View clinical trials related to Thoracic Diseases.
Filter by:Thoracotomy surgery is the most painful of all surgical procedures. Inadequate postoperative pain control in these patients may cause serious morbidity related to pulmonary, cardiovascular and emotional systems. Erector Spinae Plane Block (ESPB) was first described in 2016 and, it is frequently used for postoperative analgesia in thoracic surgery. Intravenous lidocaine exhibit analgesic activity through both the peripheral and central nervous system. Intravenous lidocaine has been shown to reduce postoperative pain intensity and accelerate postoperative recovery in many surgeries. The investigators aimed to compare the effect of lidocaine infusion and erector spinae plane block on postoperative opioid consumption and pain scores.
This trial compares the accuracy provided by plain film as well as ultra-low-dose-computed-tomography (ULDCT) of the chest. It also aims to analyze differences in diagnostic confidence and therapeutic consequence offered by these two imaging modalities.
Thoracic surgery, and surgery involving the chest wall in general, is associated with poorly controlled acute pain, which may result in delayed functional recovery, and may progress to chronic pain. Multimodal opioid-sparing analgesia regimens are a key component of the thoracic surgery enhanced recovery pathway, the aim of which is to improve outcomes in patients undergoing both minimally invasive and open thoracic surgical procedures. Novel interfascial plane blocks are emerging as feasible alternatives to central neuraxial analgesia techniques in a variety of clinical settings. The aim of this study is to show non-inferiority of serratus anterior blockade compared with surgically placed paravertebral blocks in the management of perioperative acute pain in patients undergoing VATS procedures.
The purpose of the current study is to prospectively evaluate the usefulness of thoracic ultrasonography in demonstrating effective lung isolation during single-lung ventilation (SLV) in the pediatric patient. The primary hypothesis is that ultrasonography will accurately verify lung separation during SLV, as compared to fiberoptic bronchoscope (FOB).
The objectives of this prospective, two-arm, multicenter post-market study is to confirm safety and performance through the incidence of subjects reporting serious adverse device effects (ADEs) up to and including 30 days following use of Signia™ Stapling System with Endo GIA™ with Tri-Staple™ Technology and Tri-Staple™ 2.0 Intelligent Reloads in subjects undergoing indicated abdominal or thoracic procedures for resection, transection and creation of anastomosis per the IFU.
The Minimally Invasive Thoracic Surgery Intercostal Nerve Block Trial is a single center, double-blind, randomized, active-comparator controlled clinical trial to assess the analgesic efficacy of intercostal nerve block by Liposomal Bupivacaine versus Standard Bupivacaine in subjects undergoing lung resection by robotic or video-assisted thoracoscopic surgery.
The purpose of this study is to determine if there are any differences in terms of safety, pain, or drainage speed between thoracenteses via manual drainage vs vacuum suction.
The researchers are trying to determine pain medication consumption in the first 24 hours after surgery in patients given the standard continuous infusion of local anesthetic versus patients given the same total dose via programmed intermittent dosing. Both groups will receive the option of patient controlled pain medication as well as the same dose of pre-programmed pain medication. The only difference is the rate of administration: continuous vs. hourly intervals.
Many intrathoracic procedures demand optimal collapse of the operative lung to facilitate surgical exposure. Single-lung ventilation can be achieved using a double-lumen tube (DLT), a Univent tube, or an independent bronchial blocker. Insertion of a DLT using a direct laryngoscope can be more difficult than that of single-lumen tube (SLT), especially in patients for whom airway difficulty is anticipated. The safest of the proposed methods involves the placement of an SLT with the aid of an fibreoptic bronchoscope (FOB), following which the SLT is replaced with a DLT using an airway exchange technique in these patients. HumanBroncho® (Insung Medical, Seoul, Korea) is a new silicone DLT with a soft, flexible, non-bevelled, wire-reinforced tip. The oval shape, obtuse angle, and short lateral internal diameter of the bronchial lumen and its flexibility may allow for advancement to the trachea over the FOB with as much as ease as a standard SLT. In the present study, the investigators aimed to test the hypothesis that the HumanBroncho® DLT would be non-inferior to a standard SLT with regard to intubation time over an FOB in patients with semi-rigid neck collar simulating difficult airway.
Automated delivery of propofol using computer-controlled closed loop anaesthesia device delivers propofol based on patient's frontal cortex electrical activity as determined by bi-spectral index (BIS). Evaluation of anaesthesia delivery by these systems has shown that they deliver propofol and maintain depth of anaesthesia with far more precision as compared to manual administration. By automatically controlling anaesthesia depth consistency they provide time to the anaesthesiologist to focus on other aspects of patient care such as managing intra-operative hemodynamics and ventilation perturbations during major surgeries. Closed loop anaesthesia delivery system (CLADS) is an indigenously developed continuous automated intravenous infusion system which delivers propofol based on patients EEG profile (BIS) feedback. Although a few studies have already evaluated these automated systems in patients undergoing thoracic surgery, but suffered from significant limitations (small number of patients, not dedicated to thoracic surgery cohort). Currently, there is no data available regarding CLADS performance vis a vis adequacy of GA and haemodynamic profile in patients undergoing thoracic surgery. We contend that propofol as delivered by CLADS will proffer greater consistency to anaesthesia depth, intra-operative hemodynamic stability, and rapid recovery upon anaesthesia discontinuation than manual means of delivering propofol TIVA. This randomised controlled study aims to compare the efficiency of CLADS-driven propofol TIVA versus manually controlled propofol TIVA in patients undergoing thoracic surgery.