Abstract
Addiction, including substance use disorder (SUD), is a complex condition that can cause serious health problems and negatively affect patient quality of life. Physical activity is known to improve the physical and mental health of patients with SUD. This study aims to determine the relationship between regular physical activity (RPA) and quality of life in SUD patients enrolled in inpatient SUD treatment (n = 159). We divided patients into four groups based on their RPA before and during hospitalization. The SF-36 self-report questionnaire was used to assess quality of life. We found that SUD patients had worse quality of life than a representative sample of the Czech population. Furthermore, we demonstrated that RPA before and during hospitalization and changes during hospitalization affect the perception of quality of life of patients with SUDs. Additionally, physically active patients showed significantly better quality of life than inactive patients. However, patients who initiated RPA during hospitalization reported worse quality of life than those who did not; in addition, this group of patients reported the worst quality of life across the most monitored parameters. We suggest that these patients represent the most vulnerable group. Changes in physical activity habits could be considered an indicator for a more intensive therapeutic focus.
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Introduction
The topic of substance use disorders (SUDs) is of continuous interest in Europe, including the Czech Republic, where significant numbers of patients with addiction are present among the population (Formánek et al., 2019). Indeed, SUD is regularly associated with social and economic problems and shortens life while worsening its quality (Vancampfort et al., 2018). It is well-known that stress increases vulnerability to addiction and risk of relapse. Recently, one of the main sources of stress has been COVID-19. Therefore, the impact of COVID-19 and related lockdowns on lifestyle habits, psychological well-being and quality of life is being studied (Odone et al., 2020).
Patients with SUDs report decreased quality of life (QoL) (Hoseinifar et al., 2011; Pasareanu et al., 2015; Smith & Larson, 2003), regardless of the abused substance (Denis et al., 2012). More than 30% of patients experience chronic health problems due to substance abuse, such as liver disease, tuberculosis (TBC), HIV/AIDS, cancer, hepatitis C, and diabetes (Eddie et al., 2019). Additionally, decreased social well-being and mental anxiety have been reported (Muller et al., 2016).
Addiction treatment in the Czech Republic has a tradition starting in the 1950s and has developed inpatient treatment for people with SUDs utilizing a comprehensive therapeutic program (Mravcik et al., 2011) that has incorporated continuous improvements through the present day. Treatment includes 5 to 12 days of initial detoxification and subsequent treatment consists mainly of group psychotherapy, minimal medication treatment, hospital treatment in a community ward, social consulting, and physical activity (PA) (Kalina, 2007).
Many findings have shown that regular PA (RPA) increases physical and mental health in patients with addiction (Brown et al., 2016; Kim, 2013; Malt, 2008; Peluso & Guerra de Andrade, 2005; Rawson et al., 2015; Trivedi et al., 2017). PA decreases craving (Roessler et al., 2017) and thus significantly contributes to the long-term maintenance of abstinence (Brown et al., 2009). Furthermore, PA improves psychosocial functioning in patients (Aarde et al., 2015), generally helps to improve QoL (Warburton et al., 2006) and could even reduce mortality, as shown in a recent study in major depression (Murri et al., 2019). Exercise is an accessible and affordable complement to other forms of treatment (Read & Brown, 2003). Additionally, using various treatment services and modalities has positive effects on treatment outcomes (Abbott et al., 1998; McLellan et al., 1994). Patients also benefit from sustained PA, as several studies have suggested positive effects of controlled PA on abstinence after discharge from the hospital (Rawson et al., 2015; Sinyor et al., 1982; Trivedi et al., 2017).
PA programs for patients with addiction in Psychiatric Hospital Bohnice (PHB) in Prague, Czech Republic, include (among others) group exercises, yoga, jogging, bodybuilding, and relaxation. However, outcomes and benefits of PA for patients have not been systematically monitored, although this monitoring is essential, as adopting healthy lifestyle habits is highly desirable during treatment as an alternative to addictive behavior and should constitute a fundamental treatment goal (Colledge et al., 2018). Furthermore, regular participation in PA helps with reintegration into everyday life (Kuda & Kalina, 2008), allowing patients to recognize their own needs and tailor a PA program to address those needs (Muller et al., 2016).
