Barriers to physical activity among cancer pediatric cancer patients and survivors: a scoping review

Guimarães, Jean Augusto Coelho; Guerra, Paulo Henrique; Ueno, Deisy Terumi; Spósito, Letícia Aparecida Calderão; Sebastião, Emerson; Nakamura, Priscila Missaki

doi:10.1590/S1980-657420220005621

Abstract

Aim:

The present scoping review aims to provide an overview of barriers to PA reported by pediatric cancer patients undergoing treatment as well as after treatment. This study further aims to describe and discuss the instruments used for assessing barriers in this population.

Methods:

Article search was performed in common medical databases and yielded five original research articles.

Results:

The included articles reported barriers to PA that can be grouped into the following categories: individuals, physical, environmental, and treatment. Among the instruments used to assess barriers to PA, it was observed that questionnaires and interviews are commonly adopted. This review underscores a paucity of studies in this area.

Conclusion:

A comprehensive understanding of barriers to PA in the pediatric cancer population is paramount for the development of tailored strategies and interventions aiming to promote PA in this under-researched group. In addition, future studies must adopt a mixed-methods approach, longitudinal design with specific instruments in the pediatric cancer population.

Keywords
oncology; pediatric; barriers; physical activity

Introduction

Pediatric cancer is characterized by a set of rare neoplasms, with moderate incidence¹1. Curado MP, Edwards B, Shin HR, Storm H, Ferlay J, Heanue M, et al. Cancer incidence in five continents IX. Lyon, IARC; 2007. Available from: https://ci5.iarc.fr/CI5I-X/Pages/download.aspx [Accessed 5th March 2018].
https://ci5.iarc.fr/CI5I-X/Pages/downloa... and a high risk of mortality²2. Instituto Nacional de Câncer José de Alencar Gomes da Silva. Estimativa 2018: incidência de câncer no Brasil. Rio de Janeiro, Coordenação de Prevenção e Vigilância INCA; 2017. Available from: http://www.epi.uff.br/wp-content/uploads/2013/08/estimativa-incidencia-de-cancer-no-brasil-2018.pdf [Accessed 18th September 2018].
http://www.epi.uff.br/wp-content/uploads... . There is evidence suggesting that insufficient amounts of physical activity (PA) (i.e., less than 60 min of moderate-to-vigorous PA daily) is an independent risk factor3³3. World Health Organization. Global recommendations on physical activity for health. Geneva, World Health Organization; 2010. Available from: https://apps.who.int/iris/handle/10665/44399 [Accessed 21st January 2019].
https://apps.who.int/iris/handle/10665/4... 4. World Health Organization. Guide to cancer early diagnosis. Geneva, World Health Organization; 2017. Available from: https://www.who.int/cancer/publications/cancer_early_diagnosis/en/ [Accessed 15th January 2019].
https://www.who.int/cancer/publications/... ^-55. Islami F, Sauer AG, Miller KD, Siegel RL, Fedewa SA, Jacobs EJ, et al. Proportion and number of cancer cases and deaths attributable to potentially modifiable risk factors in the United States. CA Cancer J Clin. 2018;68:31-54. both for cancer onset as well as for other conditions after treatment, such as for overweight, obesity⁶6. Reilly JJ, Ventham JC, Ralston JM, Donaldson M, Gibson B. Reduced energy expenditure in preobese children treated for acute lymphoblastic leukemia. Pediatric Res. 1998;44:557-62., cardiovascular diseases⁷7. Oeffinger KC, Mertens AC, Sklar CA, Kawashima T, Hudson MM, Meadows AT, et al. Chronic health condition in adult survivors of childhood cancer. N Engl J Med. 2006;355:1572-82., and musculoskeletal deficits⁸8. Wilson CL, Stratton K, Leisenring WL, Oeffinger KC, Nathan PC, Wasilweski-Masker K, et al. Decline in physical activity level in the childhood cancer survivor study cohort. Cancer Epidemiol Biomarkers Prev. 2014;23(8):1619-27.. However, despite the well-known physical⁹9. Klika R, Tamburini A, Galanti G, Mascherini G, Stefani L. The role of exercise in pediatric and adolescent cancers: a review of assessments and suggestions for clinical implementation. J Funct Morphol Kinesiol. 2018;3(7):1-19. and psychosocial¹⁰10. Arroyave WD, Clipp EC, Miller PE, Jones LW, Ward DS, Bonner MJ, et al. Childhood cancer survivor’s perceived barriers to improving exercise and dietary behaviors. Oncol. Nurs. Forum. 2008;35(1):121-30. benefits associated with regular PA a significant portion of pediatric cancer patients (i.e., 4-19 years) undergoing treatment and/or cancer survivors do not reach the current recommendations of PA and are less active than their peers without the disease^11,11. Winter C, Müller C, Hoffmann C, Boos J, Rosenbaum D. Physical activity and childhood cancer. Pediatr Blood Cancer. 2010;54:501-10.¹²12. Zhang FF, Saltzman E, Must A, Parsons SK. Do childhood cancer survivors meet the diet and physical activity guidelines? A review of guidelines and literature. Int J Child Health Nutr. 2012;1(1):44-58..

