Facial nerve-sublingual nerve parallel bridge anastomosis for facial nerve injury caused by closed temporal bone fractures_Chinese Journal of Reparative and Reconstructive Surgery

Authors：

SU Diya , WANG Jieqing ,  ZHANG Chen

Department of Plastic Surgery, Dalian University Affiliated Xinhua Hospital, Dalian Liaoning, 116000, P. R. China;

Corresponding author：

ZHANG Chen, Email: neilzhang@sina.com

Keywords：

Facial nerve injury; facial nerve-sublingual nerve parallel bridge anastomosis; nerve regeneration; double innervation

DOI：

10.7507/1002-1892.202111069

Video：

Export PDF Favorites Scan Get Citation

Abstract Full text Figures/Tables Video References Cited by

Objective To investigate the effectiveness of facial nerve-sublingual nerve parallel bridge anastomosis for facial nerve injury resulting from closed temporal bone fractures. Methods Between January 2017 and December 2019, 9 patients with facial nerve injury resulting from closed temporal bone fracture caused by head and face trauma were treated. Among them, 5 patients were treated with facial nerve-sublingual nerve parallel bridge anastomosis (operation group), and 4 patients were treated with neurotrophic drugs combined with rehabilitation exercise (conservative group). There was no significant difference in gender, age, side, cause of injury, duration of facial nerve injury before surgery, House-brackmann grading (hereinafter referred to as HB grading) of facial nerve injury, and other general information between 2 groups (P>0.05). HB grading was used to evaluate the improvement of facial nerve function before and after treatment. At the same time, facial nerve neuroelectrophysiological test was performed to evaluate the electrical activity of facial muscles before and after treatment. Tongue function, atrophy, and tongue deviation were evaluated after nerve anastomosis according to the tongue function scale proposed by Martins et al. Results Patients in both groups were followed up 12-30 months, with an average of 25 months. None of the 5 patients in the operation group showed symptoms such as tongue muscle atrophy, tongue extension deviation, hypoglossal nerve dysfunction (mainly including slurred speech, choking with water), postoperative infection, bleeding, lower limb muscle atrophy or lower limb motor dysfunction after sural nerve injury. Postoperative skin sensory disturbance in lateral malleolus area was found, but gradually recovered to normal. During the follow-up, facial nerve and sublingual motor neurons were innervated to paralyzed facial muscle in the operation group. At last follow-up, the HB grading of 5 patients in the operation group improved from preoperative grade Ⅴ in 2 cases, grade Ⅵ in 3 cases to grade Ⅱ in 3 cases, grade Ⅲ in 1 case, and grade Ⅳ in 1 case. And in the conservative group, there were 1 patient with grade Ⅴ and 3 patients with grade Ⅵ before operation, facial asymmetry continued during follow-up, and only 2 patients improved from grade Ⅵ to grade Ⅴ at last follow-up. There was significant difference in prognosis HB grading between the two groups (t=5.693, P=0.001). In the operation group, the amplitude and frequency of F wave were gradually improved, and obvious action potential could be collected when the facial muscle was vigorously contracted. On the contrary, there was no significant difference in neuroelectrophysiological results before and after treatment in the conservative group. Conclusion Facial nerve-sublingual nerve parallel bridge anastomosis can effectively retain the integrity of the facial nerve, while introducing the double innervation of the sublingual nerve opposite nerve, which is suitable for the treatment of severe incomplete facial nerve injury caused by closed fracture.

Citation： SU Diya, WANG Jieqing, ZHANG Chen. Facial nerve-sublingual nerve parallel bridge anastomosis for facial nerve injury caused by closed temporal bone fractures. Chinese Journal of Reparative and Reconstructive Surgery, 2022, 36(3): 315-321. doi: 10.7507/1002-1892.202111069 Copy

