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5. Bewegen tijdens kanker: Moving Cancer Care deliverables
De Arteveldehogeschool engageert zich om met haar onderwijs, onder-zoek en dienstverlening een maatschappelijke meerwaarde te creëren. Spe-cifiek voor mensen die zich in een kwetsbare situatie bevinden zoals per-sonen met chronische aandoeningen of kanker wil Arteveldehogeschool het verschil maken. Momenteel lopen er voor personen met kanker diver-se praktijkgerichte wetenschappelijke onderzoeken zoals de ‘betekenisvol-le activiteiten-methode’, ondersteuning bij werkhervatting (I-KNOW-HOW) en Moving Cancer Care. Om de onderzoeksresultaten optimaal te valorise-ren worden resultaten gebundeld en tools ontwikkeld die patiënten, mantel-zorgers en professionals kunnen gebruiken om doelgericht te werk te gaan.
Binnen dit artikel worden de eerste resultaten van het onderzoek Moving Can-cer Care alvast gebundeld. In een volgend stadium werkt het onderzoeks-team aan een inspiratiegids en een toolbox die ‘bewegen tijdens kanker’
moet optimaliseren. Deze inspiratiegids zal inzoomen op de wetenschap-pelijk onderbouwde informatie en stilstaan bij de eerder beschreven resul-taten vanuit eigen onderzoek. Daarnaast zal de inspiratiegids een prakti-sche toolbox aanbieden voor zij die kankerpatiënten willen ondersteunen op weg naar een actieve levensstijl. Zo willen de onderzoekers het werkveld praktisch ondersteunen met bruikbare bronnen en informatiedragers, check-lists, handleidingen, opleidingsmogelijkheden, apps en digitale toepassingen.
Samengevat willen de onderzoekers de drempels van de patiënten, zorgprofessio-nals en beweegprofessiozorgprofessio-nals helder weergeven om ze daarna te koppelen aan mogelijke hefbomen of tools. Moving Cancer Care wil zo (1) de inzichten vergroten in de beweegredenen van kankerpatiënten om (niet) te bewegen, (2) de rol van zorg- en beweegprofessionals versterken in het begeleiden van de kankerpatiën-ten bij bewegingsactiviteikankerpatiën-ten en (3) de vormen van beweegaanbod die het meest geschikt zijn in kaart brengen.
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6. Referentielijst
1. https://kankerregister.org/Cancer_Fact_Sheets_NL_versie.
2. Cramp, F. and J. Byron-Daniel, Exercise for the management of cancer-related fatigue in adults. Cochrane database of systematic reviews, 2012(11).
3. Berger, A.M., et al., Cancer-related fatigue, version 2.2015. Journal of the National Comprehensive Cancer Network, 2015. 13(8): p. 1012-1039.
4. Speck, R.M., et al., An update of controlled physical activity trials in cancer
survivors: a systematic review and meta-analysis. Journal of Cancer Survivorship, 2010. 4(2): p. 87-100.
5. Rock, C.L., et al., Nutrition and physical activity guidelines for cancer survivors. CA:
a cancer journal for clinicians, 2012. 62(4): p. 242-274.
6. Lipsett, A., et al., The impact of exercise during adjuvant radiotherapy for breast cancer on fatigue and quality of life: A systematic review and meta-analysis.
The breast, 2017. 32: p. 144-155.
7. Arem, H., et al., Physical activity and cancer-specific mortality in the NIH-AARP Diet and Health Study cohort. International journal of cancer, 2014. 135(2): p. 423-431.
8. Holmes, M.D., et al., Physical activity and survival after breast cancer diagnosis.
Jama, 2005. 293(20): p. 2479-2486.
9. Ibrahim, E.M. and A. Al-Homaidh, Physical activity and survival after breast cancer diagnosis: meta-analysis of published studies. Medical oncology, 2011. 28(3):
p. 753-765.
10. Lahart, I.M., et al., Physical activity, risk of death and recurrence in breast cancer survivors: a systematic review and meta-analysis of epidemiological studies. Acta Oncologica, 2015. 54(5): p. 635-654.
11. Courneya, K.S., et al., Effects of exercise during adjuvant chemotherapy on breast cancer outcomes. Med Sci Sports Exerc, 2014. 46(9): p. 1744-1751.
12. Jones, L.W., et al., Cardiopulmonary function and age-related decline across the breast cancer survivorship continuum. Journal of clinical oncology, 2012. 30(20):
p. 2530.
13. Jones, L.W., et al., Safety and feasibility of aerobic training on cardiopulmonary function and quality of life in postsurgical nonsmall cell lung cancer patients: a pilot study. Cancer, 2008. 113(12): p. 3430-3439.
14. Mishra, S.I., et al., Exercise interventions on health-related quality of life for cancer survivors. Cochrane Database of Systematic Reviews, 2012(8).
