Michelitsch Christian, Stillhard Philipp Florian, Sommer Christoph
Klinik für Orthopädie und Unfallchirurgie, Departement Chirurgie, Kantonsspital Graubünden, Loëstrasse 170, Chur, Schweiz.
Unfallchirurgie (Heidelb). 2025 Feb;128(2):117-129. doi: 10.1007/s00113-024-01511-4. Epub 2025 Jan 8.
Pilon fractures typically result from high-energy trauma combined with axial compression. The surrounding soft tissues are often severely compromised, complicating treatment. These fractures are best classified according to the Working Group for Osteosynthesis Issues/Orthopedic Trauma Association (AO/OTA) classification system. Even with anatomical reduction of the joint surface there remains a high risk of suboptimal outcome. Advances in implant technology, minimally invasive surgical techniques and strategic management have successfully reduced complication rates in recent years. Despite several adaptations, the principles of Rüedi and Allgöwer remain valid today: correct reconstruction of the fibula (for simple fractures) facilitates subsequent joint reduction. Autologous bone grafts are beneficial in metaphyseal bone defects. Access routes tailored to the soft tissue conditions and fracture pattern enable stabilization, usually with angle stable plates.
Pilon骨折通常由高能创伤合并轴向压缩所致。周围软组织常严重受损,使治疗复杂化。这些骨折最好根据骨合成问题工作组/矫形创伤协会(AO/OTA)分类系统进行分类。即使关节面解剖复位,仍存在预后不佳的高风险。近年来,植入技术、微创外科技术和策略性管理的进步已成功降低了并发症发生率。尽管有一些改进,但Rüedi和Allgöwer的原则如今仍然有效:正确重建腓骨(对于简单骨折)有助于随后的关节复位。自体骨移植对干骺端骨缺损有益。根据软组织状况和骨折类型量身定制的入路可实现稳定,通常使用角度稳定钢板。