View clinical trials related to Thoracic.
Filter by:This is a single-site, non-randomized study on the outcomes of remote real-time "ePRO monitoring" in thoracic surgery patients. ePRO monitoring is a health information technology intervention comprised of delivering longitudinal electronic patient-reported outcome (ePRO) surveys (e.g., on symptoms, and physical functioning) coupled with automated provider alerts for concerning survey responses.
Risk factors associated with perioperative anxiety in parents of pediatric patients undergoing thoracic surgery are unknown. It is therefore necessary to identify them in order to better understand, above all, modifiable factors. This will allow the implementation of psychological interventions tailored to the individual needs of parents to strengthen their coping mechanisms before surgery, and thus facilitate the recovery process of their children after surgery. The purpose of the study is: 1. assessment of the level of anxiety experienced by parents before and after thoracic surgery, 2. assessment of risk factors for parents' perioperative anxiety, 3. assessment of the relationship between parents' perioperative anxiety and satisfaction with postoperative analgesia
The improvement in ARDS mortality over the last 20 years seems to be largely explained by the reduction of mechanical ventilation-induced injury (VILI). VILI is essentially related to volotrauma closely associated with "strain" and "stress". The pulmonary stress corresponds to the transpulmonary pressure (alveolar pressure - pleural pressure), and the strain to the change in lung volume related to the functional residual capacity (FRC) of the injured lung at PEEP = 0. The volotrauma corresponds therefore to the generalized excess of stress and strain on the injured lung. The initial therapeutic strategy consists in protective ventilation with a tidal volume of 6 ml/kg of theoretical ideal weight (predicted by height), associated with a high respiratory rate between 25 and 30 cycles per minute to control PaCO2 (< 50 mmHg), apply a high positive expiratory pressure PEEP according to FiO2, maintain a plateau pressure (PP) lower than 30 cmH20, reduce instrumental dead space, use curarization, recruitment maneuvers such as alternate prone, improve ventilation-perfusion adequacy using inhaled NO. As a last resort, extracorporeal oxygenation by veno-venous ECMO is a device to supplement respiratory function by improving oxygenation and ensuring decarboxylation. Veno-venous ECMO is indicated in severe ARDS with PaO2/FiO2 < 80 mmHg and/or when mechanical ventilation becomes unsafe due to increased plateau pressure despite optimized ARDS management including high PEEP levels, curarization and prone position. After lung resection surgery, the incidence of ARDS is 2-8% and its prognosis remains more poor, despite advances in management, with a mortality of up to 60%. Risk factors include intraoperative vascular filling, type of pulmonary resection, and predicted postoperative respiratory function. Early support with VV ECMO is vital in some patients to treat severe hypoxemia, due to variable surgical reduction of lung parenchyma depending on carcinological involvement or initial lung pathology. ). There are very few data concerning these patients with pulmonary resection. The primary objective of this study is to describe the prevalence of ARDS and the risk factors for its occurrence after pulmonary resection surgery. The secondary objective is to compare the ventilation parameters (especially motor pressure) in patients with reduced lung parenchyma in ARDS under VV ECMO with those who did not use VV ECMO assistance.
The purpose of the study is to assess whether lung ultrasound is able to detect lung injury after lung resection surgery.
The purpose of the study is to assess whether lung ultrasound is able to detect lung injury after lung resection surgery.
Thoracotomy surgeries, both open and video assisted, are often carried out in the lateral decubitus position to optimize surgical access to the operative side. However, this position is also associated with mechanical injuries of the shoulder joint ligaments and pulling on the structures of the brachial plexus. The neck is laterally flexed and has potential to cause mechanical injury as well due to the dependent position of the patient's head. The current method of positioning involves stacking of towels under a head support. To the study team's knowledge, no pre-formed head and neck support exists that can cope with the required surgical position. Thus, the study team has conceptualized an adaptive head and neck support pillow to meet this need and address patient safety concerns.
This is a prospective randomized study intended to assess the efficacy of erector spinae plane analgesia on acute and chronic postoperative pain for VATS procedures. It will include 72 patients presenting to Severance hospital for a VATS procedure. Patients will be randomized 1:1 to receive either ESP block and intravenous patient-controlled analgesia (IV PCA) or IV PCA only. Ropivacaine will be used in nerve block, and injected at the end of surgery. The primary outcome will be to compare analgesic efficacy between the two groups as defined by immediate postoperative pain scores on the numeric pain rating scale. Secondary outcomes include total opioid consumption, painDETECT score, and chronic pain scores.