Skip to main content
NCBI home page
BMC Public Health logoLink to BMC Public Health
. 2019 Jun 13;19:751. doi: 10.1186/s12889-019-7109-2

Psychometric properties of the health-promoting lifestyle profile II: cross-cultural validation of the Malay language version

Garry Kuan 1, Yee Cheng Kueh 2,, Nurzulaikha Abdullah 2, Evelyn Li Min Tai 3,4
PMCID: PMC6567916  PMID: 31196195

Abstract

Background

Health-promoting behaviour is an important concept for health education. Unfortunately, there is a dearth of validated instruments to measure levels of health-promoting behaviour in the Malaysian context. The purpose of this study was to validate a Malay-language version of the Health-Promoting Lifestyle Profile II (HPLP-II) using a confirmatory approach.

Methods

Participants were 997 university undergraduate students, with a mean age of 21 years (SD = 1.58). The majority of the participants (80.4%) were female. Health-promoting behaviour was assessed using the 52-item HPLP-II, which measures six components of health-promoting behaviour outcomes. HPLP-II was translated into the Malay language using standard forward and backward translation procedures. Participants then completed the HPLP-II Malay version (HPLP-II-M). Confirmatory factor analysis (CFA) was conducted using Mplus 8.0 software on the six domains of HPLP-II-M model.

Results

The CFA result based on the hypothesised measurement model of six factors was aligned with the original HPLP-II, except for two low loading items which were subsequently removed from the CFA analysis. The final CFA measurement model with 50 items resulted in a good fit to the data based on RMSEA and SRMR fit indices (RMSEA = 0.046, 90%CI = 0.045, 0.048, SRMR = 0.062). The construct reliabilities for the HPLP-II-M subscales were acceptable, ranging from 0.737 to 0.878.

Conclusion

The HPLP-II-M with six components of health-promoting behaviour outcomes and 50 items was considered valid and reliable for the present Malaysian sample.

Electronic supplementary material

The online version of this article (10.1186/s12889-019-7109-2) contains supplementary material, which is available to authorized users.

Keywords: Healthy lifestyles, Health behaviour, Confirmatory factor analysis, Reliability, Validity, Latent variable

Background

The global increase in the prevalence of non-communicable diseases is a public health problem which has the potential to overwhelm healthcare systems worldwide [13]. Health promotion, as reflected in a healthy lifestyle, is an integral part of disease prevention [4, 5]. Health-promoting behaviour has been associated not only with improved physical and mental health outcomes [69], but also with lower healthcare costs [10].

Evaluation of health-promoting behaviour is essential in primary care research to provide data for preventive interventions, facilitate policy-making and empower patients’ self-management of their health behaviours. Such research necessitates the use of reliable and valid measurement tools, which serve to enhance the international comparability of health data. The Health-Promoting Lifestyle Profile II (HPLP-II) is a widely-used instrument for evaluation of health behaviour [11, 12] which has been validated in multiple studies [1315]. Based on Pender’s Health Promotion Model, it conceptualises an individual’s health-promoting lifestyle in terms of the following dimensions; health responsibility, physical activity, nutrition, spiritual growth, interpersonal relations and stress management.

The HPLP-II has been translated and psychometrically validated across several linguistic and cultural groups. The translated versions of HPLP-II include Portuguese [14], Chinese [16, 17], Spanish [18], Iranian [19], Japanese [20], Turkish [21], Italian [22] and Arabic [23]. Several abbreviated versions of HPLP-II have emerged from these studies, with the total number of items ranging from 26 to 51 items [1619, 22]. These studies found the translated versions of HPLP-II to be valid and reliable. The majority of studies reported the validation results based on exploratory factor analysis and/or confirmatory factor analysis and internal consistency reliability based on Cronbach’s alpha coefficient.

The Malay language, which is the primary language of the Austronesian family and the official language of Malaysia, is spoken as a native language by more than 200 million people in South-East Asia [24, 25]. A Malay translation of the HPLP-II is essential for communities in which Malay is the predominant language spoken by that population. In places where Malay is the only medium of communication, it is imperative that healthcare providers use the language of the people. This is especially the case in rural areas, where underprivileged and low literacy populations are in dire need of health education [2628].

Testing of validity and reliability of translated instruments is necessary because adaptation of a health behaviour instrument to different populations requires not only language, but linguistic and cultural adjustment [29]. Up to the present date, only the English version of HPLP-II has been validated among Malaysian populations [30]. Furthermore, the authors of that study only focused on three out of six subscales (i.e., health responsibility, nutrition and physical activity). Since Malay is the main language spoken by Malaysian populations and the previous validation study did not include the full 52 items of HPLP-II, there is a pressing need for a validated full version of the HPLP-II in Malay language. Our study aimed to translate the English version of HPLP-II into the Malay language and examine its psychometric properties among Malaysian population.

Methods

Participants

A total of 997 university undergraduate students in Universiti Sains Malaysia participated in this study. The majority were female (80.4%). The mean age of the participants was 21 years old (SD = 1.58). Most of the participants were ethnic Malays (77.5%).

Measures

The HPLP-II focuses on self-initiated actions and perceptions that serve to maintain or enhance the level of wellness, self-actualisation and fulfillment of the individual [31]. The HPLP-II has been translated into different languages and widely used in other studies [14, 16, 19, 32]. The internal consistency Cronbach alpha for the original English version of HPLP-II was satisfactory, with 0.94 for the total scale of HPLP-II, and from 0.79 to 0.87 for its six subscales [31].

The Health-Promoting Lifestyle Profile II – Malay language (HPLP-II-M) is the translated version of the HPLP-II [30], consisting of 52 items that measure health-promoting behaviour or habits. It contains six domains or factors, namely health responsibility (nine items), physical activity (eight items), nutrition (nine items), spiritual growth (nine items), interpersonal relations (nine items), and stress management (eight items). It uses a four-point response scale that indicates respondents’ frequency of engaging in each behavior. Items are scored as 1 = “never”, 2 = “sometime”, 3 = “often”, 4 = “routinely”.

