Psychometric Properties of Persian Version of the Amphetamine Withdrawal Questionnaire Version 2 (AWQV2) in Patients with Methamphetamine-Type Substance Use Disorder


Vahid Farnia 1 , Mehdi Moradinazar 2 , Nasrin Abdoli 1 , * , Mostafa Alikhani 1 , Mansour Rezaei ORCID 3 , Mehdi Khodamoradi 1 , Safora Salemi ORCID 1 , Omran Davarinejad 1 , Farnaz Radmehr 1

1 Substance Abuse Prevention Research Center, Health Institute, Kermanshah University of Medical Sciences, Kermanshah, Iran

2 Behavioral Disease Research Center, Kermanshah University of Medical Sciences, Kermanshah, Iran

3 Social Development and Health Promotion Research Center, Kermanshah University of Medical Sciences, Kermanshah, Iran

How to Cite: Farnia V, Moradinazar M, Abdoli N, Alikhani M, Rezaei M, et al. Psychometric Properties of Persian Version of the Amphetamine Withdrawal Questionnaire Version 2 (AWQV2) in Patients with Methamphetamine-Type Substance Use Disorder, Iran J Psychiatry Behav Sci. 2020 ; 14(4):e98260. doi: 10.5812/ijpbs.98260.


Iranian Journal of Psychiatry and Behavioral Sciences: 14 (4); e98260
Published Online: September 27, 2020
Article Type: Research Article
Received: October 22, 2019
Revised: July 5, 2020
Accepted: August 21, 2020


Background: No standard self-report instrument for withdrawal symptoms is available in Iran.

Objectives: This study aimed to evaluate the psychometric properties of the Persian version of the 10-item Amphetamine Withdrawal questionnaire version 2 (AWQV2).

Methods: A sample of 388 methamphetamine addicts (215 females and 173 males) referred to addiction recovery centers and psychiatric ward of Farabi Hospital in Kermanshah. A two-stage random sampling method was used. The reliability and internal consistency of the AWQV2 items were examined using Cronbach’s alpha and test-retest reliability, respectively, and the instrument validity of the AWQV2 was measured using construct validity and convergent validity.

Results: The AWQV2 had a Cronbach’s alpha of 0.72. Factor analysis using the main component analysis with a varimax rotation introduced three factors of hyperarousal, anxiety, and reversed vegetative symptoms. These factors explained 0.58 of the total variance. The coefficient of test-retest reliability at a 2-week interval was equal to 0.77. The convergent validity of the AWQV2 was examined by simultaneously administering the Advanced Warning of Relapse (AWARE) questionnaire to 40 subjects, with a correlation coefficient of 0.81.

Conclusions: Based on the results, the AWQV2 has very good psychometric properties and may be used in research and therapeutic interventions.

1. Background

Addiction to methamphetamine is now deemed a major worldwide concern (1), an estimated annual global prevalence of 0.4% (2). Iran has a high rate of methamphetamine users insofar as it accounts for 5.2% of the total rate of substance users (3). The long-term use of methamphetamine psychological disorders, in addition to performance-related problems (4), imposes considerable costs on families and societies (5).

Users of methamphetamine, who use it only once, and individuals with underlying mental disorders expedite the incidence of psychosis by 50% to 70% (6) and quitting the patients with methamphetamine dependence that require hospitalization (7).

Methamphetamine-related psychiatric disorders now constitute a formidable challenge to Iran’s health-care system (8), and most patients with methamphetamine dependence are young (9). On a global scale, the emergence of methamphetamine (10) begets serious problems known as “methamphetamine withdrawal symptoms” coming after its sudden withdrawal (11). These symptoms encompass depression, psychosis, and behavioral imbalance (12). The severity of depression after methamphetamine withdrawal cannot be compared with other substances because this kind of depression is so severe that it renders the individuals incapable of performing their daily duties and activities (11). There is a relationship between depression and suicidal ideation after methamphetamine withdrawal (13). Symptoms of methamphetamine withdrawal intensify day by day and may eventually be unbearable and cause relapse (14, 15). Dangerous social injuries such as traffic collisions, rape, and sexually transmitted diseases are other problems that methamphetamine users experience (16). Owing to the recurrence of methamphetamine abuse in early users after withdrawal, it is important to provide a tool for diagnosing withdrawal symptoms in methamphetamine addicts. This study aimed to validate the reliability of the Amphetamine Withdrawal questionnaire version 2 (AWQV2).

