Espacios. Vol. 36 (Nº 13) Año 2015. Pág. 11

Meta-analysis of the DeLone and McLean information systems success model at individual level: An examination of the heterogeneity of the studies

Meta-análisis del modelo de éxito de sistemas de información de Delone y McLean a nivel individual: Un examen de la heterogeneidad de los estudios

Patricio RAMÍREZ-CORREA 1, Jorge ALFARO-PERÉZ 2, Linda CANCINO-FLORES 3

Recibido: 19/03/15 • Aprobado: 26/04/2015


Contenido

1. Introduction

2. Literature review

3. Methodology

4. Results

5. Conclusions

References

Appendix: List of Included Studies


ABSTRACT:
The aim of this study is the analysis of heterogeneity in a meta-analysis of Delone and McLean's model of information systems success at the individual level. A meta-analysis was run for each of the fourteen relations of the model, based on 79 articles published between 1992 and 2014. The results indicate a high heterogeneity in all relationships of the model.
Keywords: Meta-analysis, Delone and McLean model, Heterogeneity

RESUMEN:
Este estudio tiene por propósito el análisis de la heterogeneidad en un meta-análisis del modelo de éxito de sistemas de información de Delone y McLean a nivel individual. Se ejecutó un meta-análisis para cada una de las catorce relaciones del modelo en base a 79 artículos publicados entre los años 1992 y 2014. Los resultados indican una alta heterogeneidad en todas las relaciones del modelo.
Palabras clave: Meta-análisis, Modelo de Delone y McLean, Heterogeneidad

1. Introduction

The successful implementation of information technology is considered a key issue in the discipline of information systems (IS). However, perhaps because of the imprecision and broadness of the concept, several authors have operationalized this success in dissimilar manners within their studies. As a way to integrate all these piecemeal, two decades ago the IS success model of DeLone and McLean (D&M) (DeLone & McLean, 1992) arises.

Since its proposal the D&M model has been extensively validated in diverse technological contexts (DeLone & McLean, 2003), becoming recognized as one of the foundations of the body of knowledge of the discipline (Petter et al., 2013). In fact, both the original version of D&M of 1992 and its extension in 2003, appear among the most cited articles of the discipline in the past decade (Stein et al., 2014).

Because of its clear importance in IS, and to identify patterns among multiple studies where the model D&M  has been applied, several meta-analysis (MA) have been conducted (Hwang & Windsor, 1996; Mahmood et al. 2001; Bokhari, 2005; Petter & McLean, 2009).

Despite the fact that the literature emphasizes the importance of analyzing the heterogeneity in studies MA, in general, the authors of the MA on the D&M model do not include or omit the relevance of this analysis, minimizing the consequences of this in their conclusions. Specifically, if there is heterogeneity between studies of a MA, it cannot determine the generalizability of their results, and therefore, this MA study does not provide information relevant to the discipline (Higgins et al., 2003).

In this context, this study aims the analysis of heterogeneity in a MA of D&M model at the individual level. This paper is structured in the following way.  Firstly, a literature review is presented.  Secondly, the methodology of the study is explained. Finally, the results are described and conclusions are presented.

2. Literature review

2.1. D&M model

The original D&M model was proposed in 1992 as a causal-explanatory model for a dependent variable that its authors named the IS success (DeLone & McLean, 1992). This model is the result of detailed research to determine possible constructs that affect the IS success and is based on exploration, categorization and synthesis of dependent variables that were used in 180 studies between 1981 and 1987 . The original D&M model is a multidimensional proposal for the IS success and includes six interrelated dimensions: System Quality, Information Quality, Use/Intention of Use, User Satisfaction, Individual Impact, and Organizational Impacts. In particular, the model suggests that the dimensions of quality are positively related to the use and satisfaction dimensions, and these latter with the dimensions of impact.

