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Remimazolam's benefits for patients undergoing painless flexible fiberoptic bronchoscopy remain uncertain. We aimed to compare the efficacy and safety of remimazolam and dexmedetomidine in flexible fiberoptic bronchoscopy (FFB). Randomized controlled trial. University hospital. Between April 2021 and September 2022, patients undergoing painless flexible fiberoptic bronchoscopy were recruited. The patients were randomly assigned with a 1:1 ratio to remimazolam-remifentanil group (RR group) or dexmedetomidine-remifentanil group (DR group). The primary outcome was the procedure interruption rate during bronchoscopy. Secondary outcomes were hemodynamic changes, resuscitation time, rescue medication usage rate and dose, satisfaction scores of patients and bronchoscopists, operation-related complications, and adverse events. A total of 363 patients were included for final analysis. The interruption rates of bronchoscopy were 8.2 % in the RR group and 39.2 % in the DR group (P < 0.05). The rescue medication usage rate (4.4 % vs. 38.7 %, P < 0.05) and dose (1.51 ± 8.15 mg vs. 13.17 ± 18.86 mg, P < 0.05) were lower in the RR group compared with the DR group. The incidence of oxygen desaturation was significantly lower in the RR group than in the DR group (14.3 % vs. 44.2 %, P < 0.05). Hemodynamic changes in patients in the DR group were significant, with longer recovery time and lower satisfaction scores for both inpatients and bronchoscopists (P < 0.05), compared with the RR group. However, there were no significant differences between groups in terms of operation-related complications (P > 0.05) except for postoperative dizziness, which was more common in the DR group (P < 0.05). Remimazolam is effective and safe in painless flexible fiberoptic bronchoscopy. It allows a lower procedure interruption rate and incidence of oxygen desaturation, providing better hemodynamic stability compared to dexmedetomidine. •Remimazolam, an ultra-short-acting benzodiazepine, induced better sedation during bronchoscopy than dexmedetomidine.•Remimazolam had a better safety profile than that of dexmedetomidine.•Remimazolam anesthesia had higher bronchoscopist and patient satisfaction score.

Objectives: To study the peculiarities of endobronchial alterations in patients with bronchiectasis and COPD. Methods: There are 32 patients (age 38-62 years old; 28 men, 4 women) with bronchiectasis and COPD were investigated. All patients underwent a comprehensive examination including X-ray and CT scan of chest organs, respiratory function tests, ECG, Echocardiography, bronchoscopy, microbiological sputum and bronchoalveolar lavage (BAL) analysis, cytological evaluation of BAL. 11 patients have unilateral and 21 patients have bilateral bronchiectasis. In 26 cases lower lobe lesions were detected; at 6 cases bronchiectasis were disseminated over. Flexible bronchoscopy was conducted transnazal or peroral under anaesthesia. All patients got a 1-2 dose of salbutamol inhalation 10-15minutes before the bronchoscopy. Results: Endoscopy image was almost normal at 4 patients with unilateral bronchiectasis. The mucous membrane of a trachea and large bronchial tubes had light pink colour, bronchial cartilages were distinctly differentiated, and paths of bronchial tubes and interbronchial spurs had the usual form and the size. At 8 patients the cataral endobronchitis has been diagnosed. At 5 unilateral puromucous endobronchitis, and at 10 patients bilateral puromucous endobronchitis was detected. The endoscopic image at other patients was characterized by diffuse purulent endobronchitis. There were all signs of various degree of active inflammatory process at patients. Hyperemia was found at 19 patients; in 9 cases it was considerable and combined with the mucous hypostasis. Also the bronchoscopy revealed mucosal edema of multiple-branched bronchi in most of patients. In the trachea and the bronchial paths some quantity of a mucous secret was found. There was the puromucous secret in the path of bronchial tubes, in 8 cases the secret filled up almost all visible paths of segmental and sub-segmental bronchus. Conclusion: Thus, the various degree of endobronchial inflammatory changes occurs at the majority of patients with bronchiectasis and COPD. The narrowing and obturating the bronchial paths by the bulk of a dense purulent secret lead to development and progressing of respiratory insufficiency. Exacerbations of both diseases can be precipitated by these factors.