2. Objectives

Such methamphetamine-related physical, psychological, behavioral, and social problems call for wide-scope research, and it should be noted that the absence of a valid and reliable tool precludes attempts at diagnosing and treating methamphetamine withdrawal symptoms. The Amphetamine Withdrawal questionnaire is one of the latest tools developed and used in methamphetamine rehabilitation centers (17, 18). Therefore, considering the research and clinical needs as well as the different structure of this questionnaire in different cultures, it was important to investigate the psychometric properties of AWQV2 in Iranian society.

3. Methods

3.1. Participants

The research used a cross-sectional descriptive method. The statistical population comprised all male and female patients with methamphetamine dependence who referred to the addiction recovery centers or were hospitalized in the Psychiatric Ward of Farabi Hospital in Kermanshah, Iran, in 2017. The determination of a minimum sample size required for the collection of structural equation modeling data is crucial in exploratory and confirmatory factor analyses (19). According to Kline, a sample size of 10 to 20 is required for each exploratory factor analysis, but a minimum sample size of 200 is justifiable. In the confirmatory factor and exploratory analysis, the minimum sample size was determined based on factors, not variables. The sample size recommended for the confirmatory factor analysis was approximately 200 for 10 factors (20, 21). In the present study, the sample size was set at 388 individuals with methamphetamine dependence (215 women and 175 men) for the conduct of the exploratory and confirmatory factor analyses. A total of 22 individuals were excluded from the study because they refused to give consent for participation.

Sampling was conducted in two stages. First, five addiction recovery centers were randomly selected using the table of random numbers. Then, from patients with methamphetamine dependence, those who were willing to take part were selected by convenient sampling.

3.2. Procedure

Ethical considerations included respect for the patient, confidentiality of the patient’s data, coordination with the physicians and authorities of the center, and controlling psychotic symptoms. Each participant was verbally provided with information regarding the study and the contents of the information sheet. All the participants signed a consent form in which the study procedures were explained.

We obtained the permission of the author (Dr. Manit Srisurapanont) by email for the translation of the questionnaire into Persian and its subsequent localization. The original version was first translated into Persian. It was then translated into English by two experts in Persian. Then, the original and translated versions were compared, and the translation errors were corrected by two translators. To ensure the equivalence and meaningfulness of both English versions, back-translation with the original version was performed (22). In the final stage, the questionnaire was pre-tested on 20 subjects to identify possible ambiguities in the semantic understanding of the questionnaire.

Then, the validity of the content of the questionnaire was done by interviewing experts in this field.

In the qualitative evaluation of the content validity of grammar compliance, the use of appropriate words emphasized the importance of items in their place, and the questionnaire was presented to 10 experts to determine face validity, and then the difficulty level, the amount of inadequacy, the ambiguity of the expressions, or the failure of the word meanings were corrected, and their comments were applied as minor changes to the questionnaire (23).

It should be explained that this questionnaire is in the form of a research project approved by Kermanshah University of Medical Sciences under the number (grant number: 96414).

3.3. Ethical Considerations

The study was approved by the Vice-chancellor of Research and Technology and the Ethics Committee of Kermanshah University of Medical Sciences, Kermanshah, Iran, on July 29, 2017 (registration no.: KUMS REC.1396.360).

3.4. Measurements

3.4.1. Amphetamine Withdrawal Questionnaire Version 2

Developed by McGregor et al. (18), the Amphetamine Withdrawal questionnaire version 2 (AWQV2) consists of 10 items scored on a 5-point Likert scale ranging from 0 to 4 (“not at all”, “very little”, “a little”, “quite a lot”, and “very much”). The total score ranges from 0 to 40. This questionnaire comprises three factors of hyperarousal, anxiety, and reversed vegetative symptoms and has an internal consistency (Cronbach’s alpha) of 0.90 and a validity (r) of 0.55 (17, 18).

The AWQV2 is to be completed by the patient 24 hours after quitting (17, 24). In the present study, the questionnaire was completed three to seven days after methamphetamine withdrawal symptoms.

3.4.2. Advanced Warning of Relapse (AWARE) Questionnaire AWAER Questionnaire

This questionnaire was developed in 1882 by Miller et al. and comprises 28 items (14). The questionnaire is scored on a 7-point Likert scale (never = score 1 to always = score 7). The psychometric properties of this desirable instrument and its reliability have been reported 0.90 (15, 16).