Questionnaire translation

Permission to use and translate the HPLP-II into Malay language was obtained from the main author. The original English language version of HPLP-II was translated into Malay language using the standard forward and backward translation procedure recommended by Brislin [33]. First, one of the bilingual authors familiar with the content did the forward translation (English to Malay), followed by a backward translation (Malay to English) by another bilingual expert. Next, a panel of five experts competent in both languages (consisting of a health psychologist, sport psychologist, clinician, experienced linguist and psychometric expert) reviewed the Malay translation from English, and English translation from Malay, comparing each item to the corresponding item on the original English version. The experts were also asked to check the content of HPLP-II-M to ensure that the items were culturally appropriate to the Malaysian population. The final version of HPLP-II-M was pre-tested among 10 university undergraduate students for clarity, comprehension and understanding. The students answered the HPLP-II-M questionnaire and were asked to comment on the wording and the presentation of the questionnaire. The result of the pre-test among the students was good and no modifications were necessary. A copy of the questionnaire (HPLP-II-M) is available in the Additional file 1.

Data collection

A cross-sectional study design was employed on the self-administered HPLP-II-M questionnaire. Convenience sampling method was used for recruitment of participants. Data collection was performed between October 2016 to January 2017 at Universiti Sains Malaysia, Kelantan, Malaysia. The study was approved by the Universiti Sains Malaysia Human Research Ethics Committee and conducted in accordance with the Declaration of Helsinki.

Malaysian undergraduate students who comprehended the Malay language and were willing to complete the questionnaire during the data collection period were included in the study. Lectures which comprised of medical, dental and health sciences undergraduate students were identified. Students were briefed regarding the study at the end of their lectures. Study information sheets, the HPLP-II-M and a socio-demographic survey form were distributed to the students. The form contained several questions related to aspects of health behaviour, including age, gender, ethnicity, smoking status, presence of medical illness, physical activities and frequency per week of pursuing these activities.

Participants who volunteered to participate in the study completed the demographic sheet and the HPLP-II-M and returned it to the researcher. Participants’ responses were non-identifiable because the questionnaires were anonymous. Implied consent was obtained when participants completed and returned the questionnaire to the researchers. No incentives were given to the participants for the study. A total of 1100 questionnaires were distributed to the eligible participants and 997 completed questionnaires were returned to the researchers. The response rate was 91%.

Statistical analysis

Statistical analyses were conducted using Mplus 8.0 software. Frequency analyses were used to identify missing values in each variable. All questionnaires included in the study were completed without any missing values. Multivariate normality assumption was checked, and results indicated that the data did not meet the assumption, based on Mardia multivariate skew (p < 0.001) and kurtosis (p < 0.001) tests. Therefore, for the subsequent confirmatory factor analysis (CFA), the robust maximum likelihood estimator (MLR) was utilized, as this is robust to non-normality. To achieve good psychometric characteristics, high standardised factor loadings (> 0.40) are preferred [34]. Therefore, items with factor loadings less than 0.40 were examined and treated as potentially problematic items. Problematic items would be omitted only with adequate theoretical support. According to Hair et al., reporting various fit indices is necessary because there are no standard rules for assessment of model fit [35]. Based on the 6-factor structure and 52-item measurement model in the present study, the fit indices and its acceptable threshold value are as follows: the comparative fit index (CFI) and Tucker and Lewis index (TLI) with a desired value of more than 0.90; the root mean square error of approximation (RMSEA) with a desired value of less than 0.08; probability RMSEA with the desired value of more than 0.05; and the standardised root mean square (SRMR) with a desired value of less than 0.08 [35]. The construct reliability (CR) in a latent variable modeling approach was calculated for each factor in HPLP-II-M based on CR formula listed in a published study by Raykov and Marcoulides in 2015 [36]. The acceptable value of CR is above 0.70 [35]. Discriminant validity was checked by inspecting the correlation between the factors in the model. Discriminant validity is established when the correlation between factors is below 0.85.

Results

Characteristics of participants

On average, the participants engaged in physical activities twice a week, with each session lasting 30 min. The majority of participants did not have any illnesses and were non-smokers. Other descriptive statistics are presented in Table 1.

Table 1.

Participants’ characteristics (n = 997)

Variables Mean (SD) n (%)
Age 20.5 (1.58)
Gender
 Male 195 (19.6)
 Female 802 (80.4)
Ethnicity
 Malay 773 (77.5)
 Chinese 135 (13.5)
 Indian 57 (5.7)
 Others 32 (3.2)
Undergraduate course
 Medical Sciences 282 (28.3)
 Nursing 227 (22.8)
 Biomedical sciences 105 (10.5)
 Dental sciences 89 (8.9)
 Forensic sciences 64 (6.4)
 Occupational health 63 (6.3)
 Nutrition sciences 60 (6.0)
 Sport sciences 54 (5.4)
 Dietetic 53 (5.3)
Physical activity
 Yes 846 (84.9%)
 No 151 (15.1)
 Frequency session (per week) 2.1 (1.57)
 Duration in minute (per session) 51.5 (41.72)
Illness:
 Yes 38 (3.8)
 No 959 (96.2)
Consume medication
 Yes 22 (2.2)
 No 975 (97.8)
Smoker
 Yes 45 (4.5)
 No 952 (95.5)
Open in a new tab

Descriptive statistics of the HPLP-II-M

Table 2 presents the frequency and percentage of the respondents for each item in the HPLP-II-M based on a 5-point Likert scale. The mean and standard deviation (SD) for each item in the HPLP-II-M are also presented.