Monitoring patient QoL in the treatment of addiction presents a diagnostic tool (Rudolf & Watts, 2002) that helps evaluate the patient’s clinical status or predict an upcoming relapse (Srivastava et al., 2009). Therefore, interventions increasing QoL should be preferred (Muller et al., 2016).
Although PA is known to improve QoL of people, including patients with SUD, it has not yet been studied in the Czech Republic. Therefore, this study aimed to evaluate patient QoL based on their PA habits.
Materials and Methods
Participants, data collection and analysis
We included a total of 159 patients in this study. The group consisted of patients with mental and behavioral disorders due to the use of alcohol (F10) (60/37.7%), mental and behavioral disorders due to the use of sedatives or hypnotics (F13) (6/3.8%), mental and behavioral disorders due to multiple drug use and the use of other psychoactive substances (66/41.5%), gambling disorder (4/2.5%) and dual diagnosis (23/14.5%). All patients initially underwent standardized therapy procedures for 12 weeks, which focused on psychotherapeutic interventions and routine day regimes in a community of other patients. The 1st to 3rd week of hospitalization consisted of detoxification and support for the physical and psychological stabilization of the patients, which is an indispensable condition for subsequent demanding therapy. We applied exclusion criteria, which included receiving chemotherapy treatment or having an active oncological disorder, an acute cardiometabolic or lung condition, a transmissible infectious disease, or an unstable severe mental illness.
Data were collected in PHB in Prague, Czech Republic, in four dedicated wards providing care to alcohol- or drug-addicted patients and addicted patients with other psychiatric diseases according to the International Statistical Classification of Diseases and Related Health Problems (ICD-10). We surveyed each participant once during the 4th to 12th week of hospitalization; we collected 159 fully answered questionnaires out of 167 surveyed patients.
An ethical committee approved the survey of PHB, and all patients were informed about the use of their answers in the study according to Czech and international legal and ethical standards (acknowledged by signed informed consent).
Questionnaires
We monitored QoL of patients with SUDs with the Czech language version of the 36-Item Short-Form Health Survey (SF-36) questionnaire (Sobotík, 1998). The SF-36 is a standard tool for evaluating the Health-Related Quality of Life index (HRQL) for many somatic diseases, including diabetes or cardiovascular diseases (Sobotík, 1998), and psychiatric disorders or for monitoring significant life changes such as menopause (Moravcova & Mares, 2011). The SF-36 consists of 36 questions divided into eight domains: physical functioning, role limitation-physical, social functioning, role limitation-emotional, pain, mental health, vitality, and general health (Ware & Sherbourne, 1992). Regarding the study being localized in the Czech Republic, we compared current results to answers to the SF-36 questionnaire from previous studies in the local population (Bártlová et al., 2020). This normative group consisted of 1992 individuals that provided a representative sample of Czech citizens aged 40 and older (Bártlová et al., 2020).
All responses were collected in standard paper format (completed by patients). We administered the sociodemographic data questionnaire to each patient. To obtain PA information, the patients were asked to answer two questions regarding their habits and preferences in relation to PA before and during hospitalization: 1) “Did you practice regular physical activity (RPA) before hospitalization?” and 2)” Do you practice RPA during hospitalization (in addition to the official PA programs in the hospital)?”. If they answered “yes”, they were subsequently asked to provide specific information related to their answer and indicate the length and frequency of the exercise. RPA was defined as any PA regularly engaged in for at least 30 min per week. A list of compulsory and voluntary interventions is shown in (Supplementary Table I).