3.5. Statistical Analysis

Cronbach’s alpha, Pearson’s correlation coefficient, convergence validity, exploratory factor, χ2, degrees of freedom, root mean square error of approximation, goodness of fit index (GFI) adjusted goodness of fit index, adjusted goodness of fit index (AGFI), comparative fit index (CFI) sign of model fit and normed-fit index (NFI) sign of model fit. Analyses were performed using SPSS software version 25, the LISREL software version 8.7, and IBM AMOS software, version 25.

4. Results

The study population was comprised of 388 patients, 215 women and 173 men, aged between 16 and 74 years (mean = 36.94 ± 10.294) (Table 1).

Table 1. Exploratory Factor Loadings of Items Amphetamine Withdrawal Questionnaire Version 2 (AWQV2)
ItemsScale Variance with Question RemovalScale Variance with Question RemovalCorrelated Whole CorrectionCronbach’s Alpha by Removing the QuestionMinMaxMean ± SD
Have you been craving amphetamine or methamphetamine?20.4340.930.0330.70Total score
Have you felt sad?19.4834.090.5470.660.004.002.20 ± 0.65
Have you lost interest in things or no longer take pleasure in them?19.9236.140.360.69
Have you felt anxious? 19.435.340.470.680.004.001.99 ± 0.83
Have you felt as if your movements are slow?19.6333.10.550.66
Have you felt agitated?19.5333.570.550.660.004.002.30 ± 0.89
Have you felt tired?19.235.520.500.67
Has your appetite increased, or have you eaten too much?20.1538.810.180.710.004.002.18 ± 0.79
Have you had any vivid or unpleasant dreams?19.9134.820.430.68
Have you been craving for sleep or sleeping too much?19.9438.140.210.71

Internal consistency and Cronbach’s alpha were utilized to assess the reliability of the data based on a 1-time administration of the questionnaire. The results revealed a Cronbach’s alpha of 0.72. Below, a more detailed examination of the descriptive properties of the research instrument is provided.

The mean and scale variance were reported after removing each item (Table 1). Based on the corrected Pearson’s correlation coefficient, the correlation between each score and the total score was high, showing the acceptability of the items. It was also observed that the reliability was decreased or changed minimally by the removal of each item. Moreover, the results of the Kolmogorov-Smirnov test revealed the normality of the distribution of the variables (P > 0.05).

The Kaiser-Meyer-Olkin (KMO) test and the Bartlett test of sphericity were performed. The value of the KMO test was 0.81, denoting a sufficient sample size. Also, the Bartlett test of sphericity yielded a χ2 of 812.38 and a P value of less than 0.001. Therefore, it was possible to perform the factor analysis.

Based on the results obtained from Table 2, it is clear that the three factors have eigenvalue higher than one, and together explain about 58% of the variance of the questionnaire such that factor 1 is 32.64%, factor 2 is 13.82%, and factor 3 is 11.26% (Table 3).

Table 2. Matrix of Elements
ItemsQuestionsRotational Element Matrix
Q7Have you felt tired?0.762
Q6Have you felt agitated?0.772
Q5Have you felt as if your movements are slow?0.740
Q4Have you felt anxious?0.731
Q2Have you felt sad?0.683
Q8Has your appetite increased, or have you eaten too much?0.799
Q10Have you been craving for sleep or sleeping too much?0.751
Q1Have you been craving amphetamine or methamphetamine?0.831
Q3Have you lost interest in things or no longer 6. Take pleasure in them?0.550
Q9Have you had any vivid or unpleasant dreams?0.319
Table 3. Factor Load, Special Values, and Percentage of Explanation of Variance
ItemsPrimary SpecialsTotal Squared of Extracted LoadsTotal Squared of Extracted Loads
TotalPercentage of VarianceCumulative PercentTotalPercentage of VarianceCumulative PercentTotalPercentage of VarianceCumulative Percent

It is clear, based on Table 2, that the three factors had an eigenvalue of above 0.5. These 3 factors explained approximately 58% of the total variance of the questionnaire (32.64, 13.82, and 11.26% for the first, second, and third factors, respectively) (Table 2). The scree plot showed the distinction between these three factors compared with the rest.

It was evident that, except for the third factor, almost all the other factors were placed on a slope.