A wide range of factors related to insufficient amounts of PA in this population is described in the literature. Factors negatively impacting the ability of the individual to partake in physical activity have been called barriers. Barriers to PA can be defined as factors that prevent or make it difficult to start or maintain regular PA. Such factors are known to be complex and multifactorial in nature¹³13. Sallis JF, Hovell MF. Determinants of exercise behavior. Exerc Sport Sci Rev. 1990;18:307-30.. A large array of barriers has been reported to be associated with reduced amounts of PA in pediatric cancer patients, including but not limited to fatigue, risk of infection, pain, low self-esteem, lack of time, poor school performance, and lack of medical advice on PA for adolescents and family members¹⁴14. Yelton L, Forbis S. Influences, and barriers on physical activity in pediatric oncology patients. Front Pediatr. 2016;4(131):1-9..

Identifying and understating barriers to PA, in different populations, are crucial for the development of tailored strategies and interventions focusing on PA promotion¹⁵15. Rech CR, Camargo EM, Araujo PAB, Loch MR, Reis RS. Perceived barriers to leisure-time physical activity in the Brazilian population. Rev Bras Med Esporte. 2018;24(4):303-9.. In the context of barriers to PA in the pediatric cancer population (i.e., undergoing treatment and cancer survivors) some contributions can be observed in the literature¹⁶16. Ross WL, Le A, Zheng DJ, Mitchell H, Rotatori J, Li F, et al. Physical activity barriers, preferences, and beliefs in childhood cancer patients. Support Care Cancer. 2018;26(7):2177-84.. However, to the best of our knowledge, no study has attempted to provide an overview/summary of the available literature on this matter (i.e., scoping review). This is important because, given the heterogeneity of previous studies, an overview of the existing findings and aspects of the methodology adopted (i.e., instruments would provide a better understanding of the most frequent barriers to PA in this population and provide helpful and valuable information for future studies addressing this topic) may help identify potential targets for intervention and better guide future studies in this area.

In view of the important role played by PA as a complementary therapy for cancer treatment¹⁷17. Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52. and the possibility of supporting actions focusing on health promotion, the present study aimed to conduct a scoping review of barriers to PA in the pediatric cancer population, as well as to examine the methods/instruments used to assess such information. Scoping review is a relatively new approach to evidence synthesis and differs from systematic reviews in its purpose and aims. Although unclear about the term systematic, these reviews have common points like research question, search strategy, inclusion and exclusion criteria, selection methods, quality/risk of bias, data analysis, and synthesis allowing reproducibility¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.. However, scoping review is conducted to provide an overview of the available research evidence without producing a summary answer to a discrete research question¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8..

Methods

This scoping review was conducted according to systematic principles (Supplement 1) found at the Preferred Reporting Items of Systematic Review and Meta-analyzes - PRISMA²⁰20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28. and registered in the International Prospective Register of Systematic Reviews (CRD42018090447).

Study design and eligibility

It was previously defined that this scoping review would include: a) original research articles; b) research studies using observational and experimental designs; c) research studies published in English, Portuguese and Spanish; and d) research studies that included pediatric population during and/or after cancer treatment. It is important to highlight that research studies including comprehensive samples, where pediatric patients were included, were also included and analyzed. Of note, articles were not excluded based on country of origin, year of publication, type, and stage of cancer, or in relation to the procedures adopted for treatment/therapy.

The methodological process of this scoping review consisted of a literature search in four electronic databases: Lilacs, PubMed, Scielo, Web of Science, and SPORTDiscus. The following Boolean operators and keywords were used to perform the search: “physical activity” OR “physical exercise” OR “motor activity” AND cancer* OR leukemia* OR oncologic* OR chemotherapy* AND teenager* OR adolescent* OR student* OR young* OR youth* OR juvenile* OR survivor* OR pediatric* AND barrier* AND NOT adult* OR rat* OR mouse* OR animal*. Searches were conducted on 11/2020 covering original studies. A detailed description of the strategies adopted throughout can be found elsewhere (Supplement 2). To avoid missing articles of interest, a manual search of the reference lists was also carried out.

Assessment, selection, and data extraction

Articles search, selection, and evaluation as well as the analysis of the articles included (i.e., title, abstract, and full article reading) were carried out by two researchers (DU and LS). In cases of disagreement between the two evaluators, a third researcher, previously selected, was responsible for the eligibility decision (JG).

Data extraction and organization were conducted by the principal investigator using an Excel spreadsheet. The data were organized in four domains: 1) article identification (e.g., place of study, year of data collection, sample size, age group, and sex); 2) information about the methods (e.g., characteristics of the study, intervention, and assessment tools); 3) information about the results (e.g., main measures and barriers) and 4) Study limitations (e.g., main difficulties).

After selecting, evaluating, and extracting data from the studies found in the search, we decided to remove the risk of bias instrument, as four studies were classified as observational. Although organizations such as the Cochrane Collaboration propose and updated assessment tools for non-observational studies, currently they do not present a valid instrument for verifying the risk of bias in observational studies.

Results

The data obtained from the selected studies are shown in Figure 1. Briefly, the search in the databases yielded 608 studies, and after the initial screening, 51 studies were selected for the second stage (i.e., abstracts checking). Forty out of 51 studies were excluded, and therefore, 11 studies were selected for full-text reading. Because of the inclusion criteria adopted an additional seven studies were excluded (2 studies did not fit the design criteria and 4 studies due to the age of the participants included). Thereby, the descriptive synthesis of the present review comprised five studies²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.^-2525. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339..

Figure 1
Flow diagram of study selection.

