Expert consensus on T<sub>1</sub> rhizotomy for central hand flexion spasticity (2024 version)_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

Specialist Consensus Group on T1 Rhizotomy for Central Hand Flexion Spasticity ,  LI Wenjun ,  WANG Shufeng

Corresponding author：

LI Wenjun, Email: dcliwenjun@163.com; WANG Shufeng, Email: wangshufeng1964@aliyun.com

Keywords：

Central limb spasticity; hand flexion spasticity; T₁ rhizotomy

DOI：

10.7507/1002-1892.202501021

Video：

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Abstract Full text Figures/Tables Video References Cited by

Central limb spasticity is a common complication after central nervous system injury, in which hand flexion spasticity often leads to the loss of the patient's ability to move. Reducing muscle tone and relieving spasticity are the prerequisites for restoring limb function. T₁ rhizotomy, which has been proposed in recent years, has proven to be effective in the treatment of central hand flexion spasticity. This consensus summarizes the etiology, symptoms, functional assessment of central hand flexion spasticity, and surgical indications for T₁ rhizotomy, surgical principles and procedures, and rehabilitation program. The standardized protocol of T₁ rhizotomy for the treatment of central hand flexion spasticity is proposed for the reference of clinicians in the process of diagnosis and treatment, with the aim of further improving the treatment level for central hand flexion spasticity.

1.	Tranchida GV, Van Heest A. Preferred options and evidence for upper limb surgery for spasticity in cerebral palsy, stroke, and brain injury. J Hand Surg (Eur Vol), 2020, 45(1): 34-42.
2.	穆晓红, 李筱叶. 痉挛型脑性瘫痪外科治疗专家共识. 中国矫形外科杂志, 2020, 28(1): 77-81.
3.	杨辰, 李文军, 李峰, 等. 胸1脊神经根切断治疗手痉挛性瘫痪的临床效果观察. 中国医刊, 2023, 58(1): 59-62.
4.	Nielsen JB, Crone C, Hultborn H. The spinal pathophysiology of spasticity--from a basic science point of view. Acta Physiol (Oxf), 2007, 189(2): 171-180.
5.	Wissel J, Manack A, Brainin M. Toward an epidemiology of poststroke spasticity. Neurology, 2013, 80(3 Suppl 2): S13-S19.
6.	Pattuwage L, Olver J, Martin C, et al. Management of spasticity in moderate and severe traumatic brain injury: evaluation of clinical practice guidelines. J Head Trauma Rehabil, 2017, 32(2): E1-E12.
7.	Gohritz A, Fridén J. Management of spinal cord injury-induced upper extremity spasticity. Hand Clin, 2018, 34(4): 555-565.
8.	Flachenecker P, Henze T, Zettl UK. Spasticity in patients with multiple sclerosis--clinical characteristics, treatment and quality of life. Acta Neurol Scand, 2014, 129(3): 154-162.
9.	Amidei C, Kushner DS. Clinical implications of motor deficits related to brain tumors. Neurooncol Pract, 2015, 2(4): 179-184.
10.	Howard IM, Patel AT. Spasticity evaluation and management tools. Muscle Nerve, 2023, 67(4): 272-283.
11.	Angulo-Parker FJ, Adkinson JM. Common etiologies of upper extremity spasticity. Hand Clin, 2018, 34(4): 437-443.
12.	王庭槐. 生理学. 北京: 人民卫生出版社, 2018: 324-334.
13.	顾玉东, 蔡佩琴, 王涛, 等. C₈神经根切断治疗上肢脑瘫. 中华手外科杂志, 1997, 13(3): 130-132.
14.	Bohannon RW, Smith MB. Interrater reliability of a modified Ashworth scale of muscle spasticity. Phys Ther, 1987, 67(2): 206-207.
15.	Gladstone DJ, Danells CJ, Black SE. The fugl-meyer assessment of motor recovery after stroke: a critical review of its measurement properties. Neurorehabil Neural Repair, 2002, 16(3): 232-240.
16.	Wang Z, Zhang T, Fan J, et al. Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity. Clin Rehabil, 2024, 38(8): 1091-1100.
17.	Burton Q, Lejeune T, Dehem S, et al. Performing a shortened version of the Action Research Arm Test in immersive virtual reality to assess post-stroke upper limb activity. J Neuroeng Rehabil, 2022, 19(1): 133. doi: 10.1186/s12984-022-01114-3.
18.	Shah S, Vanclay F, Cooper B. Improving the sensitivity of the Barthel Index for stroke rehabilitation. J Clin Epidemiol, 1989, 42(8): 703-709.
19.	Hong MJ, Park JB, Lee YJ, et al. Quantitative evaluation of post-stroke spasticity using neurophysiological and radiological tools: a pilot study. Ann Rehabil Med, 2018, 42(3): 384-395.
20.	顾玉东, 陈亮, 王涛, 等. C₈神经根切断治疗上肢脑瘫的重新评价. 中华手外科杂志, 2005, 21(6): 350-352.
21.	Rhee PC. Surgical management of upper extremity deformities in patients with upper motor neuron syndrome. J Hand Surg (Am), 2019, 44(3): 223-235.
22.	许淑雅, 武亮, 胡安明, 等. 脑卒中后上肢感觉障碍评定与治疗的研究进展. 中国老年保健医学, 2022, 20(2): 3-7.
23.	Sieghartsleitner S, Sebastián-Romagosa M, Cho W, et al. Upper extremity training followed by lower extremity training with a brain-computer interface rehabilitation system. Front Neurosci, 2024, 18: 1346607. doi: 10.3389/fnins.2024.1346607.
24.	Sebastián-Romagosa M, Cho W, Ortner R, et al. Brain computer interface treatment for motor rehabilitation of upper extremity of stroke patients-a feasibility study. Front Neurosci, 2020, 14: 591435. doi: 10.3389/fnins.2020.591435.
25.	Flesher SN, Downey JE, Weiss JM, et al. A brain-computer interface that evokes tactile sensations improves robotic arm control. Science, 2021, 372(6544): 831-836.