Based on the information obtained on RPA before and during hospitalization, the study participants were divided into four groups. Group A (27.0%) consisted of patients who reported RPA before and during hospitalization. Group B (32.1%) patients reported RPA before hospitalization; however, they were not spontaneously active in the hospital. Patients of Group C (17.6%) were physically inactive before hospitalization, yet they initiated spontaneous RPA in the hospital. Group D (23.3%) patients were inactive before and after hospitalization. QoL between physically active and inactive patients before (Groups A + B vs. C + D) and during hospitalization (Groups A + C vs. B + D) and also between patients who changed their habits and stopped/started RPA after hospitalization and those who did not (A vs. B; C vs. D) was compared.
Statistical analysis
We performed all statistical analyses by using GraphPad Prism 6 (GraphPad Software, San Diego, CA, USA). The Shapiro–Wilk normality test determined normality of the distribution. Comparisons of variables between the two groups were analyzed by unpaired t tests or Mann–Whitney tests. To compare data obtained from three and more groups of subjects, one-way ANOVAs or Kruskal–Wallis tests were conducted. Wilcoxon signed-rank tests were used for the comparison between the patient and normative groups. We calculated Pearson’s and Spearman’s correlation coefficients to assess the relationships between pairs of variables. P-values less than 0.05 were considered statistically significant.
Results
The demographic characteristics of the subjects are summarized in Table 1. The group consisted of 80 men and 79 women with a mean age of 40.7 years. Patient QoL was not affected by sex, body mass index (BMI) or level of education. However, four parameters were positively associated with age: pain (p = 0.034), role limitation-physical (p = 0.004), physical functioning (p < 0.001) and general health (p = 0.014). Further details describing association between characteristics of patients and parameters of their QoL are shown in (Supplementary Table II). In addition, the patients undergoing their first hospitalization reported significantly better general health than those who were repeatedly hospitalized (p = 0.024). There were no differences in the demographic characteristics of the patients among the groups A-D (Table 1).
Comparison of the group of patients with addiction and the normative group
QoL in the group of patients with SUDs compared to the sample group of Czech citizens is shown in Table 2. All parameters, with the exceptions of physical functioning (p = 0.631) and general health (p = 0.062), were significantly worse in the patients with addiction (p < 0.001).
Comparison of patient subgroups based on their regular physical activity habits
The patients who engaged in RPA before hospitalization (Groups A and B) reported significantly better physical functioning (p = 0.025) than the inactive patients (Groups C and D). Other QoL parameters were also higher in the active patients, but these differences were not statistically significant (Fig. 1A).
The patients who engaged in RPA during hospitalization (Groups A and C) reported significantly better physical functioning (p < 0.001), pain (p = 0.027) and general health (p = 0.024) scores than those who did not (Groups B and D) (Fig. 1B).
The majority of patients who engaged in RPA before hospitalization changed their habits and did not engage in RPA during hospitalization (Group B). Comparison of Group B with Group A showed significantly lower QoL reported for physical functioning (p < 0.001), pain (p = 0.001), mental health (p = 0.028), and general health (p = 0.003). Other parameters were not significantly affected, although they were also decreased, compared to those in Group A (Fig. 2A).
Even though 40.9% of patients had not been active before hospitalization (Groups C and D), some (Group C) changed their habits and initiated RPA during hospitalization. In Group C, QoL, as reflected in role limitation-physical (p = 0.025) and social functioning (p = 0.015) scores, was significantly lower than that in Group D. Other parameters were also decreased in Group C, with the exception of physical functioning, which was significantly increased (p = 0.034) (Fig. 2B). Group C represented 17.6% of patients and was identified as having the worst reported QoL based on most of the monitored parameters (role limitation-physical, role limitation-emotional, vitality, mental health, and social functioning).
Discussion
This study examined QoL of 159 patients with SUDs in relation to their PA. We found worse QoL in patients with addiction than in the representative sample from the general Czech population (Bártlová et al., 2020). We also demonstrated significantly better QoL in patients who engaged in RPA before and during hospitalization than in physically inactive patients. In addition, we found that changes in patient habits during hospitalization could affect their QoL.
