Construction Economics and Building, 15(1), 75-88  

   

 

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Citation: Owusu-Manu, D., Badu, E., Holt, G.D. and Edwards, D., 2015. Determinants of Management Innovation in the 
Ghanaian Construction Consulting Sector, Construction Economics and Building, 15(1), 75-88.          
DOI: http://dx.doi.org/10.5130/ajceb.v15i1.4170 
 
Corresponding author: Gary Holt; Email - gary--holt@outlook.com  

Publisher: University of Technology Sydney (UTS) ePress 

 

Determinants of  Management Innovation in the Ghanaian 
Construction Consulting Sector 

De-Graft Owusu-Manu1, Edward Badu1, Gary D. Holt2 and David Edwards3 

1Kwame Nkrumah University of Science and Technology, Ghana 
2University of Central Lancashire, UK 
3Birmingham City University, UK 

Abstract 
Determinants of management innovation (MI) within the Ghanaian construction consulting 
sector are examined. A sample of 70 consulting firms is surveyed using self-administered 
questionnaires. Data are analysed using descriptive statistics and factor analysis. Findings indicate 
that determinants of MI were interwoven among seven principal factors viz: community and 
market demands; financial and business management practices; human resource policies; 
creativity and organizational strategies; corporate social responsibility; prevailing conditions; and 
competitive leverage. The study adds to the discourse on evolution of innovation within the 
global consulting sector generally, while providing reference for practitioners and academics in 
the field with respect to MI determinants more specifically. It is envisaged that practitioners who 
adopt these findings in the construction consultancy sector would enhance their ability to 
provide innovative services to clients. Study recommendations include that future research 
should explore how innovation is diffused within consulting enterprises’ value chains. 

Keywords: Determinants, management, innovation, construction, consulting. 

Paper Type: Research article 

Introduction 
Innovation is an important global business resource at both organizational and individual levels 
(Waychal, et al., 2011). Amabile (1988) described it as the successful implementation of creative 
ideas within an organization, while Tidd et al., (2001) suggested that innovation creates 
opportunity as a result of such. Birkinshaw et al., (2008), added to this discourse by defining 
‘management innovation’ as the invention and implementation of management practices, 
techniques or structures that are intended advance organizational goals.  

Numerous commentators have extolled innovation in terms of its ability to create value, achieve 
incremental improvement to systems or products and ultimately, reduce costs (Drucker, 1995; 
Mohanty, 1999; Radjou, 2006; Owusu-Manu, et al., 2012). Both Ashkenas (1998) and Mohanty 
(2006) contended that superior performance, competitive advantage, profitability and 
sustainability are all commensurate with an innovative culture – which in turn, underpins 
business survival (Holt, 2013). Studies on the adoption of organizational innovation have 
increased (Brockman and Morgan, 1999) and within those, two major classifications abound: 

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Owusu-Manu, Badu, Holt and Edwards 76 

 

managerial and technological. One distinction between these is that they require different types 
and amounts of organizational resources for successful implementation (Damanpour, 1988). For 
instance, Damanpour and Evan (1984) explained technological innovations as involving tangible 
changes, typically requiring physical alteration to a product, service or production process. In 
contrast, management innovation (MI) relates indirectly to work activities, resulting in change to 
organizational policies, responsibilities, processes, or routines. Hamel (2006) espoused MI as a 
marked departure from traditional principles, which can significantly alter the way management 
is performed, while Birkinshaw et al., (2008) suggested this brings significant positive impact on 
productivity and efficiency (Hamel, 2000).  

The changing business environment is forcing organizations to continually innovate and 
therefore, compete effectively. A key factor here is the ability to quickly adapt and meet strategic 
goals (Rasli, 2004). Hence, technology and management-enabled innovation grows; additionally 
driven by said competition, regulatory change, end users’ demands and environmental agendas 
(Sorensen and Maultzsch, 2000). This in turn encourages research and development (R&D) 
(Damanpour and Schneider, 2006). But the literature suggests that most R&D is dedicated to 
understanding how organisations can stimulate technological innovations (and their interplay 
with business processes). MI remains under-researched and the determinants affecting it in the 
consulting sectors of developing countries, is particularly sparse in this respect.  

