Effects of graded motor imagery on fear of movement, pain, and rehabilitation in patients with kinesiophobia after video-assisted thoracoscopic surgery for lung cancer: A randomized controlled trial

Xinyuan Zhang; Xiaohong Zhang; Xingu Chen; Shuping Liang; Yan Yu; Hui Li; Qunqing Chen; Li Li

doi:10.1002/msp2.70001

Malignancy Spectrum ›› 2025, Vol. 2 ›› Issue (1) : 1 -12. DOI: 10.1002/msp2.70001

ORIGINAL ARTICLE

Effects of graded motor imagery on fear of movement, pain, and rehabilitation in patients with kinesiophobia after video-assisted thoracoscopic surgery for lung cancer: A randomized controlled trial

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Abstract

Objective: This study aimed to evaluate the effects of graded motor imagery (GMI) on fear of movement, pain, and rehabilitation in patients with kinesiophobia after video-assisted thoracoscopic surgery (VATS) for lung cancer.

Methods: Fifty-eight participants with kinesiophobia after VATS were randomly assigned into two groups: one receiving usual care (the control group) and the other receiving usual care plus GMI (the GMI group). The GMI was delivered in three stages: left/right limb identification, motor imagery, and mirror therapy delivered by two researchers every afternoon starting on the first postoperative day, once a day for about 40 min, at least twice. Level of fear of movement, pain-related patient-reported outcomes (PROs), rehabilitation exercise participation, and peak expiratory flow (PEF) were compared between the two groups.

Results: Twenty-seven eligible participants were included in the GMI group and 29 in the control group. Compared to the reports on the first postoperative day, the participants who received GMI reported at discharge significant reductions in kinesiophobia, intensity of worst pain and least pain, and interference of pain with activities and emotions, and increases in rehabilitation exercise participation and PEF than those in the control group (p < 0.05). An unexpected finding was a reduced surgery-to-discharge interval in the patients who received GMI (almost a day earlier than those in the control group).

Conclusion: GMI can reduce fear of movement, improve pain-related PROs, and increase rehabilitation exercise participation and PEF for lung cancer patients with kinesiophobia after VATS.

The study was registered at the Chinese Clinical Trial Registry (ChiCTR2300072612).

Keywords

graded motor imagery / kinesiophobia / lung cancer / pain-related patient-reported outcomes / peak expiratory flow / video-assisted thoracoscopic surgery

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Xinyuan Zhang, Xiaohong Zhang, Xingu Chen, Shuping Liang, Yan Yu, Hui Li, Qunqing Chen, Li Li. Effects of graded motor imagery on fear of movement, pain, and rehabilitation in patients with kinesiophobia after video-assisted thoracoscopic surgery for lung cancer: A randomized controlled trial. Malignancy Spectrum, 2025, 2(1): 1-12 DOI:10.1002/msp2.70001

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References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Bendixen M , Jørgensen OD , Kronborg C , Andersen C , Licht PB . Postoperative pain and quality of life after lobectomy via video-assisted thoracoscopic surgery or anterolateral thoracotomy for early stage lung cancer: a randomised controlled trial. Lancet Oncol. 2016; 17 (6): 836- 844.

[2]	Yao L , Zheng E , Yang M , Yin YY . A survey of symptoms after thoracoscopic lung cancer resection based on patient-reported outcomes. Chin J Clin Thorac Cardiovascul Sur. 2023; 30 (1): 84- 88.

[3]	Paul A , Rianne VB , Staja QB . Overcoming movement-evoked pain to facilitate postoperative recovery. Am J Nurs. 2023; 123 (7): 28- 37.

[4]	Vlaeyen JWS , Crombez G , Linton SJ . The fear-avoidance model of pain. Pain. 2016; 157 (8): 1588- 1589.

[5]	Bordeleau M , Vincenot M , Lefevre S , et al. Treatments for kinesiophobia in people with chronic pain: a scoping review. Front Behav Neurosci. 2022; 16: 933483.