Table 2.

Descriptive statistics of items for the HPLP-II-M

Item Four rating likert scale, n (%) Mean (SD) items Mean (SD) subscales
Never Sometime Often Routinely
HR: 2.39(0.62)
 Q3 137(13.7) 465(46.6) 299(30.0) 96(9.6) 2.36(0.84)
 Q9 67(6.7) 443(44.4) 364(36.5) 123(12.3) 2.54(0.79)
 Q15 217(21.8) 390(39.1) 280(28.1) 110(11.0) 2.28(0.93)
 Q21 155(15.5) 359(36.0) 375(37.6) 108(10.8) 2.44(0.88)
 Q27 197(19.8) 407(40.8) 273(27.4) 120(12.0) 2.32(0.92)
 Q33 158(15.8) 385(38.6) 326(32.7) 128(12.8) 2.43(0.91)
 Q39 229(23.0) 378(37.9) 279(28.0) 111(11.1) 2.99(0.70)
 Q45 154(15.4) 449(45.0) 276(27.7) 118(11.8) 2.87(0.70)
 Q51 105(10.5) 372(37.2) 383(38.4) 137(13.7) 2.55(0.86)
PA: 2.58(0.53)
 Q4 107(10.7) 448(44.9) 328(32.9) 114(11.4) 2.45(0.83)
 Q10 39(3.9) 412(41.3) 371(37.2) 175(17.6) 2.68(0.80)
 Q16 59(5.9) 376(37.7) 399(40.00 163(16.3) 2.67(0.82)
 Q22 46(4.6) 407(40.8) 390(39.1) 154(15.4) 2.65(0.79)
 Q28 62(6.2) 386(8.7) 410(41.1) 139(13.9) 2.63(0.80)
 Q34 28(2.8) 263(26.4) 527(52.9) 179(18.0) 2.81(0.73)
 Q40 169(17.0) 401(40.2) 324(32.5) 103(10.3) 2.70(0.81)
 Q46 177(17.8) 382(38.3) 328(32.9) 110(11.0) 2.92(0.76)
N: 2.57(0.50)
 Q2 46(4.6) 481(48.2) 341(34.2) 129(12.9) 2.55(0.77)
 Q8 27(2.7) 418(41.9) 386(38.7) 166(16.6) 2.69(0.78)
 Q14 177(17.8) 439(44.0) 264(26.5) 117(11.7) 2.32(0.90)
 Q20 63(6.3) 517(51.9) 297(29.8) 120(12.0) 2.48(0.79)
 Q26 66(6.6) 395(39.6) 379(38.0) 157(15.7) 2.63(0.83)
 Q32 133(13.3) 470(47.1) 281(28.2) 113(11.3) 2.38(0.85)
 Q38 28(2.8) 308(30.9) 504(50.6) 157(15.7) 3.01(0.69)
 Q44 54(5.4) 360(36.1) 412(41.3) 171(17.2) 2.63(0.88)
 Q50 15(1.5) 287(28.8) 457(45.8) 238(23.9) 2.92(0.76)
SG: 2.94(0.45)
 Q6 19(1.9) 256(25.7) 521(52.3) 201(20.2) 2.86(0.73)
 Q12 10(1.0) 130(13.0) 544(54.6) 313(31.4) 3.16(0.68)
 Q18 8(0.8) 163(16.3) 591(59.3) 235(23.6) 3.06(0.66)
 Q24 21(2.1) 272(27.3) 536(53.8) 168(16.9) 2.85(0.71)
 Q30 6(0.6) 176(17.7) 576(57.8) 239(24.0) 3.05(0.66)
 Q36 24(2.4) 279(28.0) 524(52.6) 170(17.1) 2.36(0.88)
 Q42 12(1.2) 193(19.4) 563(56.5) 229(23.0) 2.37(0.90)
 Q48 108(10.8) 314(31.5) 417(41.8) 158(15.8) 2.94(0.73)
 Q52 12(1.2) 256(25.7) 506(50.8) 223(22.4) 2.94(0.73)
IR: 2.84(0.44)
 Q1 36(3.6) 422(42.3) 432(43.3) 107(10.7) 2.61(0.72)
 Q7 30(3.0) 223(22.4) 546(54.8) 198(19.9) 2.91(0.73)
 Q13 14(1.4) 177(17.8) 574(57.6) 232(23.3) 3.03(0.68)
 Q19 21(2.1) 271(27.2) 523(52.5) 182(18.3) 2.87(0.72)
 Q25 11(1.1) 265(26.6) 530(53.2) 191(19.2) 2.90(0.70)
 Q31 43(4.3) 268(26.9) 497(49.8) 189(19.0) 2.83(0.78)
 Q37 214(21.5) 337(33.8) 338(33.9) 108(10.8) 2.43(0.91)
 Q43 17(1.7) 201(20.2) 557(55.9) 222(22.3) 2.84(0.72)
 Q49 15(1.5) 274(27.5) 538(54.0) 170(17.1) 2.87(0.70)
SM: 2.81(0.44)
 Q5 28(2.8) 331(33.2) 456(45.7) 182(18.3) 2.79(0.77)
 Q11 8(0.8) 191(19.2) 578(58.0) 220(22.1) 3.01(0.67)
 Q17 40(4.0) 345(34.6) 456(45.7) 156(15.6) 2.73(0.77)
 Q23 14(1.4) 239(24.0) 581(58.3) 163(16.3) 2.90(0.67)
 Q29 7(0.7) 215(21.6) 581(58.3) 194(19.5) 2.96(0.66)
 Q35 20(2.0) 319(32.0) 500(50.2) 158(15.8) 2.27(0.94)
 Q41 174(17.5) 341(34.2) 362(36.3) 120(12.0) 2.36(0.88)
 Q47 27(2.7) 266(26.7) 541(54.3) 163(16.3) 2.55(0.86)
Open in a new tab

