Web Integrated Continuous Positive Airway Pressure System

Abstract

Keywords: Continuous Positive Airway Pressure(CPAP) 1, Sleep Apnea 2, Neonatal 3, Respiratory Distress Syndrome (RDS) 4, Premature baby 5, Transpiration medical device 6, Internet of Things 7 CPAP, a non-invasive ventilation method crucial in neonatal care, has significant implications for the survival of very low birth weight preterm infants. However, its widespread adoption is hindered by cost constraints and the need for additional features like Apnea Hypopnea Index (AHI) monitoring. This study seeks to overcome these challenges by developing an affordable CPAP device for Neonatal Intensive Care Units (NICUs). By incorporating sensors for data collection and a microcontroller-based control system, this device aims to optimize CPAP function while minimizing energy consumption. Furthermore, the collected data will be securely stored on a cloud platform, potentially benefiting both neonatal care and sleep apnea management. Recognizing the vital role of sleep in human health, this innovation underscores the importance of restorative rest for physical and mental well-being. Highlights: · Web-integrated CPAP devices often come with remote monitoring capabilities. This allows healthcare providers to remotely monitor patients' CPAP usage data, including compliance and efficacy metrics, without requiring in-person visits. This feature facilitates better patient management and allows for timely intervention if issues arise. · These devices typically track and record various parameters such as usage hours, mask leaks, apnea-hypopnea index (AHI), and pressure settings. The data can be accessed by both patients and healthcare providers, providing insights into treatment progress and effectiveness over time. · Many web-integrated CPAP devices offer cloud connectivity, allowing users to sync their data to secure online platforms. This feature enables seamless access to CPAP usage data from multiple devices, such as smartphones, tablets, or computers, enhancing convenience and flexibility for users. · Some modern CPAP machines offer wireless connectivity options, such as Bluetooth or Wi-Fi, enabling users to connect their devices to compatible accessories or smartphone apps. This connectivity allows for features like remote control of device settings, automatic software updates, and integration with health tracking apps for a more comprehensive health management experience. · The integration of web-based CPAP platforms with telemedicine services allows for virtual consultations between patients and healthcare providers. This feature enhances access to care, particularly for patients in remote or underserved areas, and enables real-time adjustments to CPAP settings based on patient feedback and data analysis.