15. Campbell, K.L., et al., Exercise guidelines for cancer survivors: consensus statement from international multidisciplinary roundtable. Medicine & Science in Sports &
Exercise, 2019. 51(11): p. 2375-2390.
16. Dennett, A.M., et al., Moderate-intensity exercise reduces fatigue and improves mobility in cancer survivors: a systematic review and meta-regression. Journal of physiotherapy, 2016. 62(2): p. 68-82.
17. Wolin, K.Y., et al., Implementing the exercise guidelines for cancer survivors.
The journal of supportive oncology, 2012. 10(5): p. 171.
Naam icoon De pijl voor
het ontwerp
23
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het ontwerp
18. McNeely, M.L., et al., Effects of exercise on breast cancer patients and survivors:
a systematic review and meta-analysis. Cmaj, 2006. 175(1): p. 34-41.
19. Courneya, K.S., et al., Effects of aerobic and resistance exercise in breast cancer patients receiving adjuvant chemotherapy: a multicenter randomized controlled trial. Journal of clinical oncology, 2007. 25(28): p. 4396-4404.
20. Courneya, K.S., et al., Effects of exercise dose and type during breast cancer che motherapy: multicenter randomized trial. Journal of the National Cancer Institute, 2013. 105(23): p. 1821-1832.
21. van Waart, H., et al., Effect of low-intensity physical activity and moderate-to high-intensity physical exercise during adjuvant chemotherapy on physical fitness, fatigue, and chemotherapy completion rates: results of the PACES randomized clinical trial. J Clin Oncol, 2015. 33(17): p. 1918-27.
22. Schmitz, K.H., et al., Exercise is medicine in oncology: engaging clinicians to help patients move through cancer. CA: a cancer journal for clinicians, 2019. 69(6):
p. 468-484.
23. World Health Organization, WHO guidelines on physical activity and sedentary behaviour: at a glance. 2020.
24. Cantwell, M., et al., Healthcare professionals’ knowledge and practice of physical activity promotion in cancer care: Challenges and solutions. European Journal of Cancer Care, 2018. 27(2): p. e12795.
25. Emery, C.F., et al., Determinants of physical activity among women treated for breast cancer in a 5-year longitudinal follow-up investigation. Psycho-Oncology:
Journal of the Psychological, Social and Behavioral Dimensions of Cancer, 2009.
18(4): p. 377-386.
26. Rogers, L.Q., et al., Exercise preferences among patients with head and neck cancer:
prevalence and associations with quality of life, symptom severity, depression, and rural residence. Head & Neck: Journal for the Sciences and Specialties of the Head and Neck, 2009. 31(8): p. 994-1005.
27. Stevinson, C., et al., A population-based study of the determinants of physical activity in ovarian cancer survivors. Journal of Physical Activity and Health, 2009.
6(3): p. 339-346.
28. Sun, V., et al., Barriers and facilitators of adherence to a perioperative physical activity intervention for older adults with cancer and their family caregivers.
Journal of Geriatric Oncology, 2020. 11(2): p. 256-262.
29. Henriksson, A., et al., Perceived barriers to and facilitators of being physically active during adjuvant cancer treatment. Patient education and counseling, 2016.
99(7): p. 1220-1226.
30. Granger, C.L., et al., Improving the delivery of physical activity services in lung cancer: A qualitative representation of the patient’s perspective. European journal of cancer care, 2019. 28(1): p. e12946.
31. Lucía, A., C. Earnest, and M. Pérez, Cancer–related fatigue: can exercise physiology assist oncologists? The lancet oncology, 2003. 4(10): p. 616-625.
24
Naam icoon De pijl voor
het ontwerp
32. Al-Majid, S. and D.O. McCarthy, Cancer-induced fatigue and skeletal muscle wasting:
the role of exercise. Biological research for nursing, 2001. 2(3): p. 186-197.
33. IJsbrandy, C., et al., Implementing physical activity programs for patients with cancer in current practice: patients’ experienced barriers and facilitators. Journal of cancer survivorship, 2019. 13(5): p. 703-712.
34. Smith-Turchyn, J., et al., Physical activity and breast cancer: a qualitative study on the barriers to and facilitators of exercise promotion from the perspective of health care professionals. Physiotherapy Canada, 2016. 68(4): p. 383-390.
35. Hardcastle, S.J., et al., Knowledge, attitudes, and practice of oncologists and oncology health care providers in promoting physical activity to cancer survivors:
an international survey. Supportive Care in Cancer, 2018. 26(11): p. 3711-3719.
36. Berra, K., J. Rippe, and J.E. Manson, Making physical activity counseling a priority in clinical practice: the time for action is now. Jama, 2015. 314(24): p. 2617-2618.
37. Schmitz, K.H., et al., American college of sports medicine roundtable on exercise guidelines for cancer survivors. Medicine & Science in Sports & Exercise, 2010. 42(7):
p. 1409-1426.
38. Haussmann, A., et al., Are healthcare professionals being left in the lurch? The role of structural barriers and information resources to promote physical activity to cancer patients. Supportive Care in Cancer, 2018. 26(12): p. 4087-4096.