Characteristics of participants and studies

The selected articles were published between 2010 and 2015, with all articles coming from high-income countries (i.e., United States of America²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; Canada^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.; Germany²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.; Australia²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.). The sample size ranged from 40²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7. to 105²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8. participants, involving individuals between the ages of 4 and 20 years old (Table 1). Three studies included children and adolescents^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.^23,23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339., whilst the other two articles involved only adolescent^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9., Leukemia^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.^24,24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. and bone tumor²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7. were the most prevalent types of cancer in the samples.

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Table 1
Location identification and characteristics of the study samples.

All studies adopted a cross-sectional design²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.^-2525. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.. Regarding the instruments to assess barriers to PA, it was observed that studies adopted either the use of questionnaires^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.^24,24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. or semi-structured interviews^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.. Additional data collected included: anthropometric measurement with bioimpedance, blood pressure, and the use of an oximeter²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. (Table 2). It was further observed a great heterogeneity regarding the moments of application of the instruments in the treatment phase²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7., in the post-treatment phase^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.^25,25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. and both²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9..

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Table 2
Identification and main characteristics of the instruments for data collection.

For a better understanding of the results, barriers to PA were organized into four domains: individual, physical, environmental, and therapy/treatment (Table 3). Overall, 40 barriers were observed, with a greater number being classified as an individual (n = 19) and physical (n = 14) domains. More specifically, fatigue^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.^-2525. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. and lack of company²²22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.^-2525. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339. were the most frequent barriers to PA among cancer pediatric patients. Such barriers were reported by three out of five included studies.

Other less frequently reported barriers included: lack of energy and bad mood^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.; bad weather^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.^23,23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.; lack of time^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.; perception of PA practice as boring^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.²²22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.; nausea, lack of motivation to practice, excessive medical-hospital routine²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.; lack of access to structures for PA²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.^-2525. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.; pain^24,24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.; lack of instruction from doctors and parents, fear of others’ opinion²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9. and lack of social support from family and friends^21,21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.^22,22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9. (Table 3).

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Table 3
Synthesis of barriers to PA in pediatric cancer patients and survivors.

Discussion

This scoping review aimed to provide an overview of reported barriers to PA in the pediatric cancer population, as well as to examine the methods/instruments used to assess such information. Among the included studies, a total of 40 different barriers to PA were reported by this population, either during or after treatment. A significant proportion of the factors negatively impacting PA participation in this population were related to the individual and physical domains. Barriers such as lack of company and fatigue were reported in four out of the five included studies. Regarding the methods used to assess barriers to PA, it was observed a great heterogeneity in terms of the instruments of data collection and forms of application, and sample inclusion criteria concerning the different types of cancers and moments of the treatment (e.g., during and/or after treatment).

The findings of the present review are somehow similar to the results observed by previous studies in non-cancer groups. For example, a systematic review with adolescents between 10 to 19 years old without cancer (n = 8.350), presented that the main barriers in the individual domain are lack of company, social support from family and friends, and motivations¹⁵15. Rech CR, Camargo EM, Araujo PAB, Loch MR, Reis RS. Perceived barriers to leisure-time physical activity in the Brazilian population. Rev Bras Med Esporte. 2018;24(4):303-9.. However, in the same study, the physical domain such as fatigue was not reported as a barrier to PA by these adolescents.

However, after the diagnosis of cancer in pediatric individuals, a new life routine emerges, which impacts on the reduction of PA levels due to the disease itself and cancer treatment, which, although highly effective during the cancer remission process, presents short and long-term adverse effects on patients. Among the wide array of adverse effects is the increase in fatigue, deficits in cardiopulmonary function, in the immune system, and the neuromuscular system²⁶26. Huang TT, Ness KK. Exercise interventions in children with cancer: a review. Int J Pediatr. 2011;2011:1-11.; in addition to greater weaknesses in mobility and functional capacities, especially in females patients²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.. Furthermore, patients undergoing treatment are more likely to avoid participation in PA practice, which may result in higher levels of social isolation²⁷27. Barr RD, Ferrari A, Ries L, Whelan J, Bleyer A. Cancer in adolescents and young adults: a narrative review of the current status and a view of the future. JAMA Pediatr. 2016;170(5):495-501. and loneliness²⁸28. Götte M, Taraks S, Boos J. Sports in pediatric oncology: the role(s) of physical activity for children with cancer. J Pediatr Hematol Oncol. 2014;36:85-90., impacting the perception related to lack of company.

The barriers and their respective domains identified by this study are in line with the multiple levels of influence observed in the socio-ecological model of health behavior, in which different levels interact with each other to influence behavior (i.e., physical activity). The multiple levels of influences often include intrapersonal, interpersonal, organizational, community, physical environment, and policy²⁹29. Martínez-Andrés M, Bartolomé-Gutiérrez R, Rodríguez-Martín B, Pardo-Guijarro MJ, Garrido-Miguel M, Martínez-Vizcaíno V. Barriers, and facilitators to leisure physical activity in children: A qualitative approach using the socio-ecological model. Int J Res Public Health. 2020;17:3033.. Despite the domains are interrelated, recognizing barriers by categories seems to be coherent to promote actions and adequate incentives suitable for a more active lifestyle in pediatric cancer patients or survivor³⁰30. Brasil. Guia de Atividade física para a população brasileira. Brasília, Ministério da Saúde; 2021. Available from: https://aps.saude.gov.br/biblioteca/visualizar/MjA1MA== [Accessed 08th August 2021].
https://aps.saude.gov.br/biblioteca/visu... . A multidisciplinary approach that goes beyond the hospital environment, which is safe, feasible, and adaptable to the health conditions of patients and the routine of their respective parents/guardians^31,31. Munsie C, Ebert J, Joske D, Ackland T. The benefit of physical activity in adolescents and young adult cancer patients during and after treatment: a systematic review. J Adolesc Young Adult Oncol. 2019;8:512-24.³²32. Guimarães JAC. Fatores sociodemográficos, ambientais, barreiras e facilitadores à prática de atividade física de lazer de pacientes pediátricos oncológicos. Rio Claro, São Paulo. Dissertação [Mestrado em Ciências da Motricidade], Universidade Estadual Paulista Júlio de Mesquita Filho, Rio Claro; 2019..