A previous meta-analytic study (Wang et al., 2014) demonstrated PA to be an effective tool in SUD therapy. However, the benefits of PA on SUD treatment outcomes has not yet been fully proven (Linke & Ussher, 2015; Zschucke et al., 2012) due to a lack of standardized program methodology and program heterogeneity (Dowla et al., 2018) and inconsistent evaluation criteria (Colledge et al., 2018). However, positive effects of PA have been observed with short- or long-term exercise programs (Brown et al., 2016; Zhao et al., 2020). Although the mechanism of how PA contributes to treatment effects in the context of mental illnesses, and in particular, in the treatment of addictions, has not yet been sufficiently elucidated, many studies have been performed in other patient subgroups (Zschucke et al., 2012) or animal models (Aarde et al., 2015).
Poorer QoL of patients with addiction has been repeatedly shown (Denis et al., 2012; Hoseinifar et al., 2011; Pasareanu et al., 2015; Smith & Larson, 2003). Accordingly, our group of patients with SUDs reported significantly worse values on most parameters of the SF-36 questionnaire than the normative Czech population (Bártlová et al., 2020). Our cohort was further divided into four groups based on RPA performed before and during hospitalization to determine the relationship between RPA and QoL.
The patients who were physically active before hospitalization showed higher QoL scores on all parameters than physically inactive patients. However, statistical significance was demonstrated only for physical functioning. These findings could indicate a potential prognostic value of RPA in patients with SUD. The patients who engaged in RPA during hospitalization showed significantly better results in the SF-36 domains physical functioning, pain, and general health than those who did not. Other QoL parameters were comparable between groups. However, low rates of significance with the other parameters could be explained by multiple factors, such as a relatively low number of participants, group heterogeneity, or subjective self-reporting methods. This is consistent with data from, for example, (Sari et al., 2019) who reported no effect of an exercise intervention on QoL of patients with alcohol use disorder.
Almost 60% of the patients engaged in RPA before hospitalization. However, most of them changed their habits and stopped RPA during hospitalization. These patients showed reduced QoL on all parameters in comparison to those who continued to exercise, with the difference being statistically significant for the physical functioning, pain, mental health, and general health SF-36 domains. These results could indicate that patients would report higher QoL if they were supported and motivated not to terminate their PA during hospitalization.
Some of the patients were physically inactive before hospitalization, changed their habits and initiated RPA during hospitalization. Surprisingly, these patients reported worse QoL in all SF-36 domains, with the exception of physical functioning, than physically inactive patients and showed the worst results in role limitation-physical, role limitation-emotional, vitality, mental health, and social functioning dimensions of all groups. Reasons for reduced QoL perception in this group remain unexplained and should be targeted in future studies. However, we suggest that these patients represent the most vulnerable group. A change in their PA habits could be considered an indicator for a more intensive therapeutic focus. This is the first finding identifying such a group concerning QoL.
The results of this study should be interpreted considering some limitations. First, the study lacks a suitable sex-/age-matched control group of subjects and used a previously described group of Czech citizens as a norm. Second, the method of one-time questionnaire implementation introduces the potential for recall bias. Third, we evaluated QoL and RPA solely by self-report questionnaires; objective measurements could provide deeper insight into the relationship between PA and the therapeutic effects. Fourth, the study design was cross-sectional. Therefore, a long-term prospective study is needed to further investigate the impact of RPA on QoL.
Conclusion
In conclusion, these data from the Czech Republic showed significantly worse QoL in SUD patients than the representative population sample. Moreover, we found that QoL in the patients with SUDs was affected by RPA performed before and during hospitalization and changes during hospitalization. In general, we demonstrated significantly better QoL in physically active patients. However, patients who initiated RPA during hospitalization showed a poorer perception of QoL than those who did not. Furthermore, this group of patients was identified as the one with the worst QoL based on most of the monitored parameters. We suggest that these patients represent the most vulnerable group and that a change in their RPA-related habits could be an indicator for a more intensive therapeutic focus.
