Objective To explore the clinical value of pleura biopsy and partial pleura cryobiopsy via electronic bronchoscope in diagnosis of unknown exudative pleural effusion. Methods Diagnostic results of 563 patients with unknown exudative pleural effusion were analyzed retrospectively. Bronchoscope and routine pleura biopsy were performed in 187 patients. Bronchoscope and routine pleura biopsy plus partial pleura cryobiopsy were performed in 376 patients. Pathological positive rates of the two groups were compared. Results In the 187 patients examined by bronchoscope and routine pleura biopsy from 2006 to 2008, 161 patients obtained pathological positive results ( 86.1% ) . In the 376 patients examined by bronchoscope and routine pleura biopsy plus partial pleura cryobiopsy from 2009 to 2012, 354 patients acquired pathological diagnosis ( 94.1% ) . There was significant difference between the two groups ( P lt; 0.05) . The main complications were bleeding and local chest pain, and they can be controlled easily. Conclusions Electronic bronchoscope and pleura biopsy can obtain high detection rate of nearly 90% in diagnosis of unknown exudative pleural effusion especially when combined with cryobiopsy of partial pleura. Electronic bronchoscope combined with pleura biopsy or cryobiopsy is an alternative in clinical settings when thoracoscope is unavailable.
ObjectiveTo investigate the effect of recruitment maneuver (RM) following fibrobronchoscopy in invasively mechanically ventilated (IMV) patients with excessive airway secretions or foreign body aspiration. MethodsFrom September 2012 to July 2014, 200 eligible patients were randomly assigned to intervention group (n=100) and control group (n=100) . Airway clearance by fibrobronchoscopy was conducted in both the two groups, but RM was subsequently performed only in the intervention group. Outcome measurements included oxygenation index, partial pressure of carbon dioxide (PaCO2), heart rate (HR), air way resistance (Raw) and dynamic lung compliance (Cdyn) before and 2 hours after treatment, and duration of IMV and Intensive Care Unit (ICU) stay were also analyzed. ResultsAfter treatment with fibrobronchoscopy, oxygenation index [intervention vs. control: (291.14±38.49) vs. (241.39± 35.62) mm Hg (1 mm Hg=0.133 kPa)], PaCO2 [(41.65±7.73) vs. (38.87±7.97) mm Hg] and Cdyn [(48.94±11.21) vs. (39.59±10.98) mL/cm H2O (1 cm H2O=0.098 kPa) ] were significantly increased, while HR [(95.41±20.59) , vs. (106.47±19.11) beats/min] and Raw [(17.87±8.32) vs. (23.98±7.88) cm H2O/(L·s)] were significantly decreased in both groups (P < 0.01) . Duration of IMV and ICU stay in the intervention group were (15.72±6.42) and (19.85±8.12) days respectively, while in the control group were (20.49±7.21) and (27.87±10.33) days. Compared with the control group, patients in the intervention group had lower Raw, duration of IMV and ICU stay, and higher Cdyn, oxygenation index, and PaCO2 (P < 0.01) , but no significant difference was found in HR (P > 0.05) . ConclusionIn mechanically ventilated patients with excessive airway secretion or foreign body aspiration, recruitment maneuver following fibrobronchoscopy is of great clinical importance, due to the decrease of the duration of mechanical ventilation and ICU stay by re-inflating the collapsing alveoli, improving pulmonary ventilation and gas exchange, lung compliance and diffusion capacity.
Increasing peripheral pulmonary nodules are detected given the growing adoption of chest CT screening for lung cancer. The invention of electromagnetic navigation bronchoscope provides a new diagnosis and treatment method for pulmonary nodules, which has been demonstrated to be feasible and safe, and the technique of microwave ablation through bronchus is gradually maturing. The one-stop diagnosis and treatment of pulmonary nodules can be completed by the combination of electromagnetic navigation bronchoscopy and microwave ablation, which will help achieve local treatment through the natural cavity without trace.
Objective To investigate the indications, procedures, risks and efficacy of extracorporeal membrane oxygenation (ECMO) in bronchoscopic interventional surgery for patients with severe airway stenosis. Methods Retrospective analysis was performed on 6 patients with severe airway stenosis treated by bronchoscopic surgery under ECMO in West China Hospital from January 2018 to July 2021, and the experience of application was summarized in combination with 23 relevant literatures retrieved. Results Six patients on ECMO successfully completed bronchoscopic interventional surgery with satisfactory intraoperative oxygenation and no obvious hemostasis difficulties were observed. ECMO placement was as an emergency medical countermeasure in 3 patients while the other 3 patients were as preventive purpose. Following treatment, the shortness of breath index and mMRC score decreased and the patients were cured and discharged. During hospitalization, 3 patients had lower extremity deep vein thrombosis, and 1 patient with lower extremity swelling and pain, which was relieved after treatment with low molecular weight heparin. During discharge follow-up, 1 patient died due to airway stenosis, pulmonary infection, and subarachnoid hemorrhage secondary to cardiopulmonary resuscitation, while the other 5 patients did not show any worsening of dyspnea. Combined with the retrieval of 46 similar cases reported in the literature before 2020, it was concluded that these patients who met the application indications of ECMO and followed the shutdown procedure had a good prognosis and controllable risk. Conclusions ECMO can ensure the safety of patients with severe airway stenosis who need undergoing bronchoscopic interventional surgery for patients, improve the success rate of the operation and do not significantly increase the risk of bleeding. However, ECMO is difficult to operate and requires professional team management. Therefore, it is essential to master the indications of application, implement strict withdrawal procedures and necessary monitoring to improve the patient's cure rate and reduce the occurrence of adverse events.