Previous studies have shown that PA interventions in this population are highly promising since they reflect improvements in fatigue³³33. Djik-Lokkart EM, Steur LMH, Braam KI, Veening MA, Huisman J, Takken T, et al. Longitudinal development of cancer-related fatigue and physical activity in childhood cancer patients. Pediatr Blood Cancer. 2019;66:e27949., cardiac function³⁴34. Morales JS, Santana-Sosa E, Santos-Lozano A, Baño-Rodrigo A, Valenzuela PL, Rincón-Castanedo C, et al. Inhospital exercise benefits in childhood cancer: A prospective cohort study. Scand J Med Sci Sports. 2019;30:126-34., muscle strength³⁵35. Fiuza-Luces C, Padilla JR, Soares-Miranda L, Santana-Sosa E, Quiroga JV, Santos-Lozano A, et al. Exercise intervention in pediatric patients with solid tumors: the physical activity in pediatric cancer trial. Med Sci Sports Exerc. 2017;49(2):223-30., and do not compromise the immune system, consequently improving patients’ and survivors’ quality of life³⁶36. Patti A, Paoli A, Bianco A, Palma A. Pediatric exercise programs in children with hematological cancer: a systematic review. EJSS Journal. 2013;1(2):71-86.. In addition, the social support from family and friends represents a motivation factor for engaging in practices within the hospital³⁷37. Thorsteinsson T, Schmiegelow K, Thing LF, Andersen LB, Helms AS, Ingersgaard MV, et al. Classmates motivate childhood cancer patients to participate in physical activity during treatment: A qualitative study. Eur J Cancer Care. 2019;28:e13121.. Similarly, social support from the community and sports groups³⁸38. Gilliam MB, Schwebel DC. Physical activity in child and adolescent cancer survivors: a review. Health Psychol Rev. 2013;7(1):92-110. can also approximate them to PA practice, which can provide interaction and feelings of greater independence for those involved³⁹39. Spreafico F, Murelli M, Timmons BW, Massimino M, Barr R. Sport activities and exercise as part of routine cancer care in children and adolescents. Pediatr Blood Cancer. 2019;66:1-6..

Study limitations

Although research on PA for pediatric cancer patients and survivors has expressed positive effects and significant advances in the past 15 years, the area still faces important limitations and biases, such as the reduced use of objective assessments and sample diversity in terms of age group, sex, stages of treatment, post-treatment and types of cancers¹²12. Zhang FF, Saltzman E, Must A, Parsons SK. Do childhood cancer survivors meet the diet and physical activity guidelines? A review of guidelines and literature. Int J Child Health Nutr. 2012;1(1):44-58.. This scoping review confirms these limitations, also identifying the wide use of different questionnaires, some specific for the pediatric oncology population and others not; in addition, the sample diversity, previously mentioned, makes it difficult to make comparisons and generalizations, since the actions and strategies to promote PA may have different characteristics for various oncological groups and periods of treatment or post-treatment.

Another point identified by this scoping review was the paucity of studies regarding barriers to PA during and after pediatric cancer treatment. Our literature search identified only five studies. According to a previous study, researchers have focused on investigating motor function, fatigue, well-being, and quality of life⁴⁰40. Shank J, Chamorro-Viña C, Guilcher GMT, Langelier DM, Schulte F, Culos-Reed N. Evaluation tools for physical activity programs for childhood cancer: a scoping review. J Pediatr Oncol Nurs. 2020;37(3):163-79., in addition to recognizing the difficulties in developing research with this population, such as the period of treatment, social isolation, arduous medical-hospital routine, state of vulnerability and the overprotection of health teams and family member⁴¹41. Wright MJ, Ness, K. Rehabilitation and exercise. In: Bleyer A, Barr R, Ries L, Whelan J, Ferrari A (eds). Cancer in adolescents and young adults. 2nd ed. Switzerland, Springer International Publishing AG; 2017. p. 651-66..

The strengths of this study lie in the strong methodology used to search for the articles, the design that followed the principles recommended by PRISMA. In addition, to the best of our knowledge, this is a recent study that attempts to summarize the current literature on this theme.

Future studies should adopt the mix-methods approach, longitudinal design, and well-structured valid questionnaires to be used in pediatric cancer patients and survivors. In addition, semi-structured interviews implemented alongside visual participatory research methods such as photo-elicitation⁴²42. Sebastião E, Gálvez PAE, Bobbitt J, Adamson BC, Schwingel A. Visual and participatory research techniques: photo-elicitation and its potential to better inform public health about physical activity and eating behavior in underserved populations. J Public Health. 2016;24:3-7. can help shed light on the reality of these participants and should be used to foster the qualitative uniqueness of the topic. It is noteworthy that offering several means of data collection, such as telephone, e-mail, and remote interviews can facilitate participation.