Emerging knowledge advocates the benefits of MI and accentuates its importance to firm 
performance, both as a complement of technological innovation (Damanpour et al., 2009) and as 
an independent phenomenon (Mol and Birkinshaw, 2009). The aim of this study therefore, is to 
identify the key determinants of MI that will be useful in driving innovation in the Ghanaian 
construction consultancy sector and accordingly, the following research questions were posed: 
What are the market demand related determinants of MI?; What are the human resources related 
determinants of MI?; and What management practices encourage MI in construction consultancy 
sector? It is envisaged that the results will provide clarity on the role of MI in this sector, whilst 
highlighting methods of MI adoption pertinent to the Ghanaian context. 

Conceptualization of Management Innovation (MI) 
MI proponents refer to the introduction of management practices, processes and structures that 
further organizational goals (Birkinshaw, et al., 2008; Mol and Birkinshaw, 2009; Damanpour, et 
al., 2009). Whilst Rasli (2004), Damanpour and Schneider (2006) and Owusu-Manu et al., (2012) 
concluded that MI systematization is a critical business success factor. Hamel and Breen (2007) 
asserted that most businesses recognise continuous improvement vis-a-vis continuous innovation, 
so they know how to improve but not how to be different. MI involves transformation of 
institutional culture to enable integrated, organizational performance improvement involving 
technological, product and process innovation (Damanpour, et al., 2009). MI changes how 
managers work, such that it enhances organizational performance and is conceptualized as 
exhibiting differences in form, quality or state over time of management activities – where 
change is a departure from ‘tradition’ (Hargrave and Van de Ven, 2006). In organizational terms, 
Birkinshaw et al., (2008) espoused MI as the generation and implementation of management 
practice, process, structure or technique that is state of the art and furthers organizational goals.  

Hamel (2006) identified twelve facets of innovation that can influence management: scientific 
studies (e.g. time and motion); cost accounting and variance analysis; commercial research 
(industrialization of science); investment analysis and capital budgeting; brand management; 
project management; divisionalization; leadership; multi-company collaboration; radical 
decentralization; formalized strategic analysis; and employee-driven problem solving. Thus MI is 
inextricably linked to the way companies allocate capital, motivate employees, organize activities, 
create strategies and set priorities. It can also solve organizational problems resulting from 



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perceived presence, of at least one of four conditions: structural economic changes 
(bureaucratization of organizational mechanisms); transformation of ownership with increase in 
size or complexity; labour unrest; and external pressures or opportunities.  

The Birkinshaw et al., (2008) framework comprised four MI phases: motivation; invention; 
implementation; and theorization. Motivation is concerned with facilitating factors that lead 
individuals to innovate whilst invention is the act of experimentation from which new practice 
emerges. Implementation establishes the value of innovation in vivo, while theorization legitimises MI. 
These phases build upon the intra-firm evolutionary perspective propounded by Burgelman 
(1991), who advanced that MI is shaped by the conscious actions of key individuals, whilst 
recognizing ‘unintended’ individuals’ influences and random organizational  change.  

O’Mahoney (2010) outlined five crucial MI types occurring in the consulting sector. Modification 
to existing services is the most common, followed by changes to internal processes that improve the way 
a firm is run. New thought leadership is founded on differentiation – based on the way firms ‘think’. 
New consulting products and services is the creation of same which are new to the market. The final 
type is changes to internal structures. Consulting MI is initiated either formally or informally (op cit.) and 
not normally developed without clearly articulated, market demand.  

Consulting Typologies and their need for MI 
Consulting refers to firms helping others improve performance, through analysis of problems 
and development of solutions. It may represent cross-fertilization of best practices, analytical 
techniques, change management and coaching skills, technology implementation, strategy 
development, or the simply an outsider’s perspective (Owusu-Manu, et al., 2012). It represents an 
‘advisory’ service provided by specially trained and qualified persons who assist the client 
organisation in an objective and independent manner (Greiner and Metzger, 1983). Within the 
literature, two typologies of consultancy are identified: management consulting and engineering/ 
technical consulting (Pittinsky and Poon, 2005). Management consultancy includes provision of 
services as broadly defined above. Engineering consultancy is the application of physical laws and 
principles of engineering to a broad range of activities in the areas of construction, 
manufacturing, mining, transportation and environment (Consultancy Development Centre, 
2006).  

