3 Clinical Trials for Pleural Diseases
A single-center, non-randomized, prospective observational, pilot study designed to determine what is the optimal number of pleural biopsies to take during pleuroscopy.
The purpose of this protocol is to conduct a pilot prospective non-blind clinical trial to evaluate the efficacy and safety of a novel saline irrigation technique as an adjunct to standard interventions for treating retained pleural infections. Intrapleural fibrinolytic therapy (IPFT) is commonly used for infections not adequately managed with antibiotics and intercostal tube drainage, while saline irrigation serves as an alternative for cases with a high bleeding risk where IPFT is not feasible. The efficacy of saline irrigation combined with IPFT remains unexplored. The hypothesis is that saline irrigation could be an effective and safe addition to IPFT for patients with persistent pleural infections. The specific aims of the study include: Determine the efficacy of saline irrigation as add-on therapy to IPFT: Compare the clinical outcomes of patients receiving saline irrigation combined with IPFT to those receiving IPFT alone to determine if the addition of saline irrigation offers significant benefits. Outcomes include changes in inflammatory markers, imaging characteristics (echography and CT), volume of pleural fluid drained, chest tube duration, hospital length of stay, and the need for subsequent surgical intervention. Assess the safety and tolerability of saline irrigation plus IPFT: Compare complications and patient comfort in those receiving saline irrigation combined with IPFT to those receiving IPFT alone.
Dynamic digital radiography (DDR) is a new advanced version of chest radiography that captures dynamic images at a rate of 15 frames per second. It is coupled with an analytical software that allows it to provide more advanced measures of lung motion, ventilation, and perfusion compared to traditional chest radiography. While implementation of DDR fixed machines are beginning elsewhere in the US, this trial involves the first applications of an FDA-approved portable DDR machine, for use at the bedside in the ICU. The goal of this clinical trial is to determine the feasibility and safety of portable DDR technology in the ICU, as well as to evaluate the improved clinical diagnostic value of the portable DDR system over current standards of care. Participants will receive one to three sets of DDR images, which will then be compared to their clinical gold standard exams (such as chest x-rays, CTs, or VQ scans) to assess and improve the precision and accuracy of measurements such as diaphragmatic motion, lung movement, and perfusion.