The most prevalent barriers were those of personal and physical characteristics, which favors practical implications for training health professionals to work with guidelines for pediatric cancer patients and their families on the benefits of a more active lifestyle and, consequently, impact on the health and quality of life during and after cancer treatment.

Conclusion

The available evidence suggests that the greatest number of barriers to PA practice in pediatric cancer patients and survivors is found in the individual and physical domains, such as lack of company and fatigue, domains that are also enhanced by the treatment itself. In order to overcome such barriers, health professionals should advise and offer patients and their families the possibility of adopting a more active lifestyle during treatment. There is compelling evidence of the benefits of PA during and after cancer treatment, highlighting not only the benefits of such behavior on symptoms of the diseases (e.g., fatigue) but more important on quality of life.

Acknowledgments

We are gratefully the Postgraduate Program in Movement Sciences, São Paulo State University, National Council for Scientific and Technological Development (CNPq), and Coordination for the Improvement of Higher Education Personnel (CAPES).

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» https://aps.saude.gov.br/biblioteca/visualizar/MjA1MA==
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Munsie C, Ebert J, Joske D, Ackland T. The benefit of physical activity in adolescents and young adult cancer patients during and after treatment: a systematic review. J Adolesc Young Adult Oncol. 2019;8:512-24.
^32.
Guimarães JAC. Fatores sociodemográficos, ambientais, barreiras e facilitadores à prática de atividade física de lazer de pacientes pediátricos oncológicos. Rio Claro, São Paulo. Dissertação [Mestrado em Ciências da Motricidade], Universidade Estadual Paulista Júlio de Mesquita Filho, Rio Claro; 2019.
^33.
Djik-Lokkart EM, Steur LMH, Braam KI, Veening MA, Huisman J, Takken T, et al. Longitudinal development of cancer-related fatigue and physical activity in childhood cancer patients. Pediatr Blood Cancer. 2019;66:e27949.
^34.
Morales JS, Santana-Sosa E, Santos-Lozano A, Baño-Rodrigo A, Valenzuela PL, Rincón-Castanedo C, et al. Inhospital exercise benefits in childhood cancer: A prospective cohort study. Scand J Med Sci Sports. 2019;30:126-34.
^35.
Fiuza-Luces C, Padilla JR, Soares-Miranda L, Santana-Sosa E, Quiroga JV, Santos-Lozano A, et al. Exercise intervention in pediatric patients with solid tumors: the physical activity in pediatric cancer trial. Med Sci Sports Exerc. 2017;49(2):223-30.
^36.
Patti A, Paoli A, Bianco A, Palma A. Pediatric exercise programs in children with hematological cancer: a systematic review. EJSS Journal. 2013;1(2):71-86.
^37.
Thorsteinsson T, Schmiegelow K, Thing LF, Andersen LB, Helms AS, Ingersgaard MV, et al. Classmates motivate childhood cancer patients to participate in physical activity during treatment: A qualitative study. Eur J Cancer Care. 2019;28:e13121.
^38.
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^39.
Spreafico F, Murelli M, Timmons BW, Massimino M, Barr R. Sport activities and exercise as part of routine cancer care in children and adolescents. Pediatr Blood Cancer. 2019;66:1-6.
^40.
Shank J, Chamorro-Viña C, Guilcher GMT, Langelier DM, Schulte F, Culos-Reed N. Evaluation tools for physical activity programs for childhood cancer: a scoping review. J Pediatr Oncol Nurs. 2020;37(3):163-79.
^41.
Wright MJ, Ness, K. Rehabilitation and exercise. In: Bleyer A, Barr R, Ries L, Whelan J, Ferrari A (eds). Cancer in adolescents and young adults. 2nd ed. Switzerland, Springer International Publishing AG; 2017. p. 651-66.
^42.
Sebastião E, Gálvez PAE, Bobbitt J, Adamson BC, Schwingel A. Visual and participatory research techniques: photo-elicitation and its potential to better inform public health about physical activity and eating behavior in underserved populations. J Public Health. 2016;24:3-7.

Supplementay Material

Supplement 1 Preferred Reporting Items of Systematic Review and Meta-analyzes - PRISMA20 and registered in the International Prospective Register of Systematic Reviews (CRD42018090447). Supplement 2 Supporting information.

Associate Editor: Romulo A. Fernandes0000-0003-1576-8090, Universidade Estadual Paulista “Júlio de Mesquita Filho”, Presidente Prudente, SP, Brazil. E-mail: romulo_ef@yahoo.com.br.

