&SS, the latter two are likely to have been standard in healthcare organizations for quite some time. More specifically, while LM&SS is often programmatic and temporary in nature, HRM is often a consistent component in a hospital's business operations. Third, research on the interplay between “soft” HR practices and “soft” and “hard” LM&SS practices is scarce. To gain a thorough understanding of the relationship between “soft” LM&SS practices that are specifically HR-related and the internalization of LM&SS, we follow Wright and Boswell (2002) in including an HRM systems approach in our research (see Table 2).

2.3 LM&SS, HRM and climate

Radnor et al. (2012) argue that the narrow focus on “hard” LM&SS practices, such as “focus on metrics” and “process management”, has led healthcare to neglect activities that encourage employees to develop shared perceptions of LM&SS. These shared perceptions are important for the internalization of LM&SS interventions (Taylor et al., 2013). For the effects of LM&SS to become visible and measurable, a process of routinization must take place in which professionals adopt these new work practices and adapt their existing organizational routines accordingly. Adopting LM&SS in such a way that it becomes a permanent part of the organization's daily routine can be described as internalization (Kostova and Roth, 2002). New routines cannot be sustained in a setting that does not support and enable their performance, however. For example, unless the LM&SS climate reflects employees' belief in the real value of LM&SS for their organization, there is a significant risk that LM&SS will never be internalized (Tolbert and Zucker, 1996). This risk is particularly acute in healthcare because healthcare professionals fear that adopting LM&SS will lead to over-standardization (Holden, 2011) and that LM&SS redirects clinical practice away from patient care towards more administrative and management tasks (e.g. Radnor, 2011). Shared perceptions support employees in their drive to sustain quality improvement initiatives (Tan et al., 2014) and in their commitment to accomplishing organizational excellence (Beraldin et al., 2020; Cavallone and Palumbo, 2021). Creating a climate for LM&SS that reflects positive shared perceptions of employees about LM&SS practices and their commitment to them is therefore crucial to the internalization of LM&SS (Kostova and Roth, 2002; Ostroff et al., 2003; Patterson et al., 2005).

Climate is consistently conceptualized as employees' shared perceptions about the nature of their organization in terms of events, policies, practices, and procedures (Ostroff et al., 2003; Patterson et al., 2005). Internally, climate is often considered actionable, i.e. management can try to shape climate to pursue organizational goals and influence performance (Denison, 1996; Haakonsson et al., 2008). Like climate in the general sense, the climate for LM&SS can be conceptualized in two different ways. First, there is the individual level or psychological climate, which refers to the individual's perceptions of organizational practices and procedures (Patterson et al., 2004). Second, these individual perceptions can be aggregated to the unit level or organizational climate if there is a certain degree of consensus among organizational members (Joyce and Slocum, 1984; Bergmann et al., 2018). Disparities between the work environment of organizational units can lead to different climate manifestations within the same organization (Bergmann et al., 2018). We therefore focus on the climate in work units rather than the whole organization as the appropriate level of analysis (Zohar and Luria, 2005).

Schneider and Reichers (1983) argue that, for the concept of climate to be meaningful, it must have a specific reference. In the past twenty years, a growing body of research has therefore focused on a climate “for something” (e.g. Patterson et al., 2005; Schulte et al., 2009). Many scholars of operations management have attempted to define a climate for LM&SS, most of them by drawing on the experience of organizations that have implemented LM&SS successfully (Hines et al., 2018). Bhat et al. (2022) argue that an integrated LSS strategy ensures a climate of continual improvement in the healthcare setting. Goodridge et al. (2015) state that LM&SS seeks to create an environment in which mistakes are opportunities for learning, with consistent application of no-blame approaches to mistakes and errors. Ambekar and Hudnurkar (2017) claim that people with a positive attitude and critical-thinking capability innovate and ideate solutions. While researchers agree that a successful LM&SS implementation will aim to achieve climate change and succeed, they fail to agree on the specific characteristics of such a climate for LM&SS. In this study, we focus on a climate for LM&SS that reflects employees' perceptions regarding the extent to which the organization emphasizes specific LM&SS values, goals, expected behaviors and contributions at work, related to quality, innovation and efficiency (Schneider, 1975; Veld and Alfes, 2017) (see Table 3).

2.4 LM&SS, climate and outcomes

LM&SS is now widespread in healthcare and used to improve quality and efficiency simultaneously (e.g. Goodridge et al., 2015; D'Andreamatteo et al., 2015; Moldovan, 2018; Young et al., 2018; Vaishnavi and Suresh, 2020; Molla et al., 2018; Hynes et al., 2019; Ahmed et al., 2018; Tagge et al., 2017; Agarwal et al., 2016; Bhat et al., 2020). Some healthcare organizations use LM&SS to develop clinical pathways (Niemeijer et al., 2011, 2012; Mandahawi et al., 2010; Martinez et al., 2011; Improta et al., 2019); others, such as the Mayo Clinic Rochester in the USA, use it to improve process efficiency and financial performance (Cima et al., 2011; Kuo et al., 2011; Al Khamisi et al., 2019). Drawing from the above-mentioned studies, we focus in our research on perceived organizational performance reflecting a wide range of improvements, including internal processes, customer satisfaction and finances (see Table 4). Perceived organizational performance can be defined as employees' individual perceptions of organizational efficiency (Giauque et al., 2013) and refers specifically to employees' subjective evaluation of an organization's overall performance compared to its rivals in the same sector (Allen and Helms, 2002; Berberoglu, 2018).

Research shows positive relationships between organizational climate and employee well-being (Parker et al., 2003; Veld et al., 2010). Employee well-being is a multidimensional construct (e.g. Van de Voorde et al., 2012). Where the traditional view held that well-being was mainly about affect, several broader conceptualizations have more recently been proposed that include behavior and motivation (Ryff and Keyes, 1995; Warr, 2007). In the context of organizations, well-being can be broadly defined as the overall quality of an employee's experience and functioning at work (Peccei et al., 2013). Following current HRM literature (e.g. Grant et al., 2007; Van de Voorde and Boxall, 2014), we identify three core components of well-being: health, happiness and trusting relationships (see Table 5). Subdividing well-being into these components is important for several reasons. First, the dominant models within both HRM and LM&SS theory and research continue to focus largely on ways to improve performance, with employee concerns mainly as a secondary consideration (Fotopoulos and Psomas, 2009; Guest, 2017). Second, scholars do not agree about the effect – positive or negative – of LM&SS on employee well-being (e.g. Conti et al., 2006). With the evidence being inconsistent, there is a need for more in-depth research that focuses on both the positive and negative effects of LM&SS on employee well-being.

2.5 Research hypotheses

Over the past ten years, a growing body of research has examined the concepts of psychological and organizational climate among healthcare employees (e.g. Veld et al., 2010; Purohit and Ashok, 2012). Systematic research on the relationship between a LM&SS systems approach and a climate for LM&SS is lacking in healthcare, however. We expect that the more an organization adopts LM&SS practices, the more LM&SS is internalized. Internalization takes place when employees develop shared perceptions concerning the value of LM&SS practices, referred to as climate (Patterson et al., 2005). We therefore expect that:

H1.

The adoption of a LM&SS systems approach is positively related to a climate for LM&SS in hospitals.

Previous studies have confirmed that HRM plays a vital role in shaping organizational climate (Gelade and Ivery, 2003; Ali et al., 2018). Thirkell and Ashman (2014) claim that it is essential to combine LM&SS and HRM to achieve the desired breadth and depth of LM&SS adoption at the macro, meso and micro levels. In this context, HRM can be seen as a signaling system that constantly sends messages to employees stressing the attitudes and behaviors desired within the organization (Bowen and Ostroff, 2004). In other words, HR practices can be used to strengthen goal alignment and foster specific work behaviors (Veld and Alfes, 2017), thereby creating a desired climate. For example, hospital management can use HRM practices to create a desired climate where LM&SS initiatives take root by communicating to employees that quality improvement is important and that improvement initiatives and innovative behavior are expected and rewarded (Bowen and Ostroff, 2004; Veld and Alfes, 2017). Studies on both the role of HRM and organizational climate relating specifically to LM&SS are scarce. Recent research shows that a system of HRM practices can be used to create climate perceptions (e.g. Veld and Alfes, 2017), leading us to expect that:

H2.

An HRM systems approach is positively related to a climate for LM&SS in hospitals.

Researchers suggest that a positive climate, for example a climate for LM&SS, influences quality and quantity of work done in organizations as well as employee productivity (Mullins, 2010; Permarupan et al., 2013). If employees perceive a positive LM&SS climate in their organization, they tend to rate organizational performance higher than that of competitors (Berberoglu, 2018). Although there is evidence showing that organizational climate is an important determinant of organizational performance (Burton et al., 2004), there has been little systematic research on the relationship between a climate for LM&SS and performance. Recent studies identify a climate for LM&SS as the missing link in achieving performance improvements that are sustained over time (e.g. Bortolotti et al., 2015; D'Andreamatteo et al., 2015). We therefore expect that more shared perceptions among employees concerning LM&SS will lead to higher levels of performance:

H3.

A climate for LM&SS is positively related to organizational performance in hospitals.

Research by Gouldner (1960) suggests that employees are expected to reciprocate the organization for its encouragement, benefits and support for, in this case, LM&SS with positive employee outcomes. We could therefore argue that a climate for LM&SS is positively related to employee well-being. Others authors, however, point out that emphasizing efficiency and productivity puts employees under greater pressure and intensifies their workload (Holden, 2011). The nature of the relationship – positive or negative – between climate and employee well-being can vary between the three components of well-being (Peccei et al., 2013). Internalization is linked to employee commitment and employee perceptions of trust (Kostova and Roth, 2002). Following Blau's (1964) social exchange theory, we expect that employees interpret a climate for LM&SS as indicative of organizational support and care, and reciprocate accordingly with commitment, satisfaction and trust (Whitener, 2001; Van de Voorde et al., 2012). Based on research suggesting that LM&SS has a negative effect on employee health (Hasle et al., 2012), for example that LM&SS leads to higher levels of stress, we furthermore expect that a climate for LM&SS negatively impacts employee health.

H4.

A climate for LM&SS is positively related to the happiness (H4a) and trusting relationships (H4b) components of well-being, while it is negatively related to the health (H4c) component of well-being in hospitals.