Consultants as individuals can be segmented into various categories. The ‘mental adventurer’ 
analyses intransigent problems. The ‘strategic navigator’ relies on a quantitative understanding of 
the market and competitive dynamics. The ‘management physician’ seeks a deeper understanding 
of the internal dynamics of a client organization, often sacrificing objectivity to gain a realistic 
perspective on what is achievable. The consulting profession, can be segmented into: 
independent consulting firms; autonomous/ semi-autonomous government organizations; 
universities/ research institutes; firms forming part of, or otherwise affiliated to, contractors or 
manufacturers; firms combining consultant functions with those of contractors/ manufacturers 
and individuals (Laufhütte, 2004). Consulting demand increases with economic development 
(Weller, 2001), stemming from a diverse range of clients – so consultancy business is directly 
proportional to economic activity (Consultancy Development Centre, 2006).  

Consultancy of an intellectual nature embraces: preparation (master plans, feasibility, design); 
implementation (tenders, procurement assistance, supervision, quality management, 
commissioning); and advisory services (policy and strategy, reorganization/ privatization, 
institution building, training/ knowledge transfer, management advice and technical/ operating 
advice). Other services may be seen as: pre-investment studies (pre-feasibility and feasibility 
studies, regional or sectoral planning, policy and investment priorities) (Jobeus and Sikorski, 
2000); engineering and design studies (preparation of drawings, specifications, detailed cost 



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estimates and tender documentation); and implementation or supervision (in accordance with 
contract, expenditure control, certification, etc.). 

Advancements in consulting have evolved from research; a notable example being the models of 
consultation proffered by Schein (1990) and Naarmala and Tuomi (2006). Other developments 
have emphasized how consultants should engage clients (Nees and Greiner, 1985) to strive for 
relationship optimisation (Appelbaum and Steed, 2003). However, problems persist relating to 
the sector’s lack of harmonization, structure, unionization and innovation. For instance, its 
absence of an innovative pricing framework is a specific challenge (Owusu-Manu et al., 2012).   

Research Method 
The study analysed primary (questionnaire) data to derive the determinants of management 
innovation in the construction consultancy sector of Ghana using a sample of consulting 
Architects, Engineers, Quantity Surveyors and Project Managers. These individual categories 
represent the population of Ghanaian construction consultants. The questionnaire utilized 
closed-ended questions, to explore determinants by measuring respondents’ perceptions of same 
on a series of Likert items, where: 1 = not important (determinant); 2 = some importance; 3 = 
average importance; 4 = high importance; and 5 = very high importance. This combines 
quantitative (numerical perception, representation and statistical analysis) with subjective 
(underlying individuals’ perceptions) approaches (Holt, 2014).  

Sampling Technique and Sample Size 

Consultants within the sample were involved in the management of buildings, roads, civil 
engineering, water, sanitation, mechanical installation and quantity surveying projects and held a 
minimum of five years practical experience or more. All were registered with professional bodies 
in the Kumasi metropolis of Ghana. Snowball sampling was used; initially engaging with 
consultants who were most visible and subsequently accessing their networks to signpost 
additional participants (within the catchment area who met sample inclusion criteria). This 
‘snowball and convenience’ sampling process continued until a representative sample size of 70 
respondents was obtained.    

Data Preparation and Statistical Tools 

Oppenheim (1992) suggested a checklist of routines for analysing quantitative data. This 
includes: assigning numbers to instruments; giving each entry a name; entering them into a 
statistical package; producing a two way matrix of variables versus responses; assigning 
respondents unique serial numbers; and coding data for statistical analysis. Bryman (2004) noted 
the need to first identify the type of variable(s) and data to determine appropriate analytical 
methods. In relation to this, individual responses were processed and entered into the Statistical 
Packages for Social Sciences for (descriptive and Factor) analysis. Factor analysis was used to 
analyse interrelationships among the large number of issues identified in the literature and to 
explain these in terms of underlying dimensions.  

Given 20 possible MI variables involved in this study (Table 1), it was suspected that some may 
yield the same or similar underlying effects. The factor analysis data reduction technique was 
therefore chosen to establish which of the variables could be measuring aspects of the same 
dimension (Field, 2005a; DeCoster, 1998). According to Ahadzie (2007), factor analysis is 
appropriate for establishing clusters of related variables and thus, ideal for reducing a large 
number into a more easily understood structure. It is also a way of condensing information 
contained in original variables, into a smaller set of dimensions (factors) with minimum 
information loss (DeCoster, 1998).  



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Owusu-Manu, Badu, Holt and Edwards 79 

 

Table 1: Variable Definitions (Determinants of MI) 
Variable  Determinants of MI  in the Ghanaian Consulting Industry 

• Financial pressure to decrease the cost of 
assignment/ project. 