Publication Dates

Publication in this collection
10 Dec 2021
Date of issue
2022

History

Received
19 Mar 2021
Accepted
27 Sept 2021

Motriz. The Journal of Physical Education. UNESP. Rio Claro, SP, Brazil - eISSN: 1980-6574 - under a license Creative Commons - Version 4.0

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Curado MP, Edwards B, Shin HR, Storm H, Ferlay J, Heanue M, et al. Cancer incidence in five continents IX. Lyon, IARC; 2007. Available from: https://ci5.iarc.fr/CI5I-X/Pages/download.aspx [Accessed 5th March 2018].
» https://ci5.iarc.fr/CI5I-X/Pages/download.aspx

[2] ^2.
Instituto Nacional de Câncer José de Alencar Gomes da Silva. Estimativa 2018: incidência de câncer no Brasil. Rio de Janeiro, Coordenação de Prevenção e Vigilância INCA; 2017. Available from: http://www.epi.uff.br/wp-content/uploads/2013/08/estimativa-incidencia-de-cancer-no-brasil-2018.pdf [Accessed 18th September 2018].
» http://www.epi.uff.br/wp-content/uploads/2013/08/estimativa-incidencia-de-cancer-no-brasil-2018.pdf

[3] ^3.
World Health Organization. Global recommendations on physical activity for health. Geneva, World Health Organization; 2010. Available from: https://apps.who.int/iris/handle/10665/44399 [Accessed 21st January 2019].
» https://apps.who.int/iris/handle/10665/44399

[4] ^4.
World Health Organization. Guide to cancer early diagnosis. Geneva, World Health Organization; 2017. Available from: https://www.who.int/cancer/publications/cancer_early_diagnosis/en/ [Accessed 15th January 2019].
» https://www.who.int/cancer/publications/cancer_early_diagnosis/en/

[5] ^5.
Islami F, Sauer AG, Miller KD, Siegel RL, Fedewa SA, Jacobs EJ, et al. Proportion and number of cancer cases and deaths attributable to potentially modifiable risk factors in the United States. CA Cancer J Clin. 2018;68:31-54.

[6] ^6.
Reilly JJ, Ventham JC, Ralston JM, Donaldson M, Gibson B. Reduced energy expenditure in preobese children treated for acute lymphoblastic leukemia. Pediatric Res. 1998;44:557-62.

[7] ^7.
Oeffinger KC, Mertens AC, Sklar CA, Kawashima T, Hudson MM, Meadows AT, et al. Chronic health condition in adult survivors of childhood cancer. N Engl J Med. 2006;355:1572-82.

[8] ^8.
Wilson CL, Stratton K, Leisenring WL, Oeffinger KC, Nathan PC, Wasilweski-Masker K, et al. Decline in physical activity level in the childhood cancer survivor study cohort. Cancer Epidemiol Biomarkers Prev. 2014;23(8):1619-27.

[9] ^9.
Klika R, Tamburini A, Galanti G, Mascherini G, Stefani L. The role of exercise in pediatric and adolescent cancers: a review of assessments and suggestions for clinical implementation. J Funct Morphol Kinesiol. 2018;3(7):1-19.

[10] ^10.
Arroyave WD, Clipp EC, Miller PE, Jones LW, Ward DS, Bonner MJ, et al. Childhood cancer survivor’s perceived barriers to improving exercise and dietary behaviors. Oncol. Nurs. Forum. 2008;35(1):121-30.

[11] ^11.
Winter C, Müller C, Hoffmann C, Boos J, Rosenbaum D. Physical activity and childhood cancer. Pediatr Blood Cancer. 2010;54:501-10.

[12] ^12.
Zhang FF, Saltzman E, Must A, Parsons SK. Do childhood cancer survivors meet the diet and physical activity guidelines? A review of guidelines and literature. Int J Child Health Nutr. 2012;1(1):44-58.

[13] ^13.
Sallis JF, Hovell MF. Determinants of exercise behavior. Exerc Sport Sci Rev. 1990;18:307-30.

[14] ^14.
Yelton L, Forbis S. Influences, and barriers on physical activity in pediatric oncology patients. Front Pediatr. 2016;4(131):1-9.

[15] ^15.
Rech CR, Camargo EM, Araujo PAB, Loch MR, Reis RS. Perceived barriers to leisure-time physical activity in the Brazilian population. Rev Bras Med Esporte. 2018;24(4):303-9.

[16] ^16.
Ross WL, Le A, Zheng DJ, Mitchell H, Rotatori J, Li F, et al. Physical activity barriers, preferences, and beliefs in childhood cancer patients. Support Care Cancer. 2018;26(7):2177-84.

[17] ^17.
Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52.

[18] ^18.
Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.

[19] ^19.
Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.

[20] ^20.
Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.

[21] ^21.
Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.

[22] ^22.
Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.

[23] ^23.
Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.

[24] ^24.
Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.

[25] ^25.
Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.

[26] ^26.
Huang TT, Ness KK. Exercise interventions in children with cancer: a review. Int J Pediatr. 2011;2011:1-11.

[27] ^27.
Barr RD, Ferrari A, Ries L, Whelan J, Bleyer A. Cancer in adolescents and young adults: a narrative review of the current status and a view of the future. JAMA Pediatr. 2016;170(5):495-501.

[28] ^28.
Götte M, Taraks S, Boos J. Sports in pediatric oncology: the role(s) of physical activity for children with cancer. J Pediatr Hematol Oncol. 2014;36:85-90.

[29] ^29.
Martínez-Andrés M, Bartolomé-Gutiérrez R, Rodríguez-Martín B, Pardo-Guijarro MJ, Garrido-Miguel M, Martínez-Vizcaíno V. Barriers, and facilitators to leisure physical activity in children: A qualitative approach using the socio-ecological model. Int J Res Public Health. 2020;17:3033.