Bowen and Ostroff's (2004) proposition that climate can be seen as a mediating factor between HRM and outcomes is confirmed by studies in healthcare (e.g. Veld et al., 2010; McCaughey et al., 2013). For example, Veld et al. (2010) report that climate in hospitals mediates the effect of perceived HRM systems and unit commitment. Unlike HRM literature, research on LM&SS has produced scant evidence as to what role climate plays between LM&SS and outcomes. Our study builds on growing evidence in the field of HRM of climate's mediating role, and we therefore expect that climate mediates the relationship between LM&SS and HRM on the one hand and performance and employee well-being on the other. Although we expect the relationships between the described variables to differ, the nature of this relationship – positive or negative – depends on our findings for hypothesis 4 (relationship between a climate for LM&SS and employee well-being). We have therefore formulated a neutral hypothesis regarding the relationships between a climate for LM&SS, HRM and outcomes:

H5.

A climate for LM&SS mediates the relationships between LM&SS (H5a) and HRM (H5b) on the one hand and organizational performance and employee well-being in hospitals on the other.

Figure 1 summarizes the proposed relationships in this study.

3. Research methodology

3.1 Population and sampling

This paper describes a cross-sectional, multisite study that uses quantitative research methods and nested data from internal service units in Dutch university hospitals. In healthcare, LM&SS is often introduced, first of all, in high-volume processes such as cleaning, logistics and food service (Stamatis, 2011; Goodridge et al., 2015). Hospital service processes differ fundamentally from processes at a fast-food restaurants or cleaning companies. The employees of internal service units are usually assigned permanently to a hospital ward and, therefore, perceive nurses and physicians as their direct colleagues, have direct contact with patients, and see their work as a link in the value chain for delivering top-notch care. While most of the above-mentioned studies focused on a single hospital unit or department, our study covers more than 40 internal service units at hospitals in the Netherlands (A to H). These hospitals deliver highly specialized patient care, combined with specialist diagnosis and treatment, and are closely linked to medical research and education. The internal service units differ in size and structure (see Table 6). The more homogeneous a population, the easier (i.e. more likely) it is to generate a representative sample (Jager et al., 2017). To ensure a homogeneous sample and internal and external validity and reliability, we applied four criteria for participation in our research:

Services had to be similar in nature and present at four or more university hospitals.
At least ten employees and three supervisors per unit had to assess the theoretical concepts at unit level for reliability.
Employees and supervisors (including temporary workers) had to have been employed by the internal service unit for at least one year.
Outsourced services were excluded.

Applying these criteria gave us a sample of 1,668 employees and 218 supervisors in 42 units (response rate of 55%, varying from 20% to 96% per unit). The average group size per unit was 40 employees and five supervisors. Table 6 shows the response rates at unit level for each of the eight hospitals. Following Cohen (1992), we categorize effect sizes into small (0.10), medium (0.30), and large (0.50).

At the time of the research, according to the Dutch law approval from the ‘Central Committee on Research Involving Human Subjects’, ethical approval is only necessary when research concerns medical/scientific research and participants are subject to procedures or are required to follow rules of behavior. In this study, the study population involved employees of internal services only. Therefore, these criteria were not met and ethical approval of the Central Committee on Research Involving Human Subjects was not found applicable.

3.2 Measurement instruments

To operationalize the theoretical concepts of LM&SS, HRM, climate, performance and employee well-being, we searched the literature for existing validated measurement instruments. In consultation with experts, we selected empirical studies that applied validated measurement instruments to healthcare. A translator translated our original surveys into English, with an independent bilingual native speaker of Dutch and English performing the back translation. Under the supervision of a research assistant made available for a week at each research site, the cross-sectional survey was distributed to the supervisors and employees of eight university hospitals to collect survey data on LM&SS, HRM, climate, performance, and employee well-being.

Our LM&SS systems approach incorporates the following practices: top management support, customer relationship, quality information, process management, structured improvement procedure, focus on metrics, and supplier relationships. We adapted the original manufacturing-oriented items (e.g. error rates, defect rates, scrap, defects, cost of quality) to reflect a healthcare perspective (e.g. mistakes, throughput time, productivity). We excluded elements of the survey that focus specifically on the industrial context of plants (for example: “We design for manufacturability”). With the exception of the LM&SS customer relationship practice measured at supervisor level (Cronbach's α = 0.66), the reliability of all scales exceeded 0.70.

We studied a wide range of HR practices: training and development, performance appraisal and rewards, team working and autonomy, participation and job design, employment security, and work/life balance. We included 27 items on HR practices, measured using the scale proposed by Boon et al. (2011) (for example: “My unit offers me work that gives me the opportunity to express myself”). Response choices were on a five-point Likert-type scale ranging from “completely disagree” (1) to “totally agree” (5). We constructed the HRM and LM&SS system approaches by calculating the sums of the mean scores for the separate practices and separating them into two bundle variables. With the exception of the work/life balance HR practice (α = 0.69), the reliability of all scales exceeded 0.70.

We included seven items on organizational performance (Zu et al., 2008) (for example: “The quality of our units' products and services has been improved over the past 3 years.”). After consultation with the author of the original scales, we changed the scale from a seven-point to a five-point Likert scale, ranging from “completely disagree” (1) to “totally agree” (5), because this is more in line with other parts of the survey.

As employee well-being is an individual characteristic, we measured it at the individual employee level. Regarding the health component of employee well-being, we used subscales of the Dutch standardized survey on the experience of work (VBBA) (Van Veldhoven et al., 2002) to measure workload and strain. The scale for strain captures small deficits in employee functioning at the end of, or just after, a workday (Van Veldhoven, 2005). Sample items include “Do you have too much work to do?” and “It is an effort for me to stay focused in my free time after work”. Response choices were on the original four-point Likert-type scale ranging from “never” (1) to “always” (4). There are several measures of intra-organizational trust available that differ depending on who is being trusted (Dietz and Den Hartog, 2006). We focused on trust between an employee and his or her direct supervisor, using the seven-item scale devised by Robinson (1996). Sample items include “I can expect my supervisor to treat me in a consistent and predictable fashion”. Response choices were on a five-point Likert-type scale ranging from “completely disagree” (1) to “totally agree” (5). The reliability of all scales was 0.84 or higher (see Table 7). To measure the happiness component of employee well-being, we included items on satisfaction and commitment. In contrast to the health and trusting relationships components, we measured the happiness component of well-being at the group level. Mason and Griffin (2005) show that assessing the satisfaction of the group directly, rather than simply aggregating the individual job satisfaction ratings of group members, explains additional variance in outcomes. We therefore transposed the items on commitment and satisfaction from the individual to the unit level. To measure employee satisfaction, we used one other VVBA item: “All things considered, my colleagues are satisfied with their job”. Organizational commitment was measured using four items from Allen and Meyer's (1990) Affective Commitment Scale (for example, “My colleagues feel like ‘part of the family’ at their unit”). Response choices were on a five-point Likert-type scale ranging from “completely disagree” (1) to “totally agree” (5). The reliability of all scales exceeded 0.70.

To measure climate for LM&SS, we used 14 items on important LM&SS aims, namely quality, innovation and efficiency climate, as proposed by Patterson et al. (2005). We reformulated the original items, which reflected an organizational-level perspective (e.g. “People in this organization are always searching for new ways of looking at problems”), to represent a unit-level perspective (e.g. “People in my unit are always searching for new ways of looking at problems”). This reformulation was necessary because each climate item should focus on the specific collective unit corresponding to the climate being studied (in this case, the unit). By specifying a clear frame of reference, we precluded the risk that respondents would describe the perceptions of different parts of the organization (Patterson et al., 2005). Response choices were on the original four-point Likert-type scale ranging from “absolutely not true” (1) to “absolutely true” (4). The reliability of all scales was 0.71 or higher.

Table 7 shows the psychometric characteristics of the measurement instruments as well as the respondents (employees or supervisors) for each measurement instrument.

As potential control variables, we included the general characteristics of respondents (age, gender, educational level), general characteristics of the job (work unit, number of years working for the organization, number of years working in the specific work unit and job, type of employment contract) and general characteristics of the work unit (size). We dummy coded categorical variables and added familiarity with LM&SS and experience participating in LM&SS projects to our control variables.

4. Data analysis and results

We used descriptive statistics to describe our research population at the unit level. As our HRM, climate and employee well-being data was collected from a single source, the employees, we used a split sample for our analysis: we randomly split the units in half and obtained the values for the HRM and climate perceptions from one-half and the employee well-being variables from the other. We followed the same procedure regarding the values for the LM&SS perceptions and the performance variables. As these split-sample results were robust compared to the whole-sample results, we concluded that the common method bias was unlikely to be a serious problem in our data. To identify which control variables to include in regression analyses, we examined the degree of correlation between these variables and the dependent variables. Criterion for inclusion in the regression was an effect size of 0.30 or higher (reflecting medium to strong relationships) (Cohen, 1992). As no control variable exceeded this minimum level, none of the control variables were entered in the multilevel regression analysis. To test our hypotheses, we performed multivariate regression analyses. We employed multi-level analysis techniques to allow for the hierarchical structure of the data, in which employees and supervisors are nested within units. We conducted the analyses with performance as a dependent variable at the unit level. The HRM and climate variables then had to be aggregated. To support the aggregation of individual scores to unit-level scores, we calculated ICC1 and ICC2 values (intra-class correlations; to measure inter-rater reliability) and tested whether the average scores differed significantly across units. The ICC1 value was 0.05 and 0.03 for HRM and climate respectively, and the ICC2 value 0.66 and 0.57 respectively, exceeding the minimum value of 0.50 (Klein and Kozlowski, 2000) and supporting the aggregation to unit level. The ICC1 values of the three components of employee well-being implied that 6–13% of the variance in these components can be attributed to the unit level (see Table 7). Since we expected mediating effects, we used the mediation framework developed by Zhao et al. (2010) to test hypothesis 5.

4.1 Description of the study sample

Within the units, female employees account for 13% of the workforce and the average age of the respondents is 45 (see Table 6). The relatively small percentage of female employees can be explained by the technical nature of the internal service units, for example maintenance, logistics and security. More than 80% of the respondents have a permanent employment contract and only 17% attended higher education. Respondents have worked an average of ten years for their internal service unit, and eight years in their job (see Table 6).

4.2 Testing the hypotheses

The results of the regression analyses (see Table 8) show that the LM&SS systems approach has a significant, but very small, effect on a climate for LM&SS (β is 0.07). Hypothesis 1 is therefore not supported. In addition, HRM systems approach has an almost strong positive effect on a climate for LM&SS (β is 0.46). In total, 39% of the variance in climate for LM&SS is explained. Hypothesis 2 is supported.

The results of the regression analysis (see Table 9) indicate that a climate for LM&SS is not related to perceived performance (β is −0.05). Hypothesis 3 is therefore not supported.