39. Keogh, J.W., et al., Benefits and barriers of cancer practitioners discussing physical activity with their cancer patients. Journal of Cancer Education, 2017. 32(1): p. 11-15.
40. Smaradottir, A., et al., Are we on the same page? Patient and provider perceptions about exercise in cancer care: a focus group study. Journal of the National Comprehensive Cancer Network, 2017. 15(5): p. 588-594.
41. Nadler, M., et al., Oncology care provider perspectives on exercise promotion in people with cancer: an examination of knowledge, practices, barriers, and facilitators. Supportive Care in Cancer, 2017. 25(7): p. 2297-2304.
42. Tsiouris, A., et al., Health care professionals’ perception of contraindications for physical activity during cancer treatment. Frontiers in oncology, 2018. 8: p. 98.
43. Daley, A.J., et al., What advice are oncologists and surgeons in the United Kingdom giving to breast cancer patients about physical activity? International Journal of Behavioral Nutrition and Physical Activity, 2008. 5(1): p. 1-4.
44. Karvinen, K.H., et al., Physical activity promotion among oncology nurses.
Cancer nursing, 2012. 35(3): p. E41-E48.
45. O’Hanlon, É. and N. Kennedy, Exercise in cancer care in I reland: a survey of oncology nurses and physiotherapists. European Journal of Cancer Care, 2014. 23(5):
p. 630-639.
46. Cheema, B.S., C.M. Fairman, and M. Marthick, Exercise professionals in the cancer center: experiences, recommendations, and future research. Translational Journal of the American College of Sports Medicine, 2019. 4(13): p. 96-105.
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Naam icoon De pijl voor
het ontwerp
47. Ten Tusscher, M.R., et al., Education needs of Dutch physical therapists for the treatment of patients with advanced cancer: a mixed methods study. Physical Therapy, 2020. 100(3): p. 477-486.
48. Keswani, S. and S. Kalra, Onco-physiotherapy: A new emering trend. World Journal of Pharmaceutical Research, 2017. 6(17): p. 400-404.
49. DeScenza, V.R., A Qualitative Investigation of Barriers and Enablers to Offering a Cancer-Specific Exercise Wellness Program Among Community-Based Health and Fitness Professionals. 2019, The Ohio State University.
50. Santa Mina, D., et al., Enablers and barriers in delivery of a cancer exercise program:
the Canadian experience. Current Oncology, 2015. 22(6): p. 374.
51. Brown, J.C., et al., Efficacy of exercise interventions in modulating cancer-related fatigue among adult cancer survivors: a meta-analysis. Cancer Epidemiology and Prevention Biomarkers, 2011. 20(1): p. 123-133.
52. Scott, D.A., et al., Multidimensional rehabilitation programmes for adult cancer survivors. Cochrane Database of Systematic Reviews, 2013(3).
53. IJsbrandy, C., et al., Effectiveness of implementation strategies to increase physical activity uptake during and after cancer treatment. Critical Reviews in Oncology/
Hematology, 2018. 122: p. 157-163.
54. Musanti, R. and B. Murley, Community-Based Exercise Programs for Cancer Survivors. Clinical journal of oncology nursing, 2016. 20(6).
55. Buffart, L.M., et al., Effects and moderators of exercise on quality of life and physical function in patients with cancer: an individual patient data meta-analysis of 34 RCTs. Cancer treatment reviews, 2017. 52: p. 91-104.
56. Stout, N.L., et al., A systematic review of exercise systematic reviews in the cancer literature (2005-2017). PM&R, 2017. 9(9): p. S347-S384.
57. Keogh, J.W. and R.D. MacLeod, Body composition, physical fitness, functional performance, quality of life, and fatigue benefits of exercise for prostate cancer patients: a systematic review. Journal of pain and symptom management, 2012.
43(1): p. 96-110.
58. Floyd, A. and A. Moyer, Group versus individual exercise interventions for women with breast cancer: A meta-analysis. Health Psychology Review, 2010. 4(1): p. 22-41.
59. Ormel, H., et al., Predictors of adherence to exercise interventions during and after cancer treatment: a systematic review. Psycho-oncology, 2018. 27(3): p. 713-724.
60. Kom op tegen Kanker. Oncorevalidatie. 2019; Available from: https://www.allesover kanker.be/oncorevalidatie.
61. Adriaenssens, N., Kanker in beweging. Kanker? In beweging!, in Axxon MAGAZINE.
2020.
62. Stichting tegen Kanker. Stichting tegen Kanker financiert 30 projecten me fysieke activiteiten voor kankerpatiënten. 2019; Available from: https://www.kanker.be/
nieuws/socialgrants.
63. Glasgow, R.E., et al., RE-AIM planning and evaluation framework: adapting to new science and practice with a twenty-year review. Frontiers in public health, 2019. 7:
p. 64.
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