1.	Montava M, Mancini J, Masson C, et al. Temporal bone fractures: sequelae and their impact on quality of life. Am J Otolaryngol, 2015, 36(3): 364-370.
2.	刘志莹, 冷同嘉, 赵啸天. 颞骨骨折与面神经损伤. 耳鼻咽喉-头颈外科, 1999, 6(3): 131-134.
3.	Lambert PR, Brackmann DE. Facial paralysis in longitudinal temporal bone fractures: a review of 26 cases. Laryngoscope, 1984, 94(8): 1022-1026.
4.	Nosan DK, Benecke JE, Murr AH. Current perspective on temporal bone trauma. Otolaryngol Head Neck Surg, 1997, 117(1): 67-71.
5.	Darrouzet V, Duclos JY, Liguoro D, et al. Management of facial paralysis resulting from temporal bone fractures: Our experience in 115 cases. Otolaryngol Head Neck Surg, 2001, 125(1): 77-84.
6.	蒋立新, 张淑芬, 于秀娥, 等. 面神经减压术对颞骨骨折面神经损伤的治疗. 中国耳鼻咽喉头颈外科, 2004, 11(3): 171-174.
7.	樊兆民, 韩月臣, 徐磊, 等. 颞骨骨折性面神经损伤的手术治疗. 全国耳鼻咽喉头颈外科中青年学术会议论文汇编, 2012.
8.	牙祖蒙, 高志, 王建华, 等. 面神经缺损快速延长后即刻端端吻合修复的初步临床应用. 中国修复重建外科杂志, 2007, 21(1): 23-25.
9.	Myckatyn TM, Mackinnon SE. The surgical management of facial nerve injury. Clin Plast Surg, 2003, 30(2): 307-318.
10.	冯洁, 苏迪娅, 历俊华, 等. 利用预变性神经移植物行舌下神经-面神经吻合术治疗完全性面神经损伤的实验研究. 中华神经外科杂志, 2014, 30(4): 360-363.
11.	Zhang L, Li D, Wan H, et al. Hypoglossal–facial nerve ‘side’-to-side neurorrhaphy using a predegenerated nerve autograft for facial palsy after removal of acoustic tumours at the cerebellopontine angle. J Neurol Neurosurg Psychiatry, 2015, 86(8): 865-872.
12.	张文明, 吴朝阳, 张立群. 神经预变性促进周围神经桥接后神经再生的初步研究. 临床和实验医学杂志, 2011, 10(10): 723-724.
13.	Wang S, Su D, Li J, et al. Donor nerve axotomy and axonal regeneration after end-to-side neurorrhaphy in a rodent model. J Neurosurg, 2018, 130(1): 197-206.
14.	Navissano M, Malan F, Carnino R, et al. Neurotube for facial nerve repair. Microsurgery, 2005, 25(4): 268-271.
15.	王彬彬, 李德志, 乔慧, 等. 预变性自体神经移植桥接舌下神经-面神经治疗周围性面瘫的疗效分析. 中华神经外科杂志, 2017, 33(6): 564-568.
16.	Martins RS, Socolovsky M, Siqueira MG, et al. Hemihypoglossal-facial neurorrhaphy after mastoid dissection of the facial nerve: results in 24 patients and comparison with the classic technique. Neurosurgery, 2008, 63(2): 310-316.
17.	Wedekind C, Klug N. Facial F wave recording: a novel and effective technique for extra- and intraoperative diagnosis of facial nerve function in acoustic tumor disease. Otolaryngol Head Neck Surg, 2003, 129(1): 114-120.
18.	Wan H, Zhang L, Blanchard S, et al. Combination of hypoglossal-facial nerve surgical reconstruction and neurotrophin-3 gene therapy for facial palsy. J Neurosurg, 2013, 119(3): 739-750.
19.	Wan H, Zhang L, Li D, et al. Hypoglossal-facial nerve “side”-to-side neurorrhaphy for persistent incomplete facial palsy. J Neurosurg, 2014, 120(1): 263-272.
20.	Arthur-Farraj PJ, Latouche M, Wilton DK, et al. c-Jun reprograms Schwann cells of injured nerves to generate a repair cell essential for regeneration. Neuron, 2012, 75(4): 633-647.
21.	Brushart TM, Aspalter M, Griffin JW, et al. Schwann cell phenotype is regulated by axon modality and central-peripheral location, and persists in vitro. Exp Neurol, 2013, 247: 272-281.
22.	Höke A, Redett R, Hameed H, et al. Schwann cells express motor and sensory phenotypes that regulate axon regeneration. J Neurosci, 2006, 26(38): 9646-9655.
23.	Grosheva M, Nohroudi K, Schwarz A, et al. Comparison of trophic factors’ expression between paralyzed and recovering muscles after facial nerve injury. A quantitative analysis in time course. Exp Neurol, 2016, 279: 137-148.
24.	Bendella H, Rink S, Grosheva M, et al. Putative roles of soluble trophic factors in facial nerve regeneration, target reinnervation, and recovery of vibrissal whisking. Exp Neurol, 2018, 300: 100-110.
25.	Yamamoto Y, Sekido M, Furukawa H, et al. Surgical rehabilitation of reversible facial palsy: facial-hypoglossal network system based on neural signal augmentation/neural supercharge concept. J Plast Reconstr Aesthet Surg, 2007, 60(3): 223-231.
26.	Bernat I, Vitte E, Lamas G, et al. Related timing for peripheral and central plasticity in hypoglossal-facial nerve anastomosis. Muscle Nerve, 2006, 33(3): 334-341.
27.	王东生, 鲁佑瑜. 神经康复与脑功能重塑. 国外医学 (神经病学神经外科学分册), 2004, 31(5): 427-430.
28.	陈振兵, 洪光祥, 王发斌, 等. 神经端侧吻合术与侧侧吻合术对神经干损伤后功能恢复作用的比较. 中华实验外科杂志, 2001, 18(2): 136-137.
29.	Ozsoy U, Demirel BM, Hizay A, et al. Hypoglossal-facial anastomosis (HFA) over a 10 mm gap bridged by a Y-tube-conduit enhances neurite regrowth and reduces collateral axonal branching at the lesion site. Restor Neurol Neurosci, 2011, 29(4): 227-242.