With respect to the three components of employee well-being, the results of the regression analysis (see Table 10) indicate that a climate for LM&SS is positively related to the happiness and trusting relationships components (medium effects, both βs are 0.33) and negatively related to the health component (small effect, β is −0.13). The total explained variance in happiness is 22% and in trusting relationships 25%. Hypothesis 4 is supported.

Hypothesis 5a concerns the mediating effects on employee well-being. The analysis shows that a climate for LM&SS has small mediating effects on the three components of well-being (βs varied from −0.07 to 0.17) (see Table 11). There was evidence of complementary mediation for the three components, with both the mediated effects and the direct effect apparent and pointing in one and the same direction (Zhao et al., 2010). The direct effect of LM&SS and HRM on employee well-being decreases, however, and the mediating effects are small (Cohen, 1992). Hypothesis 5b concerns the mediating effects on performance. The analysis shows that a climate for LM&SS has no effect on perceived performance (see Table 11). We conclude that a strategic climate does not mediate the relationship between LM&SS and HRM on the one hand and performance and employee well-being on the other.

5. Discussion of findings

In this study, we focused on Lean Management and Six Sigma (LM&SS) as a widely adopted operations management approach in healthcare (Antony et al., 2019; Niñerola et al., 2020; Bhat et al., 2022) within the larger framework of TQM (Klefsjö et al., 2001). Specifically, we concentrated on several gaps in existing research, namely a failure to address the interplay between “hard” and “soft” factors of LM&SS (Ershadi et al., 2019; Khalili et al., 2019; De Koeijer et al., 2022; Durairatnam et al., 2021), inconsistent evidence for the effect of these “hard” and “soft” LM&SS factors on outcomes (Abdullah and Tarí, 2017; Wilson et al., 2018; Anthony et al., 2018; Bhat et al., 2022) and the potential of climate and Human Resource Management (HRM) for internalizing LM&SS (Thirkell and Ashman, 2014; Antony et al., 2019; Cavallone and Palumbo, 2021). We conceptualized “hard” and “soft” practices for LM&SS and defined a separate bundle of “soft” LM&SS practices that are specifically HR-related. Our research shows that a balanced approach to internalizing LM&SS at the macro, meso and micro levels encompassing both “hard” and “soft” factors is indeed crucial and sheds light on the interplay between these practices, the internalization of LM&SS, and outcomes in several ways.

First, there appears to be a logical relationship between a climate for LM&SS and LM&SS adoption (Ambekar and Hudnurkar, 2017; Bhat et al., 2022). We found, however, that the HRM systems approach, consisting of “soft” LM&SS practices that are specifically HR-related – and not the “soft” and “hard” practices that are part of the LM&SS systems approach – is crucial for creating shared perceptions among employees and, consequently, a climate for LM&SS. Our results indicate that to create a desired climate where LM&SS initiatives take root, management can use HRM practices by communicating to employees what is valued and considered important in the organization (Bowen and Ostroff, 2004; Veld and Alfes, 2017) and by encouraging them to attain organizational excellence (Beraldin et al., 2020; Cavallone and Palumbo, 2021). Our findings are in line with research by Bowen and Ostroff (2004), Knies and Leisink (2014), and Ali et al. (2018) showing that HRM can influence climate by signaling what strategic goals are most relevant and what kind of employee behaviors are expected, supported and rewarded in connection with these goals. Combining LM&SS and HRM is therefore essential to achieving the desired breadth and depth of LM&SS adoption at macro, meso and micro levels.

An explanation for the absence of a relationship between LM&SS and a climate for LM&SS could be that employees of internal service units find it hard to grasp the concept of LM&SS and struggle to adapt the approach to their daily practice. For example, process management and a focus on metrics are LM&SS practices that require analytical skills from those who apply them. Employees of internal service units are usually lower educated: only 17% of our respondents attended higher education. When employees perceive LM&SS practices as distal and abstract, this may weaken the development of shared employee perceptions about the real value of such practices. In contrast, employees of internal service units are likely to have a much better understanding of HRM than LM&SS because HR practices are developed specifically for employees. For example, quality management training can be tailored to specific employee groups and their educational background. Following this line of thinking, it can be said that HRM boosts employee engagement and involvement in continuous quality improvement (Keng Boon et al., 2007; Assarlind and Gremyr, 2014; Cavallone and Palumbo, 2021), which may explain the relationship between HRM and a climate for LM&SS. Also, an explanation for the relationship between HRM and a climate for LM&SS may be that the growing (internal and external) focus on efficiency in healthcare induces employees to perceive HR practices in light of these efficiency goals, perhaps fostering a climate for LM&SS (Nishii et al., 2008).

Second, our results show that a climate for LM&SS leads to higher levels of happiness and trust among employees and that it has no effect on the health of employees. In addition, we found a weak relationship between a climate for LM&SS and performance. This suggests that internalizing LM&SS is important for employee well-being but not for performance. One explanation for this outcome may be that LM&SS is implemented in healthcare mainly with the aim of improving short-term efficiency and quality (Drotz and Poksinska, 2014), but not to sustain it in the longer run. Given the ambition of hospitals to maintain higher standards of both organizational performance and employee well-being, however (Kowalski et al., 2015), we argue that hospitals that adopt LM&SS should also foster a climate for LM&SS by combining LM&SS and HRM, thereby internalizing LM&SS. Blau's (1964) social exchange theory states that employees interpret management activities as indicative of organizational support and care and reciprocate accordingly with commitment, satisfaction and trust (Whitener, 2001; Van de Voorde et al., 2012). In that sense, employees of internal service units may experience HRM as a form of recognition and concern, creating a climate for LM&SS and affecting their well-being. We did not find that a climate for LM&SS has a strong mediating effect, but it seems likely that there would be a positive effect that spirals upwards: the more an organization adopts LM&SS in combination with HRM, the more LM&SS is internalized and the more both overall performance and employee well-being improve, and vice versa. In other words, it could be argued that a coherent set of “soft” and “hard” LM&SS and HR practices is essential for achieving both internalization and outcomes at the micro, meso and macro levels.

Another line of thinking takes into account that the average interval between adopting LM&SS at the participating hospitals and our data collection was 18 months, and that most hospitals started out with a top-down LM&SS program. We did include a time lag for LM&SS adoption to gain a better understanding of the relationship between adoption, internalization and outcomes, but without any conclusive results. It is possible that at the time of data collection, there was a gap between supervisors and employees in terms of the degree of LM&SS internalization. The first groups of hospital employees to be impacted by strategic goals are usually the managers and supervisors. It is they who decide – when simple cost-cutting measures prove to be inadequate – to adopt LM&SS as a programmed approach to efficiency. In that sense, supervisors have a head start when it comes to creating shared perceptions about LM&SS and we can imagine that the climate for LM&SS among supervisors would have a stronger impact on outcomes than the climate for LM&SS among employees. There is therefore some likelihood that, over time, as employees increasingly internalize a systems approach encompassing both “soft” and “hard” LM&SS practices, the mediating effects of a climate for LM&SS on the relationship between LM&SS, HRM and outcomes will become stronger.

6. Conclusion

Our research shows that an integrated approach to implementing “soft” and “hard” LM&SS and HRM shapes a climate for LM&SS conducive to the pursuit of organizational goals. We found that the HRM systems approach, consisting of “soft” LM&SS practices that are specifically HR-related (e.g. teamwork and autonomy, appraisal and rewards, participation and job design, training and development) – and not the “soft” and “hard” practices that are part of the LM&SS systems approach – are crucial for creating a climate for LM&SS. In addition, we found that a climate for LM&SS is not related to perceived performance or employee health, and that it is positively related to the employee happiness and trusting relationships. This means that the combination of “soft” and “hard” LM&SS and “soft” HR practices allows healthcare organizations to internalize LM&SS through a climate for LM&SS, supporting happy and trusting employees. In their attempt to create mutual gains for organization and employees, hospitals that adopt LM&SS should foster a climate for LM&SS by embracing a balanced approach that consists of “hard” and “soft” LM&SS and HR practices, thereby internalizing LM&SS at the macro, meso and micro levels.

6.1 Managerial and practical implications

From a management perspective, our results emphasize that fragmentation into “hard” and “soft” LM&SS and HR practices may lead to suboptimal results, which will not be conducive to establishing a fully-fledged quality philosophy (Cavallone and Palumbo, 2021). Both “soft” and “hard” LM&SS and HR practices should be incorporated into a systems approach, allowing organizations to capitalize on their synergies for internalizing LM&SS and employee well-being. Our research shows that management can use HRM to shape a climate for LM&SS conducive to the pursuit of organizational goals and the happiness and trust of employees. Hospitals should therefore involve their HR departments right from the start when introducing LM&SS programs to ensure that a HRM systems approach is in place. In the Netherlands, many HR practices are predetermined in national Collective Bargaining Agreements (CBA) for hospitals, making HRM – unlike LM&SS – a consistent component of healthcare organizations and covering all employees. These HR practices are practical and can be tailored to specific employee groups and their educational background. For example, HR practices such as teamwork, participation and training involve employees at different levels in continuous quality improvement. Management can use these HRM practices to create a desired climate in which LM&SS initiatives can take root. It is important that managers are consistent in communicating to employees what is valued and considered important in the organization and the kind of behaviors and attitudes that are expected and rewarded (Bowen and Ostroff, 2004; Veld and Alfes, 2017). For example, they should emphasize the importance of continuous improvement and of achieving quality outcomes, and discuss with employees how they can contribute in practical terms.

Where many studies so far have argued for the inclusion of HR practices in an LM&SS systems approach, our results show that LM&SS and HRM should be viewed as two different things that require constant alignment and that should be managed integrally. In practice, this could mean that when hospital leaders share the “why” of LM&SS within the organization, they should emphasize both performance improvements as well as higher levels of employee well-being. Another recommendation is to monitor progress in LM&SS integrally by focusing not only on the number of LM&SS initiatives and their progress but also on the happiness, health and trusting relationships of employees, and by explicitly including performance indicators in the “LM&SS dashboard”. In addition, since direct supervisors play a prominent role in transmitting values and climate (Kuenzi and Schminke, 2009), they should actively support their employees with a balanced approach that incorporates both “hard” and “soft” factors into the improvement process (Poksinska, 2010). For example, appraisal interviews should not only focus on “hard” key performance indicators, but also on improvement efforts and more narrative input. This may also mean that employee productivity would temporarily decline to allow time for improvement projects or quality training.