Although culture-independent techniques have refuted lung sterility in health, controversy about contamination during bronchoscope passage through the upper respiratory tract (URT) has impeded research progress. We sought to establish whether bronchoscopic sampling accurately reflects the lung microbiome in health and to distinguish between two proposed routes of authentic microbial immigration, (i) dispersion along contiguous respiratory mucosa and (ii) subclinical microaspiration. During bronchoscopy of eight adult volunteers without lung disease, we performed seven protected specimen brushings (PSB) and bilateral bronchoalveolar lavages (BALs) per subject. We amplified, sequenced, and analyzed the bacterial 16S rRNA gene V4 regions by using the Illumina MiSeq platform. Rigorous attention was paid to eliminate potential sources of error or contamination, including a randomized processing order and the inclusion and analysis of exhaustive procedural and sequencing control specimens. Indices of mouth-lung immigration (mouth-lung community similarity, bacterial burden, and community richness) were all significantly greater in airway and alveolar specimens than in bronchoscope contamination control specimens, indicating minimal evidence of pharyngeal contamination. Ecological indices of mouth-lung immigration peaked at or near the carina, as predicted for a primary immigration route of microaspiration. Bacterial burden, diversity, and mouth-lung similarity were greater in BAL than PSB samples, reflecting differences in the sampled surface areas. (This study has been registered at ClinicalTrials.gov under registration no. NCT02392182.) IMPORTANCE This study defines the bacterial topography of the healthy human respiratory tract and provides ecological evidence that bacteria enter the lungs in health primarily by microaspiration, with potential contribution in some subjects by direct dispersal along contiguous mucosa. By demonstrating that contamination contributes negligibly to microbial communities in bronchoscopically acquired specimens, we validate the use of bronchoscopy to investigate the lung microbiome. This study defines the bacterial topography of the healthy human respiratory tract and provides ecological evidence that bacteria enter the lungs in health primarily by microaspiration, with potential contribution in some subjects by direct dispersal along contiguous mucosa. By demonstrating that contamination contributes negligibly to microbial communities in bronchoscopically acquired specimens, we validate the use of bronchoscopy to investigate the lung microbiome.

Each year, millions of pulmonary nodules are identified incidentally or through lung cancer screening, and many involve biopsy to distinguish cancer from benign processes. Both navigational bronchoscopy and computed tomography-guided transthoracic needle biopsy are commonly used in patients undergoing biopsies of peripheral pulmonary nodules, but the relative diagnostic accuracy of these two approaches is unclear. In this multicenter, randomized, parallel-group, noninferiority trial, we assigned patients with an intermediate-risk or high-risk peripheral pulmonary nodule measuring 10 to 30 mm in diameter to undergo navigational bronchoscopy or transthoracic needle biopsy at seven centers across the United States. The primary outcome was diagnostic accuracy, which was defined as the percentage of patients with biopsies that showed a specific diagnosis (cancer or a specific benign condition) that was confirmed to be accurate through 12 months of clinical follow-up (nonferiority margin, 10 percentage points). Secondary outcomes included procedural complications such as the occurrence of pneumothorax. Among the 234 patients included in the primary-outcome analysis (5 of whom were lost to follow-up), biopsy resulted in a specific diagnosis that was confirmed to be accurate through month 12 in 94 of 119 patients (79.0%) in the navigational bronchoscopy group and in 81 of 110 patients (73.6%) in the transthoracic needle biopsy group (absolute difference, 5.4 percentage points; 95% confidence interval, -6.5 to 17.2; P = 0.003 for noninferiority; P = 0.17 for superiority). Pneumothorax occurred in 4 of 121 patients (3.3%) in the navigational bronchoscopy group and in 32 of 113 patients (28.3%) in the transthoracic needle biopsy group and led to the placement of a chest tube, hospital admission, or both in 1 patient (0.8%) and 13 patients (11.5%), respectively. The diagnostic accuracy of navigational bronchoscopy was noninferior to that of transthoracic needle biopsy among patients with peripheral pulmonary nodules measuring 10 to 30 mm. (Funded by Medtronic and others; VERITAS ClinicalTrials.gov number, NCT04250194.).