Increasing pressure to decrease the cost of services, projects 
delivery and cost of construction inputs/ outputs.  

• Increased efficiency in service provision to 
clients. 

Drive to improve efficiency thereby maximizing profits competitive 
advantage and enhancing project delivery. 

• Increased competition among consultants 
in the construction sector. 

Increasing number of competitors resulting in firms distinguishing 
themselves through innovative services/ methods. 

• Providing value in service delivery to 
clients. 

To meet the expectations of clients such as quality and value for 
money (VfM). 

• Adhering to strict regulations in service 
provision to clients. 

Governing a firm’s activities (e.g. in respect to providing high 
quality services to clients). 

• Providing service to meet industry/ 
community needs.  

Continually adapting services and products to meet the ever 
changing needs and trends of society and adapting more 
environmentally friendly/ sustainable development.  

• Increased demand for accountability. Accountability from both clients and society as a whole, in respect 
to high quality services and value for money 

• Corporate and social responsibility. Responsibility of consultancy firms in relation to their community, 
their client base and the nation as a whole – giving back to the 
community, i.e. doing ‘good’. 

• Changes in clients’ expectations regarding 
services provided to them. 

Constant changes in clients’ demand, preferences and taste. 

• Improving the quality of service provided 
to clients.  

Improving the quality of services to clients, by continually learning 
about customers, to understand trends and expectations. 

• Availability of technologies. Ability of the company to acquire and access technologies/ 
knowledge exogenously. 

• Level of autonomy. The level of freedom and responsibility given to employees. 
• Good communication skills. Well defined and established systems, management commitment to 

innovative communication. 
• Type of recruit. Appropriate qualifications and experience of all employees. 
• Research and development. Resources committed.   
• Creativity in service delivery to clients. Generating essential ideas for management innovations. 
• Organization structure. The way tasks are assigned (organization chart), how people co-

operate, the flow of material and information, process management, 
how decisions are made (decision structure), how things are 
coordinated (deliberation structure). 

• Willingness to take risk by exploring new 
business areas. 

Boldness to venture into new fields. 

• Attendance at workshops/ seminars. Continual professional development of employees through constant 
training and attending workshops/ seminars. 

• Professional workforce. Professional registration and affiliation of employees to respective 
recognized professional bodies. 

Data Analysis  
Factor analysis (FA) is reliant on the correlation matrix of the variables involved (see Table 2). A 
large sample size is usually required for correlations to stabilize. Consequently, FA reliability is 
also dependent on (adequate) sample size. As a rule of thumb, a minimum of 10 observations 
per variable is necessary to avoid computational difficulties (ibid.). Conducting pre-FA is a 
routine task to check inter-correlation between variables because although variables have to be 
inter-correlated, they should not do so strongly (extreme multi-colinearity and singularity); this 
would cause difficulties in determining unique contributions to a factor (Field, 2005a). In SPSS, 
intercorrelation is checked for using the KMO test and Bartlett’s test of spherity, while 
multicollinearity is detected via the determinant of the correlation matrix. 



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Table 2: Correlation Matrix 

 

Determinant = 2.50E-007 

 
The Kaiser-Meyer-Olkin (KMO) measure of sampling adequacy was calculated; where the 
literature recommends a value of KMO >0.5) (Child 1990). For this study, data related to 20 
variables (refer Table 1) and the KMO test was 0.529 (Table 3); confirming their being 
appropriate for analysis. Bartlett’s test was highly significant (p<0.001) and therefore, FA was 
appropriate in this respect also. The determinant of the matrix is used in testing for 
multicollinearity or singularity and this, or the R-matrix should be greater than 0.00001. From 
Field (2005b) if less than this, then variables that correlate at R>0.8 should not be included. The 
determinant of the correlation matrix in this analysis was less than 0.00001, (2.72E-005) so no 
two variables correlated very highly (maximum R = 0.73).  
 