[6]	Aydemir B , Huang CH , Foucher KC . Strength and physical activity in osteoarthritis: the mediating role of kinesiophobia. J Orthop Res. 2022; 40 (5): 1135- 1142.

[7]	Zhang XY , Zhang XH , Chen JX , Yu Y , Zeng TY , Li L . Association between pain-related patient-reported outcomes and kinesiophobia level in patients after video assisted thoracoscopic surgery for lung cancer. J Nurs Sci. 2022; 37 (17): 28- 31.

[8]	Zeng Z , Shen Y , Wan L , et al. Kinesiophobia in patients after cardiac surgery: a scoping review. BMC Cardiovasc Disord. 2024; 24 (1): 469.

[9]

Von Piekartz H , Geitner G , Möller D , Braun R , Hall T . Does combined individualized orofacial manual therapy, pain neuroscience education, and brain training change orofacial pain, chronic face dysfunction, (facial) body perception and pain? An observational mixed methods case series study. J Man Manip Ther. 2022; 30 (3): 180- 191.

[10]	Dilek B , Ayhan C , Yagci G , Yakut Y . Effectiveness of the graded motor imagery to improve hand function in patients with distal radius fracture: a randomized controlled trial. J Hand Ther. 2018; 31 (1): 2- 9.e1.

[11]	Birinci T , Kaya Mutlu E , Altun S . The efficacy of graded motor imagery in post-traumatic stiffness of elbow: a randomized controlled trial. J Shoulder Elbow Surg. 2022; 31 (10): 2147- 2156.

[12]	Candiri B , Talu B , Guner E , Ozen M . The effect of graded motor imagery training on pain, functional performance, motor imagery skills, and kinesiophobia after total knee arthroplasty: randomized controlled trial. Korean J Pain. 2023; 36 (3): 369- 381.

[13]	Bowering KJ , O'Connell NE , Tabor A , et al. The effects of graded motor imagery and its components on chronic pain: a systematic review and meta-analysis. J Pain. 2013; 14 (1): 3- 13.

[14]	Rierola-Fochs S , Ochandorena-Acha M , Merchán-Baeza JA , Minobes-Molina E . The effectiveness of graded motor imagery and its components on phantom limb pain in amputated patients: a systematic review. Prosthet Orthot Int. 2024; 48 (2): 158- 169.

[15]	Osuagwu BA , Vuckovic A . Similarities between explicit and implicit motor imagery in mental rotation of hands: an EEG study. Neuropsychologia. 2014; 65 (12): 197- 210.

[16]	Roustaee S , Roudi Rashtabadi O , Tirgari B , Jahani Y , Tahmasebi S . Mirror therapy effect on shoulder pain and disability and quality of life of mastectomy women: a randomized clinical trial. Disabil Rehabil. 2023; 45 (25): 4227- 4235.

[17]	Donati D , Boccolari P , Giorgi F , Berti L , Platano D , Tedeschi R . Breaking the cycle of pain: the role of graded motor imagery and mirror therapy in complex regional pain syndrome. Biomedicines. 2024; 12 (9): 2140.

[18]	Stonsaovapak C , Koonalinthip N , Kitisomprayoonkul W . Efficacy of mirror neuron system-based therapy for rehabilitation of upper limb orthopedic conditions: a systematic review and meta-analysis. PM R: J Injury Functi Rehab. 2025; 17 (1): 59- 75.

[19]	Araya-Quintanilla F , Gutiérrez-Espinoza H , Jesús Muñoz-Yanez M , et al. The short-term effect of graded motor imagery on the affective components of pain in subjects with chronic shoulder pain syndrome: open-label single-arm prospective study. Pain Med. 2020; 21 (10): 2496- 2501.

[20]	Karakas H , Kahraman T , Ozdogar AT , Baba C , Ozakbas S . Effect of telerehabilitation-based motor imagery training on pain and related factors in people with multiple sclerosis: randomized controlled pilot trial. Arch Phys Med Rehabil. 2024.