6.2 Limitations and future research

This study has a number of limitations. First, it focuses on cross-sectional relationships and is therefore not suitable for establishing cause-and-effect relationships. We included a time lag for LM&SS implementation to gain a better understanding of the relationship between intervention and outcome, but without any conclusive results. The findings – although based on a thorough literature study – should therefore be interpreted with some caution. We recommend that future research apply a longitudinal and intervention design (including control settings) to acquire a deeper understanding of the causal relationships between LM&SS, HRM, climate for LM&SS, performance and well-being. Such research could, for example, examine a potential spiraling positive or negative effect, i.e. that the more LM&SS in combination with HRM is adopted, the more LM&SS is internalized and the more performance and employee well-being improve, and vice versa. Longitudinal research could also verify whether the relationships that we found, for example, between LM&SS and performance, HRM, climate and well-being, are cause-and-effect relationships. That is plausible for the relationship between HRM and climate based on earlier extensive research that confirms our findings (e.g. Gelade and Ivery, 2003; Ali et al., 2018).

Second, efforts to improve quality and efficiency are nothing new for healthcare professionals; they have been part of their jobs for many years. Following this line of thinking, it could be argued that a climate for LM&SS is not necessarily the result of adopting LM&SS, but more a prerequisite for the successful adoption and internalization of LM&SS. This could explain why we did not find that a climate for LM&SS had mediating effects on outcomes (neither performance nor well-being). It would be interesting to examine this idea in subsequent research.

Third, we dealt only with internal service units at university hospitals. For most employees, including physicians, LM&SS is something new, in large part because medical school and residency training do not emphasize them (Blumenthal et al., 2012). We consequently argue that our findings are valid for every hospital ward, but it would be interesting to investigate the interaction between hospital wards and internal service units in future research. Including direct care processes and healthcare professionals could lead to a more in-depth understanding of the mechanisms underpinning the internalization of LM&SS in hospitals, for example, how professionals from internal service units and hospital wards develop and adapt their existing organizational routines to LM&SS practices. Differences between the characteristics of hospitals and other types of healthcare organizations (e.g. elderly and disabled care) may imply that our findings will not be easy to generalize to other types of healthcare organizations (De Koeijer et al., 2019) and should be tested in future research.

Fourth, the measures we included regarding the health component of employee well-being focus on the quantitative burden of work, i.e. workload and recovery time after a workday. It would be interesting to include other health-related measures in future research, for example (early) physical, mental and behavioral symptoms of burnout (Maslach and Schaufeli, 1993), especially with the health of healthcare employees being a pressing issue at present (Taris et al., 2013; Drenth, 2016).

Fifth, we need a broader definition of performance in relation to LM&SS, as well as a more comprehensive set of performance measures. Recent debates have focused on how performance in healthcare should be defined and measured (Willems and Ingerfurth, 2018). For example, is performance about costs, efficiency (e.g. shorter waiting times and improved utilization) or about customer satisfaction, quality and health-related outcomes? Or is performance about all of the foregoing (e.g. Porter, 2010; Arora et al., 2016)? In light of these recent debates, we argue that the definition of performance in relation to LM&SS should be updated and clarified specifically in the context of healthcare. In addition to our research setting out a wide range of perceived improvements (e.g. internal processes, customer satisfaction and financial results), we propose incorporating objective outcome measures into any future research.

It is also worth mentioning the strengths of this research. Our study is one of the first to examine in-depth the impact of “hard” and “soft” LM&SS practices on both employee well-being (subdivided into different components) and performance in healthcare, as well as the role of “soft” HRM in this relationship. Linking LM&SS, HRM and outcomes to a climate for LM&SS is a relatively new approach in operations management research and has led to a deeper understanding of the mechanisms underpinning the internalization of LM&SS in healthcare. By studying employee-level as well as unit-level data, we gained a better understanding of the relationships between concepts at both levels. In addition, our sample is unique in several ways. To begin with, all Dutch university hospitals participated, which is remarkable given the increased competition between hospitals in the Netherlands. Our sample also consists of 42 units with an acceptable response rate of 55% (Baruch and Holtom, 2008), while earlier studies focused on a single hospital ward or department.

Figures

Figure 1

Conceptual framework for examining relationships between LM&SS, HRM, climate for LM&SS and outcomes

Table 1

LM&SS systems approach

LM&SS practices that are part of the systems approach	Description (Cua et al., 2001; McKone et al., 2001; Zu et al., 2008)	Special aspects in a healthcare setting
Top management support	Top management accepts responsibility for quality, creates and communicates a vision focused on quality and encourages and participates in quality improvement efforts	Managers and physicians together form top management
Customer relationship	Customer needs and expectations are regularly surveyed. Customer satisfaction is measured. There is a close contact with key customers	Customers are not only patients, but also family members, caregivers, decision-makers and insurers
Quality information	Timely collected quality data are available to managers and employees, and must be used for improvement	Delivering care is a complex process. Collecting accurate and reliable information is a challenge
Focus on metrics	Quantitative metrics are used to measure process performance and quality performance, and set improvement goals. Business-level performance measures and customer expectations are integrated with process-level performance measures
Process management	Statistical process control and preventive maintenance are applied. Managers and employees make efforts to maintain clean shop floors and meet schedules. There is an emphasis on mistake-proof process design	Safety and hygiene are crucial in a patient environment. A clean working environment and well maintained devices are a requirement
Structured improvement procedure	There is an emphasis on following a standardized procedure in planning and conducting improvement initiatives. Teams apply the appropriate quality management tools and techniques	Professionals are trained to act with autonomy. Too much emphasis on standardization could evoke resistance
Supplier relationship	A small number of suppliers are selected on the basis of quality and involved in product development and quality improvement. The organization provides suppliers with training and technical assistance	There are many areas of knowledge and practice. In general, each specialty has preference for certain suppliers and assortments

Table 2

HRM systems approach

HR practices that are part of the systems approach	Generic description (Boon et al., 2011)	Specific description	Special aspects in a healthcare setting
Participation and job design	Employees are involved in decisions and have the opportunity to take responsibility for their own tasks	Employees are involved in quality decisions and have the opportunity to take responsibility for their own tasks (e.g. Dal Pont et al., 2008; Zu and Fredendall, 2009)	Professionals are trained to act with autonomy. They are, together with their colleagues, responsible for delivering quality of care
Training and development	Employees receive training and there are opportunities to develop new skills and knowledge	Both managers and employees receive training on quality management. There are opportunities to develop new skills and knowledge (e.g. Birdi et al., 2008; Shah and Ward, 2003)	Professionals are highly trained individuals with a specific expertise. Performing tasks or development outside their area of expertise is unusual
Performance appraisal and rewards	Employees receive feedback on and are rewarded for their performance	Employees receive feedback on quality performance of their team and are rewarded for quality improvement (e.g. Anand and Kodali, 2009; McKone et al., 2001)	Quality of care is highly appreciated and rewarded in healthcare organizations
Team working and autonomy	not applicable	Teams are formed to solve problems. Teams are encouraged to try to solve their problems as much as possible (e.g. Bonavia and Marin, 2006; Cua et al., 2001)	Health care is usually provided by multidisciplinary teams of professionals and support services
Employment security	Employees have an employment contract that offers job security (Zacharatos et al., 2007)	not applicable	Increasing expenditures create pressure on organizations
Work-life balance	Employees have the possibility to work flexible hours and arrange their work schedule	not applicable	Consumers are increasingly putting higher demands and expectations on healthcare professionals. Therefore, it is challenging to balance the needs of work and life for professionals

Table 3

Climate

	Description (Patterson et al., 2005)
A climate for LM&SS	A reflection of employees' perceptions of the extent to which the organization emphasizes specific LM&SS values, goals, expected behaviors and contributions at work (Schneider, 1975; Veld and Alfes, 2017)

Table 4

Performance

	Description (e.g. Holden, 2011; Shah and Ward, 2003; Wiklund and Wiklund, 2002; Habidin et al., 2012)
Organizational performance	Measures related to organizational performance, that reflects a wide range of improvements such as internal process-, customer-, innovation, and financial performance

Table 5

Employee well-being

Well-being components	Description (Van de Voorde et al., 2012)	Special aspects in a healthcare setting
Health	The physical or health dimension encompasses indicators related to employee health, such as workload, job strain and need for recovery	Healthcare professionals perceive increased demands and expectations from customers
Happiness	The psychological or happiness dimension refers to subjective experiences of employees, i.e. their psychological well-being, for example job satisfaction and unit commitment	Professionals highly value performing rewarding work
Trusting relationships	The relationship dimension of employee well-being focuses on the quality of trusting relationships between employees and their employer and colleagues	The hierarchical structure impacts the relations between employees and their employer and colleagues

Table 6

Sample of the internal service units of the eight academic hospitals

Hospital	# respondents	% female	μ age	μ years at internal unit service	μ years at unit	μ years in job	% permanent contract	% higher education
Hospital A	193	10	44	10	7	7	83	22
Hospital B	224	12	42	6	6	7	69	12
Hospital C	220	12	46	10	9	8	95	18
Hospital D	493	26	42	8	8	7	83	20
Hospital E	229	11	44	11	9	8	82	17
Hospital F	239	14	45	11	9	8	80	25
Hospital G	98	5	48	12	6	10	95	11
Hospital H	190	10	47	11	7	6	68	7
	1886	13	45	10	8	8	82	17

Hospital	# respondents	Type of respondents	Distribution of respondents per hospital per unit in percentages
Hospital	# respondents	Type of respondents	Logistics	Food	Cleaning	Maintenance	Servicepoint	Purchase	Security
Hospital A	193	Employees	23%	17%	30%	Not participating	12%	Not participating	3%
Hospital A	193	Supervisors	3%	3%	5%	Not participating	4%	Not participating	2%
Hospital B	224	Employees	35%	24%	15%	Not participating	7%	Not participating	3%
Hospital B	224	Supervisors	6%	3%	4%	Not participating	1%	Not participating	2%
Hospital C	220	Employees	29%	14%	10%	14%	12%	9%	1%
Hospital C	220	Supervisors	2%	3%	1%	2%	1%	2%	0%
Hospital D	493	Employees	19%	24%	26%	10%	5%	3%	4%
Hospital D	493	Supervisors	1%	2%	2%	1%	1%	1%	1%
Hospital E	229	Employees	15%	28%	Not participating	19%	7%	8%	7%
Hospital E	229	Supervisors	3%	7%	Not participating	3%	1%	2%	2%
Hospital F	239	Employees	28%	16%	Not participating	23%	14%	7%	3%
Hospital F	239	Supervisors	2%	2%	Not participating	2%	1%	0%	0%
Hospital G	98	Employees	Not participating	Not participating	78%	Not participating	Not participating	Not participating	11%
Hospital G	98	Supervisors	Not participating	Not participating	8%	Not participating	Not participating	Not participating	3%
Hospital H	190	Employees	14%	55%	Not participating	9%	14%	Not participating	Not participating
Hospital H	190	Supervisors	2%	2%	Not participating	2%	1%	Not participating	Not participating
	1886	Employees	22%	23%	17%	10%	9%	4%	4%
	1886	Supervisors	2%	3%	2%	1%	1%	1%	1%