The scree plots were used to determine the number of factors. For this purpose, given the diagram slope, the factors identified in the diagram steep slope were considered the main factors, and the factors parallel to the slope line axis were avoided. The scree plot contributed to the identification of the three factors as the components of the AWQV2 questionnaire. Accordingly, the scree plot below illustrates the distinction between the three factors relative to the rest and followed by the third factor; the remaining factors are almost on the same slope (Figure 1).

Figure 1. Scree plot shows the three factors of the AWQV2 questionnaire

Confirmatory factor analysis and varimax rotation were used to verify the validity of the AWQV2 scale. The confirmatory factor analysis results showed that all items had a significant load factor, greater than 0.319 (the minimum acceptable rate = 0.31) (P = 0.0001), and as explicated in the original study, the items were loaded on the self-loading factors.

Thus, the items 2, 4, 5, 6, 7 were loaded on factor 1 (i.e. reverse vegetative); the items 8 and 10 were loaded on factor 2 (i.e. anxiety); the items 1, 9, 3 were loaded on factor 3 (i.e. hyperarousal). The three factors explained 0.58 of the total variance, and as the general model was properly fitted, all of the items remained on the assumed factors (Figure 2).

Figure 2. Localization statistics of the AWQV2 questionnaire’s questions on the three-factor model

Based on the commonly used criteria, a model with a goodness-of-fit index of above 0.9 is an acceptable model. Nevertheless, it determined a cut-off point of 0.95 for goodness-of-fit indices. Root mean square error of approximation of below 0.05, 0.05 to 0.08, 0.08 to 0.1, and above 0.1 shows a good, acceptable, average, and weak fit of the model, respectively (Table 4). Based on the values presented in the table, it is clear that the indices showed a good fit of the model. Therefore, the 3-factor model was confirmed with the confirmatory factor analysis (25).

Table 4. Evaluation of Confirmatory Factor Analysis Indicators
Desired limit≤ 0.08≥ 0.9≥ 0.9≥ 0.9≥ 0.9

Our results confirmed the three factors of the hyperarousal subscale score, the anxiety subscale score, and the reversed vegetative subscale score; nevertheless, different numbers of items were found for each factor.

The convergent validity of the questionnaire was assessed by calculating the correlation between its total score and the total score of the AWARE questionnaire. The results of Pearson’s correlation coefficient were significant and positive, showing the good convergent validity of the AWQV2. The reliability of the instrument was examined using internal consistency and test-retest reliability methods. Cronbach’s alpha was equal to 0.72 for the AWQV2, indicating that this instrument had an acceptable internal consistency. Cronbach’s alpha for the subscales of this questionnaire was 0.60 to 0.72. The test-retest reliability was investigated by administering the questionnaire twice at a 2-week interval on 30 patients, and the results were compared with the correlation coefficient of 0.77. The results showed the good test-retest reliability of this questionnaire. In addition, test-retest at a 1-week interval was performed on a small number of patients.

5. Discussion

The present study was conducted to determine the validity and reliability of the Persian version of the Amphetamine Withdrawal Questionnaire (AWQv2) in amphetamine users. The study population consisted of 388 people (215 women and 173 men) aged 36.94 ± 10.25 years (range: 16 - 74 years). The reliability of the AWQV2 was confirmed with a Cronbach’s alpha of 0.72 for the entire scale and 0.6 to 0.72 for its subscales, indicating the good internal consistency of the scale. The test-retest coefficients (0.77) further confirmed the stability of the entire scale and its subscales. These results are in agreement with those reported by Srisurapanont et al. (17) and McGregor et al. (18), who reported good reliability for the questionnaire and good factor analysis of the three subscales, i.e. reversed vegetative, anxiety, and hyperarousal. The factor structure and construct validity of the Persian version of the AWQV2 were assessed in this study using both confirmatory and exploratory factor analyses. Further, factor analysis revealed three factors for Farsi AWQV2, including reversed vegetation, anxiety, and arousal.

Moreover, Pearson’s correlation coefficients between the AWQV2 and AWARE showed an acceptable convergent validity. Proper treatment for drug users mandates a patient assessment and monitoring tool for those who are involved in the treatment of addiction.

Methamphetamine is among the drugs with a high rate of relapse and treatment failure. The various treatments used in this field have a high rate of relapse, which becomes an issue when trying to treat amphetamine users (26).