Due to the characteristics of the model, a careful definition and measurement of each dimension of this variable is required. In fact, the selection of dimensions and measures of success should be contingent on the objectives and context of empirical research where it is evaluated. However, and as indicated by the authors, it is important to measure the possible interactions between each of these dimensions to isolate the effect of several independent variables with one or more of these dependent dimensions of the success (DeLone & McLean, 1992).

After its proposal, the D&M model has been used by many authors, and diverse studies have validated empirical relationships between their dimensions (Ramírez-Correa, 2004).

In 2003 the authors of the D&M model presented a review of it, in which, firstly, it joins the dimensions of impacts on the dimension Net Benefits, and secondly, added the dimension Service Quality (DeLone & McLean, 2003).

Next, the dimensions of the D&M model are described.

  1. SYSTEM QUALITY (SQ): Refers to the quality and overall performance of the IS itself, and can be determined by the quality of its technical (hardware / software), and components that are essential for the capture, processing, storage and retrieval of data.
  2. INFORMATION QUALITY (IQ): These are the desirable characteristics of the outputs of a IS, and reflect, inter alia, the accuracy, completeness, currency, and the format of this information.
  3. SERVICE QUALITY (SerQ): Quality of support received by users of an information system by a support department.
  4. USE (U)/INTENTION OF USE (IU): Degree and manner in which individuals (staff, customers, etc.) use the capabilities of an IS (use), and how they consciously formulate plans to continue using these in the future (intention).
  5. USER SATISFACTION (US): The level of user satisfaction with the system globally.
  6. NET BENEFITS (NB): Represents the degree to which the IS contributes to the success of individuals, groups, organizations and/or nations.

2.2. MA about D&M model

From the recommendations of one of the authors of the D&M model (Hwang & McLean, 1996), there are several MA about the model. Below some elements of these studies are given.

Hwang and Windsor were based on 82 empirical studies selected from 180 studies that were used to develop the D&M model, determined the size effect on the relationships between the dimensions of the model. The results of this MA validated all dimensions of the model, except for IQ, and although only some relationships between these dimensions were tested, it is concluded that, mostly, the dimensions do not show a large effect (Hwang & Windsor, 1996). In this paper the analysis of the heterogeneity of the studies were omitted.

Subsequently, using the same studies of a previous work, Hwang, Windsor, and Pryor correlate some dimensions of the D&M model (valued through of a MA) to five independent variables of  IS success (Hwang et al., 2000).

One of the results of the MA of Mahmood, Hall, and Swanberg indicates a strong effect between SerQ and U in the D&M model (Mahmood et al., 2001). This MA was based on nine studies and their result rejects the hypothesis of heterogeneity between them.

Moreover, Bokhari in a MA based on a total of 55 empirical studies identifies a medium effect size between U and US (Bokhari, 2005). The result of this meta-analysis could not reject the hypothesis of heterogeneity between studies.

The MA of Sabherwal, Jeyaraj, and Chowa based on a total of 71 studies supports the existence of effects both between SQ and U, and between QS and US (Sabherwal et al., 2006). In this MA was not analyzed the heterogeneity of the studies.

Finally, Petter and McLean through a MA based on 52 empirical studies at the individual level found support most of the relationships in the D&M model (Petter & McLean, 2009). Specifically, their findings indicate that there are strong relationships between the dimensions US-IU, NB-IU, QS-US, US-NB, IQ-US, IQ-IU, and  SQ-IU.

In addition there is moderate relationships between the dimensions IQ-U, U-NB, and SQ-U. And finally, there is a weak relationship between the dimensions U-US. However, although this MA does not explicitly measures the heterogeneity between the studies, the authors suggest that these studies are probably not truly homogeneous.