1. Montava M, Mancini J, Masson C, et al. Temporal bone fractures: sequelae and their impact on quality of life. Am J Otolaryngol, 2015, 36(3): 364-370.
2. 刘志莹, 冷同嘉, 赵啸天. 颞骨骨折与面神经损伤. 耳鼻咽喉-头颈外科, 1999, 6(3): 131-134.
3. Lambert PR, Brackmann DE. Facial paralysis in longitudinal temporal bone fractures: a review of 26 cases. Laryngoscope, 1984, 94(8): 1022-1026.
4. Nosan DK, Benecke JE, Murr AH. Current perspective on temporal bone trauma. Otolaryngol Head Neck Surg, 1997, 117(1): 67-71.
5. Darrouzet V, Duclos JY, Liguoro D, et al. Management of facial paralysis resulting from temporal bone fractures: Our experience in 115 cases. Otolaryngol Head Neck Surg, 2001, 125(1): 77-84.
6. 蒋立新, 张淑芬, 于秀娥, 等. 面神经减压术对颞骨骨折面神经损伤的治疗. 中国耳鼻咽喉头颈外科, 2004, 11(3): 171-174.
7. 樊兆民, 韩月臣, 徐磊, 等. 颞骨骨折性面神经损伤的手术治疗. 全国耳鼻咽喉头颈外科中青年学术会议论文汇编, 2012.
8. 牙祖蒙, 高志, 王建华, 等. 面神经缺损快速延长后即刻端端吻合修复的初步临床应用. 中国修复重建外科杂志, 2007, 21(1): 23-25.
9. Myckatyn TM, Mackinnon SE. The surgical management of facial nerve injury. Clin Plast Surg, 2003, 30(2): 307-318.
10. 冯洁, 苏迪娅, 历俊华, 等. 利用预变性神经移植物行舌下神经-面神经吻合术治疗完全性面神经损伤的实验研究. 中华神经外科杂志, 2014, 30(4): 360-363.
11. Zhang L, Li D, Wan H, et al. Hypoglossal–facial nerve ‘side’-to-side neurorrhaphy using a predegenerated nerve autograft for facial palsy after removal of acoustic tumours at the cerebellopontine angle. J Neurol Neurosurg Psychiatry, 2015, 86(8): 865-872.
12. 张文明, 吴朝阳, 张立群. 神经预变性促进周围神经桥接后神经再生的初步研究. 临床和实验医学杂志, 2011, 10(10): 723-724.
13. Wang S, Su D, Li J, et al. Donor nerve axotomy and axonal regeneration after end-to-side neurorrhaphy in a rodent model. J Neurosurg, 2018, 130(1): 197-206.
14. Navissano M, Malan F, Carnino R, et al. Neurotube for facial nerve repair. Microsurgery, 2005, 25(4): 268-271.
15. 王彬彬, 李德志, 乔慧, 等. 预变性自体神经移植桥接舌下神经-面神经治疗周围性面瘫的疗效分析. 中华神经外科杂志, 2017, 33(6): 564-568.
16. Martins RS, Socolovsky M, Siqueira MG, et al. Hemihypoglossal-facial neurorrhaphy after mastoid dissection of the facial nerve: results in 24 patients and comparison with the classic technique. Neurosurgery, 2008, 63(2): 310-316.
17. Wedekind C, Klug N. Facial F wave recording: a novel and effective technique for extra- and intraoperative diagnosis of facial nerve function in acoustic tumor disease. Otolaryngol Head Neck Surg, 2003, 129(1): 114-120.