Overall, with its appropriate reliability and validity coefficients and easy implementation in different situations and groups, the AWQV2 can be used by researchers in various research and clinical fields in methamphetamine rehabilitation centers. Compared to previous studies (17, 18), new statistical methods were used in the present study, including confirmatory factor analysis and convergent validity assessment in LISREL version 8.5. Compared to the present study, previous studies on methamphetamine have studied much smaller sample sizes. Also, very few studies have been conducted on female samples, and studying women becomes more crucial due to the various impacts of this gender on different aspects of life, especially the family, childrearing, and the society as a whole (27).

5.1. Limitations

The major limitation of this study was the lack of access to a larger sample of methamphetamine abusers.

5.2. Recommendations

Future studies are recommended to assess the psychometric properties of the Persian version of the AWQV2 using other methods such as structured interviews and behavior observations.

5.3. Conclusions

Using the ten-question questionnaire of AWQV2, we may adequately measure the characteristics of the withdrawal symptoms of methamphetamine withdrawal in its dependents. Based on the results, the AWQV2 has very good psychometric properties and may be used in research and therapeutic interventions. Therefore, the tool may be used for research purposes and planning for diagnosis, treatment, and reduction of injury.




  • 1.

    Ekhtiari H, Alam-Mehrjerdi Z, Hassani-Abharian P, Nouri M, Farnam R, Mokri A. [Examination and evaluation of craving-inductive verbal cues among Persian-speaking methamphetamine abusers]. Adv Cogn Sci. 2010;12(2):69-82. Persian.

  • 2.

    UNODC. World drug report. Vienna; 2015.

  • 3.

    Rafiee H, Nouri R, Baghestani AR. apid Situation Assessment of Drug Abuse and Drug Dependence in Iran. Tehran: Danjeh; 2010.

  • 4.

    Zweben JE, Cohen JB, Christian D, Galloway GP, Salinardi M, Parent D, et al. Psychiatric symptoms in methamphetamine users. Am J Addict. 2004;13(2):181-90. doi: 10.1080/10550490490436055. [PubMed: 15204668].

  • 5.

    Alam Mehrjerdi Z, Barr AM, Noroozi A. Methamphetamine-associated psychosis: a new health challenge in Iran. Daru. 2013;21(1):30. doi: 10.1186/2008-2231-21-30. [PubMed: 23577655]. [PubMed Central: PMC3637332].

  • 6.

    Anderson-Carpenter KD, Fletcher JB, Swendeman D, Reback CJ. Associations between sociodemographic characteristics and substance use disorder severity among methamphetamine-using men who have sex with men. Subst Use Misuse. 2019;54(11):1763-73. doi: 10.1080/10826084.2019.1610445. [PubMed: 31075997]. [PubMed Central: PMC6644069].

  • 7.

    Grodin EN, Courtney KE, Ray LA. Drug-Induced Craving for Methamphetamine Is Associated With Neural Methamphetamine Cue Reactivity. J Stud Alcohol Drugs. 2019;80(2):245-51. [PubMed: 31014470]. [PubMed Central: PMC6489542].

  • 8.

    Al-Adawi S. Tomorrow's People Matters: Evidence for Action in Oman. Oman Med J. 2014;29(2):83-5. doi: 10.5001/omj.2014.21. [PubMed: 24715931]. [PubMed Central: PMC3976729].

  • 9.

    Barati M, Allahverdipour H, Jalilian F. Prevalence and predictive factors of psychoactive and hallucinogenic substance abuse among college students. J Fundament Mental Health. 2012.

  • 10.

    Zorick T, Nestor L, Miotto K, Sugar C, Hellemann G, Scanlon G, et al. Withdrawal symptoms in abstinent methamphetamine-dependent subjects. Addiction. 2010;105(10):1809-18. doi: 10.1111/j.1360-0443.2010.03066.x. [PubMed: 20840201]. [PubMed Central: PMC3071736].

  • 11.

    London ED, Berman SM, Voytek B, Simon SL, Mandelkern MA, Monterosso J, et al. Cerebral metabolic dysfunction and impaired vigilance in recently abstinent methamphetamine abusers. Biol Psychiatry. 2005;58(10):770-8. doi: 10.1016/j.biopsych.2005.04.039. [PubMed: 16095568].

  • 12.

    Zhang J, Su H, Tao J, Xie Y, Sun Y, Li L, et al. Relationship of impulsivity and depression during early methamphetamine withdrawal in Han Chinese population. Addict Behav. 2015;43:7-10. doi: 10.1016/j.addbeh.2014.10.032. [PubMed: 25513754].

  • 13.