1. Tranchida GV, Van Heest A. Preferred options and evidence for upper limb surgery for spasticity in cerebral palsy, stroke, and brain injury. J Hand Surg (Eur Vol), 2020, 45(1): 34-42.
2. 穆晓红, 李筱叶. 痉挛型脑性瘫痪外科治疗专家共识. 中国矫形外科杂志, 2020, 28(1): 77-81.
3. 杨辰, 李文军, 李峰, 等. 胸1脊神经根切断治疗手痉挛性瘫痪的临床效果观察. 中国医刊, 2023, 58(1): 59-62.
4. Nielsen JB, Crone C, Hultborn H. The spinal pathophysiology of spasticity--from a basic science point of view. Acta Physiol (Oxf), 2007, 189(2): 171-180.
5. Wissel J, Manack A, Brainin M. Toward an epidemiology of poststroke spasticity. Neurology, 2013, 80(3 Suppl 2): S13-S19.
6. Pattuwage L, Olver J, Martin C, et al. Management of spasticity in moderate and severe traumatic brain injury: evaluation of clinical practice guidelines. J Head Trauma Rehabil, 2017, 32(2): E1-E12.
7. Gohritz A, Fridén J. Management of spinal cord injury-induced upper extremity spasticity. Hand Clin, 2018, 34(4): 555-565.
8. Flachenecker P, Henze T, Zettl UK. Spasticity in patients with multiple sclerosis--clinical characteristics, treatment and quality of life. Acta Neurol Scand, 2014, 129(3): 154-162.
9. Amidei C, Kushner DS. Clinical implications of motor deficits related to brain tumors. Neurooncol Pract, 2015, 2(4): 179-184.
10. Howard IM, Patel AT. Spasticity evaluation and management tools. Muscle Nerve, 2023, 67(4): 272-283.
11. Angulo-Parker FJ, Adkinson JM. Common etiologies of upper extremity spasticity. Hand Clin, 2018, 34(4): 437-443.
12. 王庭槐. 生理学. 北京: 人民卫生出版社, 2018: 324-334.
13. 顾玉东, 蔡佩琴, 王涛, 等. C₈神经根切断治疗上肢脑瘫. 中华手外科杂志, 1997, 13(3): 130-132.
14. Bohannon RW, Smith MB. Interrater reliability of a modified Ashworth scale of muscle spasticity. Phys Ther, 1987, 67(2): 206-207.
15. Gladstone DJ, Danells CJ, Black SE. The fugl-meyer assessment of motor recovery after stroke: a critical review of its measurement properties. Neurorehabil Neural Repair, 2002, 16(3): 232-240.
16. Wang Z, Zhang T, Fan J, et al. Clinical validation of automated depth camera-based measurement of the Fugl-Meyer assessment for upper extremity. Clin Rehabil, 2024, 38(8): 1091-1100.
17. Burton Q, Lejeune T, Dehem S, et al. Performing a shortened version of the Action Research Arm Test in immersive virtual reality to assess post-stroke upper limb activity. J Neuroeng Rehabil, 2022, 19(1): 133. doi: 10.1186/s12984-022-01114-3.
18. Shah S, Vanclay F, Cooper B. Improving the sensitivity of the Barthel Index for stroke rehabilitation. J Clin Epidemiol, 1989, 42(8): 703-709.
19. Hong MJ, Park JB, Lee YJ, et al. Quantitative evaluation of post-stroke spasticity using neurophysiological and radiological tools: a pilot study. Ann Rehabil Med, 2018, 42(3): 384-395.
20. 顾玉东, 陈亮, 王涛, 等. C₈神经根切断治疗上肢脑瘫的重新评价. 中华手外科杂志, 2005, 21(6): 350-352.
21. Rhee PC. Surgical management of upper extremity deformities in patients with upper motor neuron syndrome. J Hand Surg (Am), 2019, 44(3): 223-235.
22. 许淑雅, 武亮, 胡安明, 等. 脑卒中后上肢感觉障碍评定与治疗的研究进展. 中国老年保健医学, 2022, 20(2): 3-7.
23. Sieghartsleitner S, Sebastián-Romagosa M, Cho W, et al. Upper extremity training followed by lower extremity training with a brain-computer interface rehabilitation system. Front Neurosci, 2024, 18: 1346607. doi: 10.3389/fnins.2024.1346607.
24. Sebastián-Romagosa M, Cho W, Ortner R, et al. Brain computer interface treatment for motor rehabilitation of upper extremity of stroke patients-a feasibility study. Front Neurosci, 2020, 14: 591435. doi: 10.3389/fnins.2020.591435.
25. Flesher SN, Downey JE, Weiss JM, et al. A brain-computer interface that evokes tactile sensations improves robotic arm control. Science, 2021, 372(6544): 831-836.

Chinese Journal of Reparative and Reconstructive Surgery

Latest ArticlesExpert consensus on T₁ rhizotomy for central hand flexion spasticity (2024 version)

Abstract Full text Figures/Tables Video References Cited by

Format

Content

Chinese Journal of Reparative and Reconstructive Surgery

Latest ArticlesExpert consensus on T1 rhizotomy for central hand flexion spasticity (2024 version)

Abstract Full text Figures/Tables Video References Cited by

Format

Content

Latest ArticlesExpert consensus on T₁ rhizotomy for central hand flexion spasticity (2024 version)