Abbreviations
- BMI:
-
body mass index
- PA:
-
physical activity
- PHB:
-
Psychiatric Hospital Bohnice
- QoL:
-
quality of life
- RPA:
-
regular physical activity
- SUD:
-
substance use disorder
References
Aarde, S. M., Miller, M. L., Creehan, K. M., Vandewater, S. A., & Taffe, M. A. (2015). One day access to a running wheel reduces self-administration of D-methamphetamine, MDMA and methylone. Drug and alcohol dependence, 151, 151–158. https://doi.org/10.1016/j.drugalcdep.2015.03.016
Abbott, P. J., Weller, S. B., Delaney, H. D., & Moore, B. A. (1998). Community reinforcement approach in the treatment of opiate addicts. American Journal of Drug and Alcohol Abuse. https://doi.org/10.3109/00952999809001696
Bártlová, S., Tóthová, V., Chloubová, I., Šedová, L., Olišarová, V., Michálková, H., & Prajsová, J. (2020). The quality of health of the czech population at the age of 40 + using the short form – 36 (SF-36) questionnaire. Kontakt, 22(1), 16–26. https://doi.org/10.32725/kont.2020.003
Brown, R. A., Abrantes, A. M., Read, J. P., Marcus, B. H., Jakicic, J., Strong, D. R., et al. (2009). Aerobic exercise for alcohol recovery: Rationale, program description, and preliminary findings. Behavior Modification. https://doi.org/10.1177/0145445508329112
Brown, R. A., Prince, M. A., Minami, H., & Abrantes, A. M. (2016). An exploratory analysis of changes in mood, anxiety and craving from pre- to post-single sessions of exercise, over 12 weeks, among patients with alcohol dependence. Mental Health and Physical Activity, 11, 1–6. https://doi.org/10.1016/J.MHPA.2016.04.002
Colledge, F., Brand, S., Pühse, U., Holsboer-Trachsler, E., & Gerber, M. (2018). In inpatient substance use disorder treatment in Switzerland, exercise programmes are implemented but not evaluated – A missed opportunity for improving treatment. Mental Health and Physical Activity. https://doi.org/10.1016/j.mhpa.2018.05.001
Denis, C., Kampman, K., Pettinati, H., & O’Brien, C. (2012). Does substance use affect quality of life? Factors associated with quality of life in alcohol-dependent and alcohol- and cocaine-dependent patients. https://www.drugabuse.gov/international/abstracts/does-substance-use-affect-quality-life-factors-associated-quality-life-in-alcohol-dependent-alcohol
Dowla, R., Murnion, B., Roberts, K., Freeston, J., & Rooney, K. (2018). Physical activity Assessment in Clinical Studies of Substance Use Disorder. Methods in molecular biology (Clifton N J), 1735, 273–284. https://doi.org/10.1007/978-1-4939-7614-0_17
Eddie, D., Greene, M. C., White, W. L., & Kelly, J. F. (2019). Medical Burden of Disease Among Individuals in Recovery From Alcohol and Other Drug Problems in the United States: Findings From the National Recovery Survey. Journal of Addiction Medicine, 13(5).
Formánek, T., Kagström, A., Cermakova, P., Csémy, L., Mladá, K., & Winkler, P. (2019). Prevalence of mental disorders and associated disability: results from the cross-sectional CZEch mental health study (CZEMS). European Psychiatry, 60, 1–6. https://doi.org/10.1016/j.eurpsy.2019.05.001
Hoseinifar, J., Zirak, S. R., Shaker, A., Meamar, E., Moharami, H., & Siedkalan, M. M. (2011). Comparison of quality of life and mental health of addicts and non-addicts. In Procedia - Social and Behavioral Sciences. https://doi.org/10.1016/j.sbspro.2011.10.375
Kalina, K. (2007, August). Developing the system of drug services in the Czech Republic. Journal of Drug Issues. SAGE Publications Sage CA. https://doi.org/10.1177/002204260703700109. Los Angeles, CA.