Advanced bronchoscopy techniques such as electromagnetic navigation (EMN) have been studied in clinical trials, but there are no randomized studies comparing EMN with standard bronchoscopy. To measure and identify the determinants of diagnostic yield for bronchoscopy in patients with peripheral lung lesions. Secondary outcomes included diagnostic yield of different sampling techniques, complications, and practice pattern variations. We used the AQuIRE (ACCP Quality Improvement Registry, Evaluation, and Education) registry to conduct a multicenter study of consecutive patients who underwent transbronchial biopsy (TBBx) for evaluation of peripheral lesions. Fifteen centers with 22 physicians enrolled 581 patients. Of the 581 patients, 312 (53.7%) had a diagnostic bronchoscopy. Unadjusted for other factors, the diagnostic yield was 63.7% when no radial endobronchial ultrasound (r-EBUS) and no EMN were used, 57.0% with r-EBUS alone, 38.5% with EMN alone, and 47.1% with EMN combined with r-EBUS. In multivariate analysis, peripheral transbronchial needle aspiration (TBNA), larger lesion size, nonupper lobe location, and tobacco use were associated with increased diagnostic yield, whereas EMN was associated with lower diagnostic yield. Peripheral TBNA was used in 16.4% of cases. TBNA was diagnostic, whereas TBBx was nondiagnostic in 9.5% of cases in which both were performed. Complications occurred in 13 (2.2%) patients, and pneumothorax occurred in 10 (1.7%) patients. There were significant differences between centers and physicians in terms of case selection, sampling methods, and anesthesia. Medical center diagnostic yields ranged from 33 to 73% (P = 0.16). Peripheral TBNA improved diagnostic yield for peripheral lesions but was underused. The diagnostic yields of EMN and r-EBUS were lower than expected, even after adjustment.

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Although remimazolam is an ultra-short-acting benzodiazepine with a shorter elimination half-life and faster recovery time than midazolam, studies evaluating its safety and efficacy during bronchoscopy are limited. This study aimed to compare the safety and efficacy of remimazolam with those of midazolam for bronchoscopy. This prospective randomized parallel-group study was conducted at a single institution. The primary outcome was the time from the end of the procedure to full alertness. Other procedural time parameters, satisfaction profiles, and adverse effects were thoroughly evaluated. The time taken to reach peak sedation and the time from the end of the procedure to full alertness was significantly shorter in the remimazolam group than in the midazolam group (median [interquartile range], 2 min [1–4] vs. 3 min [2–5], P  = 0.006; and median, 2 min [1–5] vs. 5 min [1–12], P  = 0.035, respectively). In patients with non-biopsy procedures (n = 79), participant satisfaction was significantly higher in the remimazolam group than in the midazolam group (median rated scale, 10 vs. 7, P  = 0.042). Physician satisfaction and willingness to repeat the procedure were similar between groups. Although the incidence of adverse effects was similar between the groups and there was no significant difference, the midazolam group had a higher antidote administration rate than the remimazolam group (15.7% vs. 4.1%, P  = 0.092). Remimazolam is effective and safe for achieving adequate sedation, with a shorter onset time and faster neuropsychiatric recovery than midazolam. It may be a new option for sedation during bronchoscopy. Trial registration : The trial registration number is NCT05994547, and the date of first registration is 16/08/2023.