HR health responsible, PA physical activity, N nutrition, SG spiritual growth, IR interpersonal relations, SM stress management

Measurement models of HPLP-II-M

Results of models tested with fit indices are summarised in Table 3. The hypothesised measurement model for HPLP-II-M consisted of six factors with 52 items. The number of items within each factor varied. The hypothesised measurement model fit the data well based on RMSEA and SRMR fit indices. Factor loadings ranged from 0.339 to 0.777 (see Table 4). There were two items with factor loading less than the acceptable value of 0.40. Item Q1 (Discuss my problems and concerns with people close to me), which had the lowest factor loading (0.339), was removed and the fit indices were re-examined (RMSEA = 0.045, 90%CI = 0.045, 0.048, CIfit = 1.000, SRMR = 0.062, CFI = 0.816, TLI = 0.806). The fit indices did not improve substantially. The CFI and TLI were below the threshold value of 0.90. The next item removed was Q50 (Eat breakfast), which had the factor loading of 0.373 after removing Q1. The fit indices of CFI and TLI were still below the threshold value of 0.90. The fit indices of the measurement model after removal of the two items are presented in Table 3 (Model 2). No further model modifications were considered important and theoretically appropriate in improving the fit indices, especially the CFI and TLI values, based on modification indices and residual variance between items.

Table 3.

Summary of fit indices of measurement models for HPLP-II-M

Model RMSEA (90% CI) Probability RMSEA SRMR CFI TLI
Model 1 0.046 (0.044,0.048) 1.000 0.062 0.814 0.805
Model 2 0.046 (0.045,0.048) 1.000 0.062 0.821 0.811
Open in a new tab

CI, Confidence interval

Table 4.

Standardised factor loadings and construct reliabilities for measurement model 1 and 2 of HPLP-II-M

Construct and Items Standardized factor loadings (λ a) Standardized factor loadings (λ b) Composite Reliability (CRa) Composite Reliability (CRb)
HR
 Q3 0.601 0.601 0.874 0.878
 Q9 0.477 0.477
 Q15 0.749 0.749
 Q21 0.663 0.662
 Q27 0.755 0.756
 Q33 0.578 0.578
 Q39 0.777 0.778
 Q45 0.711 0.771
 Q51 0.593 0.591
PA
 Q4 0.582 0.582 0.805 0.805
 Q10 0.555 0.553
 Q16 0.577 0.576
 Q22 0.600 0.600
 Q28 0.620 0.620
 Q34 0.458 0.457
 Q40 0.628 0.629
 Q46 0.642 0.642
N
 Q2 0.552 0.551 0.777 0.774
 Q8 0.479 0.474
 Q14 0.542 0.545
 Q20 0.585 0.595
 Q26 0.578 0.576
 Q32 0.604 0.612
 Q38 0.458 0.456
 Q44 0.575 0.566
 Q50 0.373
SG
 Q6 0.532 0.529 0.811 0.811
 Q12 0.556 0.557
 Q18 0.589 0.589
 Q24 0.581 0.581
 Q30 0.635 0.636
 Q36 0.570 0.571
 Q42 0.600 0.601
 Q48 0.486 0.485
 Q52 0.562 0.562
IR
 Q1 0.339 0.742 0.737
 Q7 0.429 0.425
 Q13 0.534 0.536
 Q19 0.459 0.453
 Q25 0.587 0.589
 Q31 0.500 0.497
 Q37 0.426 0.421
 Q43 0.587 0.588
 Q49 0.555 0.555
SM
 Q5 0.403 0.404 0.744 0.746
 Q11 0.428 0.430
 Q17 0.486 0.486
 Q23 0.532 0.534
 Q29 0.592 0.593
 Q35 0.604 0.605
 Q41 0.498 0.502
 Q47 0.579 0.578
Open in a new tab

Note. a Model 1, b Model 2, Q item number in HPLP-II-M, HR health responsible, PA physical activity, N nutrition, SG spiritual growth, IR interpersonal relations, SM stress management

The CR values for Model 1 ranged from 0.742 to 0.874, while that of Model 2 ranged from 0.737 to 0.878 (Table 4). The CR values did not improve the factors ‘interpersonal relations’ and ‘nutrition’ after removing the two low loading items (i.e., Q1 and Q50) in the measurement model. However, the reliabilities for all factors in Model 1 and Model 2 were considered satisfactory. The final measurement model of HPLP-II-M (Model 2) consisted of all 50 items and six factors in the present confirmatory study with removal of two items (i.e., Q1 and Q50) due to low factor loading.

Discriminant validity

The discriminant validity was checked based on the correlations among the factors. Table 5 presents the correlation value and its significant indication for Model 1. All the correlations were below the recommended cut-off point of 0.85, which indicated that the six health-promoting behaviour factors achieved good discriminant validity.

Table 5.

Correlations between latent variables in Model 1 for HPLP-II-M

Variable Health Responsibility Physical Activity Nutrition Spiritual Growth Interpersonal Relations Stress Management
1. Health Responsibility 1 0.70a 0.71a 0.43a 0.55a 0.55a
2. Physical Activity 1 0.68a 0.53a 0.54a 0.65a
3. Nutrition 1 0.48a 0.54a 0.57a
4. Spiritual Growth 1 0.73a 0.71a
5. Interpersonal Relations 1 0.67a
6. Stress Management 1
Open in a new tab

aCorrelation is significant at the 0.05 level (two tailed)

Discussion

The development of the HPLP-II-M and evaluation of its validity and reliability is a vital step in the determination of health-promoting behaviour among the Malay-speaking population. The original English version of HPLP-II has been shown to be reliable, valid and stable across time based on previous studies [18, 37]. It has been widely translated and used to measure health-promoting behaviour in different study populations [16, 17, 3843]. Although Malays comprise a significant proportion of the South East Asian population, there is a severe lack of validated tools in the Malay language to measure health-promoting behaviour. Our translation of the English HPLP-II into Malay (HPLP-II-M) fills this gap and will serve as a useful tool in health education, clinical management and research in populations where Malay is the lingua franca.