Table 7

Psychometric characteristics measures

		Respondents	n	No. of items	μ	Σ	Chronbach's α	KMO statistics	ICC1 value	ICC2 value
A	LM&SS
A	LM&SS systems approach	Supervisors	208	41	3.52	0.21	0.83	0.85
B	HRM
B	HRM systems approach (excl work/life balance)	Employees	1,482	20	3.26	0.54	0.92	0.90	0.05	0.66
C	Employee well-being
1	Happiness component (commitment and satisfaction)	Employees	1,636	5	3.39	0.71	0.86	0.85	0.06	0.71
2	Health component (workload and need for recovery)	Employees	1,592	12	1.90	0.55	0.89	0.90	0.10	0.81
3	Trusting relationships component	Employees	1,619	7	3.69	0.74	0.87	0.84	0.13	0.86
D	Perceived performance
D	Perceived organizational performance	Supervisors	215	7	3.66	0.55	0.83	0.82
E	Strategic climate
E	Climate for LM&SS	Employees	1704	14	2.86	0.40	0.85	0.90	0.03	0.57

Table 8

Hierarchical multilevel analysis LM&SS, HRM and climate for LM&SS

	Climate
	Climate for LM&SS
	β
Constant	−0.03
LM&SS systems approach	0.07*
HRM systems approach	0.46**
−2 log likelihood	4270.71
Variance individual level	0.76
Variance unit level	0.04
Explained variance individual level	20%
Explained variance unit level	19%

Note(s): *p-value < 0.05**p-value = 0.00

Table 9

Hierarchical multilevel analysis climate and performance

	Performance
	β
Constant	−0.03
Climate for LM&SS	−0.05
−2 log likelihood	612.95
Variance individual level	0.92
Variance team level	0.09

Table 10

Hierarchical multilevel analysis climate and employee well-being

	Employee well-being
	Happiness component	Trust component	Health component
	β	β	β
Constant	−0.18	−0.01	−0.07
LM&SS
Climate for LM&SS	0.33**	0.33**	−0.13**
−2 log likelihood	4479.78	4368.06	4563.02
Variance individual level	0.85	0.77	0.89
Variance team level	0.04	0.17	0.13
Explained variance individual level	12%	15%
Explained variance unit level	10%	10%

Note(s): *p-value < 0.05**p-value = 0.00

Table 11

Hierarchical multilevel analysis mediating role of climate, performance, and well-being

	Performance	Employee well-being
		Happiness component	Trust component	Health component
	β	β	β	β
Constant
LM&SS systems approach	0.30**	0.02	0.10	0.08
HRM systems approach	−0.4	0.36**	0.34**	−0.14**
Climate for LM&SS	0	0.16**	0.17**	−0.07**
−2 log likelihood	319.13
Variance individual level
Variance team level

Note(s): *p-value < 0.05**p-value = 0.00

References

Abdullah, M.M.B. and Tarí, J.J. (2017), “Hard quality management and performance: the moderating role of soft quality management”, International Journal for Quality Research, Vol. 11 No. 3, pp. 587-602.

Aboelmaged, M.G. (2015), “Lean Six Sigma in healthcare: a review of theory and practice”, in Tetteh, E. and Uzochukwu, B.M. (Eds), Lean Six Sigma Approaches in Manufacturing, Services, and Production, Idea Group, Hershey, PA, pp. 231-261.

Agarwal, S., Gallo, J.J., Parashar, A., Agarwal, K.K., Ellis, S.G., Khot, U.N. and Kapadia, S.R. (2016), “Impact of lean six sigma process improvement methodology on cardiac catheterization laboratory efficiency”, Cardiovascular Revascularization Medicine, Vol. 17 No. 2, pp. 95-101.

Ahmed, S., Abd Manaf, N.H. and Islam, R. (2018), “Measuring Lean Six Sigma and quality performance for healthcare organizations”, International Journal of Quality and Service Sciences, Vol. 10 No. 3, pp. 267-278, doi: 10.1108/IJQSS-09-2017-0076.

Al Khamisi, Y.N., Khan, M.K. and Munive-Hernandez, J.E. (2019), “Knowledge-based lean six sigma system for enhancing quality management performance in healthcare environment”, International Journal of Lean Six Sigma, Vol. 10 No. 1, pp. 211-233, doi: 10.1108/IJLSS-06-2017-0066.

Ali, M., Lei, S. and Wei, X.Y. (2018), “The mediating role of the employee relations climate in the relationship between strategic HRM and organizational performance in Chinese banks”, Journal of Innovation and Knowledge, Vol. 3 No. 3, pp. 115-122.

Allen, R.S. and Helms, M.M. (2002), “Employee perceptions of the relationship between strategy, rewards and organizational performance”, Journal of Business Strategy, Vol. 19 No. 2, pp. 115-139.

Allen, N.J. and Meyer, J.P. (1990), “The measurement of antecedents of affective, continuance and normative commitment to the organization”, Journal of Occupational Psychology, Vol. 61, pp. 1-18.

Alzoubi, M.M., Hayati, K.S., Rosliza, A.M., Ahmad, A.A. and Al-Hamdan, Z.M. (2019), “Total quality management in the health-care context: integrating the literature and directing future research”, Risk Manag Healthc Policy, Vol. 12, pp. 167-177, doi: 10.2147/RMHP.S197038.

Ambekar, S. and Hudnurkar, M. (2017), “Factorial structure for Six Sigma project barriers in manufacturing and service industries”, The TQM Journal, Vol. 29 No. 5, pp. 744-759.

Anand, G. and Kodali, R. (2009), “Selection of lean manufacturing systems using the analytic network process – a case study”, Journal of Manufacturing Technology Management, Vol. 20, pp. 258-289.

Andersson, R., Eriksson, H. and Torstensson, H. (2006), “Similarities and differences between TQM, six sigma and lean”, The TQM Magazine, Vol. 18, pp. 282-296.

Anthony, J., Palsuk, P., Gupta, S., Mishra, D. and Barach, P. (2018), “Six Sigma in healthcare: a systematic review of the literature”, International Journal of Quality and Reliability Management, Vol. 35 No. 5, pp. 1075-1092.

Antony, J., Sunder, M., V., Sreedharan, R., Chakraborty, A. and Gunasekaran, A. (2019), “A systematic review of Lean in healthcare: a global prospective”, International Journal of Quality and Reliability Management, Vol. 36 No. 8, pp. 1370-1391, doi: 10.1108/IJQRM-12-2018-0346.

Arora, J., Hazelzet, J. and Koudstaal, M. (2016), “A blueprint for measuring health care outcomes”, Harvard Business Review.

Assarlind, M. and Gremyr, I. (2014), “Critical factors for quality management initiatives in small- and medium-sized enterprises”, Total Quality Management and Business Excellence, Vol. 25 Nos 3/4, pp. 397-411.

Barjis, J. (2011), “Healthcare simulation and its potential areas and future trends”, SCS M&S Magazine, Vol. 2 No. 5, pp. 1-6.

Baruch, Y. and Holtom, B.C. (2008), “Survey response rate levels and trends in organizational research”, Human Relations, Vol. 61, pp. 1139-1160.

Begen, M.A., Pun, H. and Yan, X. (2016), “Supply and demand uncertainty reduction efforts and cost Comparison”, International Journal of Production Economics, Vol. 180, pp. 125-134.

Beraldin, A., Danese, P. and Romano, P. (2020), “Employee involvement for continuous improvement and production repetitiveness: a contingency perspective for achieving organizational outcomes”, Production Planning and Control, Vol. 33 No. 4, pp. 323-339, doi: 10.1080/09537287.2020.1823024.

Berberoglu, A. (2018), “Impact of organizational climate on organizational commitment and perceived organizational performance: empirical evidence from public hospitals”, BMC Health Services Research, Vol. 18, p. 399, doi: 10.1186/s12913-018-3149-z.

Bergmann, H., Geissler, M., Hundt, C. and Grave, B. (2018), “The climate for entrepreneurship at higher education institutions”, Research Policy, Vol. 47 No. 4, pp. 700-716.

Bertolaccini, L., Viti, A. and Terzi, A. (2015), “The statistical point of view of quality: the lean six sigma methodology”, Journal of Thoracic Disease, Vol. 7 No. 4, pp. 66-68.

Bhat, S., Antony, J., Gijo, E.V. and Cudney, E.A. (2020), “Lean Six Sigma for the healthcare sector: a multiple case study analysis from the Indian context”, International Journal of Quality and Reliability Management, Vol. 37 No. 1, pp. 90-111.

Bhat, S., Gijo, E.V., Antony, J. and Cross, J. (2022), “Strategies for successful deployment and sustainment of Lean Six Sigma in healthcare sector in India: a multi-level perspective”, The TQM Journal, Vol. ahead of print No. ahead of print, doi: 10.1108/TQM-10-2021-0302.

Birdi, K., Clegg, C., Patterson, M., Robinson, A., Stride, C.B., Wall, T.D. and Wood, S.J. (2008), “The impact of human resource and operational management practices on company productivity: a longitudinal study”, Personnel Psychology, Vol. 61, pp. 467-501.

Blau, P. (1964), Power and Exchange in Social Life, Wiley, New York.

Blumenthal, D.M., Bernard, K., Bohnen, J. and Bohmer, R. (2012), “Addressing the leadership gap in medicine: residents’ need for systematic leadership development training”, Academic Medicine, Vol. 87 No. 4, pp. 513-522.

Bonavia, T. and Marin, J.A. (2006), “An empirical study of lean production in the ceramic tile industry in Spain”, International Journal of Operations and Production Management, Vol. 26 No. 5, pp. 505-531.

Bonavia, T. and Marin-Garcia, J. (2011), “Integrating human resource management into lean production and their impact on organizational performance”, International Journal of Manpower, Vol. 32 No. 8, pp. 923-938.

Boon, C., Den Hartog, D.N., Boselie, P. and Paauwe, J. (2011), “The relationship between perceptions of HR practices and employee outcomes examining the role of person–organisation and person–job fit”, The International Journal of Human Resource Management, Vol. 22 No. 1, pp. 138-162.

Bortolotti, T., Boscari, S. and Danese, P. (2015), “Successful lean implementation: organizational culture and soft lean practices”, International Journal of Production Economics, Vol. 160 No. 0, pp. 182-201.

Bowen, D.E. and Ostroff, C. (2004), “Understanding HRM-firm performance linkages: the role of the ‘strength’ of the HRM system”, Academy of Management Review, Vol. 29 No. 2, pp. 203-221.