ObjectiveTo systematically review the clinical utilization of robotic bronchoscopes in diagnosis of pulmonary nodules, including MonarchTM and IonTM platforms, and then evaluate the efficacy and safety of the procedure. MethodsPubMed, EMbase, Web of Science and Cochrane Central Register of Controlled Trials databases were searched by computer for literature about the biopsy of pulmonary nodules with robotic bronchoscope from January 2018 to February 14, 2022. The quality of research was evaluated with Newcastle-Ottawa Scale. RevMan 5.4 software was used to conduct the meta-analysis. ResultsFinally, 19 clinical studies with 1 542 patients and 1 697 targeted pulmonary nodules were included, of which 13 studies used the IonTM platform and 6 studies used the MonarchTM platform. The overall diagnostic rate of the two systems was 84.96% (95%CI 62.00%-95.00%), sensitivity for malignancy was 81.79% (95%CI 43.00%-96.00%), the mean maximum diameter of the nodules was 16.22 mm (95%CI 10.98-21.47), the mean procedure time was 61.86 min (95%CI 46.18-77.54) and the rate of complications occurred was 4.76% (95%CI 2.00%-15.00%). There was no statistical difference in the outcomes between the two systems. Conclusion Robotic bronchoscope provides a high efficacy and safety in biopsy of pulmonary nodules, and has a broad application prospect for pulmonary nodules diagnosis.
ObjectiveTo study the application of non-real-time ultrasound bronchoscopy combined with Metagenomic Next-Generation Sequencing (mNGS) for diagnosis in focal pulmonary infectious diseases. MethodsProspective inclusion of patients with focal pulmonary infection were randomly divided into two groups, the experimental group used non-real-time ultrasound bronchoscopy positioning to collect bronchial alveolar lavage fluid (BALF), while the control group used chest CT position. BALF was subjected to mNGS and traditional microbial detection including traditional culture, the fungal GM test and Xpert (MTB/RIF). ResultThe positive rate of traditional culture (39.58% vs. 16.67%, P=0.013) and mNGS (89.58% vs. 72.92%, P=0.036) in experimental group was higher. The positive rate of Xpert MTB/RIF (4.17% vs. 2.08%, P=1) and fungal GM test (6.25% vs. 4.17%, P=0.765) was similar. The positive rate of bacteria and fungi detected by mNGS was higher than traditional culture (61.46% vs. 28.13%, P<0.001). Mycobacterium tuberculosis was similar to Xpert MTB/RIF (8.33% vs. 3.13%, P=0.21). Aspergillus was similar to GM test (7.29% vs. 5.21%, P=0.77). The total positive rate of traditional microbial methods was 36.46%, but 81.25% in mNGS (P<0.001). mNGS showed that 35 cases were positive and 13 kinds of pathogens were detected in control group, but 43 patients and 17 kinds of pathogens were detected in experimental group. The average hospitalization time [(12.92±3.54) days vs. (16.35±7.49) days] and the cost [CNY (12209.17±3956.17) vs. CNY (19044.10±17350.85)] of experimental group was less (P<0.001). ConclusionsNon-real-time ultrasound bronchoscopy combined with mNGS can improve the diagnostic rate of focal pulmonary infectious diseases which is worthy of popularization and application in clinical practice.
ObjectiveTo explore the rescue value of emergency bronchoscopic interventional therapy in patients with malignant airway stenosis and to share the treatment experience. MethodsThe critical patients with malignant airway stenosis who needed urgent bronchoscopic interventional therapy from January, 2007 to January, 2022 in Beijing Tiantan Hospital Affiliated to Capital Medical University were selected. The demographic and clinical data of intra-and-post the operation were collected. The rescue value and safety of emergency bronchoscopic intervention in the critical patients with malignant airway stenosis were evaluated, and the rescue process was summarized. ResultsForty-three patients were enrolled in the study, including 26 males and 17 females, with an average age of (61.6±11.4) years, including 20 cases of primary lung cancer and 23 cases of other malignant tumors; The main type of stenosis was endogenous (26 cases, 61.90%), followed by external pressure (12 cases, 28.57%) and mixed (4 cases, 9.52%) type. The stenosis site was almost the central airway (41 cases, 95.35%), and the main anesthesia method was general anesthesia (37 cases, 86.05%); Emergency bronchoscopic interventional therapy included local resection in 27 cases (62.79%), stent implantation in 12 cases (27.91%), exploration in 2 cases (4.65%), tumor biopsy in 1 case (2.33%), and adjustment of stent position in 1 case (2.33%); The dyspnea score and the degree of airway stenosis decreased significantly after interventional therapy (P<0.01); intraoperative complications occured in 21 cases and bleeding (19 cases) was the commonest one, short term postoperative complications occurred in 3 cases, including respiratory depression, glottic edema and airway spasm, respectively. ConclusionsEmergency bronchoscopic interventional therapy can quickly and effectively alleviate the severe airway obstruction caused by malignant tumor, and win time for the follow-up comprehensive treatment of tumor, but it needs close team cooperation and standardized rescue process.
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.