[30] ^30.
Brasil. Guia de Atividade física para a população brasileira. Brasília, Ministério da Saúde; 2021. Available from: https://aps.saude.gov.br/biblioteca/visualizar/MjA1MA== [Accessed 08th August 2021].
» https://aps.saude.gov.br/biblioteca/visualizar/MjA1MA==

[31] ^31.
Munsie C, Ebert J, Joske D, Ackland T. The benefit of physical activity in adolescents and young adult cancer patients during and after treatment: a systematic review. J Adolesc Young Adult Oncol. 2019;8:512-24.

[32] ^32.
Guimarães JAC. Fatores sociodemográficos, ambientais, barreiras e facilitadores à prática de atividade física de lazer de pacientes pediátricos oncológicos. Rio Claro, São Paulo. Dissertação [Mestrado em Ciências da Motricidade], Universidade Estadual Paulista Júlio de Mesquita Filho, Rio Claro; 2019.

[33] ^33.
Djik-Lokkart EM, Steur LMH, Braam KI, Veening MA, Huisman J, Takken T, et al. Longitudinal development of cancer-related fatigue and physical activity in childhood cancer patients. Pediatr Blood Cancer. 2019;66:e27949.

[34] ^34.
Morales JS, Santana-Sosa E, Santos-Lozano A, Baño-Rodrigo A, Valenzuela PL, Rincón-Castanedo C, et al. Inhospital exercise benefits in childhood cancer: A prospective cohort study. Scand J Med Sci Sports. 2019;30:126-34.

[35] ^35.
Fiuza-Luces C, Padilla JR, Soares-Miranda L, Santana-Sosa E, Quiroga JV, Santos-Lozano A, et al. Exercise intervention in pediatric patients with solid tumors: the physical activity in pediatric cancer trial. Med Sci Sports Exerc. 2017;49(2):223-30.

[36] ^36.
Patti A, Paoli A, Bianco A, Palma A. Pediatric exercise programs in children with hematological cancer: a systematic review. EJSS Journal. 2013;1(2):71-86.

[37] ^37.
Thorsteinsson T, Schmiegelow K, Thing LF, Andersen LB, Helms AS, Ingersgaard MV, et al. Classmates motivate childhood cancer patients to participate in physical activity during treatment: A qualitative study. Eur J Cancer Care. 2019;28:e13121.

[38] ^38.
Gilliam MB, Schwebel DC. Physical activity in child and adolescent cancer survivors: a review. Health Psychol Rev. 2013;7(1):92-110.

[39] ^39.
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Reference	City (year of data collection)	Sample size	Age ( $\bar{x}$ )	Female (%)	Cancer type
Gilliam et al. 2013	Birmingham, United States of America (2010-2011)	105	8-16 (12.3)	51	Leukemia, Central Nervous System Tumor, Soft Tissue Sarcoma, Non-Hodgkin’s Lymphoma, Kidney Tumor, Neuroblastoma, Hodgkin's Lymphoma, Osteosarcoma, Other
Wright et al. 2013	Hamilton, Canada (2013)	96	13-18 (16.0)	39	Leukemia, Solid Tumor, Lymphoma, Central Nervous System Tumor
Götte et al. 2014	Müenster, Germany (2011-2012)	40	4-20 (13.2)	47	Acute Lymphoblastic Leukemia, Acute Myeloid Leukemia, Lymphoma, Bone Tumor, Ewing Sarcoma, Osteosarcoma
Wright, 2015	Hamilton, Canada (2015)	80	12-19 (15.0)	43	Leukemia, Lymphoma, Other
Mizhari et al. 2020	Sydney, Australia (2017-2018)	102	8-18 (12.8)	38	Acute Lymphoblastic Leukemia, Lymphomas, Wilms’ Tumor, Neuroblastoma, Acute Myeloid Leukemia, Other