This study applied CFA, which is a type of structural equation modelling that deals specifically with measurement models. CFA examines the strength of the relationship between an observed measure and latent variables or factors, based on factor loading. When dealing with CFA, the number of factors is specified. CFA requires a strong conceptual foundation to guide the specification and evaluation of the factor model. It can be utilised in psychometric evaluation, detection of method effects, construct validation and also for the evaluation of measurement in variance. Since the factors and items of HPLP-II have been predetermined in previous studies, we conducted only a confirmatory study on the translated version of HPLP-II-M. In the confirmatory study, our aim was to confirm if the six-factor 52 item measurement model fit the data well. Our results confirm the validity and reliability of HPLP-II-M with 50 items, based on the CFA analysis. Furthermore, the discriminant validity of the factors in HPLP-II-M was found to be satisfactory, indicating that the latent variables in the CFA measurement model of HPLP-II-M contribute information which is not captured by the other latent variables.

Previous validation studies of HPLP-II reported varying total number of items which fit the CFA measurement model. For example, based on psychometric properties, Pérez-Fortis et al. retained 44 items for Spanish version [18], Teng et al., Meihan and Chung-Ngok retained 30 items and 51 items respectively for the Chinese version [16, 17], while Savarese et al. retained 26 items for the Italian version of the HPLP-II [22]. The present study retained 50 items in the final measurement model, after removal of two low factor loading items. Our CFA analysis of HPLP-II-M supported the six factor structure proposed by the authors of the original HPLP-II. These results are consistent with other studies of the psychometric properties of the HPLP-II in Chinese and Spanish samples [16, 18].

The two items (Q1 [interpersonal relations]: Discuss my problems and concerns with people close to me; Q50 [nutrition]: Eat breakfast) removed in the present study had factor loading lower than 0.40, which is the lowest threshold we identified in the present study. These items also were found to be problematic in other validation studies. Item Q1 was removed in the Chinese validation study during EFA stage [17], and item Q50 was removed in the Spanish study due to very low corrected item-total correlation value < 0.20 [18]. Item Q50 was also removed in the Italian study due to its contribution to low reliability of the scale [22] and Chinese validation study due to its insignificant factor loadings in a CFA analysis [16]. Removal of these items improved the fit of the model in those studies as well as in the present study.

The majority of previous studies reported the reliability of HPLP-II-M based on Cronbach alpha. The present study reported reliability based on the CR formula presented by Raykov and Marcoulides in 2015 [36]. CR has been recommended as a reliability test for CFA measurement model instead of Cronbach’s alpha [44]. This is due to the fact that Cronbach’s alpha can over- or underestimate scale reliability at the population level [45]. In the present study, the reliability value based on CR for all subscales of HPLP-II-M was satisfactory and above the recommended value of 0.70 [35]. In order to compare the reliability of HPLP-II-M with other published studies on HPLP-II, we computed the reliability of HPLP-II-M with 50 items based on Cronbach alpha. The reliability was satisfactory, with Cronbach alpha of 0.94 for overall scale, 0.87 for health responsibility, 0.81 for physical activity, 0.77 for nutrition, 0.81 for spiritual growth, 0.73 for interpersonal relations, and 0.74 for stress management. These results were consistent with the study conducted using the original English version of HPLP-II with 52 items. The overall reliability scale was reported as 0.94 and reliability for six subscales ranged from 0.79 to 0.87 [37].

The HPLP-II-M is an easily-administered instrument for evaluation of effectiveness of public health interventions on health-promoting behaviour. Strengths of our study include its large sample size and its multi-racial population of Malay-speaking participants. Few limitations of this study must be acknowledged. First, this was a cross-sectional study, which precludes the inference of any temporal relations. Longitudinal studies to examine the change and stability of HLPL-II-M across time will consolidate our findings [46]. A second limitation is the use of a self-reported questionnaire, which may be subject to response bias. In order to overcome this limitation, we emphasised the importance of honest feedback to the subjects prior to data collection. Given that the questionnaires were answered anonymously, the chances of participants responding in a socially acceptable manner were reduced. A third limitation is that the data consisted of mainly female students. This reflects the gender enrolment ratio of Malaysia’s public universities for the past two decades, in which females comprise almost two-thirds of the student population [47, 48]. Other previous studies in our university also observed a high proportion of female respondents, ranging from 63 to 81% [4952]. To obtain an equal ratio of male and female respondents, future studies should utilize stratified sampling method rather than convenience sampling method. Finally, the study participants were undergraduate students, with ages ranging from 18 to 31 years old. Although an understanding of health-promoting behavior among young adults is important as it influences health choices in later life [53], further research should examine the replicability of the HPLP-II-M in more diverse Malay-speaking populations of varying ages, education levels, occupations and health.

Conclusion

The final measurement model for the HPLP-II-M questionnaire in the present sample consisted of 50 items and six subscales. Two items with low factor loading items were removed in the present confirmatory study. Future research on health-promoting behaviour among populations where Malay is the major language can utilize the HPLP-II-M, interpreting their responses within the six-factor framework of subscales.

Additional file

Additional file 1: (60.2KB, pdf)

The Malay version of the Health-Promoting Lifestyle Profile II. (PDF 60 kb)

Acknowledgements

We would like to thank the students who volunteer to complete the survey.