Table 3: KMO and Bartlett's Test 

Kaiser-Meyer-Olkin Measure of Sampling Adequacy: 0.52 

Bartlett's Test of Sphericity: Approx.Chi-square 691.65 

df 190 

Sig. 0.00 

FP 1.00 

IE .04 1.00 

IC .27 .39 1.00 

PC -.05 .37 .13 1.00 

SR -.24 .32 .01 .40 1.00 

ICN .11 .00 .15 .33 .36 1.00 

IDC .07 .21 .28 .40 .39 .39 1.00 

CSR .07 -.17 .09 .22 .33 .19 .49 1.00 

SMC .08 -.12 .21 .22 .52 .25 .48 .59 1.00 

REP .44 .06 .30 .17 .03 .49 .52 .12 .26 1.00 

AT .03 .33 .18 .12 .62 .11 .35 .13 .35 .12 1.00 

LA -.30 -.24 -.03 .03 .055 .20 .21 .20 .24 .22 .01 1.00 

GCS -.27 -.00 .02 .01 .104 -.30 .12 .29 .21 -.13 .20 .17 1.00 

TR -.20 .09 .03 .08 -.03 .05 .27 .10 .04 .10 .28 .44 .35 1.00 

RD .56 .15 .34 .10 .17 .04 .46 .56 .42 .40 .43 -.13 .08 .09 1.00 

CR .12 .48 .17 .29 .10 -.16 .39 .22 .00 .12 .25 -.12 .23 .41 .42 1.00 

OR .06 .35 .29 .39 -.04 .11 .29 -.13 .10 .29 .05 .09 -.04 .28 .06 .48 1.00 

WTR .43 -.17 -.12 -.14 -.23 -.14 .08 .25 -.06 .12 .07 -.12 .263 .28 .53 .47 -.06 1.00 

AWS .00 .01 .22 .37 .08 .49 .36 .24 .20 .46 .00 .35 -.22 .38 .19 .23 .44 .06 1.00 

PW .14 .10 .18 .27 .09 .33 .45 .32 .18 .39 .21 .21 -.00 .61 .41 .43 .21 .37 .75 1.00 

 FP IE IC PC SR ICN IDC CSR SMC REP AT LA GCS TR RD CR OR WTR AWS PW 



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After satisfying tests of reliability of survey instrument, sample size and population matrix data 
were subjected to FA using principal component analysis (PCA) with varimax rotation. Prior to 
this, communalities were first established. Communalities show how much of the variance 
among variables is accounted for by the extracted factors and is useful in deciding those to finally 
extract. Table 4 shows that the average of the communalities of the variables after extractions 
was >0.60.  

 

Table 4: Communalities 

 
 
 
 
 
 
 
 
 
 
 
 
 
 

Using the Guttman-Kaiser rule and the Cattell scree test, the next phase determined underlying 
data constructs. Guttman-Kaiser suggests that only those factors with eigenvalues >1 should be 
retained, whilst the Cattell scree test (Figure 1) suggests that all further components after the one 
starting the ‘elbow’ should be excluded – accordingly seven components were highlighted.  

Table 5 shows the total variance explained by each extracted component, from the first principal 
component that accounted for 25.43 per cent; to the seven extracted components combined that 
cumulatively explained 80.69 per cent of variation in the data set. This meets the cumulative 
proportion of variance criterion, which states that the extracted components should together 
explain at least 50 per cent variation (Field 2005a).  

Components Detection and Extractions 

Appropriating the results to varimax rotation, the rotated component matrix suggested seven 
principal components akin to that of the component matrix in Table 6. Norusis (2000) proposed 
that rotation suggests the behaviour of the variables under extreme conditions and maximizes 
the loading of each on one of the extracted factors whilst minimizing the loading on all others. 
Numerous commentators maintain that rotated factor solutions are the best for interpreting 
results of PCA (Ahadzie, 2007; Owusu-Manu and Badu, 2009).  

Varimax (orthogonal) rotations were selected as suitable from its counterpart oblimin (oblique) 
rotations, as the conventional rule states there were no established theoretical grounds to suggest 

Determinants Initial Extraction 
Financial pressure 1.0 .843 
Increase efficiency 1.0 .822 
Increase competition 1.0 .709 
Provide value 1.0 .758 
Stricter regulations 1.0 .925 
Industry and community needs 1.0 .756 
Increased demand for accountability 1.0 .674 
Corporate and social responsibility 1.0 .856 
Social and market changes 1.0 .784 
Raising client expectation 1.0 .713 
Availability of technology 1.0 .882 
Level of autonomy 1.0 .762 
Good communication systems 1.0 .768 
Type of recruits 1.0 .875 
Research and development 1.0 .879 
Creativity 1.0 .866 
Organization structure 1.0 .730 
Willingness to take risks 1.0 .874 
Attendance to workshops 1.0 .831 
Professionalized/ accredited workforce 1.0 .831 
Extraction Method: Principal Component Analysis 



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that the factors correlate. The next step sought to determine the presence of a complex structure 
among the variables – which is present when a variable has a factor or component loading 
greater than 0.50 on more than one component) (Kline, 1994).  

