Objective To compare the advantages and disadvantages of the PercuTwist technique.Methods Clinical data of patients undergoing PercuTwist and traditional tracheostomy during Jan 2007 to Feb 2008 in the department of pulmonary disease of Changhai Hospital were collected and analyzed.Results Of 16 patients with PercuTwist,12 were males and 4 were females.The minimum platelet before operation was 15 X 109/L The mean operating time f from local anesthesia to connecting ventilator)was(4.3±1.0)min,and complications occurred in 2 cases with 2 incidences.Of the 12 patients with traditional tracheostomy,8 were males and 4 were females.The minimum platelet before operation was 85 X 109/L.The mean operating time was(33.3±8.6)min,and complications occurred in 8 cases with11 incidences.There were significant differences in complications and operating time between the patients with PercuTwist and the patients with traditional tracheostomy(P lt;0.001 or 0.01).Conclusions Compared with the traditional surgical tracheostomy,the PercuTwist technique takes less operating time and causes fewer complications.
ObjectiveTo establish a simple and stable model of benign tracheal stenosis in SD rats by nylon brush scraping induced mechanical injury, and to observe the pathological changes of tracheal tissue at different time points after modeling.MethodsTwenty SD rats were divided into sham operation group (10 rats) and stenosis model group (10 rats) by random number method. Symptoms and survival conditions were observed, tracheal tissues were obtained, granulation tissue proliferation was observed, and stenosis indexes were measured and compared. Another fifteen rats were sacrificed at different time points (days 0, 2, 4, 6, and 8) after modeling. Tracheal tissues were obtained, HE staining and Masson staining were performed to observe pathological changes with time.ResultsThe survival rate of the sham operation group was 100% on the 8th day after operation, and the survival rate was 0% on the 8th day after operation in the stenosis model group. The difference in survival condition between the two groups was statistically significant (P=0.000 1) by Log-rank test. The stenosis index in the sham operation group was (6.12±1.78)%, and in the stenosis model group was (60.28±12.56)%. The difference in the stenosis between the two groups was statistically significant (P<0.000 01). HE staining results showed that the tracheal lumen was unobstructed and no granulation tissue hyperplasia or stenosis was found in the sham operation group. The epithelial mucosa was intact and smooth, and the cilia structure was clearly visible. It was a pseudo-stratified ciliated columnar epithelium, which was consistent with the characteristics of normal airway mucosa. While in stenosis model group, the lumen was significantly narrowed, and the stenosis was mainly caused by granulation tissue hyperplasia. No epithelial structure was observed, or epithelial structure was extremely abnormal. Masson staining showed that the fibroblasts in the injured site increased first and then decreased, and the collagenous fiber (blue) in the injured site gradually increased with time.ConclusionsA model of benign tracheal stenosis in rats can be successfully established by nylon brush scraping induced mechanical injury. The modeling method is simple, controllable and reproducible. The model can be widely used in the investigation of pathogenic mechanism for benign airway stenosis and efficacy exploration of new treatment.
ObjectiveTo introduce implantation methods of different types of congenital heart disease occluder for the treatment of bronchopleural fistula (BPF) and its preliminary efficacy.MethodsThree patients who diagnosed with BPF and treated by congenital heart disease occluder were reviewed. The clinical data was analyzed after comprehensively reviewing of relevant literature.ResultsAll the three patients were treated with postoperative BPF and empyema. The diameter of the fistula ranged from 3 to 8 mm. We used occlusive devices for congenital heart diseases such as atrial septum (ASD), ventricular septum (VSD) defect or patent ductus arteriosus (PDA), respectively. After treatment, all three patients were cured of BPF and empyema caused by BPF in a short time, and the thoracic drainage tube was successfully removed. During the follow-up period from 7 to 25 months, no significant long-term complications were observed.ConclusionThe use of ASD, VSD and PDA occluder for the treatment of BPF with a fistula more than 3 mm is effective and safe.
ObjectiveTo evaluate the clinical efficacy of balloon bronchoplasty and metallic stents in lung transplant-related central airway stenosis.MethodsData of lung transplant recipients with central airway stenosis who underwent therapeutic bronchoscopic interventions between January 2011 and June 2019 at our institution were reviewed. The clinical follow-up included dyspnea index, forced expiratory Forced expiratory volume in one second (FEV1), six-minute walk distance (6MWD), and the rate of bronchoscopic dilation.ResultsThirty-four lung transplant recipients with airway stenosis were included in our study. All these patients were treated by balloon bronchoplasty through flexural bronchoscopy, and 7 additionally needed temporary metal stent implantation for 28 to 67 days in order to palliate recurrent central airway stenosis. The percentages of immediate efficacy were 86% (180/209) and 100% (7/7), respectively. After serial balloon dilatation, the recipients with central airway stenosis had significantly lower dyspnea index (3.24±0.55 vs. 1.91±0.62, P<0.01), higher FEV1 [(1.43±0.21)L vs. (1.72±0.27)L, P<0.01] and longer 6MWD [(317.3±61.7)m vs. (372.9±52.6)m, P<0.01]. Six recipients with central airway stenosis received 33 interventions in 6 months before stent implantation and 10 interventions in 6 months after stent extraction.ConclusionsLung transplant recipients with central airway stenosis have a good respond to balloon bronchoplasty and stent placement. Airway stenosis after lung transplantation can be successfully managed with bronchoscopic dilatation and temporary stent placement.
ObjectiveTo explore the clinical application of the comprehensive guidance technologies, such as cone beam computed tomography (CBCT), virtual bronchoscopic navigation (VBN), and superimposed high-frequency jet ventilator for respiratory control in the biopsy of peripheral pulmonary nodules (PPNs). MethodsThe clinical information of 3 patients with PPNs diagnosed by CBCT combined with VBN and superimposed high frequency superposition jet ventilator in Shanghai Changhai Hospital were retrospectively analyzed. Results Clinical data of 3 patients were collected. The average diameter of PPNs was (25.3±0.3) mm with various locations in left and right lung. The first nodule was located in the apex of the left upper lung, and the biopsy was benign without malignant cells. The lesion was not enlarged during the 5-year follow-up. The second one was located in the left lingual lung, and the postoperative pathology was confirmed as mucosa-associated lymphoma. The third one was located in the anterior segment of the right upper lung. After the failure of endobronchial procedure, percutaneous PPNs biopsy under CBCT combined with VBN was performed, and the pathological diagnosis was confirmed as primary lung adenocarcinoma. Postoperative pneumothorax complication occurred in the third patient with right lung compression rate approximately 20%. ConclusionsThe application of CBCT, combined with VBN and the superimposed high frequency jet ventilator for respiratory control can potentially improve the accuracy and safety in the diagnosis of PPNs. Multi-center clinical trials are needed to verify its further clinical application.