3. Methodology

3.1. Study Approach

The MA is a quantitative approach that integrates research findings from empirical studies considering the error inherent in any quantitative study (Glass, 1976). In this study, a MA for each relationship proposed in the literature for the D&M model was conducted. In total, 14 MA were carried out. These MA were used to estimate the effect size of the relations between the dimensions of the D&M model. This estimation was performed using the method of Hedges and Olkin (2014), and based on the correlation coefficient. The list of meta-analyzed relationships is as follows:

R1: Between dimensions SQ and IU.

R2: Between dimensions SQ and US.

R3: Between dimensions IQ and IU.

R4: Between dimensions IQ and US.

R5: Between dimensions SerQ and IU.

R6: Between dimensions SerQ and US.

R7: Between dimensions U and US.

R8: Between dimensions US and IU.

R9: Between dimensions U and NB.

R10: Between dimensions US and NB.

R11: Between dimensions NB and IU

R12: Between dimensions SQ and U.

R13: Between dimensions IQ and U.

R14: Between dimensions SerQ and U.

Furthermore, in each MA the heterogeneity of studies through the I2 statistic was assessed. The I2 statistic expresses the percentage of variation across studies that is due to heterogeneity rather than chance (Higgins et al., 2003). StatsDirect software (http://www.statsdirect.com) was used to perform the analyses.

3.2. Collection of Studies

This analysis is based on quantitative empirical studies. These studies analyze the relations contained in the D&M model at the individual level. As a starting point for collecting these studies the MA of Peter and McLean (Petter and McLean, 2009) was used. This database consists of 52 studies published between 1992 and mid 2007. In addition, and through databases Scopus and Web of Knowledge, 27 studies published since mid-2007 to 2014 were identified. In total, this MA collected 79 quantitative empirical studies published between 1992 and 2014.

4. Results

A total of 83 studies contained in the collected studies were analyzed, the appendix shows the tabulation of them. Table 1 shows the results of the MA of each studied relationship (R1 to R14).

SQ

IQ

SerQ

U

US

NB

IU

US

U

IU

US

U

IU

US

U

US

NB

IU

NB

IU

R1

R2

R12

R3

R4

R13

R5

R6

R14

R7

R9

R8

R10

R11

r

0.44

0.56

0.44

0.50

0.55

0.43

0.47

0.55

0.35

0.45

0.26

0.51

0.55

0.61

K

34

47

42

25

37

31

15

23

15

40

7

26

11

6

N

7506

16364

7925

5817

14538

7107

3492

11653

3153

7394

1560

4995

3184

1867

I2

91.5

97.9

94.6

96.5

94.1

96.2

95.8

95.5

92.3

94.6

94.3

95.3

97.4

98.1

r: pooled correlation; K: studies number included in meta-analysis;
N: total sample size for meta-analysis; I2: heterogeneity index in percentage
Table 1. Results of the meta-analyses.

Using heuristics to judge the magnitude of the effect given by Cohen et al. (Cohen et al., 2013), it is possible to indicate that the majority D&M model relationships are strong or moderate.  Specifically, these results indicate that there are seven strong relationships (R2, R3, R4, R6, R8, R10, and R11), six moderate relationships (R1, R5, R7, R12, R13, and R14) and a weak relationship (R9).

However, in all meta-analyses the I2 far exceeds to 75%, which indicates a high heterogeneity in the studies analyzed (Higgins et al., 2003). Therefore, the results of this MA cannot be generalized.

5. Conclusions

This study confirms the potential usefulness of MA to observe the convergence of the investigation of phenomena in the discipline of IS.  

Nevertheless, MA requires following a rigorous process. In this pathway, an essential point, which enables the generalization of the results, is to assess the degree of heterogeneity between meta-analyzed studies. The findings of this study indicate that, due to the high heterogeneity found in empirical studies between 1992 and 2014, it is not possible to generalize the results of the meta-analysis of the D&M model at the individual level.

Given the results of this study and the important of IS success for discipline, we appeal to carefully consider all sorts of generalizations arising from previous meta-analyses of the D&M model, which do not expose explicitly the degree of heterogeneity of the studies collected.