 

 
Figure 1: Scree Plot 

 
Table 5: Total Variance Explained  

C
om

po
ne

nt
 

Initial Eigenvalues Extraction Sums of 
Squared Loadings 

Tot. % 
Variance 

Cum. % Tot. % Variance 

1 5.086 25.430 25.430 5.086 25.430 
2 2.439 12.194 37.624 2.439 12.194 
3 2.242 11.211 48.835 2.242 11.211 
4 2.131 10.654 59.489 2.131 10.654 
5 2.101 10.505 69.995 2.101 10.505 
6 1.113 5.563 75.558 1.113 5.563 
7 1.028 5.139 80.697 1.028 5.139 
8 .728 3.639 84.336   
9 .619 3.093 87.430   
10 .505 2.527 89.957   
11 .425 2.127 92.084   
12 .342 1.708 93.791   
13 .331 1.655 95.446   
14 .278 1.390 96.836   
15 .194 .972 97.808   
16 .146 .729 98.537   
17 .127 .635 99.172   
18 .068 .342 99.513   
19 .053 .265 99.778   
20 .044 .222 100.000   
Extraction Method: Principal Component Analysis 

 
 



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Table 6: Component Matrix  
MI Determinants 1 2 3 4 5 6 
Financial pressure .236 .602 -.346 .099 -.536 .063 
Increase efficiency .310 .021 -.197 .733 .371 -.016 
Increase competition .419 .060 -.255 .331 -.087 .586 
Provide value .510 -.338 -.130 .281 .162 -.244 
Stricter regulations .432 -.493 .438 .430 -.114 -.299 
Industry and community needs .462 -.482 -.312 -.123 -.354 -.223 
Increased demand for accountability .793 -.128 .091 .041 -.074 .071 
Corporate and social responsibility .551 .023 .501 -.215 -.318 -.041 
Social and market changes .555 -.268 .413 -.004 -.391 .249 
Raising client expectation .599 .013 -.399 -.151 -.317 .210 
Availability of technology .490 -.025 .395 .389 .031 -.062 
Level of autonomy .244 -.446 .113 -.590 .171 .308 
Good communication systems .134 .143 .681 -.073 .364 .341 
Type of recruits .461 .056 .104 -.404 .627 .033 
Research and development .662 .521 .174 .114 -.353 .016 
Creativity .560 .462 .017 .210 .493 -.123 
Organization structure .437 -.044 -.463 .155 .422 .260 
Willingness to take risks .266 .787 .165 -.315 .015 -.241 
Attendance to workshops .644 -.222 -.426 -.386 .100 -.146 
Professionalized/ accredited workforce .734 .122 -.163 -.358 .176 -.272 

 
Table 7: Rotated Component Matrix 

MI Determinants 1 2 3 4 5 6 
Financial pressure -.012 .639 -.364 -.119 .263 -.089 
Increase efficiency -.256 -.018 -.134 .642 -.063 .493 
Increase competition .101 .000 -.017 .210 .017 .106 
Provide value .330 -.141 -.040 .736 .268 .088 
Stricter regulations .456 -.229 -.081 .189 .158 .751 
Industry and community needs .240 -.130 .102 .024 .800 .165 
Increased demand for accountability .554 .146 .233 .332 .235 .247 
Corporate and social responsibility .872 .279 .073 .037 .003 -.001 
Social and market changes .815 -.060 .063 -.054 .075 .220 
Raising client expectation .191 .229 .188 .016 .541 -.004 
Availability of technology .132 .151 .152 .008 -.037 .892 
Level of autonomy .269 -.311 .729 -.181 .117 -.105 
Good communication systems .352 .049 .359 .029 -.707 .109 
Type of recruits -.062 .207 .873 .185 -.072 .160 
Research and development .435 .714 -.080 .059 .055 .253 
Creativity .028 .530 .201 .688 -.216 .144 
Organization structure -.076 -.054 .240 .680 .091 -.141 
Willingness to take risks .051 .894 .164 -.046 -.134 -.087 
Attendance to workshops .168 .106 .488 .355 .633 -.143 
Professionalized/ accredited workforce  .136 .477 .557 .283 .429 .104 

 

Table 7 indicates that the seven components had more than one variable loading on them, thus 
resulting in two components being retained. What remains is the interpretation of the underlying 
dimension or construct of seven principal extracted components. Based upon examination of 
inherent relationships among those variables under each component, the interpretations 
discussed below were inferred as representing their underlying dimensions.  