Burton, R.M., Lauridsen, J. and Obel, B. (2004), “The impact of organizational climate and strategic fit on firm performance”, Human Resource Management, Vol. 43, pp. 67-82.

Cardon, N. and Bribiescas, F. (2015), “Respect for people: the forgotten principle in lean manufacturing implementation”, European Scientific Journal, Vol. 11 No. 13, pp. 45-61.

Cavallone, M. and Palumbo, R. (2021), “Delving into the soft side of TQM: an analysis of the implications of employee involvement on management practices”, The TQM Journal, Vol. ahead of print No. ahead of print, doi: 10.1108/TQM-05-2021-0148.

Chung, S.H. and Kwon, C. (2016), “Integrated supply chain management for perishable products:Dynamics and oligopolistic competition perspectives with application to pharmaceuticals”, International Journal of Production Economics, Vol. 179, pp. 117-129.

Cima, R.R., Brown, M.J., Hebl, J.R., Moore, R., Rogers, J.C., Kollengode, A., Amstutz, G.J., Weisbrod, C.A., Narr, B.J. and Deschamps, C. (2011), “Use of lean and six sigma methodology to improve operating room efficiency in a high-volume tertiary-care academic medical center”, Journal of the American College of Surgeons, Vol. 213 No. 1, pp. 83-92.

Clegg, B., Rees, C. and Titchen, M. (2010), “A study into the effectiveness of quality management training: a focus on tools and critical success factors”, The TQM Journal, Vol. 22 No. 2, pp. 188-208.

Cohen, J. (1992), “A power primer”, Psychological Bulletin, Vol. 112, pp. 155-159.

Conti, R., Angelis, J., Cooper, C., Faragher, B. and Gill, C. (2006), “The effects of lean production on worker job stress”, International Journal of Operations and Production Management, Vol. 26 No. 9, pp. 1013-1038.

Cua, K.O., McKone, K.E. and Schroeder, R.G. (2001), “Relationships between implementation of TQM, JIT, and TPM and manufacturing performance”, Journal of Operations Management, Vol. 19, pp. 675-694.

Cullinane, S.J., Bosak, J., Flood, P.C. and Demerouti, E. (2014), “Job design under lean manufacturing and the quality of working life: a job demands and resources perspective”, The International Journal of Human Resource Management, Vol. 25 No. 21, pp. 2996-3015.

Da Silva, F.F., Filser, L.D., Juliani, F. and de Oliveira, O.J. (2018), “Where to direct research in lean six sigma? Bibliometric analysis, scientific gaps and trends on literature”, International Journal of Lean Six Sigma, Vol. 9 No. 3, pp. 324-350, doi: 10.1108/IJLSS-05-2017-0052.

Dahlgaard, J.J., Dahlgaard-Park, S.M. and Bajaria, H. (2001), “Lean production, six sigma quality and TQM”, The Best on Quality, Vol. 12, pp. 259-275.

Dal Pont, G., Furlan, A. and Vinelli, A. (2008), “Interrelationships among lean bundles and their effects on operational performance”, Operations Management Research, Vol. 1, pp. 150-158.

De Koeijer, R., Paauwe, J., Huijsman, R. and Strating, M. (2019), “Lean Management and Six Sigma in internal service units within academic hospitals: investigating the impact on people and performance”, Dissertation, available at: https://repub.eur.nl/pub/122125.

De Koeijer, R., Paauwe, J., Huijsman, R. and Strating, M. (2022), “Examining of the effect of HRM in mitigating negative effects of LM&SS on employee well-being in health care”, International Journal of Lean Six Sigma, Vol. 13 No. 1, pp. 67-100, doi: 10.1108/IJLSS-01-2021-0011.

Deithorn, A. and Kovach, J.V. (2018), “Achieving aggressive goals through Lean Six Sigma: a case study to improve revenue collection”, Quality Engineering, Vol. 30 No. 3, pp. 371-388.

Denison, D.R. (1996), “What is the difference between organizational culture and organizational climate? A native's point of view on a decade of paradigm wars”, Academy of Management Review, Vol. 21 No. 3, pp. 619-654.

Dietz, G. and Den Hartog, D. (2006), “Measuring trust inside organisations”, Personnel Review, Vol. 35, pp. 557-588.

Drenth, E. (2016), “Burnout bij jonge medisch specialisten: een bijdrage aan het verminderen van patiëntveiligheidsrisico’s als gevolg van burnout bij jonge medisch specialisten”, Afstudeeronderzoek Master Risicomanagement Universiteit Twente.

Drotz, E.,. and Poksinska, B. (2014), “Lean in healthcare from employees' perspectives”, Journal of Health Organisation and Management, Vol. 28 No. 2, pp. 177-195.

Durairatnam, S., Chong, S., Jusoh, M. and Dharmaratne, I. (2021), “Does people-related total quality management ‘work’ for people? An empirical study of the Sri Lankan apparel industry”, The TQM Journal, Vol. 33 No. 6, pp. 1183-1200.

D'Andreamatteo, A., Ianni, L., Lega, F. and Sargiacomo, M. (2015), “Lean in healthcare: a comprehensive review”, Health Policy, Vol. 119 No. 9, pp. 1197-1209.

Ershadi, M.J., Najafi, N. and Soleimani, P. (2019), “Measuring the impact of soft and hard total quality management factors on customer behavior based on the role of innovation and continuous improvement”, The TQM Journal, Vol. 31 No. 6, pp. 1093-1115.

Fotopoulos, C.B. and Psomas, E.L. (2009), “The impact of ‘soft’ and ‘hard’ TQM elements on quality management results”, International Journal of Quality and Reliability Management, Vol. 26 No. 2, pp. 150-163.

Furterer, S.L. (2018), “Applying Lean Six Sigma methods to reduce length of stay in a hospital's emergency department”, Quality Engineering, Vol. 30 No. 3, pp. 389-404.

Gelade, G.A. and Ivery, M. (2003), “The impact of human resource management and work climate on organizational performance”, Personnel Psychology, Vol. 56, pp. 383-404.

Giauque, D., Anderfuhren-Biget, S. and Varone, F. (2013), “HRM practices, intrinsic organizational performance in the public sector”, Public Personnel Management, Vol. 42 No. 2, pp. 123-150.

Glasgow, J.M., Scott-Caziewell, J.R. and Kaboli, P.J. (2010), “Guiding inpatient quality improvement: a systematic review of Lean and Six Sigma”, Joint Commission Journal on Quality and Patient Safety, Vol. 36 No. 12, pp. 533-540.

Goodridge, D., Westhorp, G., Rotter, T., Dobson, R. and Bath, B. (2015), “Lean and leadership practices: development of an initial realist program theory”, BMC Health Services Research, Vol. 15 No. 362, pp. 1-15.

Gouldner, A.W. (1960), “The norm of reciprocity: a preliminary statement”, American Sociological Review, Vol. 25 No. 2, pp. 161-178.

Grant, A.M., Christianson, M.K. and Price, R.H. (2007), “Happiness, health, or relationships? Managerial practices and employee well-being tradeoffs”, Academy of Management Perspectives, Vol. 21 No. 3, pp. 51-63.

Guest, D.E. (2017), “Human resource management and employee well-being: towards a new analytic framework”, Human Resource Management Journal, Vol. 27, pp. 22-38.

Haakonsson, D.D., Burton, R.M., Obel, B. and Lauridsen, J. (2008), “How failure to align organizational climate and leadership style affects performance”, Management Decision, Vol. 46 No. 3, pp. 406-432.

Habidin, N.F., Yusof, S.M., Zulkifli, C.M.C.O., Mohamad, S.I.S., Janudin, S.E. and Omar, B. (2012), “Lean six sigma initiative: business engineering practices and performance in Malaysian automotive industry”, IOSR Journal of Engineering, Vol. 2 No. 7, pp. 13-18.

Hackman, J.R. and Wageman, R. (1995), “Total quality management: empirical, conceptual, and practical issues”, Administrative Science Quarterly, Vol. 40 No. 2, pp. 309-342.

Hasle, P., Bojesen, A., Jensen, P.L. and Bramming, P. (2012), “Lean and the working environment: a review of the literature”, International Journal of Operations and Production Management, Vol. 32 No. 17, pp. 829-849.

Henrique, D.B. and Filho, M.G. (2020), “A systematic literature review of empirical research in Lean and Six Sigma in healthcare”, Total Quality Management and Business Excellence, Vol. 31 Nos 3-4, pp. 429-449, doi: 10.1080/14783363.2018.1429259.

Hines, P., Taylor, D. and Walsh, A. (2018), “The Lean journey: have we got it wrong?”, Total Quality Management and Business Excellence, Vol. 31 Nos 3-4, pp. 389-406.

Ho, D.C.K., Duffy, V.G. and Shih, H.M. (2001), “Total quality management: an empirical test for mediation effect”, International Journal of Production Research, Vol. 39 No. 3, pp. 529-548.

Holden, R.J. (2011), “Lean thinking in emergency departments: a critical review”, Annals of Emergency Medicine, Vol. 57, pp. 265-278.

Hundal, G.S., Thiyagarajan, S., Alduraibi, M., Laux, C.M., Furterer, S.L., Cudney, E.A. and Antony, J. (2021), “Lean Six Sigma as an organizational resilience mechanism in health care during the era of COVID-19”, International Journal of Lean Six Sigma, Vol. 12 No. 4, pp. 762-783.

Hynes, J.P., Murray, A.S., Murray, O.M., Eustace, S.K., Gilchrist, S., Dolan, A. and Lawler, L.P. (2019), “Use of lean six sigma methodology shows a reduction of inpatient waiting time for peripherally inserted central catheter placement”, Clinical Radiology, Vol. 74 No. 9, doi: 10.1016/j.crad.2019.04.022.

Improta, G., Ricciardi, C., Borrelli, A., D’Alessandro, A., Verdoliva, C. and Cesarelli, M. (2019), “The application of six sigma to reduce the pre-operative length of hospital stay at the hospital Antonio Cardarelli”, International Journal of Lean Six Sigma, Vol. 11 No. 33, pp. 555-576, doi: 10.1108/IJLSS-02-2019-0014.

Jager, J., Putnick, D.L. and Bornstein, M.H. II (2017), “More than just convenient: the scientific merits of homogeneous convenience samples”, Monogr Soc Res Child Dev, Vol. 82 No. 2, pp. 13-30, doi: 10.1111/mono.12296.

Jørgensen, F., Matthiesen, R., Nielsen, J. and Johansen, J. (2007), “Lean maturity, lean sustainability”, in Olhager, J. and Persson, F. (Eds), Advances in Production Management Systems, Springer, Boston, MA, pp. 371-378.

