Purpose: Clamshell incision offers excellent exposure and access to the pleural spaces and is a standard incision for lung transplantation. However, due to its high sternal complication rate, the clamshell incision is considered a procedure that requires improvement. In this study, we aimed to investigate the outcomes of transverse sternotomy with clamshell incision in comparison to sternum-sparing bilateral anterolateral thoracotomy (BAT). Materials and Methods: In total, 134 bilateral sequential lung transplants were performed from May 2013 to June 2022. The clamshell incision was used between May 2013 and December 2017, and the BAT was introduced in January 2018. Thirty-four patients underwent clamshell surgery, and 100 patients underwent BAT. We retrospectively compared patient characteristics and perioperative and postoperative outcomes between the two groups. Results: The clamshell group required an operation time of 745.18±101.76 min, which was significantly longer than that of the BAT group at 669.90±134.09 min (p=0.003). The mechanical ventilation period after surgery was 17.26±16.04 days in the clamshell group, significantly longer than the 11.35±12.42 days in the BAT group (p=0.028). Intensive care unit stay was also significantly longer in the clamshell group (21.54±15.23 days vs. 15.03±14.28 days; p=0.033). In-hospital mortality rates were 26.5% in the clamshell group and 22.0% in the BAT group. Conclusion Less-invasive lung transplantation via sternum-sparing BAT is a safe procedure with low morbidity and favorable outcomes. Preventing sternal instability enables more stable breathing after surgery, earlier weaning from mechanical ventilation, and faster recovery to routine activities.

Thoracic endovascular aortic repair (TEVAR) has emerged as an effective therapy for a variety of thoracic aortic pathologies. However, various types of endoleak remain a major concern, and its treatment is often challenging. We report a case of type I endoleak occurring 19 months after zone II hybrid TEVAR. The endoleak was successfully repaired by the frozen elephant trunk technique, without removal of a previous stent graft, combined with ascending aorta and total arch replacement.
Aneurysm ; Aorta ; Blood Vessel Prosthesis ; Elephants* ; Endoleak* ; Pathology

BACKGROUND: The inferior vena cava filter (IVCF) is very effective for preventing pulmonary embolism in patients who cannot undergo anticoagulation therapy. However, if a filter is placed in the body permanently, it may lead to other complications. METHODS: A retrospective study was performed of 159 patients who underwent retrievable Cook Celect IVCF implantation between January 2007 and April 2015 at a single center. Baseline characteristics, indications, and complications caused by the filter were investigated. RESULTS: The most common underlying disease of patients receiving the filter was cancer (24.3%). Venous thrombolysis or thrombectomy was the most common indication for IVCF insertion in this study (47.2%). The most common complication was inferior vena cava penetration, the risk of which increased the longer the filter remained in the body (p=0.032, Exp(B)=1.004). CONCLUSION: If the patient is able to retry anticoagulation therapy and the filter is no longer needed, the filter should be removed, even if a long time has elapsed since implantation. If the filter cannot be removed, it is recommended that follow-up computed tomography be performed regularly to monitor the progress of venous thromboembolisms as well as any filter-related complications.
Follow-Up Studies ; Humans ; Pulmonary Embolism ; Retrospective Studies ; Thrombectomy ; Thromboembolism ; Vena Cava Filters* ; Vena Cava, Inferior* ; Venous Thrombosis

BACKGROUND: Surgical correction needs to be considered when diaphragm eventration leads to impaired ventilation and respiratory muscle fatigue. Plication to sufficiently tense the diaphragm by VATS is not as easy to achieve as plication by open surgery. We used pneumatic compression with carbon dioxide (CO2) gas in thoracoscopic diaphragmatic plication and evaluated feasibility and efficacy. METHODS: Eleven patients underwent thoracoscopic diaphragmatic plication between January 2008 and December 2013 in Pusan National University Hospital. Medical records were retrospectively reviewed, and compared between the group using CO₂ gas and group without using CO2 gas, for operative time, plication technique, duration of hospital stay, postoperative chest tube drainage, pulmonary spirometry, dyspnea score pre- and postoperation, and postoperative recurrence. RESULTS: The improvement of forced expiratory volume at 1 second in the group using CO₂ gas and the group not using CO₂ gas was 22.46±11.27 and 21.08±5.39 (p=0.84). The improvement of forced vital capacity 3 months after surgery was 16.74±10.18 (with CO₂) and 15.6±0.89 (without CO₂) (p=0.03). During follow-up (17±17 months), there was no dehiscence in plication site and relapse. No complications or hospital mortalities occurred. CONCLUSION: Thoracoscopic plication under single lung ventilation using CO₂ insufflation could be an effective, safe option to flatten the diaphragm.
Busan ; Carbon Dioxide* ; Carbon* ; Chest Tubes ; Diaphragm ; Diaphragmatic Eventration ; Drainage ; Dyspnea ; Fatigue ; Follow-Up Studies ; Forced Expiratory Volume ; Hospital Mortality ; Humans ; Insufflation ; Length of Stay ; Medical Records ; Methods ; One-Lung Ventilation ; Operative Time ; Recurrence ; Respiratory Muscles ; Retrospective Studies ; Spirometry ; Thoracic Surgery, Video-Assisted ; Thoracoscopy ; Transcutaneous Electric Nerve Stimulation ; Ventilation ; Vital Capacity