Objective The aim of this study is to assess the clinical results of bifocal or trifocal bone transport using unilateral rail system in the treatment of large tibial defects caused by infection. Methods There were a total of 37 eligible patients with an average age of 40.11 ± 10.32 years (range, 18–57 years; 28 males and nine females) with large tibial defects due to infection who were admitted to our hospital from June 2006 to June 2016. Among the patients, 21 underwent bifocal bone transport (BF group), and the remaining 16 were treated with trifocal bone transport (TF group). The demographic data (age, sex, interval duration before bone transport, previous operation time), intraoperative outcomes (size and location of the defect, size of soft tissue defect), postoperative variables (lengthening speed, external fixation index, duration of regenerate consolidation and docking union), postoperative bone and functional outcomes evaluated by Association for the Study and Application of the Method of Ilizarov (ASAMI) scoring system, and postoperative complications evaluated by Paley classification (muscle contraction, axial deviation, delayed consolidation, pin problems, repeated fracture, joint stiffness and others) of the two groups were recorded and compared at a minimum follow‐up of 24 months. Results The mean duration of follow‐up after removal of fixator was 29.49 ± 4.34 months (range, 24–38 months). There was no statistically significant difference in the demographic data, intraoperative outcomes including size and location of the defect, size of soft tissue defect, as well as postoperative complications. However, postoperative functional result in the TF group were superior to those in the BF group at a minimum follow‐up of 24 months, and lengthening speed, external fixation index (EFI), duration of regenerate consolidation and docking union were significantly reduced in the TF group when compared with the BF group. Conclusions Treatment of large tibial defects caused by infection with trifocal bone transport using unilateral rail system could significantly improve postoperative functional recovery and reduce duration of regenerate consolidation and docking union. The present study provides novel insight for the treatment of large tibial defects caused by infection.
BackgroundThe purpose of this study is to evaluate the clinical effectiveness and determine the differences, if any, between the trifocal bone transport (TFT) technique and the bifocal bone transport (BFT) technique in the reconstruction of long segmental tibial bone defects caused by infection using a monolateral rail external fixator.MethodsA total of 53 consecutive patients with long segmental tibial bone defects caused by infection and treated by monolateral rail external fixator in our department were retrospectively collected and analyzed from the period January 2013 to April 2019, including 39 males and 14 females with an average age of 38.8 ± 12.4 years (range 19–65 years). Out of these, 32 patients were treated by the BFT technique, and the remaining 21 patients were managed by the TFT technique. The demographic data, operation duration (OD), docking time (DT), external fixation time (EFT), and external fixation index (EFI) were documented and analyzed. Difficulties that occur during the treatment were classified according to Paley. The clinical outcomes were evaluated by following the Association for the Study and Application of the Method of Ilizarov (ASAMI) criteria at the last clinical visit.ResultsAll patients achieved an infection-free union finally, and there was no significant difference between the two groups in terms of demographic data and both ASAMI bone and functional scores (p > 0.05). The mean defect size and OD in TFT (9.4 ± 1.5 cm, 161.9 ± 8.9 min) were larger than that in BFT (7.8 ± 1.8 cm, 122.5 ± 11.2 min) (p < 0.05). The mean DT, EFT, and EFI in TFT (65.9 ± 10.8 days, 328.0 ± 57.2 days, 34.8 ± 2.1 days/cm) were all less than those in BFT (96.8 ± 22.6 days, 474.5 ± 103.2 days, 60.8 ± 1.9 days/cm) (p < 0.05). Difficulties and complications were more prevalent in the BFT group than in the TFT group (p < 0.05).ConclusionBoth the trifocal and BFT techniques achieve satisfactory clinical outcomes in the reconstruction of long segmental tibial bone defects caused by infection using a monolateral rail external fixator. The TFT technique can significantly decrease the DT, EFT, EFI, difficulties, and complications compared with the BFT technique.
Background: Patients undergoing revision surgical treatment of the ulnar nerve at the elbow for cubital tunnel syndrome (CuTS) will have worse results compared to patients successfully treated with primary surgery. Objective: The purpose of this study is to evaluated clinical outcomes of revision neurolysis and ulnar groove plasty for recurrent and persistent cubital tunnel syndrome after failed surgical treatment. Methods: This retrospective investigation included patients presented with recurrent and persistent CuTS who were treated surgically with combination of revision neurolysis and ulnar groove plasty at a single institution from May 2006 to Oct 2016 with postoperative follow-up more than 24 months. Demographic data of all patients including age, sex, months to revision surgery, presenting symptoms after index surgery, previous surgical procedure and intraoperative findings were all recorded and pre-operative and post-operative data were compared. McGowen grading was used to evaluated functional impairment before and after revision surgery. Results: There were 28 patients were identified with recurrent and persistent CuTS after primary surgery and 21 patients (75%) were completed in this study with an average age was 56 years, mean duration of symptoms was 17.24 months, and mean postoperative follow-up was 35.38 months. 17 patients had McGowan stage III and 4 had stage II preoperatively. The most common cause of recurrent and persistent CuTS was perineural fibrosis with or without kink which accounts for 86.36% according to intraoperative findings. McGowan grading improved after revision neurolysis and ulnar groove plasty is 80.95%. Improvement of Visual Analogue Scale (VAS) and 2-point discrimination test were 81.25% and 85.71%, respectively. Patients satisfaction after revision neurolysis and ulnar groove plasty was 95.24%. Conclusion:The favorable results of this study demonstrated that revision neurolysis and ulnar groove plasty as the treatment of choice for recurrent or persistent cubital tunnel syndrome.
Objective The aim of this study is to evaluate the clinical outcome of flap transfer followed by delayed bone transport using external fixator on the soft tissue defect with segmental tibial loss. Methods A total of 14 patients with soft tissue defects and bone loss were treated with flap transfer combined followed by delayed bone transport using external fixator from January 2010 to January 2017 and, successfully, follow-up were included. Demographic data and data on clinical outcomes and complications were obtained from hospital record. The mean age was 35.5 years, and the average time from injury to reconstructive surgery was 4.14 months. The average soft tissue and bone defect sizes were 33.57 cm2 and 7.04 cm, respectively. Local or free flap was created to reconstruct the soft tissue defects. The Ilizarov external fixator or Orthofix limb reconstruction system (OLRS) was used to reconstruct bony defects by bifocal or trifocal bone transport using delayed distraction osteogenesis. The functional results were evaluated by Association for the Study and Application of the Method of Ilizarov scoring system, and all postoperative complications were recorded. Results The mean duration of follow-up after removal of fixator was 29.49 ± 4.34 months (range, 24–38 months). All wounds healed after 1-stage operation, and all transferred flaps were survived. The average interval between flap coverage and bone transportation was 13.4 weeks (range, 8–24 weeks). Eight patients used bifocal, and 6 patients used trifocal approach for bone transportation. An average external fixation time was 208.5 days (range, 168–235 days) and external fixation index was 33.6 days/cm (range, 18.8–46.5 days/cm). Superficial necrosis of the flap edge was noted in 4 cases, after debridement and regular dressing, the flap healed successfully. Bone union was achieved in all patients except 4 cases that occurred with docking site nonunion which achieved satisfactory union after application of accordion maneuver and autografting of iliac bone. All patients achieved satisfactory functional recovery and were able to walk normally. Conclusions The flap transfer followed by delayed distraction osteogenesis using external fixator which can be used for successful reconstruction of bone and soft tissue defects in lower leg.
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