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Journal of Peking University (Health Sciences) ›› 2020, Vol. 52 ›› Issue (2): 378-381. doi: 10.19723/j.issn.1671-167X.2020.02.029

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Lower limb ischemia cured by stimulation electrode implantation assisted with microendoscopic discectomy system: A case report

Ya-long QIAN,Shuai XU,Hai-ying LIU()   

  1. Department of Spinal Surgery, Peking University People's Hospital, Beijing 100044, China
  • Received:2018-01-20 Online:2020-04-18 Published:2020-04-18
  • Contact: Hai-ying LIU E-mail:liuhaiying1131@sina.com

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Abstract:

SUMMARY A 58-year-old male patient diagnosed with thromboangiitis obliterans (Fontaine stage Ⅳ) was recently treated with microendoscope discectomy system-assisted spinal cord stimulation electrode implantation and cured by department of vascular surgery combined with department of spinal surgery at Peking University People's Hospital. The patient suffered from cold injury to the right foot 14 years ago, which was cold, painful, numb, and then the toe was ulcerated and gangrene. Only the right foot small toe was left. The right foot skin was swollen from the toe to the proximal segment 1 year ago, accompanied by resting pain. Both pain and autologous bone marrow stem cell transplantation were ineffective. The above symptoms were aggravated three months ago, and the pain was severe. The visual analogue score was 10 points. A high amputation of the left lower extremity was performed 30 years ago due to trauma. Physical examination: the bilateral femoral artery was weak, and the right radial artery, posterior tibial artery, and dorsal artery were not touched. Buerger sign (+). Auxiliary examination: angiography of both lower extremities showed complete occlusion of the bilateral external iliac artery and its distal end. The percutaneous oxygen partial pressure was measured to be 30 mmHg on the right side of the iliac crest. The operation was performed under the local anesthesia. After X-ray positioning, the body projection of the lumbar vertebrae 1-2 lamina gap was marked. The skin had a 1.8 cm incision on the caudal side 2 cm from the mark. Then the dilators were used, and the working sleeve was tilted to the lumbar vertebrae 1-2 lamina gap. The microendoscope discectomy system was installed, the electrode was directly placed into the epidural space from the interlamina space under the microendoscope, the vascular surgeon adjusted the position of the electrode in the spinal canal under fluoroscopy, then connected the stimulator, adjusted the current until the patient had the lower limb fever, fixed electrode position, removed the microendoscope discectomy system after hemostasis under the microendoscope, used the guide needle to lead the electrode through the lumbar subcutaneous and then sutured the incision. After the operation, the electrode was connected to the temporary stimulator to stimulate for several minutes, the patient felt numbness in his lower limbs. In less than one hour, the skin temperature of the affected limb increased, and the painkiller could be stopped while sleeping. After 1 week, the skin temperature of the affected limb increased, and the percutaneous oxygen partial pressure of the foot and ankle was 36 mmHg, and the pain improved, and the score was reduced to 2 points. One month after surgery, the patient underwent permanent stimulator implantation. The pain disappeared after 3 months and half year of follow-up, and the score was reduced to 1 point. Microendoscope discectomy system-assisted spinal cord stimulation electrode implantation can complete the operation quickly, safely and effectively, and greatly reduce the number of intraoperative fluoroscopy and reduce the occurrence of complications.

Key words: Microendoscopic discectomy, Spinal cord stimulation, Thromboangiitis obliterans

CLC Number: 

  • R682.6

Figure 1

Lower limb artery computer tomography angiography"

Figure 2

Place the working sleeve and connect the microendoscope discectomy system"

Figure 3

Put in the electrode by monitoring in the microendoscope"

Figure 4

Put in the electrode by monitoring with X-ray"

[1] Azab WA, Nasim K, Najibullah M . Lumbar microendoscopic discectomy: surgical technique and nuances[J]. Acta Neurochir (Wien), 2016,158(4):749-753.
[2] 程祝强, 徐霜霜, 金毅 . 脊髓电刺激治疗缺血性肢痛[J]. 国际麻醉学与复苏杂志, 2015,36(7):665-669.
[3] Borjesson M, Andrell P, Mannheimer C . Spinal cord stimulation for long-term treatment of severe angina pectoris: What does the evidence say?[J]. Future Cardiol, 2011,7(6):825-833.
[4] Compton AK, Shah B, Hayek SM . Spinal cord stimulation: A review[J]. Curr Pain Headache Rep, 2012,16(1):35-42.
[5] Fontaine R, Buck P, Riveaux R , et al. Treatment of arterial obli-terations, respective value of thrombectomies and thrombo-end-arteriectomies, of arteriovenous shunts, and of vascular grafts (fresh venous autografts)[J]. Lyon Chir, 1951,46(1):73-94.
[6] 谷涌泉, 张建, 齐立行 , 等. 自体骨髓干细胞移植治疗慢性下肢缺血94例不同病变分期患者的效果比较[J]. 中国临床康复, 2005,9(38):7-10.
[7] Bosiers M, Hart JP, Deloose K , et al. Endovascular therapy as the primary approach for limb salvage in patients with critical limb ischemia: Experience with 443 infrapopliteal procedures[J]. Vascular, 2006,14(2):63-69.
[8] Tendera M, Aboyans V, Bartelink ML , et al. ESC guidelines on the diagnosis and treatment of peripheral artery diseases: Document covering atherosclerotic disease of extracranial carotid and vertebral, mesenteric, renal, upper and lower extremity arteries: the Task Force on the Diagnosis and Treatment of Peripheral Artery Diseases of the European Society of Cardiology (ESC)[J]. Eur Heart J, 2011,32(22):2851-2906.
[9] Guan Y . Spinal cord stimulation: Neurophysiological and neurochemical mechanisms of action[J]. Curr Pain Headache Rep, 2012,16(3):217-225.
[10] Foreman RD, Linderoth B . Neural mechanisms of spinal cord stimulation[J]. Int Rev Neurobiol, 2012,107:87-119.
[11] Wu M, Linderoth B, Foreman RD . Putative mechanisms behind effects of spinal cord stimulation on vascular diseases: A review of experimental studies[J]. Auton Neurosci, 2008,138(1/2):9-23.
[12] Zipes DP, Svorkdal N, Berman D , et al. Spinal cord stimulation therapy for patients with refractory angina who are not candidates for revascularization[J]. Neuromodulation, 2012,15(6):550-559.
[13] Kemler MA ,Barendse GA,van Kleef M,et al.Spinal cord stimulation in patients with chronic reflex sympathetic dystrophy[J]. N Engl J Med, 2000,343(9):618-624.
[14] Taylor RS, van Buyten JP, Buchser E . Spinal cord stimulation for chronic back and leg pain and failed back surgery syndrome: A systematic review and analysis of prognostic factors[J]. Spine (Phila Pa 1976), 2005,30(1):152-160.
[15] 樊碧发 . 脊髓电刺激的镇痛机制及其临床应用[J]. 中华医学信息导报, 2005,20(4):20.
[16] Kleiber JC, Marlier B, Bannwarth M , et al. Is spinal cord stimulation safe? A review of 13 years of implantations and complications[J]. Rev Neurol (Paris), 2016,172(11):689-695.
[1] Wei-hao LI,Xue-min ZHANG,Zhi-bin HE,Xiao-ming ZHANG,Jing-jun JIANG,Tao ZHANG,Wei LI,Qing-le LI. Spinal cord stimulation for non-reconstructable chronic ritical limb ischemiae: a case report [J]. Journal of Peking University(Health Sciences), 2019, 51(2): 362-364.
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