Abbreviations

CFA

Confirmatory factor analysis

CFI

Comparative fit index

CR

Construct reliability

HPLP-II

Health-Promoting Lifestyle Profile II

HPLP-II-M

Malay version of the Health-Promoting Lifestyle Profile II

MLR

Robust maximum likelihood estimator

RMSEA

Root mean square error of approximation

SD

Standard deviation

SRMR

Standardised root mean square

TLI

Tucker-lewis index

Authors’ contributions

All authors contributed in designing and planning the study. GK led data collection and data entry. GK, YCK, NA and ELMT analysed, interpreted the data and wrote the manuscript. All authors read, revised and approved the final manuscript.

Funding

This research was supported by a Research University Individual, Universiti Sains Malaysia (1001/PPSP/8012250). The funding body had no role in the design of the study, data collection, analysis and interpretation of data and in writing the manuscript.

Availability of data and materials

Please contact corresponding author for dataset requests.

Ethics approval and consent to participate

The conduct of this study was approved by the Human Research Ethics Committee of Universiti Sains Malaysia. Implied consent was obtained when participants who volunteered had returned the completed survey to the researchers. This type of consent refers to consent, which is not expressly granted by a person, but rather, is implicitly granted by a person’s actions.

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.

Footnotes

Publisher’s Note

Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.

Contributor Information

Garry Kuan, Email: garry@usm.my.

Yee Cheng Kueh, Email: yckueh@usm.my.

Nurzulaikha Abdullah, Email: ngahpc@yahoo.com.

Evelyn Li Min Tai, Email: daileid@yahoo.com.