Joyce, W.F. and Slocum, J.W. Jr (1984), “Collective climate: agreement as a basis for defining aggregate climates in organizations”, Academy of Management Journal, Vol. 27 No. 4, pp. 721-742.

Juran, J.M. and Godfrey, A.B. (1998), Juran's Quality Handbook, McGraw-Hill, New York.

Kaynak, H. (2003), “The relationship between total quality management practices and their effects on firm performance”, Journal of Operations Management, Vol. 21 No. 4, pp. 405-435.

Keng Boon, O., Arumugam, V., Samaun Safa, M. and Abu Bakar, N. (2007), “HRM and TQM: association with job involvement”, Personnel Review, Vol. 36 No. 6, pp. 939-962.

Khalili, A., Ismail, Md.Y., Karim, A.N.M. and Daud, M.R.C. (2019), “Quality management practices and sustainable performance: examining the role of soft TQM as mediator”, International Journal of Industrial and Systems Engineering, Vol. 31 No. 2, pp. 250-277.

Klefsjö, B., Wiklund, H. and Edgeman, R.L. (2001), “Six sigma seen as a methodology for total quality Management”, Measuring Business Excellence, Vol. 5 No. 1, pp. 31-35.

Klein, K.J. and Kozlowski, S.W.J. (2000), “Multilevel analytical techniques: commonalities, differences and continuing questions”, in Klein, K.J. and Kozlowski, S.W.J. (Eds), Multilevel Theory, Research, and Methods in Organizations, Jossey-Bass, San Francisco, CA, pp. 512-553.

Knies, E. and Leisink, P. (2014), “Linking people management and extra-role behaviour”, Human Resource Management Journal, Vol. 24, pp. 57-76.

Ko, A., Murry, J.S., Hoang, D.M., Harada, M.Y., Aquino, L., Coffey, C., Sax, H.C. and Alban, R.F. (2016), “High-value care in the surgical intensive care unit: effect on ancillary resources”, Journal of Surgical Research, Vol. 202 No. 2, pp. 455-460.

Kostova, T. and Roth, K. (2002), “Adoption of an organizational practice by subsidiaries of multinational corporations: institutional and relational effects”, Academy of Management Journal, Vol. 45 No. 1, pp. 215-233.

Kowalski, T., Loretto, W. and Redman, T. (2015), “Special issue of international journal of human resource management: well-being and HRM in the changing workplace”, The International Journal of Human Resource Management, Vol. 26, pp. 123-126.

Kuenzi, M. and Schminke, M. (2009), “Assembling fragments into a lens: a review, critique, and proposed research agenda for the organizational work climate literature”, Journal of Management, Vol. 35 No. 3, pp. 634-717.

Kuiper, A., Lee, R.H., van Ham, V.J.J. and Does, R.J.M.M. (2021), “A reconsideration of Lean Six Sigma in healthcare after the COVID-19 crisis”, International Journal of Lean Six Sigma, Vol. 13 No. 1, pp. 101-117, doi: 10.1108/IJLSS-01-2021-0013.

Kuo, A.M.H., Borycki, E., Kushniruk, A. and Lee, T.S. (2011), “A healthcare lean six sigma system for postanesthesia care unit workflow improvement”, Qual Manag Healthc, Vol. 20 No. 1, pp. 4-14.

Lau, H.C. and Idris, M.A. (2001), “The soft foundation of the critical success factors on TQM implementation in Malaysia”, The TQM Magazine, Vol. 13 No. 1, pp. 51-62.

Leite, D.G., Montesco, R.A.E. and Sakuraba, C.S. (2018), “Increasing a gas distributor net profit through Lean Six Sigma”, Quality Engineering, Vol. 30 No. 3, pp. 359-370.

Mamata, R.C., Derosa, B., Nizam, M., Rahmana, A., Omarb, M.K. and Abdullaha, S. (2015), “Soft Lean practices for successful Lean production system implementation in Malaysia automotive SMES: a proposed framework”, Jurnal Teknologi, Vol. 77 No. 27, pp. 141-150.

Mandahawi, N., Al-Shihabi, S., Abdallah, A.A. and Alfarah, Y.M. (2010), “Reducing waiting time at an emergency department using design for six sigma and discrete event simulation”, International Journal of Six Sigma and Competitive Advantage, Vol. 6 No. 1, pp. 91-104.

Manville, G., Greatbanks, R., Krishnasamy, R. and Parker, D.W. (2012), “Critical success factors for Lean Six Sigma programmes: a view from middle management”, International Journal of Quality and Reliability Management, Vol. 29 No. 1, pp. 7-20.

Martinez, E.A., Chavez-Valdez, R., Holt, N.F., Grogan, K.L., Khalifeh, K.W., Slater, T., Winner, L.E., Moyer, J. and Lehmann, C.U. (2011), “Successful implementation of a perioperative glycemic control protocol in cardiac surgery: barrier analysis and intervention using lean six sigma”, Anesthesiology Research and Practice, Vol. 2011, p. 10, 565069, doi: 10.1155/2011/565069.

Maslach, C. and Schaufeli, W.B. (1993), “Historical and conceptual development of burnout”, in Schaufeli, W.B., Maslach, C. and Marek, T. (Eds), Series in Applied Psychology: Social Issues and Questions. Professional Burnout: Recent Developments in Theory and Research, Taylor & Francis, Philadelphia, PA, pp. 1-16.

Mason, C.M. and Griffin, M.A. (2005), “Group Task Satisfaction: the group's shared attitude to its task and work environment”, Group and Organization Management, Vol. 30, pp. 625-652.

McCaughey, D., DelliFraine, J.L., McGhan, G. and Bruning, N.S. (2013), “The negative effects of workplace injury and illness on workplace safety climate perceptions and health care worker outcomes”, Safety Science, Vol. 51 No. 1, pp. 138-147.

McDermott, O., Antony, J. and Douglas, J. (2021), “Exploring the use of operational excellence methodologies in the era of COVID-19: perspectives from leading academics and practitioners”, The TQM Journal, Vol. 33 No. 8, pp. 1647-1665.

McKone, K.E., Schroeder, R.G. and Cua, K.O. (2001), “The impact of total productive maintenance practices on manufacturing performance”, Journal of Operations Management, Vol. 19, pp. 39-58.

Moldovan, F. (2018), “New approaches and trends in health care”, Procedia Manufacturing, Vol. 22, pp. 947-951.

Molla, M., Warren, D.S., Stewart, S.L., Stocking, J., Johl, H. and Sinigayan, V. (2018), “A lean six sigma quality improvement project improves the timeliness of discharge from the hospital”, The Joint Commission Journal on Quality and Patient Safety, Vol. 44 No. 7, pp. 401-412.

Moraros, J., Lemstra, M. and Nwankwo, C. (2016), “Lean interventions in healthcare: do they actually work? A systematic literature review”, International Journal for Quality in Health Care, Vol. 28 No. 2, pp. 150-165.

Mullins, L. (2010), “Management and Organizational behavior”, Pearson Education, 9th ed.

Näslund, D. (2013), “Lean and Six Sigma – critical success factors revisited”, International Journal of Quality and Service Sciences, Vol. 5 No. 1, pp. 86-100.

Niemeijer, G.C., Does, R.J., de Mast, J., Trip, A. and van den Heuvel, J. (2011), “Generic project definitions for improvement of health care delivery: a case-based approach”, Quality Management in Health Care, Vol. 20 No. 2, pp. 152-164.

Niemeijer, G.C., Trip, A., Ahaus, K.C.T.B., Wendt, K.W. and Does, R.J.M.M. (2012), “Quality quandaries: reducing overuse of diagnostic tests for trauma patients”, Quality Engineering, Vol. 24 No. 4, pp. 558-563.

Niñerola, A., Sánchez-Rebull, M.V. and Hernández-Lara, A.B. (2020), “Quality improvement in healthcare: six Sigma systematic review”, Health Policy, Vol. 124 Is. 4, pp. 438-445.

Nishii, L.H., Lepak, D.P. and Schneider, B. (2008), “Employee attributions of the ‘why’ of HR practices: their effects on employee attitudes and behaviors, and customer satisfaction”, (CAHRS Working Paper #08-03), Ithaca, NY: Cornell University, School of Industrial and Labor Relations, Center for Advanced Human Resource Studies.

Noronha, A., Bhat, S., Gijo, E.V., Antony, J., Laureani, A. and Laux, C. (2021), “Performance and service quality enhancement in a healthcare setting through Lean Six Sigma strategy”, International Journal of Quality and Reliability Management, Vol. ahead-of-print No. ahead-of-print, doi: 10.1108/IJQRM-07-2021-0226.

Ostroff, C. and Bowen, D.E. (2000), “Moving HR to a higher level”, in Klein, K.J. and Kozlowski, S.W.J. (Eds), Multilevel Theory, Research and Methods in Organizations, Jossey-Bass, San Francisco, CA, pp. 211-257.

Ostroff, C., Kinicki, A.J. and Tamkins, M.M. (2003), “Organizational culture and climate”, in Borman, W.C., Ilgen, D.R. and Klimoski, R.J. (Eds), Handbook of Psychology: Industrial and Organizational Psychology, John Wiley & Sons, Hoboken, NJ, pp. 565-593.

Parast, M.M., Adams, S.G. and Jones, E.C. (2011), “Improving operational and business Performance in the petroleum industry through quality management”, International Journal of Quality and Reliability Management, Vol. 28 No. 4, pp. 426-450.

Parker, C.P., Baltes, B.B., Young, S.A., Huff, J.W., Altmann, R.A., LaCost, H.A. and Roberts, J.E. (2003), “Relationships between psychological climate perceptions and work outcomes: a meta-analytic review”, Journal of Organizational Behavior, Vol. 24, pp. 389-416.

Patterson, M., Warr, P. and West, M. (2004), “Organizational climate and company productivity: the role of employee affect and employee level”, Journal of Occupational and Organizational Psychology, Vol. 77, pp. 193-216.

Patterson, M.G., West, M.A., Shackleton, V.J., Dawson, J.F., Lawthom, R., Maitlis, S., Robinson, D.L. and Wallace, A.M. (2005), “Validating the organizational climate measure: links to managerial practices, productivity and innovation”, Journal of Organizational Behavior, Vol. 26 No. 4, pp. 379-408.

Peccei, R., Van de Voorde, K. and Van Veldhoven, M. (2013), “HRM, well-being and performance: a theoretical and empirical review”, in Paauwe, J., Guest, D.E. and Wright, P. (Eds), HRM and Performance: Achievements and Challenges, Wiley, Chichester, pp. 15-46.

