Correlation Between EIT-based Pulse Wave Method for Pulmonary Perfusion Monitoring and Pulmonary Artery Catheter-based Stroke Volume Measurement

Overview

The goal of this clinical study is to learn if a new, non-invasive monitoring method called EIT Pulse Wave can accurately measure blood flow to the lungs (pulmonary perfusion) and predict heart stroke volume (SV) in critically ill patients. It will also learn about the safety of this monitoring approach. The main questions it aims to answer are: How well does the EIT Pulse Wave measurement of lung blood flow correlate with the SV measured by the standard method (Swan-Ganz catheter)? Can we build a reliable model to predict SV non-invasively using the EIT Pulse Wave signal? Researchers will compare the EIT Pulse Wave measurements directly with the Swan-Ganz catheter measurements to see if the new method is accurate. Participants will: Be critically ill adults in the ICU who are already receiving mechanical ventilation and have a Swan-Ganz catheter in place for medical reasons. Undergo simultaneous monitoring using both the EIT device and the Swan-Ganz catheter every 30 minutes for up to 48 hours. Have their ventilator settings adjusted to different levels as part of the study protocol while both measurements are recorded.

Research Overview: Developing a Safer and Simpler Method to Monitor Heart and Lung Function in Critically Ill Patients 1. Why are we conducting this study? In the intensive care unit (ICU), doctors need to constantly track subtle changes in patients' heart and lung function, particularly how much blood the heart pumps with each beat (known as "stroke volume") and how blood flows through the lungs (known as "pulmonary perfusion"). This information is crucial for precise medication administration and adjusting ventilator settings. Currently, the "gold standard" method for measuring stroke volume requires inserting a long, thin catheter (a Swan-Ganz catheter) into a patient's major blood vessel, advancing it near the heart. This is an invasive procedure that carries risks such as infection and bleeding, is expensive, and is technically complex. Therefore, there is an urgent need to find a non-invasive, safe, and simple method that can continuously and in real-time monitor these critical indicators, much like tracking heart rate or blood pressure. 2. What new method are we testing? We are studying a brand-new technology called "Electrical Impedance Tomography (EIT) Pulse Wave Method." You can think of it as a "smart camera," but instead of using radiation, it uses very weak, safe electrical currents-imperceptible to the human body-to "see" blood flow in the lungs. The advantages of this technology are significant: Completely Non-Invasive: It only requires placing a belt with electrodes on the patient's chest, causing no trauma. Real-Time Bedside Monitoring: The device can be brought to the bedside, providing continuous, dynamic images and data without moving critically ill patients. Radiation-Free: It poses no risk of radiation exposure to either patients or medical staff. 3. What is the core question this study aims to answer? While the EIT Pulse Wave method is technologically advanced, we do not yet know if the "pulmonary perfusion signal" it measures is accurate and reliable. Can the data it captures truly reflect the volume of blood pumped by the heart? This is the goal of our study: to conduct a head-to-head, precise comparison between this new non-invasive method and the traditional invasive "gold standard" method to verify its reliability. 4. How will the study be conducted? Study Type: This is an observational study. This means we will not make any additional interventions to the patient's treatment. We will only simultaneously record data measured by both devices at the same time points. Participants: We will recruit critically ill patients who require a Swan-Ganz catheter for their own medical condition. Their participation will not introduce additional medical risks. Research Process: After patients consent to join the study, we will initiate the non-invasive EIT monitoring simultaneously with the routine stroke volume measurements taken via the Swan-Ganz catheter. We will pair and compare the data recorded by both devices at identical time points (accurate to the second). 5. What potential benefits might this study bring? For Future Patients: If the study is successful and proves the EIT Pulse Wave method is reliable, countless future critically ill patients could benefit. They could avoid the pain and risks associated with invasive catheters while receiving more continuous and convenient monitoring of heart and lung function, leading to more precise, individualized treatment. For Medical Progress: This would introduce a revolutionary tool to the field of critical care medicine, advancing the development of "non-invasive monitoring" technologies, and ultimately potentially reducing healthcare costs and improving patient outcomes. For the Participants Themselves: While participation in this study may not offer direct therapeutic benefits, the intensive data monitoring might provide the medical team with richer physiological information, potentially helping to optimize their current treatment plan. In summary, this study aims to take the crucial first step: validating a promising non-invasive technology, with the hope of transforming the monitoring methods for critically ill patients in the future, making treatment safer and more precise.