1. Go AS, Mozaffarian D, Roger VL, et al. American Heart Association Statistics Committee and Stroke Statistics Subcommittee. Heart disease and stroke statistics--2013 update: a report from the American Heart Association. Circulation 2013; 127: e6-245.
2.
Ni H, Xu J. Recent trends in heart failure-related mortality: United States, 2000-2014. NCHS Data Brief. 2015; 231: 1-8.
3.
Knuuti J, Wijns W, Saraste A, et al. 2019 ESC Guidelines for the diagnosis and management of chronic coronary syndromes. Eur Heart J 2020; 41: 407-77.
4.
Shen Y, Yan T, Peng Q, et al. Kinesiophobia in patients with angina pectoris of coronary artery disease: a cross-sectional survey. Heart Lung 2023; 57: 7-11.
5.
Keessen P, Latour CHM, van Duijvenbode ICD, et al. Factors related to fear of movement after acute cardiac hospitalization. BMC Cardiovasc Disord 2020; 20: 495.
6.
Knapik A, Dąbek J, Brzęk A. Kinesiophobia as a problem in adherence to physical activity recommendations in elderly Polish patients with coronary artery disease. Patient Prefer Adherence 2019; 13: 2129-35.
7.
Dąbek J, Knapik A, Gallert-Kopyto W, et al. Fear of movement (kinesiophobia) – an underestimated problem in Polish patients at various stages of coronary artery disease. Ann Agric Environ Med 2020; 27: 56-60.
8.
Baykal Şahin H, Kalaycıoğlu E, Şahin M. The effect of cardiac rehabilitation on kinesiophobia in patients with coronary artery disease. Turk J Phys Med Rehabil 2021; 67: 203-10.
9.
Bäck M, Jansson B, Cider A, et al. Validation of a questionnaire to detect kinesiophobia (fear of movement) in patients with coronary artery disease. J Rehabil Med 2012; 44: 363-9.
10.
Slepian PM, Ankawi B, France CR. Longitudinal analysis supports a fear-avoidance model that incorporates pain resilience alongside pain catastrophizing. Ann Behav Med 2020; 54: 335-45.
11.
Sturgeon JA, Zautra AJ. Resilience: a new paradigm for adaptation to chronic pain. Curr Pain Headache Rep 2010; 14: 105-12.
12.
da Silva JM, de Melo Ghisi GL, da Silva PF, et al. Examining barriers to adherence and motives for engagement and motivation among cardiovascular rehabilitation participants. J Cardiopulm Rehabil Prev 2024; 44: E14-6.
13.
Farris SG, Kibbey MM. Be brave, BE-FIT! A pilot investigation of an ACT-informed exposure intervention to reduce exercise fear-avoidance in older adults. Cogn Behav Ther 2022; 51: 273-94.
14.
Keijzer AR de, Kauling RM, Jorstad H, et al. Physical activity for cardiovascular prevention. Accessed July 7, 2024. Available at: https://www.escardio.org/Councils/Council-for-Cardiology-Practice(CCP)/Cardiopractice/physical-activity-for-cardiovascular-prevention.
15.
Lawshe CH. A quantitative approach to content validity. Pers Psychol 1975; 28: 563-75.
16.
Ayre C, Scally AJ. Critical values for Lawshe’s content validity ratio. Meas Eval Couns Dev 2014; 47: 79-86.
17.
Acar S, Savci S, Keskinoğlu P, et al. Tampa Scale of Kinesiophobia for Heart Turkish Version Study: cross-cultural adaptation, exploratory factor analysis, and reliability. J Pain Res 2016; 9: 445-51.
18.
Craig CL, Marshall AL, Sjöström M, et al. International physical activity questionnaire: 12-country reliability and validity. Med Sci Sports Exerc 2003; 35: 1381-95.
19.
Sakpal TV. Sample size estimation in clinical trial. Perspect Clin Res 2010; 1: 67-9.
20.
Schober P, Boer C, Schwarte LA. Correlation coefficients: appropriate use and interpretation. Anesth Analg 2018; 126: 1763-8.
21.
Wang X, Liu T, Jin X, et al. Aerobic exercise promotes emotion regulation: a narrative review. Exp Brain Res 2024; 242: 783-96.
22.
Saanijoki T, Lauri N. “Bodily maps of exercise-induced sensations.”, 2024 (Unpublished work) Available at: https://osf.io/3g5ta/ URL (Accessed on 07 July 2024).
23.
Zhou Y, Gao X, Xu J, et al. Network analysis of perception of exercise benefits/barriers and kinesiophobia among patients with cardiovascular diseases. Heart Lung 2024; 64: 182-8.
24.
Çakal B, Yıldırım M, Emren SV. Kinesiophobia, physical performance, and health-related quality of life in patients with coronary artery disease. Adv Interv Cardiol 2022; 18: 246-54.
25.
Lethem J, Slade PD, Troup JD, et al. Outline of a Fear-Avoidance Model of exaggerated pain perception--I. Behav Res Ther 1983; 21: 401-8.
26.
McKee G, Mooney M, O’Donnell S, et al. A cohort study examining the factors influencing changes in physical activity levels following an acute coronary syndrome event. Eur J Cardiovasc Nurs 2019; 18: 57-66.
27.
Stewart R, Held C, Brown R, et al. Physical activity in patients with stable coronary heart disease: an international perspective. Eur Heart J 2013; 34: 3286-93.
28.
Lapier TK, Cleary K, Kidd J. Exercise self-efficacy, habitual physical activity, and fear of falling in patients with coronary heart disease. Cardiopulm Phys Ther J 2009; 20: 5-11.
29.
Ghannam BM, Hamdan-Mansour AM, Arabiat DH, et al. Psychosocial well-being of patients diagnosed with coronary artery disease. Psychology 2014; 5: 801-7.
30.
Wideman TH, Finan PH, Edwards RR, et al. Increased sensitivity to physical activity among individuals with knee osteoarthritis: Relation to pain outcomes, psychological factors, and responses to quantitative sensory testing. Pain 2014; 1554: 703-11.
31.
Miller L, Ohlman T, Naugle KM. Sensitivity to physical activity predicts daily activity among pain-free older adults. Pain Med 2018; 198: 1682-91.
32.
Reid MC. Sensitivity to physical activity: identifying important predictors and outcomes in pain-free older adults using a simple activity-related measure. Pain Med 2018; 19: 1512-3.