References

  • 1.Popkin BM, Horton S, Kim S, Mahal A, Shuigao J. Trends in diet, nutritional status, and diet-related noncommunicable diseases in China and India: the economic costs of the nutrition transition. Nutr Rev. 2001;59(12):379–390. doi: 10.1111/j.1753-4887.2001.tb06967.x. [DOI] [PubMed] [Google Scholar]
  • 2.Glasgow S, Schrecker T. The double burden of neoliberalism? Noncommunicable disease policies and the global political economy of risk. Health Place. 2016;39:204–211. doi: 10.1016/j.healthplace.2016.04.003. [DOI] [PubMed] [Google Scholar]
  • 3.Kostova D, Husain MJ, Sugerman D, Hong Y, Saraiya M, Keltz J, et al. Synergies between communicable and noncommunicable disease programs to enhance global health security. Emerg Infect Dis. 2017;23 Suppl 1:S40. [DOI] [PMC free article] [PubMed]
  • 4.Choo J, Kang H. Predictors of initial weight loss among women with abdominal obesity: a path model using self-efficacy and health-promoting behaviour. J Adv Nurs. 2015;71(5):1087–1097. doi: 10.1111/jan.12604. [DOI] [PubMed] [Google Scholar]
  • 5.Turan TN, Al Kasab S, Nizam A, Lynn MJ, Harrell J, Derdeyn CP, et al. Relationship between risk factor control and compliance with a lifestyle modification program in the stenting aggressive medical management for prevention of recurrent stroke in intracranial stenosis trial. J Stroke Cerebrovasc Dis. 2018;27(3):801–805. doi: 10.1016/j.jstrokecerebrovasdis.2017.10.017. [DOI] [PubMed] [Google Scholar]
  • 6.Suda M, Nakayama K, Morimoto K. Relationship between behavioral lifestyle and mental health status evaluated using the GHQ-28 and SDS questionnaires in Japanese factory workers. Ind Health. 2007;45(3):467–473. doi: 10.2486/indhealth.45.467. [DOI] [PubMed] [Google Scholar]
  • 7.Aaby A, Friis K, Christensen B, Rowlands G, Maindal HT. Health literacy is associated with health behaviour and self-reported health: a large population-based study in individuals with cardiovascular disease. Eur J Prev Cardiol. 2017;24(17):1880–1888. doi: 10.1177/2047487317729538. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 8.Small GW, Silverman DH, Siddarth P, Ercoli LM, Miller KJ, Lavretsky H, et al. Effects of a 14-day healthy longevity lifestyle program on cognition and brain function. Am J Geriatr Psychiatry. 2006;14(6):538–545. doi: 10.1097/01.JGP.0000219279.72210.ca. [DOI] [PubMed] [Google Scholar]
  • 9.Mikkelsen K, Stojanovska L, Polenakovic M, Bosevski M, Apostolopoulos V. Exercise and mental health. Maturitas. 2017;106:48–56. doi: 10.1016/j.maturitas.2017.09.003. [DOI] [PubMed] [Google Scholar]
  • 10.Myers J, Doom R, King R, Fonda H, Chan K, Kokkinos P, Rehkopf DH. Association between cardiorespiratory fitness and health care costs: the veterans exercise testing study. Mayo Clin Proc; 2018 Jan 1 (Vol. 93, no. 1, pp. 48-55). Elsevier. [DOI] [PubMed]
  • 11.Chuang SP, Wu JYW, Wang CS, Pan LH. Health-promoting lifestyles and psychological distress associated with well-being in community adults. Am J Health Behav. 2017;41(4):446–453. doi: 10.5993/AJHB.41.4.9. [DOI] [PubMed] [Google Scholar]
  • 12.Lolokote S, Hidru TH, Li X. Do socio-cultural factors influence college students’ self-rated health status and health-promoting lifestyles? A cross-sectional multicenter study in Dalian, China. BMC Public Health. 2017;17(1):478. doi: 10.1186/s12889-017-4411-8. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 13.Walker S, Sechrist K, Pender N. The health-promoting lifestyle profile: development and psychometric characteristics. Nurs Res. 1987;36(2):76–81. doi: 10.1097/00006199-198703000-00002. [DOI] [PubMed] [Google Scholar]
  • 14.Sousa P, Gaspar P, Vaz DC, Gonzaga S, Dixe MA. Measuring health-promoting behaviors: cross-cultural validation of the health-promoting lifestyle profile-II. In J Nurs Knowl. 2015;26(2):54–61. doi: 10.1111/2047-3095.12065. [DOI] [PubMed] [Google Scholar]
  • 15.Tanjani PT, Azadbakht M, Garmaroudi G, Sahaf R, Fekrizadeh Z. Validity and reliability of health promoting lifestyle profile ii in the Iranian elderly. Int J Prev Med. 2016;7:74. doi: 10.4103/2008-7802.182731. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 16.Meihan L, Chung-Ngok W. Validation of the psychometric properties of the health-promoting lifestyle profile in a sample of Taiwanese women. Qual Life Res. 2011;20(4):523–528. doi: 10.1007/s11136-010-9790-6. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 17.Teng HL, Yen M, Fetzer S. Health promotion lifestyle profile-II: Chinese version short form. J Adv Nurs. 2010;66(8):1864–1873. doi: 10.1111/j.1365-2648.2010.05353.x. [DOI] [PubMed] [Google Scholar]
  • 18.Pérez-Fortis A, Ulla Diez SM, Padilla JL. Psychometric properties of the Spanish version of the health-promoting lifestyle profile II. Res Nurs Health. 2012;35(3):301–313. doi: 10.1002/nur.21470. [DOI] [PubMed] [Google Scholar]
  • 19.Mohamadian H, Ghannaee M, Kortdzanganeh J, Meihan L. Reliability and construct validity of the Iranian version of health-promoting lifestyle profile in a female adolescent population. Int J Prev Med. 2013;4(1):42. [PMC free article] [PubMed] [Google Scholar]
  • 20.Wei CN, Yonemitsu H, Harada K, Miyakita T, Omori S, Miyabayashi T, et al. A Japanese language version of the health-promoting lifestyle profile. Nippon Eiseigaku Zasshi (Japanese J Hyg) 2000;54(4):597–606. doi: 10.1265/jjh.54.597. [DOI] [PubMed] [Google Scholar]
  • 21.Pinar R, Celik R, Bahcecik N. Reliability and construct validity of the health-promoting lifestyle profile II in an adult Turkish population. Nurs Res. 2009;58(3):184–193. doi: 10.1097/NNR.0b013e31819a8248. [DOI] [PubMed] [Google Scholar]
  • 22.Savarese G, Carpinelli L, Cavallo P, Vitale MP. Italian psychometric validation of the multidimensional students’ health-promoting lifestyle profile scale. Health. 2018;10:1554–1575. doi: 10.4236/health.2018.1011118. [DOI] [Google Scholar]
  • 23.Haddad LG, Al-Ma'aitah RM, Cameron SJ, Armstrong-Stassen M. An Arabic language version of the health promotion lifestyle profile. Public Health Nurs. 1998;15(2):74–81. doi: 10.1111/j.1525-1446.1998.tb00325.x. [DOI] [PubMed] [Google Scholar]
  • 24.Collins JT, Ahmad Z. The Malay language and ethnic identity in modern Malaysia. Akademika. 1999;55(1).
  • 25.Prentice DJ. Malay (Indonesian and Malaysian) In: Comrie B, editor. The world's major languages. New York: Oxford University Press; 1990. [Google Scholar]
  • 26.Das S, Mia MN, Hanifi SMA, Hoque S, Bhuiya A. Health literacy in a community with low levels of education: findings from Chakaria, a rural area of Bangladesh. BMC Public Health. 2017;17(1):203. doi: 10.1186/s12889-017-4097-y. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 27.Golboni F, Nadrian H, Najafi S, Shirzadi S, Mahmoodi H. Urban–rural differences in health literacy and its determinants in Iran: a community-based study. Aust J Rural Health. 2018;26(2):98–105. doi: 10.1111/ajr.12378. [DOI] [PubMed] [Google Scholar]
