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Robotic bronchoscopy represents the latest localization technology for peripheral pulmonary nodules, enabling precise and stable manipulation, thereby enhancing the diagnostic yield of peripheral lung pathologies. Its safety and feasibility have been internationally validated, with indications that it can significantly improve the overall diagnostic rate of biopsies for peripheral lung lesions. Nonetheless, the disparity in interventional auxiliary equipment and the level of technical operation is the primary cause for the significant variation in diagnostic rates of peripheral lung lesions across different regions, particularly in remote or underdeveloped areas. The advancement of 5G network technology has propelled the development of telemedicine, enabling remote diagnostics, surgeries, and real-time multi-party collaboration, which is expected to elevate the medical standards in remote areas, improve the diagnostic rate of peripheral lung lesions, and achieve homogenization of medical services. In summary, the integration of 5G with bronchoscopy is anticipated to bring breakthroughs in the diagnosis and treatment of peripheral lung pathologies.
Research Objective:
The primary objective of this clinical trial is to evaluate the safety and efficacy of the remote application of bronchoscopy systems and catheters for the localization and sampling of peripheral pulmonary nodules, under the premise of ensuring the safety of the subjects and the scientific integrity of the clinical trial, with the aid of 5G network.
Research Method:
The study is a prospective, multicenter, single-arm clinical trial with a target value design, intending to include 10 cases of individuals with peripheral pulmonary nodules who are willing to undergo intra-airway examination and sampling operations using remote bronchial navigation localization devices assisted by the 5G communication network. The safety and efficacy of the bronchial navigation localization devices and catheters for the localization and sampling of peripheral pulmonary nodules, developed by Changzhou Langhe Medical Devices Co., Ltd. (hereinafter referred to as "Langhe Medical"), will be assessed.
Analysis:
Statistical data analysis will be performed using SAS software version 9.4 or higher.
Study design
This study is a prospective, multicenter, single-group target value clinical trial, intending to include 10 cases of peripheral pulmonary nodules who are willing to accept airway examination and sampling operations assisted by a remote bronchoscopy system under the 5G communication network. The safety and efficacy of the bronchial navigation and localization equipment and catheter developed by Changzhou Langhe Medical Device Co., Ltd. (hereinafter referred to as 'Langhe Medical') for peripheral pulmonary nodule localization and sampling are evaluated.
The detailed operation of using the bronchial navigation and localization equipment and catheter for peripheral pulmonary nodule localization and sampling is as follows:
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| 5G group | Experimental | Biopsies of patients with pulmonary peripheral lesions (PPL) were performed using a remotely operated robotic bronchoscopy system supported by a 5G network. |
|
| local group | No Intervention | In the absence of 5G network support, a local robotic bronchoscopy system is utilized to perform biopsies on patients with pulmonary peripheral lesions (PPL). |
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| Remote Robotic Bronchoscopy system | Diagnostic Test | Utilization of a remote robotic bronchoscopy system for the biopsy of patients with pulmonary peripheral lesions |
|
| Measure | Description | Time Frame |
|---|---|---|
| equipment failure rate | The equipment failure rate is calculated as (number of instances of equipment failure / total number of uses) x 100%. Equipment failures are defined as follows: 1. Network delays ≥ 200ms that persist for more than 3 seconds; 2. Any equipment malfunction that results in the cessation of surgery. | During the bronchoscopy |
| Measure | Description | Time Frame |
|---|---|---|
| Average Latency | Refers to the network data transmission delay, recording the continuous latency data from the start of registration to the end of sampling, and documenting the average, peak, and minimum values. | During the operation |
| Bandwidth |
| Measure | Description | Time Frame |
|---|---|---|
| Diagnostic yield | Diagnostic yield is defined as the proportion of cases diagnosed with bronchoscopy pathology divided by all cases sampled using a specific technology. The bronchoscopy pathology diagnosis only included malignant and specific benign lesions. A lesion was considered malignant if tumor cells were found in histological and/or cytological specimens. Specific benign findings included granuloma, organizing pneumonia, purulence or robust neutrophilic inflammation, and other less common specific benign findings such as those suggesting hamartoma or amyloidoma. |
Inclusion Criteria:
Patients are eligible for inclusion if they meet all of the following criteria:
Age ≥18 years and ≤75 years, with no gender restrictions; Presence of a peripheral lung lesion on chest CT [Peripheral lung is defined as a nodule located in the fourth-order or higher airway (with the carina defined as order 0, the left and right main bronchi defined as order 1, lobar bronchi as order 2, segmental bronchi as order 3, and subsegmental bronchi as order 4)] in patients who require biopsy [2. The population requiring biopsy refers to individuals identified with an occupational lung lesion/nodule (including solid nodules, part-solid nodules, and ground-glass nodules) during clinical trial screening or with risk factors, and who, after comprehensive assessment by a clinician of the patient's clinical information, imaging, tumor markers, and functional imaging, are highly suspected of having cancerous nodules. Bronchoscopy biopsy is planned to further clarify the diagnosis and to guide staging treatment based on pathological results.]; Patients voluntarily agree to undergo bronchoscopy and meet the requirements for the procedure; Patients are capable of understanding the purpose of the trial, demonstrate good compliance with the examinations and follow-up, voluntarily participate in the clinical trial, and sign an informed consent form.
