Neuropathic pain; what we know and what we should do about it.

IF 2.5 Q2 CLINICAL NEUROLOGY Frontiers in pain research (Lausanne, Switzerland) Pub Date : 2023-09-22 eCollection Date: 2023-01-01 DOI:10.3389/fpain.2023.1220034
Peter A Smith
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Abstract

Neuropathic pain can result from injury to, or disease of the nervous system. It is notoriously difficult to treat. Peripheral nerve injury promotes Schwann cell activation and invasion of immunocompetent cells into the site of injury, spinal cord and higher sensory structures such as thalamus and cingulate and sensory cortices. Various cytokines, chemokines, growth factors, monoamines and neuropeptides effect two-way signalling between neurons, glia and immune cells. This promotes sustained hyperexcitability and spontaneous activity in primary afferents that is crucial for onset and persistence of pain as well as misprocessing of sensory information in the spinal cord and supraspinal structures. Much of the current understanding of pain aetiology and identification of drug targets derives from studies of the consequences of peripheral nerve injury in rodent models. Although a vast amount of information has been forthcoming, the translation of this information into the clinical arena has been minimal. Few, if any, major therapeutic approaches have appeared since the mid 1990's. This may reflect failure to recognise differences in pain processing in males vs. females, differences in cellular responses to different types of injury and differences in pain processing in humans vs. animals. Basic science and clinical approaches which seek to bridge this knowledge gap include better assessment of pain in animal models, use of pain models which better emulate human disease, and stratification of human pain phenotypes according to quantitative assessment of signs and symptoms of disease. This can lead to more personalized and effective treatments for individual patients. Significance statement: There is an urgent need to find new treatments for neuropathic pain. Although classical animal models have revealed essential features of pain aetiology such as peripheral and central sensitization and some of the molecular and cellular mechanisms involved, they do not adequately model the multiplicity of disease states or injuries that may bring forth neuropathic pain in the clinic. This review seeks to integrate information from the multiplicity of disciplines that seek to understand neuropathic pain; including immunology, cell biology, electrophysiology and biophysics, anatomy, cell biology, neurology, molecular biology, pharmacology and behavioral science. Beyond this, it underlines ongoing refinements in basic science and clinical practice that will engender improved approaches to pain management.

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神经性疼痛;我们所知道的以及我们应该做些什么。
神经性疼痛可由神经系统损伤或疾病引起。众所周知,它很难治疗。外周神经损伤促进许旺细胞活化和免疫活性细胞侵入损伤部位、脊髓和丘脑、扣带和感觉皮层等高级感觉结构。各种细胞因子、趋化因子、生长因子、单胺类和神经肽在神经元、神经胶质和免疫细胞之间产生双向信号传导。这促进了原发性传入的持续超兴奋性和自发活动,这对疼痛的发生和持续以及脊髓和脊上结构中感觉信息的错误处理至关重要。目前对疼痛病因的理解和药物靶点的识别大多源于对啮齿动物模型中周围神经损伤后果的研究。尽管已经有了大量的信息,但将这些信息翻译到临床领域的工作很少。自20世纪90年代中期以来,几乎没有出现过主要的治疗方法。这可能反映出未能识别男性与女性在疼痛处理方面的差异、细胞对不同类型损伤的反应的差异以及人类与动物在疼痛处理上的差异。寻求弥合这一知识差距的基础科学和临床方法包括更好地评估动物模型中的疼痛,使用更好地模拟人类疾病的疼痛模型,以及根据疾病体征和症状的定量评估对人类疼痛表型进行分层。这可以为个体患者带来更个性化和有效的治疗。意义陈述:迫切需要找到治疗神经性疼痛的新方法。尽管经典动物模型揭示了疼痛病因的基本特征,如外周和中枢致敏以及一些相关的分子和细胞机制,但它们并不能充分模拟临床上可能引起神经性疼痛的多种疾病状态或损伤。这篇综述试图整合来自多个学科的信息,这些学科试图理解神经性疼痛;包括免疫学、细胞生物学、电生理学和生物物理学、解剖学、细胞生物学,神经病学、分子生物学、药理学和行为科学。除此之外,它强调了基础科学和临床实践的不断完善,这将带来疼痛管理方法的改进。
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