Western University of Health Sciences, College of Podiatric Medicine , Pomona, California, USA.
Expert Rev Clin Immunol. 2020 Aug;16(8):839-845. doi: 10.1080/1744666X.2020.1804869. Epub 2020 Aug 10.
With a complex and often misunderstood etiology, acute Charcot neuroarthropathy (ACN) is a devastating complication of peripheral neuropathy. In patients with diabetes, timely diagnosis of ACN in the foot and ankle is essential to prevent loss of both limb and life.
Herein, the authors evaluate the growing body of evidence in identifying targeted pathways for future therapeutic interventions. A literature search was conducted through the PubMed research database. Searched terms included 'Charcot,' 'foot and ankle,' 'neuroarthropathy,' 'pathophysiology,' 'arthropathy,' 'diabetic foot,' and 'Charcot foot.'
The interplay between the acute inflammatory response, cytokine signaling, and bone metabolism equilibrium can now be better understood with the aid of several novel immunobiologic mechanisms. The more recently elucidated roles of advanced glycation end-products, neuropeptides, monocyte differentiation, and genomics combine with classical Charcot pathophysiology to aid researchers and clinicians alike in combatting this often puzzling consequence of peripheral neuropathy.
急性夏科氏神经关节病(ACN)的病因复杂,常被误解,是周围神经病变的一种破坏性并发症。在糖尿病患者中,及时诊断足部和踝关节的 ACN 对于防止肢体和生命丧失至关重要。
本文作者评估了在确定未来治疗干预的靶向途径方面不断增加的证据。通过 PubMed 研究数据库进行了文献检索。搜索的术语包括“夏科氏”、“足部和踝关节”、“神经关节病”、“病理生理学”、“关节病”、“糖尿病足”和“夏科氏足”。
在几种新型免疫生物学机制的帮助下,急性炎症反应、细胞因子信号传导和骨代谢平衡之间的相互作用现在可以更好地理解。最近阐明的晚期糖基化终产物、神经肽、单核细胞分化和基因组学的作用与经典的夏科氏病理生理学相结合,帮助研究人员和临床医生共同对抗这种周围神经病变的常见令人困惑的后果。
