Browsing by Author "Powers, David"
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Item Open Access A Shift in Conceptual Thinking of Panfacial Fracture Sequencing: The Major Fragment Theory(Craniomaxillofacial Trauma & Reconstruction) Wong, Patrick; Atte, Antonio; Powers, David; Tiwana, PaulStudy Design: A literature review of relevant publications regarding panfacial fracture sequencing. Objective: To review the current landscape of sequencing of panfacial trauma and propose the utilization of the Major Fragment Theory when conventional sequencing techniques are inadequate. Methods: We conducted a review of existing literature on panfacial fracture management, focusing on sequencing techniques. Additionally, we analyzed unique fracture patterns to identify instances where conventional sequencing may be insufficient. Results: Existing literature emphasizes directional-based sequencing techniques for panfacial fracture reduction. However, unique fracture patterns often necessitate deviation from these sequences. The Major Fragment Theory suggests prioritizing the reduction of larger fragments over conventional sequencing, particularly when dealing with complex fractures. Conclusions: While directional-based sequencing techniques provide a valuable framework for panfacial fracture management and almost any approach can be utilized successfully, the Major Fragment Theory offers a complementary approach for cases where conventional sequencing falls short. Incorporating this theory into practice may enhance outcomes in the treatment of panfacial fractures.Item Open Access Hardware Removal in Craniomaxillofacial Trauma: A Systematic Review of the Literature and Management Algorithm.(Annals of plastic surgery, 2015-11) Cahill, Thomas J; Gandhi, Rikesh; Allori, Alexander C; Marcus, Jeffrey R; Powers, David; Erdmann, Detlev; Hollenbeck, Scott T; Levinson, HowardBackground
Craniomaxillofacial (CMF) fractures are typically treated with open reduction and internal fixation. Open reduction and internal fixation can be complicated by hardware exposure or infection. The literature often does not differentiate between these 2 entities; so for this study, we have considered all hardware exposures as hardware infections. Approximately 5% of adults with CMF trauma are thought to develop hardware infections. Management consists of either removing the hardware versus leaving it in situ. The optimal approach has not been investigated. Thus, a systematic review of the literature was undertaken and a resultant evidence-based approach to the treatment and management of CMF hardware infections was devised.Materials and methods
A comprehensive search of journal articles was performed in parallel using MEDLINE, Web of Science, and ScienceDirect electronic databases. Keywords and phrases used were maxillofacial injuries; facial bones; wounds and injuries; fracture fixation, internal; wound infection; and infection. Our search yielded 529 articles. To focus on CMF fractures with hardware infections, the full text of English-language articles was reviewed to identify articles focusing on the evaluation and management of infected hardware in CMF trauma. Each article's reference list was manually reviewed and citation analysis performed to identify articles missed by the search strategy. There were 259 articles that met the full inclusion criteria and form the basis of this systematic review. The articles were rated based on the level of evidence. There were 81 grade II articles included in the meta-analysis.Result
Our meta-analysis revealed that 7503 patients were treated with hardware for CMF fractures in the 81 grade II articles. Hardware infection occurred in 510 (6.8%) of these patients. Of those infections, hardware removal occurred in 264 (51.8%) patients; hardware was left in place in 166 (32.6%) patients; and in 80 (15.6%) cases, there was no report as to hardware management. Finally, our review revealed that there were no reported differences in outcomes between groups.Conclusions
Management of CMF hardware infections should be performed in a sequential and consistent manner to optimize outcome. An evidence-based algorithm for management of CMF hardware infections based on this critical review of the literature is presented and discussed.