[21]

Cuenca-Martínez F , Reina-Varona Á , Castillo-García J , La Touche R , Angulo-Díaz-Parreño S , Suso-Martí L . Pain relief by movement representation strategies: an umbrella and mapping review with meta-meta-analysis of motor imagery, action observation and mirror therapy. Eur J Pain. 2022; 26 (2): 284- 309.

[22]	Peeters G , Bennett M , Donoghue OA , Kennelly S , Kenny RA . Understanding the aetiology of fear of falling from the perspective of a fear-avoidance model - a narrative review. Clin Psychol Rev. 2020; 79 (7): 101862.

[23]	Huang GX , Lin LL , Chen SY . Application of acceptance commitment therapy in postoperative patients after lung cancer surgery. Chin Evid-Bas Nurs. 2022; 8 (2): 278- 281.

[24]	Lei J , Yang J , Dong L , et al. An exercise prescription for patients with lung cancer improves the quality of life, depression, and anxiety. Front Public Health. 2022; 10: 1050471.

[25]	Moseley GL , Butler DS , Beames TB , Giles TJ . The Graded Motor Imagery Handbook. Adelaide NOI Group Publications; 2020.

[26]	Woby SR , Roach NK , Urmston M , Watson PJ . Psychometric properties of the TSK-11: a shortened version of the Tampa Scale for Kinesiophobia. Pain; 2005; 117 (1-2): 137- 144.

[27]	Cai L , Liu Y , Woby SR , Genoosha N , Cui M , Guo L . Cross-cultural adaptation, reliability, and validity of the Chinese version of the Tampa Scale for Kinesiophobia-11 among patients who have undergone total knee arthroplasty. J Arthroplasty. 2019; 34 (6): 1116- 1121.

[28]	Rothaug J , Zaslansky R , Schwenkglenks M , et al. Patients' perception of postoperative pain management: validation of the International Pain Outcomes (IPO) questionnaire. J Pain. 2013; 14 (11): 1361- 1370.

[29]	Lenze EJ , Munin MC , Quear T , et al. The Pittsburgh Rehabilitation Participation Scale: reliability and validity of a clinician-rated measure of participation in acute rehabilitation. Arch Phys Med Rehabil. 2004; 85 (3): 380- 384.

[30]	Liu GX , Su JH , Wang X , He JT . Value of peak expiratory flow rate in evaluating cough ability in patients undergoing lung surgery. Can Respir J. 2021; 15 (12): 58887.

[31]	Chang S , Zhou K , Wang Y , Lai Y , Che G . Prognostic value of preoperative peak expiratory flow to predict postoperative pulmonary complications in surgical lung cancer patients. Front Oncol. 2021; 11: 782774.

[32]	Ding Y , Pan Y , Wang M , et al. Factors influencing kinesiophobia during the “blanking period” after radiofrequency catheter ablation in patients with atrial fibrillation by the fear-avoidance model. Int J Cardiol. 2022; 363: 49- 55.

[33]	Eymir M , Unver B , Karatosun V . Relaxation exercise therapy improves pain, muscle strength, and kinesiophobia following total knee arthroplasty in the short term: a randomized controlled trial. Knee Surg Sports Traumatol Arthrosc. 2022; 30 (8): 2776- 2785.

[34]	Suso-Martí L , La Touche R , Angulo-Díaz-Parreño S , Cuenca-Martínez F . Effectiveness of motor imagery and action observation training on musculoskeletal pain intensity: a systematic review and meta-analysis. Eur J Pain. 2020; 24 (5): 886- 901.

[35]	Jiang B , Wu Y , Wang X , et al. The influence of involving patients in postoperative pain treatment decisions on pain-related patient-reported outcomes: a STROBE-compliant registering observational study. Medicine. 2022; 101 (38): e30727.

[36]	Lei XN , Cui H , Zhu L , Lu L , Guo YH . Study on status quo and influencing factors of postoperative coughing ability in lung cancer patients. J Nurs Sci. 2023; 38 (1): 31- 33.

[37]	Zhou T , Sun C . Effect of physical manipulation pulmonary rehabilitation on lung cancer patients after thoracoscopic lobectomy. Thorac Cancer. 2022; 13 (3): 308- 315.