18. Wan H, Zhang L, Blanchard S, et al. Combination of hypoglossal-facial nerve surgical reconstruction and neurotrophin-3 gene therapy for facial palsy. J Neurosurg, 2013, 119(3): 739-750.
19. Wan H, Zhang L, Li D, et al. Hypoglossal-facial nerve “side”-to-side neurorrhaphy for persistent incomplete facial palsy. J Neurosurg, 2014, 120(1): 263-272.
20. Arthur-Farraj PJ, Latouche M, Wilton DK, et al. c-Jun reprograms Schwann cells of injured nerves to generate a repair cell essential for regeneration. Neuron, 2012, 75(4): 633-647.
21. Brushart TM, Aspalter M, Griffin JW, et al. Schwann cell phenotype is regulated by axon modality and central-peripheral location, and persists in vitro. Exp Neurol, 2013, 247: 272-281.
22. Höke A, Redett R, Hameed H, et al. Schwann cells express motor and sensory phenotypes that regulate axon regeneration. J Neurosci, 2006, 26(38): 9646-9655.
23. Grosheva M, Nohroudi K, Schwarz A, et al. Comparison of trophic factors’ expression between paralyzed and recovering muscles after facial nerve injury. A quantitative analysis in time course. Exp Neurol, 2016, 279: 137-148.
24. Bendella H, Rink S, Grosheva M, et al. Putative roles of soluble trophic factors in facial nerve regeneration, target reinnervation, and recovery of vibrissal whisking. Exp Neurol, 2018, 300: 100-110.
25. Yamamoto Y, Sekido M, Furukawa H, et al. Surgical rehabilitation of reversible facial palsy: facial-hypoglossal network system based on neural signal augmentation/neural supercharge concept. J Plast Reconstr Aesthet Surg, 2007, 60(3): 223-231.
26. Bernat I, Vitte E, Lamas G, et al. Related timing for peripheral and central plasticity in hypoglossal-facial nerve anastomosis. Muscle Nerve, 2006, 33(3): 334-341.
27. 王东生, 鲁佑瑜. 神经康复与脑功能重塑. 国外医学 (神经病学神经外科学分册), 2004, 31(5): 427-430.
28. 陈振兵, 洪光祥, 王发斌, 等. 神经端侧吻合术与侧侧吻合术对神经干损伤后功能恢复作用的比较. 中华实验外科杂志, 2001, 18(2): 136-137.
29. Ozsoy U, Demirel BM, Hizay A, et al. Hypoglossal-facial anastomosis (HFA) over a 10 mm gap bridged by a Y-tube-conduit enhances neurite regrowth and reduces collateral axonal branching at the lesion site. Restor Neurol Neurosci, 2011, 29(4): 227-242.

Chinese Journal of Reparative and Reconstructive Surgery

Facial nerve-sublingual nerve parallel bridge anastomosis for facial nerve injury caused by closed temporal bone fractures

Abstract Full text Figures/Tables Video References Cited by

Previous Article

Next Article

Format

Content