Clinical Research Directory

Clinical Application of Wearable Ultrasound Sensors

This study aims to develop and evaluate a wearable ultrasound imaging sensor for the early diagnosis and real-time monitoring of various diseases, such as cardiovascular conditions and structural abnormalities of superficial organs. With advancements in medical technology, wearable devices have attracted increasing attention for their portability and real-time capabilities.

Concordance and Discordance in the Assessment of Volume Status in Home Dialysis Patients: A Comparison of Modified Medical Research Council Dyspnea Scale, Physical Exam, and Point of Care Ultrasound (POCUS)

Fluid overload, which is when your body has too much fluid, is one of the reasons why people on home dialysis need to go to the hospital. Fluid overload (when body has too much fluid) commonly presents as trouble breathing and leg swelling. Traditionally, doctors check for this by asking patients if they have any symptoms like leg swelling or shortness of breath and by doing a physical exam which includes listening to the lungs or looking for swelling in legs. However, a newer, safe, and non-invasive method called point-of-care ultrasound (POCUS) has become very popular. However, we don't have a lot of research yet on how POCUS and LUS (lung ultrasound) specifically help home dialysis patients, including those on peritoneal dialysis or home hemodialysis. Peritoneal dialysis is a way to clean your blood by putting a special fluid into your belly through a small tube. The fluid uses the natural lining of your belly as a filter to remove waste and extra water. Home hemodialysis is a treatment where a machine acts like an artificial kidney to clean your blood. You get trained to do this yourself at home by connecting to the machine with a couple of needles, which cleans your blood of waste and extra fluid. POCUS, especially a (LUS), has been shown to be useful for dialysis patients in outpatient units. This study will compare different 3 different methods of detecting fluid overload: answering various survey questions, completing a physical exam, and a LUS. The study seeks to determine which of these methods is the best method to determine fluid overload. You were selected as a possible participant because you are over 18 years old, diagnosed with End-stage kidney disease, and have been receiving home dialysis for at least three months.

Quantification of Systemic Congestion by Ultrasound As a Predictor of Weaning Failure From Mechanical Ventilation

Mechanical ventilation is an essential, life-saving therapy in the ICU, allowing critically ill patients to rest and recover. Transitioning patients back to spontaneous breathing-known as weaning-is clinically challenging. The first attempt, the Spontaneous Breathing Trial (SBT), fails in 10-30% of cases. Identifying the mechanisms behind failure is crucial, as unsuccessful weaning prolongs ICU stay and increases the risk of reintubation, which worsens prognosis. The SCOUT study aims to improve prediction and management of weaning failure. The main objective of the study is to evaluate whether a specific ultrasound-based method, the Venous Excess Ultrasound Score (VExUS), can predict failure of weaning from mechanical ventilation. A key pathophysiological factor is systemic venous congestion. When a patient initiates an SBT, the increased respiratory effort shifts venous return and may precipitate cardiovascular decompensation with pulmonary fluid accumulation, termed weaning-induced pulmonary edema (WIPO). Notably, this may occur even in patients without known cardiac disease. Detecting clinically relevant congestion before SBT is difficult. Fluid balance and body weight are imprecise, physical examination lacks sensitivity, and biomarkers such as NT-proBNP have limited predictive capacity. VExUS offers a promising, non-invasive approach by directly assessing venous flow patterns in major veins (inferior vena cava, hepatic, portal, and renal veins), providing an estimation of systemic venous pressure and congestion. The central hypothesis is that elevated VExUS grades prior to SBT will identify patients at high risk of failure, enabling proactive optimization and potentially improving outcomes. SCOUT is designed as a prospective, multicenter, observational study. Standard clinical management of mechanical ventilation and weaning remains unchanged. After informed consent, baseline data will be obtained immediately before SBT, including vital signs, ventilator parameters, blood sampling, and three non-invasive ultrasound assessments: cardiac, pulmonary, and VExUS. During the 30-120-minute SBT, the patient breathes with reduced ventilatory support while their clinical tolerance is evaluated. At the end of the SBT, selected measurements are repeated. Weaning failure is defined as: early termination of SBT due to intolerance, need for invasive or non-invasive ventilation within 48 h after extubation, or death within 48 h. Data are anonymized and stored securely (REDCap) in compliance with Spanish and EU data protection regulations. The study is low-risk and provides no direct individual benefit, but may benefit future ICU patients by improving weaning strategies and prognostication.