One of the limitations of this study is that it does not consider the statistical corrections associated to the reliability of scales measuring the dimensions of the D&M model; in future studies we hope to resolve this limitation. Additionally, future research should look for moderating variables in the relations contained on the model, allowing to establish subsets of homogeneous studies.

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Appendix: List of Included Studies  

 

Article
Sample
SQ
IQ
SerQ
U
US
NB
size
IU
US
U
IU
US
U
IU
US
U
US
NB
IU
NB
IU
R1
R2
R12
R3
R4
R13
R5
R6
R14
R7
R9
R8
R10
R11
AbdulGader(1997)
102
0.66
0.61
0.83
Agarwal & Prasad(1997)
73
0.36
0.49
Agarwal & Prasad(1999)
230
0.36
0.74
Ainin et al.(2012) 
248
0.66
0.64
0.66
0.81
Aladwani(2002)
143
0.05
Al-Debei & Mutaz(2013)
311
0.99
0.57
0.19
0.22
Al-Debei et al.(2013) 
110
0.76
0.77
0.83
0.70
0.73
0.71
0.72
0.7
0.63
0.71
0.73
Almutairi & Subramanian(2005)
250
0.56
0.63
0.07
Anandarajan et al.(2002)
143
0.10
0.31
0.12
0.17
0.61
Arenas-Gaitan et al.(2011)
183
0.41
0.31
0.15
0.34
Arenas-Gaitan et al.(2011)
159
0.47
0.22
0.44
0.11
Ayyash et al.(2013)
364
0.49
0.47
0.43
0.50
0.48
0.52
Bergeron et al. (1995)
38
0.37
bin Masrek(2007)
405
0.60
0.69
Carswell & Venkatesh(2002)
540
0.48
Chen & Cheng(2009)
334
0.38
0.42
0.02
0.36
0.38
0.02
0.29
0.34
0.01
0.02
0.02
0.58
0.24
0.27
Chen & Cheng(2013)
371
0.58
0.49
0.47
Chen(2007)
360
0.30
0.38
0.67
Chen(2009)
208
0.54
0.60
0.55
0.59
Chen et al. (2012)
87
0.66
0.67
0.75
0.78
0.62
0.8
0.71
0.7
0.74
0.71
0.77
Chen et al.(2013)
250
0.16
0.64
0.20
Chen et al.(2013)
285
0.11
0.48
0.31
Dong et al.(2014)
346
0.52
0.41
0.52
0.68
0.52
0.66
Floropoulos et al. (2010)
340
0.2
0.45
0.5
0.45
0.36
0.45
0.34
Garrity et al.(2005)
163
0.48
0.70
Gatian(1994)
108
0.68
Hsu et al.(2004) 
235
0.19
0.15
0.64
Hung et al. (2011)
205
0.66
Hussein et al. (2007)
199
0.62
0.75
0.67
0.79
0.71
Igbaria & Guimaraes(1994)
185
0.46
0.45
0.37
Igbaria & Tan(1997)
371
0.39
Jen & Chao(2008) 
72
0.50
0.49
0.86
0.74
0.89
Jones et al.(2005)
156
0.35
Junglas et al. (2013)
263
0.67
0.71
0.84
0.63
0.67
0.86
0.66
0.64
Khalil & Elkordy(1999) 
120
0.29
0.36
Kim et al.(1998) 
134
0.01
Kim et al.(2007)
161
0.50
0.36
Konradt et al. (2006)
517
0.33
0.45
0.27
Kulkarni et al.(2007)
150
0.28
0.02
0.19
Lai & Yang(2009)
170
0.36
0.42
0.32
0.35
0.39
0.24
0.42
0.49
Lai et al.(2009)
133
0.69
0.48
0.59