Kim, H. (2013). Exercise rehabilitation for smartphone addiction. Journal of Exercise Rehabilitation. https://doi.org/10.12965/jer.130080
Kuda, A., & Kalina, K. (2008). Sociální rehabilitace a následná péče. Základy klinické adiktologie (pp. 215–224). Prague: Grada Publishing.
Linke, S. E., & Ussher, M. (2015). Exercise-based treatments for substance use disorders: evidence, theory, and practicality. American Journal of Drug and Alcohol Abuse. https://doi.org/10.3109/00952990.2014.976708
Malt, U. F. (2008). Exercise in the treatment of major depressive disorder: still a long way to go [2]. Psychosomatic Medicine. https://doi.org/10.1097/PSY.0b013e31816726fa
McLellan, A. T., Alterman, A. I., Metzger, D. S., Grissom, G. R., Woody, G. E., Luborsky, L., & O’Brien, C. P. (1994). Similarity of Outcome Predictors Across Opiate, Cocaine, and Alcohol treatments: role of treatment services. Journal of Consulting and Clinical Psychology. https://doi.org/10.1037/0022-006X.62.6.1141
Moravcova, M., & Mares, J. (2011). Tools for assessment of quality of life in postmenopausal women. Kontakt, 13(4), 434–442. https://doi.org/10.32725/kont.2011.048
Mravcik, V., Nechanská, B., & St’astná, L. (2011). Residential care for substance users and addicts in the Czech Republic according to the Health Statistics since 1959. Epidemiologie, Mikrobiologie, Imunologie.
Muller, A. E., Skurtveit, S., & Clausen, T. (2016). Many correlates of poor quality of life among substance users entering treatment are not addiction-specific. Health and Quality of Life Outcomes. https://doi.org/10.1186/s12955-016-0439-1
Murri, M. B., Ekkekakis, P., Magagnoli, M., Zampogna, D., Cattedra, S., Capobianco, L. (2019). Physical exercise in major depression: Reducing the mortality gap while improving clinical outcomes. Frontiers in Psychiatry, 9. https://doi.org/10.3389/fpsyt.2018.00762
Odone, A., Lugo, A., Amerio, A., Borroni, E., Bosetti, C., Carreras, G. (2020). Covid-19 lockdown impact on lifestyle habits of Italian adults. Acta Biomedica, 91. https://doi.org/10.23750/abm.v91i9-S.10122
Pasareanu, A. R., Opsal, A., Vederhus, J. K., Kristensen, Ø., & Clausen, T. (2015). Quality of life improved following in-patient substance use disorder treatment. Health and Quality of Life Outcomes. https://doi.org/10.1186/s12955-015-0231-7
Peluso, M. A. M., & de Guerra, L. H. S. (2005). Physical activity and mental health: the association between exercise and mood. Clinics (São Paulo, Brazil). https://doi.org/10.1590/S1807-59322005000100012
Rawson, R. A., Chudzynski, J., Mooney, L., Gonzales, R., Ang, A., Dickerson, D. (2015). Impact of an exercise intervention on methamphetamine use outcomes post-residential treatment care. Drug and Alcohol Dependence, 156. https://doi.org/10.1016/j.drugalcdep.2015.08.029
Read, J. P., & Brown, R. A. (2003). The role of physical exercise in alcoholism treatment and recovery. Professional Psychology: Research and Practice. https://doi.org/10.1037/0735-7028.34.1.49
Roessler, K. K., Bilberg, R., Søgaard Nielsen, A., Jensen, K., Ekstrøm, C. T., & Sari, S. (2017). Exercise as adjunctive treatment for alcohol use disorder: a randomized controlled trial. Plos One. https://doi.org/10.1371/journal.pone.0186076
Rudolf, H., & Watts, J. (2002). Quality of life in substance abuse and dependency. International Review of Psychiatry. https://doi.org/10.1080/09540260220144975