Author	Instruments for collection	Validation of instruments	Time for collection
Gilliam et al. 2013	Questionnaires		≅ 20 min
Gilliam et al. 2013	1- Sociodemographic	1- nd
	2- Common Terminology Criteria for Adverse Events - version 3	2- Kappa coefficient and ICC r = 0.88 - 1.00
	3- Modified Leisure Score Index > Godin Leisure Time Exercise Questionnaire	3- r = 0.24 VO2max e 0.13 BF, p < 0.01²²22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.
	4- PA scale (19 items)	4- α = 0.78 e r = 0.81, α = 0.84 (in this study)
	5- PA peer support (3 items)	5- α = 0.74 e r = 0.70, α = 0.88 (in this study)
	6- Perceived benefits to PA (13 items)	6- α = 0.92 e r = 0.65, α = 0.71 (in this study)
	7- Perceived barriers to PA (23 items)	7- α = 0.88 e r = 0.65, α = 0.86 (in this study)
	8- Self-efficacy to PA (5 items)	8- α = 0.85 e r = 0.89, α = 0.70 (in this study)
Wright et al. 2013	Questionnaires		nd
Wright et al. 2013	1- Leisure Score Index of Godin Leisure-Time Exercise Questionnaire	1- r = 0.81
	2- PRO Questionnaires for facilitators and barriers to PA	2- nd
	3- Fatigue Scale for Adolescents	3- α = 0.87²²22. Wright M, Bryans A, Gray K, Skinner L, Verhoeve A. Physical activity in adolescents following treatment for cancer: influencing factors. Leuk Res Treatment. 2013;2013:1-7.
	4- Amherst Health and Activity Study Student Survey - adapted	4- r = 0.34 e 0.64 students-parents and PA, 0.04 a 0.21 students and PA
	Semi-structured interview
	5- Recorder	5- nd
	Measures	6- BMI - 70% to 80% sensitivity and positive predictive value, 95% high specificity²³23. Götte M, Kesting S, Winter C, Rosenbaum D, Boss J. Experience of barriers and motivations for physical activities and exercise during treatment of pediatric patients with cancer. Pediatr Blood Cancer. 2014;61:1632-7.
	6- Anthropometric - Clinical documents (patients) and self-report (non-patients)
Götte et al. 2014	Face to face interview	nd	≅ 18 min
Götte et al. 2014	1- Exercise values and beliefs during intensive care
	2- Barriers to exercise
	3- Motivations to exercise
	4- Encouragement of parents and doctors
	Medical information
	5- Electronic patient record technology
Wright, 2015	Questionnaires		nd
	1- Pediatric Outcomes Data Collection	1.1/1.2 - α = > 0.80
	1.1- Transfer and Basic Mobility
	1.2- Sports/Physical Functioning
Mizhari et al. 2020	Questionnaires		nd
Mizhari et al. 2020	1- Sociodemographic	1- nd
	2- Clinical variables	2- nd
	3- Leisure Score Index of Godin Leisure-Time Exercise Questionnaire	3- r = 0.84
	4- Barriers to exercise	4- Based on¹⁰10. Arroyave WD, Clipp EC, Miller PE, Jones LW, Ward DS, Bonner MJ, et al. Childhood cancer survivor’s perceived barriers to improving exercise and dietary behaviors. Oncol. Nurs. Forum. 2008;35(1):121-30.
	5- Patient-Centered Assessment and Counseling for Exercise questionnaire	5- α = > 0.75²⁴24. Wright M. Physical activity participation and preferences: developmental and oncology-related transitions in adolescents treated for cancer. Physiother Can. 2015;67(3):292-9.
	6- Screen time questionnaire (purpose-designed)	6- nd
	Measures
	7- Aneroid sphygmomanometer (blood pressure)	7- nd
	8- 6-min walk test	8- Based on²⁵25. Mizhari D, Wakefield CE, Simar D, Ha L, McBride J, Field P, et al. Barriers and enablers to physical activity and aerobic fitness deficits among childhood cancer survivors. Pediatr Blood Cancer. 2020,67:e28339.26. Huang TT, Ness KK. Exercise interventions in children with cancer: a review. Int J Pediatr. 2011;2011:1-11.^-2727. Barr RD, Ferrari A, Ries L, Whelan J, Bleyer A. Cancer in adolescents and young adults: a narrative review of the current status and a view of the future. JAMA Pediatr. 2016;170(5):495-501.
	8.1- Pulse oximeter (heart rate, oxygen saturation)
	8.2- Borg’s Scale (rate of perceived exertion 1-10)
	9- Anthropometric (bioimpedance InBody 570) and (digital stadiometer and weighed to BMI)	9- Based on²⁸28. Götte M, Taraks S, Boos J. Sports in pediatric oncology: the role(s) of physical activity for children with cancer. J Pediatr Hematol Oncol. 2014;36:85-90.

Barriers	Description
Individual	Dislike PA²⁰20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.; find boring PA^17,17. Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52.¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.; moodiness and lack of energy^18,18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.; lack of self-discipline and skill¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.; lack of time^17,17. Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52.^18,18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; lack of company¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.^-2121. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; lack of instruction from doctors and parents²⁰20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.; lack of social support from family and friends¹⁷17. Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52.^-1818. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.^-2020. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.; lack of knowledge on how to be physically active and teasing friends during PA^18,18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; someone told them not to exercise and lack of self-awareness about exercise appearance¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.; fear of others opinion²⁰20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28., experiences that diminished the pleasure if practicing PA, lack of reason for PA and school lessons¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8., rather watch TV²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8..
Physical	Fatigue^17,17. Nogueira HS, Lima WP. Câncer, sistema imunológico e exercício físico: uma revisão narrativa. Corpoconsciência. 2018;22(1):40-52.¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.^-2121. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; pain^20,20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; worry about injury²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; balance issues¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28.^-2121. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; dizziness,nausea, risk of infections, gastrointestinal problems, lack of physical fitness, difficulties in dynamic movements, and limitations due to the tumor site, drowsiness¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.; overweight¹⁸18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203. and general health²⁰20. Liberati A, Altman DG, Tetzlaff J, Mulrow C, Gotzsche PC, Ioannidis JPA, et al. The PRISMA statement for reporting systematic reviews and meta-analyses of studies that evaluate health care interventions: explanation and elaboration. PLoS Medicine. 2009;6(7):1-28..
Environmental	Lack of space to practice PA and lack of sports equipment^19,19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; bad weather^18,18. Martinic MK, Pieper D, Glatt A, Puljak L. Definition of a systematic review used in overviews of systematic reviews, meta-epidemiological studies, and textbooks. BMC Medi Res Methodol. 2019;19:203.^19,19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8.; no gym access²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8..
Related to treatment/therapy	Time of treatment and medical-hospital routines¹⁹19. Sucharew H, Macaluso M. Methods for research evidence synthesis: the scoping review approach. J Hosp Med. 2019;14(7):416-8.; late-effects²¹21. Gilliam MB, Madan-Swain A, Whelan K, Tucker DC, Demark-Wahnefried W, Schwebel DC. Cognitive influences as mediators of family and peer support for pediatric cancer survivors’ physical activity. Psychooncology. 2013;22(6):1361-8..