Development of an Algorithm to Denoise HFNO-generated Tracheal Sound

National Taiwan University Hospital60 enrolled

Overview

This study aims to develop an algorithm to mitigate the noise generated by the high-flow nasal oxygen system for tracheal sound monitoring in deeply sedated patients.

During deep sedation without intubation, anesthesia respiratory care and monitoring are of utmost importance. Anesthesia can lead to adverse respiratory effects, increasing the risk of airway obstruction and respiratory depression. High-flow nasal oxygen (HFNO) systems are often used to mitigate these risks. Monitoring tracheal breathing sounds directly using amplification provides better detection accuracy. However, traditional auscultation instruments have limitations, including noise interference and lack of visual functionality. The Airmod Smart Respiratory Monitoring System, with FDA approval in the United States and Taiwan, addresses these issues. It offers respiratory sound recording, noise filtering, event logging, and respiratory rate analysis. Currently, no digital stethoscope on the market can filter out HFNO noise. Therefore, the current study is to develop an algorithm to mitigate the noise generated by the high-flow nasal oxygen system for tracheal sound monitoring in deeply sedated patients.

Study Type

INTERVENTIONAL

Allocation

RANDOMIZED

Purpose

OTHER

Masking

DOUBLE

Enrollment

Conditions

Endoscopy, Gastrointestinal Sedation, Conscious

Interventions

High flow nasal oxygen fistDEVICE

Patients in the two study group first underwent a 10-minute session of high-flow nasal oxygen (50 L/min) followed by the utilization of the standard low-flow nasal oxygen (4 L/min) or underwent a 10-minute session of standard low-flow nasal oxygen (4 L/min) followed by the utilization of the high-flow nasal oxygen (50 L/min).

High flow nasal oxygen laterDEVICE

Patient in this group underwent a 10-minute session of standard low-flow nasal oxygen (4 L/min) followed by the utilization of the high-flow nasal oxygen (50 L/min)

Eligibility

Sex: ALLMin age: 18 Years

Medical Language ↔ Plain English

Inclusion Criteria: * Adult patients undergoing elective gastroinestinal endoscoy requiring deep sedation Exclusion Criteria: * Histories of sleep apnea, chronic obstructive pulmonary disease, or oropharyngeal tumor * Patient who has a hisotry of previous intraoral surgery, tracheal surgery or pulmonary resection surgery

Locations (2)

National Tawain University Hospital Hsinchu branch

Hsinchu, Taiwan

RECRUITING

National Tawain University Hospital Hsinchu branch

Hsinchu, Taiwan

RECRUITING

Outcomes

Primary Outcomes

Tracheal sound with and without high-flow nasal oxygen will be measured to develop an algorithm to mitigate the high flow nasal oxygen-generated tracheal noise

We aim to develop an algorithm capable of mitigating the noise generated specifically by the high-flow nasal oxygen based on recording the tracheal sound of patients undergoing gastrointestinal endoscopy in deep sedation with and without high flow nasal oxygen

Time frame: 20-30 minutes

Central Contacts

Chun-Yu Wu, MD

CONTACT

800-555-5555 b001089018@tmu.edu.tw

Tsung-Da Wu

CONTACT

800-555-5555 tsungta.wu@gmail.com

Data from ClinicalTrials.gov

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