Demant Doherty (cymbalsoy09)

mes at 10 years. Significant improvements in patient-reported outcomes were sustained at minimum 10-year follow-up in young patients with GHOA who underwent a CAM procedure. The survivorship rate at minimum 10-year follow-up was 63.2%. Humeral head flattening and severe joint incongruity were risk factors for CAM failure. The CAM procedure is an effective joint-preserving treatment for GHOA in appropriately selected patients, with sustained positive outcomes at 10 years. Medial patellofemoral ligament (MPFL) reconstruction is one of the main treatments for lateral patellar translation. I-191 Based on intraoperative true lateral radiographs, the accepted methods for femoral MPFL tunnel location are potentially inaccurate. Direct assessment of anatomic characteristics during surgery through palpation of the anatomic landmarks involving the saddle sulcus might help eliminate tunnel malposition. The saddle sulcus is a reliable osseous landmark where the MPFL attaches for tunnel placement. Descriptive laboratory study. A total of 9 fresh-frozen unpaired human cadaveric knees were dissected; MPFL insertion point and relative osseous structures were marked. Three-dimensional images and transformed true lateral radiographs were obtained for analysis; 3 previously reported radiographic reference points for MPFL femoral tunnel placement were determined on all images and compared with the anatomic insertion. A saddle sulcus consistently existed where the MPFL was attached, located ainaccurate. This study demonstrates the potential precise position of the saddle sulcus, according to the ME and AT, as a reliable anatomic landmark for MPFL femoral tunnel location. Radiographic reference points were not accurate during MPFL reconstruction. Direct palpation of the landmarks might be effective for femoral MPFL tunnel placement. This study demonstrates the potential precise position of the saddle sulcus, according to the ME and AT, as a reliable anatomic landmark for MPFL femoral tunnel location. Radiographic reference points were not accurate during MPFL reconstruction. Direct palpation of the landmarks might be effective for femoral MPFL tunnel placement. Destroyed lung refers to destruction of a large portion of a lung induced by chronic or recurrent lung infections. The aim of this single-center retrospective review was to evaluate patients with a diagnosis of destroyed lung undergoing pneumonectomy via video-assisted thoracoscopic surgery, in terms of surgical technique, postoperative morbidity and mortality, and long-term outcomes. Data of 15 patients who underwent video-assisted thoracoscopic pneumonectomy for destroyed lung during a 4-year period were analyzed retrospectively. There were 9 (60%) males and 6 (40%) females with a median age of 33.87 years (range 8-52 years). Bronchiectasis ( = 7), tuberculosis ( = 5), and fungal infection ( = 3) were the main etiologies. Hemoptysis was the most common presenting symptom ( = 8, 53.3%). Destroyed lung was detected on the left side in 13 (86.7%) patients and on the right side in 2 (13.3%). Seven patients showed narrowing or thickening of the main bronchus. Video-assisted thoracoscopic pneumonectomy was attempted in all patients but 5 (33.3%) were converted to a thoracotomy. The mean operative time was 273.8 min. The postoperative morbidity rate was 13.3%. The mortality rate was 6.67%. The median length of hospital stay was 3.5 days. The mean follow-up period was 23.7 months. Significant improvement was observed in inflammatory symptoms and quality of life in all patients. The overall 1-year survival was 93.3%. Video-assisted thoracoscopic pneumonectomy for destroyed lung is a safe and feasible option in selected patients, which can be used as an alternative to thoracotomy. Video-assisted thoracoscopic pneumonectomy for destroyed lung is a