    Zhang J, Xie Y, Su H, Tao J, Sun Y, Li L, et al. Prevalence and correlates of depressive symptoms during early methamphetamine withdrawal in Han Chinese population. Drug Alcohol Depend. 2014;142:191-6. doi: 10.1016/j.drugalcdep.2014.06.021. [PubMed: 25001276].

  • 14.

    Glasner-Edwards S, Marinelli-Casey P, Hillhouse M, Ang A, Mooney LJ, Rawson R, et al. Depression among methamphetamine users: association with outcomes from the Methamphetamine Treatment Project at 3-year follow-up. J Nerv Ment Dis. 2009;197(4):225-31. doi: 10.1097/NMD.0b013e31819db6fe. [PubMed: 19363377]. [PubMed Central: PMC2749575].

  • 15.

    Vakili M, Shafiee M, Baharie AH, Mirzaei M. [Prevalence of Substance Abuse among High School Students in 2015-2016 Academic Year in Yazd City, Iran]. J Commun Health Res. 2016;5(4):234-9. Persian.

  • 16.

    Pluddemann A, Flisher AJ, McKetin R, Parry C, Lombard C. Methamphetamine use, aggressive behavior and other mental health issues among high-school students in Cape Town, South Africa. Drug Alcohol Depend. 2010;109(1-3):14-9. doi: 10.1016/j.drugalcdep.2009.11.021. [PubMed: 20064699]. [PubMed Central: PMC3784347].

  • 17.

    Srisurapanont M, Jarusuraisin N, Jittiwutikan J. Amphetamine withdrawal: I. Reliability, validity and factor structure of a measure. Aust N Z J Psychiatry. 1999;33(1):89-93. doi: 10.1046/j.1440-1614.1999.00517.x. [PubMed: 10197890].

  • 18.

    McGregor C, Srisurapanont M, Jittiwutikarn J, Laobhripatr S, Wongtan T, White JM. The nature, time course and severity of methamphetamine withdrawal. Addiction. 2005;100(9):1320-9. doi: 10.1111/j.1360-0443.2005.01160.x. [PubMed: 16128721].

  • 19.

    McQuitty S. Statistical power and structural equation models in business research. J Bus Res. 2004;57(2):175-83. doi: 10.1016/s0148-2963(01)00301-0.

  • 20.

    Kline RB. Principles and practice of structural equation modeling. Guilford publications; 2015.

  • 21.

    Browne MW, Cudeck R. Alternative ways of assessing model fit. In: Bollen KA, Long JS, editors. Testing Structural Equation Models. 21. Newbury Park: Sage; 1992. p. 230-58. doi: 10.1177/0049124192021002005.

  • 22.

    Beaton DE, Bombardier C, Guillemin F, Ferraz MB. Guidelines for the process of cross-cultural adaptation of self-report measures. Spine (Phila Pa 1976). 2000;25(24):3186-91. doi: 10.1097/00007632-200012150-00014. [PubMed: 11124735].

  • 23.

    Larsson H, Tegern M, Monnier A, Skoglund J, Helander C, Persson E, et al. Content Validity Index and Intra- and Inter-Rater Reliability of a New Muscle Strength/Endurance Test Battery for Swedish Soldiers. PLoS One. 2015;10(7). e0132185. doi: 10.1371/journal.pone.0132185. [PubMed: 26177030]. [PubMed Central: PMC4503674].

  • 24.

    Dean AC, Morales AM, Hellemann G, London ED. Cognitive deficit in methamphetamine users relative to childhood academic performance: link to cortical thickness. Neuropsychopharmacology. 2018;43(8):1745-52. doi: 10.1038/s41386-018-0065-1. [PubMed: 29704001]. [PubMed Central: PMC6006320].

  • 25.

    Browne MW, Cudeck R. Alternative Ways of Assessing Model Fit. Sociologic Methods Res. 2016;21(2):230-58. doi: 10.1177/0049124192021002005.

  • 26.

    Aghakhani N, Gharadaghi J, Zareei Kheirabad A, Nazimi N, Zeini Y, Delirrad M, et al. A Survey on Reasons for Re-addiction to Metamphetamine amongAddicts Referred to Addiction Treatment Centers in Urmia, Iran. Ir J Forensic Med. 2017;23(2):104-14.

  • 27.

    Bustani D, Karami Zadeh E. Conditions and strategies for glass consumption among addicted women Case study: Kerman city). Women Develop Plotocs. 2017;15(1):20-8.

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