Lee & Chung(2009)
276
0.60
0.63
0.48
Lee & Yu(2012)
253
0.55
0.61
0.61
0.69
0.56
0.68
Liao et al.(2006)
446
0.61
Liaw & Huang(2003)
114
0.78
0.73
0.78
0.71
0.75
Lightner(2003)
485
0.15
0.03
0.23
Lin & Lu(2000)
145
0.59
0.57
0.57
0.51
0.52
0.62
0.71
0.72
Lin(2007)
232
0.13
0.18
0.33
0.42
0.26
0.19
0.36
0.44
Lin(2008)
203
0.40
0.59
Lin(2008)
198
0.29
0.53
0.61
Liu & Arnett(2000)
119
0.30
0.69
0.37
0.50
0.39
0.53
0.21
Lu et al.(2001)
37
0.34
0.33
0.45
0.66
0.51
Lu et al.(2001)
35
0.39
0.39
0.59
0.54
0.78
Lu et al.(2001)
36
0.36
0.40
0.34
0.38
0.61
Lwoga(2013) 
293
0.72
0.78
0.77
0.83
0.81
0.81
0.83
0.85
0.86
Maes & Poels(2007) 
124
0.21
0.20
0.52
Marble(2003)
138
0.68
0.67
Mun et al. (2010)
161
0.02
0.10
0.10
0.40
0.10
Pai & Huang(2011)
366
0.44
0.26
0.46
0.24
0.25
0.25
Park et al. (2011)
120
0.43
0.44
0.62
0.69
0.69
Petter & Fruhling(2011)
64
0.49
0.69
0.47
0.51
0.71
0.23
0.36
0.41
0.14
0.43
0.57
Poelmans et al. (2013)
324
0.79
0.73
0.68
0.65
0.8
Rai et al.(2002)
274
0.30
0.23
0.45
0.36
0.37
Ramayah et al.(2012)
192
0.42
0.28
0.43
0.28
0.52
Ramírez-Correa et al.(2013)
173
0.23
Roca et al.(2006)
172
0.23
0.41
0.62
0.65
0.52
0.18
0.55
0.22
0.26
0.65
0.29
Sambasivan et al.(2010)
358
0.40
0.17
0.41
0.19
0.40
0.16
Seddon & Kiew(1996)
94
0.71
0.64
0.75
0.55
0.71
Sørum et al.(2012)
541
0.46
0.54
0.73
0.48
Sun & Teng(2012)
231
0.72
Teo et al.(2003) 
84
0.56
0.61
0.28
0.33
0.55
0.67
Teo et al.(2008)
214
0.36
0.48
0.50
0.52
0.45
0.60
0.57
Torkzadeh & Doll(1999)
409
0.30
0.26
0.29
0.47
0.52
Urbach et al.(2010)
6210
0.70
0.58
0.58
Wang & Lu(2014)
270
0.37
0.25
0.36
0.18
0.22
Wang & Wang(2009) 
268
0.09
0.14
0.09
0.14
0.21
0.38
Wang et al.(2007)
206
0.32
0.43
0.43
0.63
Wilkins(1996)
74
0.42
0.10
Winter et al. (1998)
100
0.28
Wixom & Todd(2005)
465
0.57
0.67
0.89
0.69
Yang & Yoo(2004)
211
0.45
Yoon & Guimaraes(1995)
69
0.54
Zheng et al.(2013)
281
0.76



1. Doctor de la Universidad de Sevilla, Profesor Asociado, Escuela de Ciencias Empresariales, Universidad Católica del Norte (Chile), patricio.ramirez@ucn.cl

2. Doctor de la Universidad de Politécnica de Madrid, Profesor Asociado, Escuela de Ingeniería, Universidad Católica del Norte (Chile), jalfaro@ucn.cl

3. Ingeniero Comercial, Ayudante de Investigación, Escuela de Ciencias Empresariales, Universidad Católica del Norte (Chile), ldcancino@gmail.com


 

Vol. 36 (Nº 13) Año 2015
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