Abstract
Introduction: Open reduction and internal fixation (ORIF) is considered the treatment of choice in dislocated unstable pelvic fractures. However ORIF has several drawbacks, such as considerable soft tissue trauma, a substantial intraoperative blood loss and up to 25% infectious complications. To overcome these problems mini-invasive osteosynthesis techniques have been developed.
Methods: Analysis of the problem revealed necessary changes on the level of intraoperative imaging, surgical approach, reduction devices and technology integration. Intraoperative imaging with computertomography gives all the time an appropriate representation of the real position of bony fragments of the pelvis. A new type of axial reduction clamps allows fracture reduction through small incisions. Preshaped plates can be pushed underneath the soft tissue. Computer navigation helps to place screws in a save manner percutaneously.
Results: We present the setting of a new multifunctional image guided therapy suite, which is an optimal platform for mini-invasive treatment of fresh dislocated anterior and posterior pelvic ring fractures, as well as for percutaneous treatment of pelvic non unions. The technique of reduction and fixation of an anterior pelvic ring fracture through two small incisions instead of a full ilio-inguinal approach is shown. A case of percutaneous bone grafting of a delayed union of the sacrum is presented.
Conclusions: Mini-invasive osteosynthesis techniques require appropriate imaging tools, new reduction devices and most notably special skills. However all together may reduce severe side effects of conventional pelvic surgery.
Theses abstracts were prepared by Professor Dr. Frantz Langlais. Correspondence should be addressed to him at EFORT Central Office, Freihofstrasse 22, CH-8700 Küsnacht, Switzerland.
