Search clinical trials by condition, location and status
The goal of this observational study is to learn about the long-term effects of the serratus anterior plane block (SAPB) in adult patients who suffered multiple unilateral anterolateral rib fractures within 24 hours of patient presentation to the emergency department. The main question it aims to answer is: Does the SAPB for multiple anterolateral rib fractures demonstrate reduction in patient morbidity and mortality, including incidence of pneumonia, length of hospital stay, discharge disposition, and death, as compared to standard analgesic regimens. The SAPB will be performed if a physician trained in the SAPB is available within 24 hours of injury. If a trained physician is not available and the patient meets inclusion criteria, they will receive parental analgesia with opioid therapy. They will be followed until date of hospital discharge, up until 60 days.
The purpose of this study is to determine if patients with rib fractures who undergo cryoablation of the intercostal nerves have improved pain control 7 days from procedure when compared to those who have a ESP catheter.
The goal of this clinical trial is to test the effectiveness of the Serratus Anterior Plane Block in patients with rib fractures. The main questions it aims to answer are: * Determine if UG-SAPB results in an improved pain, incentive spirometry, and cough ability (PIC) score when compared to usual care over the first five hours. * Evaluate if UG-SAPB results in fewer opioid medications administered when compared to usual care over the first 24 hours. Participants will undergo the Serratus Anterior Plane. Researchers will compare this to usual care to see if this intervention improves pulmonary function and reduces opioid requirements for ED patients with rib fractures.
Rib fractures lead to poor patient outcomes and even death 3. Data suggests effective pain management is crucial to obtain favorable outcomes 4, 5Current outpatient treatment modalities are limited to oral or topical medications with low efficacy and high risk for opioid dependence. In-patient management with a thoracic epidural TEA is largely considered the gold standard, but the risks of TEA may outweigh the benefits 6 to 8.
This study is a single center, randomized controlled trial examining the effect of serratus anterior plane block (SAPB) on pain, PIC scores and other clinical outcomes in emergency department patients with multiple rib fractures in comparison to the use of analgesic medication alone. Objectives 1. Compare SAPB performed in the ED setting to analgesic medication alone with regard to pain, respiratory status and PIC score of patients with multiple rib fractures. 2. Assess the safety and feasibility of performing ultrasound-guided SAPB in the ED. 3. Evaluate outcomes of patients receiving the SAPB in the ED including amount of analgesic medications used, level of care required, need for upgrading level of care, and length of stay.
This is a prospective, randomized, non-blinded study comparing CINB plus medical therapy versus standard medical care (non-steroidals and opioids intravenous/oral inpatient and oral outpatient) alone for patients with multiple rib fractures. The objective of this study is to analyze the effect of continuous intercostal nerve block (CINB) in the treatment of patients admitted to the adult trauma service with rib fractures. The effectiveness of CINB as adjunctive treatment will be compared to standard medical therapy involving nonsteroidal and intravenous/oral opioid medications.
To determine if patients with intraoperative cryoablation have better analgesia results compared to the control group of Surgical Stabilization of Rib Fractures (SSRF) without cryoablation
The main goal of this clinical trial is to learn if light therapy improves pain and inflammation in adults with painful rib fractures. The main question it aims to answer is: - Does bright blue light therapy in addition to standard pain treatments improve pain with breathing in adults with painful rib fractures? Researchers will compare participants who receive bright blue light therapy to participants who receive white light therapy and participants who receive only usual lighting conditions to look for differences in their pain control. In addition to their assigned light treatment, all participants will receive standard pain control treatments. Participants will be assigned randomly to one of three groups: one-third will be assigned to bright blue light therapy, one-third will be assigned to bright white light therapy, and one-third will be assigned to usual light only. They will receive their assigned light treatment for 4 hours during the morning/early afternoon for up to 3 days while they are in the hospital. On each day they receive the light treatment and on the day after their final light treatment: * They will be asked twice to rate their pain at rest and with taking a deep breath. * They will be tested to confirm that they are not experiencing delirium, or confusion related to being in the hospital. * They will be asked to wear a heart monitor to look for changes in their heart rate. * Blood samples will be collected to look for changes in inflammation and the circadian clock, the body's natural 24-hour cycle.
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.