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Discussion  

Component 1: Community and Market Demands    

Variables comprising component 1 largely border on community and market demand 
expectations of clients in relation to consulting and hence, it was labelled such. The component 
accounted for 25.43 per cent total variance (Table 5). Table 7 shows respective eigenvalues of 
these variables: corporate social responsibility (0.87); social and market changes (0.81); and increased demand 
for accountability (0.55). Corporate social responsibility (CSR) of MI is connected to the way companies 
integrate social, environmental, and economic concerns into their values and operations.   

Social responsibility of consulting firms (in relation to the aspirations of the communities they 
serve) is defined by some CSR proponents as representing both business and community 
imperatives. This embraces satisfying demands in respect to services rendered and intangible 
contributions to society. Social and market changes is espoused in terms of fluctuations in demand 
and in order for consulting firms to sustain such, they must meet these demands whilst also 
innovating their services. Increased demand for accountability is concerned with growing demands of 
clients and society; mainly in terms of offering value. Hence, MI relates not only to new ideas 
and services, but is intrinsically linked to remaining competitive. Contextually, community and 
market demands as a determinant of MI emphasises a changing business environment and 
consultants’ interface with the community in which they operate.  

Component 2: Business Management Practices 

Component 2 accounted for 12.19 per cent of the remaining variation. Table 7 shows that 
variables loaded onto it comprised of willingness to take risks (0.89); research and development (R&D) 
(0.71); and pressure on consulting firms to decrease cost (0.63). These three variables relate to issues of 
business management practices, hence, the component’s label. Willingness to take risks relates to 
readiness to develop and implement innovations. This naturally encourages research and development 
– the formal research polices adopted by consulting firms that enhance (or implement) new 
methods and technologies. There is growing evidence that companies committed to R&D as an 
innovation driver reap rewards in sales growth and stock market value.  

The financial pressure to decrease cost is not surprising; while there will always be a trade-off between 
cost and other client demands, consultants’ objectives should be to sell their services such that 
they balance these demands with those of business survival. The component financial and business 
management practices represents a need to meet with increasing demands of fluctuating markets 
through value maximization and cost reduction, whilst achieving business goals (e.g. 
effectiveness, efficiency, profit maximization). Stemming from this, firms are continually seeking 
innovative ways of meeting the financial demands of both share- and stakeholders. Delbecq and 
Mills (1985) found that highly innovative organizations freely support such financially to fuel 
creativity.  

Component 3:  Human Resource Policies 

The third component – comprising human resource policy variables, accounted for 11.21 per 
cent of total variance not explained by the first two components.  Three variables loaded onto 
component 3 included types of recruits; high levels of autonomy; and professional accreditation recording 
respective eigenvalues of 0.87, 0.72 and 0.55. The implication here is that creative human capital 
underpins organizational innovation. The type of recruit is explained in terms of how employees’ 
qualifications and experience impact innovation – analytical and creative minds feed much more 
positively into the process. High levels of autonomy relate to empowered and highly motivated 
people. When employees are encouraged to develop their own ideas, innovation often results. A 



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Owusu-Manu, Badu, Holt and Edwards 85 

 

professional and accredited workforce relates to employees’ registration with professional bodies that 
too (for instance, via continual profession development) can enhance human capital. Martinsons 
(1995), Youndt et al., (1996) and Collins and Clark (2003) confirmed that innovation depends 
heavily on these employees’ characteristics.  

Component 4: Innovation Drivers 

This component accounted for 10.65 per cent total variance not explained by the former three 
components. It encompasses four variables:  increased efficiency (0.64); organisational structure (0.680); 
creativity (0.688); and providing value to clients (0.73). The component’s variables have the inherent 
potential to drive innovation in the management of construction consultancy. Increased efficiency 
concerns optimised service delivery, profit, competitive advantage and enhanced project delivery 
through innovative mechanisms. Organisational structure suggests that the more permeable and 
organic the firm’s structure, the greater is its potential to nurture MI. The way in which tasks are 
assigned, how people co-operate, information management, decision making, activity co-
ordination and the infrastructure supporting these combined  greatly impact MI promotion.  