Sari, S., Bilberg, R., Søgaard Nielsen, A., & Roessler, K. K. (2019). The effect of exercise as adjunctive treatment on quality of life for individuals with alcohol use disorders: a randomized controlled trial. Bmc Public Health, 19(1), 1–8. https://doi.org/10.1186/s12889-019-7083-8
Sinyor, D., Brown, T., Rostant, L., & Seraganian, P. (1982). The role of a physical fitness program in the treatment of alcoholism. Journal of Studies on Alcohol. https://doi.org/10.15288/jsa.1982.43.380
Smith, K. W., & Larson, M. J. (2003). Quality of life assessments by adult substance abusers receiving publicly funded treatment in Massachusetts. American Journal of Drug and Alcohol Abuse. https://doi.org/10.1081/ADA-120020517
Sobotík, Z. (1998). Zkušenosti s použitím předběžné české verze amerického dotazníku o zdraví (SF 36). Zdravotnictví v České republice, 1(1), 50–54.
Srivastava, S., Bhatia, M. S., Rajender, G., & Angad, S. (2009). Quality of life in substance use disorders. Delhi psychiatry journal, 12(1), 114–120.
Trivedi, M. H., Greer, T. L., Rethorst, C. D., Carmody, T., Grannemann, B. D., Walker, R., et al. (2017). Randomized controlled trial comparing exercise to health education for stimulant use disorder: results from the CTN-0037 STimulant reduction intervention using dosed exercise (STRIDE) study. Journal of Clinical Psychiatry, Vol. 78, https://doi.org/10.4088/JCP.15m10591
Vancampfort, D., Stubbs, B., & Mugisha, J. (2018). Physical activity and HIV in sub-saharan africa: a systematic review of correlates and levels. African Health Sciences, 18(2), 394–406. https://doi.org/10.4314/ahs.v18i2.25
Wang, D., Wang, Y., Wang, Y., Li, R., & Zhou, C. (2014). Impact of physical exercise on substance use disorders: a meta-analysis. Plos One. https://doi.org/10.1371/journal.pone.0110728
Warburton, D. E. R., Nicol, C. W., & Bredin, S. S. D. (2006). Health benefits of physical activity: the evidence. Cmaj. https://doi.org/10.1503/cmaj.051351
Ware, J. E., & Sherbourne, C. D. (1992). The MOS 36-item short-form health survey (Sf-36): I. conceptual framework and item selection. Medical Care.
Zhao, Q., Wang, X., Lu, Y., Zhao, Q., & Zhou, C. (2020). Effects of chronic exercise on temporal discounting among persons with methamphetamine use disorder. Mental Health and Physical Activity, 19, 100350. https://doi.org/10.1016/J.MHPA.2020.100350
Zschucke, E., Heinz, A., & Strhle, A. (2012). Exercise and physical activity in the therapy of substance use disorders. The Scientific World Journal. https://doi.org/10.1100/2012/901741
Acknowledgements
We thank all participants in our study for their engagement and interest in this study. This paper was supported by the institutional support program Progres No. Q06/LF1 and the Specific University Research Grant No.: 260500. This article was created within the framework of the Cooperatio programme, the scientific area of HEAS.
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Köhlerová, M.Z., Fišerová, Z. & Páv, M. Physical activity habits and their effects on quality of life in patients with addiction: data from the Czech Republic. Curr Psychol 43, 3150–3157 (2024). https://doi.org/10.1007/s12144-023-04402-w
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DOI: https://doi.org/10.1007/s12144-023-04402-w