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Literature DB >> 30560438

Spinal Cord Stimulation for Pain Treatment After Spinal Cord Injury.

Qian Huang¹, Wanru Duan^1,2, Eellan Sivanesan¹, Shuguang Liu^1,3, Fei Yang⁴, Zhiyong Chen¹, Neil C Ford¹, Xueming Chen⁵, Yun Guan^6,7.

Abstract

In addition to restoration of bladder, bowel, and motor functions, alleviating the accompanying debilitating pain is equally important for improving the quality of life of patients with spinal cord injury (SCI). Currently, however, the treatment of chronic pain after SCI remains a largely unmet need. Electrical spinal cord stimulation (SCS) has been used to manage a variety of chronic pain conditions that are refractory to pharmacotherapy. Yet, its efficacy, benefit profiles, and mechanisms of action in SCI pain remain elusive, due to limited research, methodological weaknesses in previous clinical studies, and a lack of mechanistic exploration of SCS for SCI pain control. We aim to review recent studies and outline the therapeutic potential of different SCS paradigms for traumatic SCI pain. We begin with an overview of its manifestations, classification, potential underlying etiology, and current challenges for its treatment. The clinical evidence for using SCS in SCI pain is then reviewed. Finally, future perspectives of pre-clinical research and clinical study of SCS for SCI pain treatment are discussed.

Entities: Disease Species

Keywords: Analgesia; Neuromodulation; Pain; Spinal cord injury; Spinal cord stimulation; Trauma

Mesh：

Year: 2018 PMID： 30560438 PMCID： PMC6527651 DOI： 10.1007/s12264-018-0320-9

Source DB: PubMed Journal: Neurosci Bull ISSN： 1995-8218 Impact factor: 5.203

161 in total

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12 in total

1. Spinal Cord Stimulation Enhances Microglial Activation in the Spinal Cord of Nerve-Injured Rats.

Authors: Bin Shu; Shao-Qiu He; Yun Guan
Journal: Neurosci Bull Date: 2020-09-05 Impact factor: 5.203

2. Epidural Spinal Cord Stimulation Promotes Motor Functional Recovery by Enhancing Oligodendrocyte Survival and Differentiation and by Protecting Myelin after Spinal Cord Injury in Rats.

Authors: Gang Li; Zhong-Kai Fan; Guang-Fei Gu; Zhi-Qiang Jia; Qiang-Qiang Zhang; Jun-Yu Dai; Shi-Sheng He
Journal: Neurosci Bull Date: 2019-11-16 Impact factor: 5.203

3. Reversion of Injured Adult Neurons to an Embryonic State by Grafts of Neural Progenitor Cells After Spinal Cord Injury.

Authors: Liying Cao; Yongjie Wang; Zhihui Huang
Journal: Neurosci Bull Date: 2020-09-23 Impact factor: 5.203

4. 1-kHz high-frequency spinal cord stimulation alleviates chronic refractory pain after spinal cord injury: a case report.

Authors: Chiaki Yamada; Aiko Maeda; Katsuyuki Matsushita; Shoko Nakayama; Kazuhiro Shirozu; Ken Yamaura
Journal: JA Clin Rep Date: 2021-06-08

Review 5. Emerging Role of PD-1 in the Central Nervous System and Brain Diseases.

Authors: Junli Zhao; Alexus Roberts; Zilong Wang; Justin Savage; Ru-Rong Ji
Journal: Neurosci Bull Date: 2021-04-20 Impact factor: 5.271

6. Developing Novel Therapies for Degenerative Cervical Myelopathy [AO Spine RECODE-DCM Research Priority Number 7]: Opportunities From Restorative Neurobiology.

Authors: Aref-Ali Gharooni; Brian K Kwon; Michael G Fehlings; Timothy F Boerger; Ricardo Rodrigues-Pinto; Paul Aarne Koljonen; Shekar N Kurpad; James S Harrop; Bizhan Aarabi; Vafa Rahimi-Movaghar; Jefferson R Wilson; Benjamin M Davies; Mark R N Kotter; James D Guest
Journal: Global Spine J Date: 2022-02