The use of locked plate technology in the calcaneus has been shown in previous studies to provide greater stability than that of nonlocking plates. The purpose of this study is to examine the radiographic effects of early weight bearing of calcaneal fractures repaired with locked plating. A retrospective review was performed of 17 calcaneal fractures repaired with locked plate fixation over a 2-year period. A chart and radiographic review evaluated the time the patient was kept non-weight bearing and the Bohler's angle at first postoperative visit and final postoperative visit. Change in Bohler's angle was used to evaluate for bone subsidence. Standard reduction and fixation techniques were performed to realign all components of the intra-articular calcaneal fracture using a titanium locking calcaneal fracture plate. Patients returned for follow-up examinations postoperatively and underwent radiographic examination. A weight-bearing short fracture walker boot was applied, and the patient began protected weight bearing at approximately 4 to 5 weeks. The charts and radiographs of 17 intra-articular fractures were reviewed. The average Bohler's angle at first postoperative visit was 30.12° in comparison to the average at final visit of 28.47 °. The average time the patient was kept non-weight bearing after the procedure was 4.8 weeks. The average time of follow-up was 237.7 days. There were no cases of significant bone subsidence or collapse noted. Calcaneal fractures can have significant morbidity associated with the injury and its care. This study examined early weight bearing of calcaneal fractures fixated with locked plating. Under radiographic review, there was no significant loss of calcaneal height, joint reduction, or fixation stability noted. These results are thought to be due to the inherent stability of the locked plate construct.
Burn injury in diabetic patients has been a recent topic of interest in published studies. Previous studies have shown increased complications in diabetic patients compared with nondiabetic controls who have sustained these injuries. A paucity of research has been devoted to foot-specific diabetic burn injury. We present a case series evaluating the mechanisms and complications of diabetic foot burns.
Objective: To investigate the feasibility of serial radiotracer-based imaging as a noninvasive approach for quantifying volumetric changes in microvascular perfusion within angiosomes of the foot following lower extremity revascularization in the setting of critical limb ischemia (CLI). Approach: A CLI patient with a nonhealing foot ulcer underwent singlephoton emission computed tomography (SPECT)/computed tomography (CT) imaging of the feet before and after balloon angioplasty of the superficial femoral artery (SFA) and popliteal artery. SPECT/CT imaging was used to evaluate serial changes in angiosome perfusion, which was compared to quantitative changes in peripheral vascular anatomy and hemodynamics, as assessed by standard clinical tools that included digital subtraction angiography (DSA), ankle-brachial index (ABI), and toe-brachial index (TBI). Results: Following revascularization, upstream quantitative improvements in stenosis of the SFA (pre: 35.4% to post: 11.9%) and popliteal artery (pre: 59.1% to post: 21.7%) shown by DSA were associated with downstream angiosomedependent improvements in SPECT microvascular foot perfusion that ranged from 2% to 16%. ABI measurement was not possible due to extensive arterial calcification, while TBI values decreased from 0.26 to 0.16 following revascularization. Innovation: This is the first study to demonstrate the feasibility of assessing noninvasive volumetric changes in angiosome foot perfusion in response to lower extremity revascularization in a patient with CLI by utilizing radiotracer-based imaging. Conclusion: SPECT/CT imaging allows for quantification of serial perfusion changes within angiosomes containing nonhealing ulcers and provides physiological assessment that is complementary to conventional anatomical (DSA) and hemodynamic (ABI/TBI) measures in the evaluation of lower extremity revascularization.
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