Creativity concerns the initiation of original ideas and from an MI viewpoint, calls for divergent 
thinking. Thus, MI is knowledge-driven (how do we apply new knowledge?) and vision-driven 
(this is our goal, what new knowledge do we need?). Providing value to clients is impacted by the 
latter’s expectations that generally call for ever improving service delivery. Hence, firms that 
focus on their demanding customers (by solving their problems and adding value) in turn nurture 
innovation. The capacity to do this and produce radical, discontinuous innovation is increasingly 
seen as the new competitive organisational competency. Most theorists agree that organization 
structure can be designed conducive to innovation (Kanter, 1998; Hamel, 2006).  

Component 5: Image Enhancement 

Component 5, whose variables concerned image enhancement, accounted for 10.50 per cent 
total variance with three variables loaded onto it:  industry and community needs (0.80); good 
communication systems (0.70); and attendance at workshops and seminars (0.63). Good communications systems 
underline their importance in enabling management to reinforce and control innovative ideas, 
while attendance at workshops and seminars centres on employees’ continual professional 
development. Keeping abreast of appropriate new developments and technologies, encourages 
meaningful people contributions to the innovation movement. With businesses focusing on 
profits, sustainability was not a concern until recently, but in an era of globalization, destructive 
or unethical practices are bad for business. Increased media attention, pressure from non-
governmental organizations and rapid global information sharing encourage the general public – 
including consumers – to favour sustainable corporations. Most companies now recognise that 
important ethical issues are inextricably linked to their image.  

Component 6: Existing/Prevailing Conditions  

The sixth component accounted for 5.56 per cent of total variance not explained thus far. Two 
variables loading onto it were:  availability of technology (0.89) and strict regulations (0.75). The former 
relates to ability of a company to acquire and maximise current technologies and access to 
external knowledge. Such can impact positively upon the innovative capabilities of a firm. 
Similarly, strict regulations concern how organisational governance controls commercial activity. 



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Conclusions  
While research into innovation evolves principally around technological advancements, much 
less has critically examined management innovations (MI). This is particularly evident within the 
context of the Ghanaian consulting industry. A need to proffer sustainable methodologies to 
improve organizational efficiency of consulting firms stimulated this research which departs 
from the more traditional, technological focus. The study confirmed both convergent and 
divergent views in MI conceptualization and formalises MI as: the invention and implementation of a 
management practice, process, structure, or technique that is new to the state of the art; is intended to further 
organizational goals; and involves the introduction of novelty in an organization that brings with it positive 
organizational change.  

Within the present global business environment, MI significance cannot be ignored. It can 
facilitate the attainment, or maintenance of a pre-eminent market position; encourage superior 
performance; nurture competitive advantage; and as a result, help maintain profitability. 
Exploring the MI determinants within the Ghanaian construction consulting sector, revealed that 
seven principal factors shape MI viz: community and market demands; financial and business 
management practices; human resource policies; creativity and organizational strategies; 
corporate social responsibility; prevailing conditions; and competitive leveraging. This framework 
highlights a culture of continuous MI as being essential for successful consulting organizations. 
The findings presented should be of utility to consulting firms seeking to exploit innovative 
management solutions, as a means to improve their business performance.  

Limitations of the study relate to the boundaries of sample size and its geographic focus. While 
findings are specific to Ghana, the seven factors established may be more broadly applicable, but 
further research will need to confirm such. It is also recommended that further investigation is 
undertaken to: determine how innovation is diffused within the entire value chain of consulting 
enterprises; verify the relationship between MI and the identified MI determinants; and 
operationalize management innovations in the context of Ghanaian consulting industry.   

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	Determinants of Management Innovation in the Ghanaian Construction Consulting Sector
	Abstract
	Introduction
	Conceptualization of Management Innovation (MI)
	Consulting Typologies and their need for MI
	Research Method
	Sampling Technique and Sample Size
	Data Preparation and Statistical Tools

	Data Analysis
	Components Detection and Extractions

	Discussion
	Component 1: Community and Market Demands
	Component 2: Business Management Practices
	Component 3:  Human Resource Policies
	Component 4: Innovation Drivers
	Component 5: Image Enhancement
	Component 6: Existing/Prevailing Conditions

	Conclusions
	References