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Exclusion Criteria:
Patients who meet any of the following criteria will be excluded from this study:
1.Presence of contraindications for bronchoscopy, including: active massive hemoptysis; recent myocardial infarction or unstable angina; severe cardiac or pulmonary dysfunction; severe hypertension and arrhythmias; uncorrectable bleeding tendencies or severe coagulation disorders (such as platelet count <60×10^9/L), uremia; severe pulmonary artery hypertension; severe superior vena cava syndrome; intracranial hypertension; acute cerebrovascular events; aortic dissection or aneurysm; multiple bullae; extreme systemic exhaustion; 2.Female patients who are breastfeeding, pregnant, or planning pregnancy; 3.Patients with electromagnetic active implantable medical devices; 4.Subjects allergic to anesthetics; or with a history of multiple severe allergies, hereditary allergy history; 5.Those who have participated in or are currently participating in drug clinical trials within 3 months before screening, or have participated in other medical device clinical trials within 30 days; 6.Any other conditions deemed unsuitable for participation in this clinical trial by the investigator.
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| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| The First Affiliated Hospital of Guangzhou Medical University | Recruiting | Guangzhou | Guangdong | 510163 | China |
| PubMed Identifier | Type | Citation | Retractions |
|---|---|---|---|
| 38539514 | Background | Skouras VS, Gkiozos I, Charpidou AG, Syrigos KN. Robotic Bronchoscopy in Lung Cancer Diagnosis. Cancers (Basel). 2024 Mar 17;16(6):1179. doi: 10.3390/cancers16061179. | |
| 37806300 | Background | Huang J, Lin J, Chen C, Liang W, Chen Y, Li H, Zhong C, Li S. 5G-Based Remote Virtual Bronchoscopic Navigation-Guided Transbronchial Lung Biopsy for Diagnosis of Lung Cancer: Description of 2 Cases. Respiration. 2023;102(10):912-917. doi: 10.1159/000533867. Epub 2023 Oct 6. |
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Refers to the network transmission rate, recording the network bandwidth from the start of registration to the end of sampling at both control ends, documenting the maximum upload and download bandwidth.
| During the operation |
| Network Incidents and Recovery Time | Records the specific incidents and quantities of network interruptions and individual stutters >10 seconds during a single operation. | During the operation |
| Sampling yield | Sampling yield = (Total number of cases with non-normal lung tissue obtained by biopsy sampling / Total number of cases undergoing biopsy sampling) × 100%. Note: Definitive sampling includes biopsy pathological results indicating cells/tissues as malignant, benign lesions (such as fungi, tuberculosis, or sarcoidosis, etc.), and non-normal lung tissue that cannot be confirmed. | 7 days after bronchoscopy |
| Incidence of Adverse Events | Incidence of Adverse Events= (Number of cases with adverse events / Total number of sampled cases) × 100% Definitive adverse events includes: (1) any type of pneumothorax, irrespective of the necessity for tube thoracostomy, (2) bleeding during bronchoscopy requiring intervention, and (3) other adverse events such as fever, pain, and cough. | 7 days after operation |
| 7 days after bronchoscopy |