  • 28.Wang C, Lang J, Xuan L, Li X, Zhang L. The effect of health literacy and self-management efficacy on the health-related quality of life of hypertensive patients in a western rural area of China: a cross-sectional study. Int J Equity Health. 2017;16(1):58. doi: 10.1186/s12939-017-0551-9. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 29.Hambleton RK, Merenda PF, Spielberger CD. Issues, designs, and technical guidelines for adapting tests into multiple languages and cultures. Adapting educational and psychological tests for cross-cultural assessment. Mahwah: Lawrence Erlbaum Associates; 2004. p. 15–50.
  • 30.Lim BC, Kueh YC, Arifin WN, Ng KH. Validation of health promoting lifestyle profile-II: a confirmatory study with a Malaysian undergraduate students sample. Educ Med J. 2016;8(2):65–77. doi: 10.5959/eimj.v8i2.438. [DOI] [Google Scholar]
  • 31.Walker SN, Sechrist KR, Pender NJ. Health promotion model-instruments to measure health promoting lifestyle: health-promoting lifestyle profile [HPLP II](adult version). 1995. https://deepblue.lib.umich.edu/bitstream/handle/2027.42/85349/HPLP_II-background_and_permission.pdf?sequence=1&isallowed=y. Accessed 1 Jan 2018.
  • 32.Cheng J, Wang T, Li F, Xiao Y, Bi J, Chen J, et al. Self-rated health status and subjective health complaints associated with health-promoting lifestyles among urban Chinese women: a cross-sectional study. PLoS One. 2015;10(2):e0117940. doi: 10.1371/journal.pone.0117940. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 33.Brislin RW. Back-translation for cross-cultural research. J Cross-Cult Psychol. 1970;1(3):185–216. doi: 10.1177/135910457000100301. [DOI] [Google Scholar]
  • 34.DeVon HA, Block ME, Moyle-Wright P, Ernst DM, Hayden SJ, Lazzara DJ, et al. A psychometric toolbox for testing validity and reliability. J Nurs Scholarsh. 2007;39(2):155–164. doi: 10.1111/j.1547-5069.2007.00161.x. [DOI] [PubMed] [Google Scholar]
  • 35.Hair J, Black W, Babin B. Anderson. RE, 2010. Multivariate data analysis. New Jersey: Pearson Prentice Hall; 2010.
  • 36.Raykov T, Marcoulides GA. Scale reliability evaluation under multiple assumption violations. Struct Equ Model Multidiscip J. 2016;23(2):302–313. doi: 10.1080/10705511.2014.938597. [DOI] [Google Scholar]
  • 37.Walker S, Hill-Polerecky D. Psychometric evaluation of the health-promoting lifestyle profile II. Unpublished manuscript, University of Nebraska Medical Center. 1996:120–126.
  • 38.Mohamadian H, Eftekhar AH, Taghdisi MH, Mousavi GA, Sabahi BM. Psychometric properties of the health-promoting lifestyle profile (HPLP II) in a sample of Iranian adolescents. 2013. https://www.sid.ir/en/journal/ViewPaper.aspx?ID=296069. Accessed 1 April 2019.
  • 39.Neville K, Cole DA. The relationships among health promotion behaviors, compassion fatigue, burnout, and compassion satisfaction in nurses practicing in a community medical center. J Nurs Adm. 2013;43(6):348–354. doi: 10.1097/NNA.0b013e3182942c23. [DOI] [PubMed] [Google Scholar]
  • 40.Wei C-N, Harada K, Ueda K, Fukumoto K, Minamoto K, Ueda A. Assessment of health-promoting lifestyle profile in Japanese university students. Environ Health Prev Med. 2012;17(3):222. doi: 10.1007/s12199-011-0244-8. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 41.Baygi F, Jensen OC, Mohammadi-Nasrabadi F, Qorbani M, Mansourian M, Mirkazemi R, et al. Factors affecting health-promoting lifestyle profile in Iranian male seafarers working on tankers. Int Marit Health. 2017;68(1):1–6. doi: 10.5603/IMH.2017.0001. [DOI] [PubMed] [Google Scholar]
  • 42.Gedik Z. Self-compassion and health-promoting lifestyle behaviors in college students. Psychol Health Med. 2019;24(1):108–114. doi: 10.1080/13548506.2018.1503692. [DOI] [PubMed] [Google Scholar]
  • 43.Tajik M, Galvão HM, Siqueira CE. Health survey instrument development through a community-based participatory research approach: health promoting lifestyle profile (HPLP-II) and brazilian immigrants in greater Boston. J Immigr Minor Health. 2010;12(3):390–397. doi: 10.1007/s10903-008-9209-4. [DOI] [PubMed] [Google Scholar]
  • 44.Wang Jichuan, Wang Xiaoqian. Structural Equation Modeling. Chichester, UK: John Wiley & Sons, Ltd; 2012. [Google Scholar]
  • 45.Raykov T. Coefficient alpha and composite reliability with interrelated nonhomogeneous items. Appl Psychol Meas. 1998;22(4):375–385. doi: 10.1177/014662169802200407. [DOI] [Google Scholar]
  • 46.Koch T, Schultze M, Eid M, Geiser C. A longitudinal multilevel CFA-MTMM model for interchangeable and structurally different methods. Front Psychol. 2014;5:311. doi: 10.3389/fpsyg.2014.00311. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 47.Ministry of Women, Family and Community Development. Measuring and monitoring gender equality: Malaysia's Gender Gap Index. 2007. https://www.undp.org/content/dam/malaysia/docs/WomenE/MGGI_report.pdf. Accessed 1 March 2019.
  • 48.Tienxhi Jonathan Yong  . The Gender Gap in Malaysian Public Universities: Examining The 'Lost Boys' . Journal of International and Comparative Education. 2017;6(1):1–16. doi: 10.14425/JICE.2017.6.1.0116. [DOI] [Google Scholar]
  • 49.Chai S, Kueh YC, Yaacob NM, Kuan G. Psychometric properties of the malay version of the goal content for exercise questionnaire among undergraduate students at the health campus, Universiti Sains Malaysia. Malays J Med Sci. 2019;26(1):115. doi: 10.21315/mjms2019.26.1.11. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 50.Kuan G, Abdullah N, Kueh YC, Ismail M, Shafei MN, Morris T. Co-curricular activities and motives for participating in physical activity among health sciences students at Universiti Sains Malaysia, Malaysia. Malays J Med Sci. 2019;26(1):138. doi: 10.21315/mjms2019.26.1.13. [DOI] [PMC free article] [PubMed] [Google Scholar]
  • 51.Liu KT, Kueh YC, Arifin WN, Kim Y, Kuan G. Application of transtheoretical model on behavioral changes, and amount of physical activity among university’s students. Front Psychol. 2018;9. [DOI] [PMC free article] [PubMed]
  • 52.Kueh YC, Kuan G, Morris T. The physical activity and leisure motivation scale: a confirmatory study of the Malay language version. Int J Sport Exerc Psychol. 2017:1–16.
  • 53.Wang D, Ou CQ, Chen MY, Duan N. Health-promoting lifestyles of university students in mainland China. BMC Public Health. 2009;9(1):379. doi: 10.1186/1471-2458-9-379. [DOI] [PMC free article] [PubMed] [Google Scholar]

Associated Data

This section collects any data citations, data availability statements, or supplementary materials included in this article.

Supplementary Materials

Additional file 1: (60.2KB, pdf)

The Malay version of the Health-Promoting Lifestyle Profile II. (PDF 60 kb)

Data Availability Statement

Please contact corresponding author for dataset requests.

Articles from BMC Public Health are provided here courtesy of BMC

RESOURCES