Permarupan, P.Y., Al- Mamun, A., Saufi, R.A. and Zainol, N.R.B. (2013), “Organizational climate on employees’ work passion: a review”, Canadian Social Science, Vol. 9 No. 4, pp. 63-68.

Poksinska, B. (2010), “The current state of lean implementation in healthcare: literature review”, Quality Management in Health Care, Vol. 19, pp. 319-329.

Porter, M.E. (2010), “What is value in health care?”, The New England Journal of Medicine, Vol. 363, pp. 2477-2481, doi: 10.1056/NEJMp1011024.

Purohit, B. and Ashok, W. (2012), “Organisational climate from view point of motivation in district hospital, India”, Health, Vol. 4 No. 7, pp. 400-406.

Radnor, Z.J. (2011), “Implementing lean in healthcare: making the link between the approach, readiness and sustainability”, International Journal of Industrial Engineering and Management, Vol. 2, pp. 1-12.

Radnor, Z.J., Holweg, M. and Waring, J. (2012), “Lean in healthcare: the unfilled promise?”, Social Science and Medicine, Vol. 74 No. 3, pp. 364-371.

Rahman, S. and Bullock, P. (2005), “Soft TQM, hard TQM, and organisational performance relationships: an empirical investigation”, Omega, Vol. 33 No. 1, pp. 73-83.

Robinson, S.L. (1996), “Trust and breach of the psychological contract”, Administrative Science Quarterly, Vol. 41 No. 4, pp. 574-599.

Ryff, C.D. and Keyes, C.L.M. (1995), “The structure of psychological well-being revisited”, Journal of Personality and Social Psychology, Vol. 69, pp. 719-727.

Sanders, J.H. and Karr, T. (2015), “Improving ED specimen TAT using lean six sigma”, International Journal of Health Care Quality Assurance, Vol. 28 No. 5, pp. 428-440.

Schneider, B. (1975), “Organizational climates: an essay”, Personnel Psychology, Vol. 28, pp. 447-479.

Schneider, B. and Reichers, A.E. (1983), “On the etiology of climates”, Personnel Psychology, Vol. 36, pp. 19-39.

Schulte, M., Ostroff, C., Shmulyian, S. and Kinicki, A. (2009), “Organizational climate configurations: relationships to collective attitudes, customer satisfaction, and financial performance”, Journal of Applied Psychology, Vol. 94 No. 3, pp. 618-634.

Seidl, K.L. and Newhouse, R.P. (2012), “The intersection of evidence-based practice with 5 quality improvement methodologies”, JONA: The Journal of Nursing Administration, Vol. 42 No. 6, pp. 299-304.

Seppälä, P. and Klemola, S. (2004), “How do employees perceive their organization and job when companies adopt principles of lean production?”, Human Factors and Ergonomics in Manufacturing, Vol. 14 No. 2, pp. 157-180.

Shah, R. and Ward, P.T. (2003), “Lean manufacturing: context, practice bundles, and performance”, Journal of Operations Management, Vol. 21, pp. 129-149.

Sony, M., Antony, J. and Naik, S. (2020), “How do organizations implement an effective LSS initiative? A qualitative study”, Benchmarking: An International Journal, Vol. 27 No. 5, pp. 1657-1681.

Spear, S. and Bowen, H.K. (1999), “Decoding the DNA of the Toyota production system”, Harvard Business Review, Vol. 77 No. 5, pp. 97-106.

Sreedharan, V.R., Sunder, M.V. and Raju, R. (2018), “Critical success factors of TQM, six sigma, lean and lean six sigma: a literature review and key findings”, Benchmarking: An International Journal, Vol. 25 No. 9, pp. 3479-3504.

Stamatis, D.H. (2011), Essentials for the Improvement of Healthcare Using Lean and Six Sigma, Productivity Press, New York, NY.

Tagge, E.P., Thirumoorthi, A.S., Lenart, J., Garberoglio, C. and Mitchell, K.W. (2017), “Improving operating room efficiency in academic children's hospital using lean six Sigma methodology”, Journal of Pediatric Surgery, Vol. 52 No. 6, pp. 1040-1044.

Tan, B., Nadarajah, S., Sim, J. and Ng, C. (2014), “Soft TQM practices, customer orientation and business performance: a proposed structural model”, International Journal of Modelling in Operations Management, Vol. 4 Nos 1/2, pp. 21-34.

Taris, T.W., Houtman, I.L.D. and Schaufeli, W. (2013), “Burnout: de stand van zaken”, Tijdschrift voor Arbeidsvraagstukken, Vol. 29 No. 3, pp. 241-257.

Taylor, P., Taylor, A., Taylor, M. and McSweeney, A. (2013), “Towards greater understanding of success and survival of lean systems”, International Journal of Production Research, Vol. 51 No. 22, pp. 37-41.

Thirkell, E. and Ashman, I. (2014), “Lean towards learning: connecting Lean Thinking and human resource management in UK higher education”, The International Journal of Human Resource Management, Vol. 25 No. 21, pp. 2957-2977.

Tolbert, P.S. and Zucker, L.G. (1996), “The institutionalization of the institutional field”, in Clegg, S.R., Hardy, C. and Nord, W.R. (Eds), Handbook of Organization Studies, Sage, London, pp. 175-190.

Vaishnavi, V. and Suresh, M. (2020), “Modelling of readiness factors for the implementation of Lean Six Sigma in healthcare organizations”, International Journal of Lean Six Sigma, Vol. 11 No. 4, pp. 597-633.

Van de Voorde, K. and Boxall, P. (2014), “Individual well-being and performance at work in the wider context of strategic HRM”, in van Veldhoven, M. and Peccei, R. (Eds), Well-being and Performance at Work, Psychology Press, Hove, pp. 95-111.

Van de Voorde, K., Paauwe, J. and Van Veldhoven, M. (2012), “Employee well-being and the HRM–organizational performance relationship: a review of quantitative studies”, International Journal of Management Reviews, Vol. 14, pp. 391-407.

Van Veldhoven, M. (2005), “Financial performance and the long-term link with HR practices, work climate and job stress”, HRMJ, Vol. 15, pp. 30-53.

Van Veldhoven, M., Meijman, T.F., Broersen, J.P.J. and Fortuin, R.J. (2002), Handleiding VBBA, SKB Vragenlijst Services, Amsterdam.

Veld, M. and Alfes, K. (2017), “HRM, climate and employee well-being: comparing an optimistic and critical perspective”, The International Journal of Human Resource Management, Vol. 28 No. 16, pp. 2299-2318.

Veld, M., Paauwe, J. and Boselie, P. (2010), “HRM and strategic climates in hospitals: does the message come across at the ward level?”, HRMJ, Vol. 20, pp. 339-356.

Waring, J.J. and Bishop, S. (2010), “Lean healthcare: rhetoric, ritual and resistance”, Social Science and Medicine, Vol. 71 No. 7, pp. 1332-1340.

Warr, P. (2007), Work, Happiness and Unhappiness, Routledge, New York.

Whitener, E.M. (2001), “Do ‘high commitment’ human resource practices affect employee commitment?: a cross-level analysis using hierarchical linear modeling”, Journal of Management, Vol. 27 No. 5, pp. 515-535.

Wiklund, H. and Wiklund, P.S. (2002), “Widening the six sigma concept: an approach to improve organizational learning”, Total Quality Management, Vol. 13, pp. 233-239.

Willems, J. and Ingerfurth, S. (2018), “The quality perception gap between employees and patients in hospitals”, Health Care Management Review, Vol. 43 No. 2, pp. 157-167.

Wilson, W., Nihal, W. and Frater, G. (2018), “The effect of contextual factors on quality improvement success in a lean-driven New Zealand healthcare environment”, International Journal of Lean Six Sigma, Vol. 9 No. 2, pp. 199-220.

Womack, J.P. and Jones, D.T. (2003), Lean Thinking, Free Press, New York.

Womack, J., Jones, D. and Roos, D. (1990), The Machine that Changed the World: The Story of Lean Production, Toyota's Secret Weapon in the Global Car Wars that Is Now Revolutionizing World Industry, Free Press, New York.

Wright, P.M. and Boswell, W.R. (2002), “Desegregating HRM: A review and synthesis of micro and macro human resource management research”, (CAHRS Working Paper #02-11), Ithaca, NY: Cornell University, School of Industrial and Labor Relations, Center for Advanced Human Resource Studies.

Young, L.J., McFadden, K.L. and Gowen, C.R. III. (2018), “An exploratory analysis for Lean and Six Sigma implementation in hospitals. Together is better?”, Health Care Management Review, Vol. 43 No. 3, pp. 182-192.

Zacharatos, A., Hershcovis, M.S., Turner, N. and Barlin, J. (2007), “Human resource management in the North American automotive industry: a meta-analytic review”, Personnel Review, Vol. 36, pp. 231-254.

Zhao, X., Lynch, J.G. and Chen, Q. (2010), “Reconsidering baron and Kenny: myths and truths about mediation analysis”, Journal of Consumer Research, Vol. 37 No. 2, pp. 197-206.

Zohar, D. and Luria, G. (2005), “A multilevel model of safety climate: cross-level relationships between organization and group-level climates”, Journal of Applied Psychology, Vol. 90 No. 4, pp. 616-628.

Zu, X. and Fredendall, L.D. (2009), “Enhancing six sigma implementation through human resource management”, Quality Management Journal, Vol. 16, pp. 41-54.

Zu, X., Fredendall, L.D. and Douglas, T.J. (2008), “The evolving theory of quality management: the role of six sigma”, Journal of Operations Management, Vol. 26, pp. 630-650.

Zwetsloot, I.M., Kuiper, A., Akkerhuis, T.S. and de Koning, H. (2018), “Lean Six Sigma meets data science: integrating two approaches based on three case studies”, Quality Engineering, Vol. 30 No. 3, pp. 419-431.

Corresponding author

Relinde De Koeijer can be contacted at: gorissen@eshpm.eur.nl

Abstract

Purpose

Design/methodology/approach

Findings

Research limitations/implications

Practical implications

Originality/value

Keywords

Citation

Publisher

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1. Introduction

2. Theoretical background and research hypotheses

2.1 Lean Management and Six Sigma in healthcare

2.2 LM&SS and Human Resource Management

2.3 LM&SS, HRM and climate

2.4 LM&SS, climate and outcomes

2.5 Research hypotheses

3. Research methodology

3.1 Population and sampling

3.2 Measurement instruments

4. Data analysis and results

4.1 Description of the study sample

4.2 Testing the hypotheses

5. Discussion of findings

6. Conclusion

6.1 Managerial and practical implications

6.2 Limitations and future research

Figures

Figure 1

References

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