View clinical trials related to Thoracic Surgery.
Filter by:Thoracic surgery is at high risk of respiratory complications. Despite the improvement of surgical procedures such as video-thoracoscopy, respiratory complications appear in 15 to -20% of procedures. Thoracic surgery induces local pulmonary inflammation which is involved in the occurrence of post-operative respiratory failure. Similarly to the example of the acute respiratory distress syndrome, corticosteroids could reduce lung injury secondary to immunological stress. In addition, recent studies suggest that dexamethasone could lead to a reduction of respiratory complications after major non cardiothoracic surgery. Since dexamethasone is recommended to prevent postoperative nausea and vomiting, around one in two patients receive dexamethasone during anesthetic induction. By retrospective analysis with compensation of bias by propensity score, the investigators aim to assess the effect of dexamethasone to prevent respiratory complications
In postoperative thoracic surgery (lobe resection, pneumonectomy or wedge resection), cardiovascular complications are the most frequent (10 to 15%) with a significant morbi-mortality rate. Right ventricular (RV) dysfunction is a complication that can be multifactorial in post thoracic surgery. The RV longitudinal shortening fraction (RV-LSF) is a new 2D-STE parameters able to more accurately detect patients with RV dysfunction compared to conventional echocardiographic parameters. This project is a single-center, prospective, interventional study of patients hospitalized at the Amiens University Hospital for scheduled thoracic surgery. TTE is performed preoperatively, at day 2 and day 15 following the thoracic surgery. Echocardiographic parameters will be measured by an echocardiographic expert in offline with a dedicated software. MACE criteria will be collected at day 2, day 15 and day-30 following the thoracic surgery.
Elective open-heart surgery involves physical and psychological strain for the person undergoing surgery. Family plays a significant part in care before and after surgery, and the family has care needs of their own. Health services need to address the family-caregiver burden as an essential aspect of care. Different methods aiming at stress reduction and involvement of patients and family members in care exist. The evidence is conflicting concerning which way is the most effective. Health-promoting conversations are an intervention model promoting family well-being and alleviation of illness and illness-related suffering for the whole family. Families´ in the intervention group in this trial will, before and after one family member's elective open-heart surgery, participate in Health-promoting conversations. Health-promoting conversation is an intervention model based on the Family Systems Nursing theory. The person undergoing surgery decides which family members should be asked to participate in 1-3 conversations whit a family nurse. Effects on postoperative recovery, health-related quality of life, stress, and patient and family involvement in care will be evaluated with patient- and family-reported outcome measures. The aim is to evaluate Health-promoting conversation's effect on family wellbeing, functioning, and involvement in care. The cost-effectiveness of the intervention will also be evaluated. The study will follow the ethical guidelines of the Declaration of Helsinki. The Swedish National Committee on Health Research Ethics reviewed and accepted the study in march 2020 (nr 2019-06315)
The main aim of this study is to compare the effectiveness of three alternative techniques (continuous Erectus Spinae Plane Block : c-ESPB; continuous Serratus Anterior Plane Block : c-SAPB; and Intercostal Nerve Block: ICNB) in reducing the severity of early postoperative pain after Uniportal-VATS lung resections. Primary outcomes will be opioid and other analgesic drugs consumption in the 72 hours after surgery, and static and dynamic pain scores, measured by the visual analog scale (VAS), at 6 pre-established time-points during the first 48 hours postoperatively. Further outcomes will be incidence of pulmonary and cardiac complications until patient's discharging, pain when removing drains, presence/absence of chronic neuropathic pain (12 weeks after surgery).
With the aid of computerized sound analysis, digital acoustic monitoring could provide a more sensitive, specific, and quantifiable indicator for perioperative respiratory abnormalities including wheezing. It is probable that the digital stethoscope has utility in the detection, monitoring, and resolution following treatment of acoustic changes characteristic of turbulent respiratory gas flow due to wheezing and/or the incomplete resolution of atelectasis following the re-initiation of ventilation in a collapsed lung.
Peri-operative fluid-therapy is extremely important in thoracic surgery, because excessive administration of fluids during one-lung ventilation is correlated to an increasing risk of postoperative respiratory complications. Therefore, current guidelines on peri-operative management of patients undergoing thoracic surgery suggest a conservative fluid management strategy, based on intra-operative fluid loss replacement and maintenance of euvolemia. Nevertheless, intra-operative fluid loss estimation and consequently the correct infusion rate adoption are quite difficult to be addressed in clinical practice, and this often prevents the euvolemia maintenance in the peri-operative period. This limit claims the necessity to adopt new methods of fluid-therapy administration in thoracic surgery; among these the most promising is the "Goal-Directed Therapy" (GDT). GDT protocols based on Stroke Volume Variation (SVV) or Pulse Pressure Variation (PPV) monitoring have been adopted successfully in major and cardiac surgery but not yet in thoracic surgery. The aim of this randomized study is to evaluate the effects of a PPV-GDT fluid management protocol versus a conservative "zero-balance" protocol on intrapulmonary gas exchanges, in patients undergoing single-lung ventilation during thoracic surgery.
Randomized controlled study to investigate the role of intraoperative vagal nerve block for preventing the postoperative cough in patients who received the pulmonary resection for lung cancer
The primary objective of this study is to analyze mortality after cardiac surgery in blood-transfusion non-acceptors (BTNA), and the secondary one to perform an adjusted comparison with a blood-transfusion acceptors (BTA) matched cohort.
Persistent pain after surgery has significant physical and mental consequences for the patient, as well as a significant economic impact on health systems. Neuropathic pain is caused by direct or indirect damage to the somatosensitive system. In thoracic surgery, chronic neuropathic pain is represented by Post-Thoracotomic Pain Syndrome (PTPS), defined as recurrent or persistent pain in the thoracotomy scar site that persists for more than 3-6 months. Currently, in literature, the prevalence of PTPS is extremely variable. This prospective observational study aims to assess the incidence of pain in the weeks and months following surgery and to assess whether and how the presence of painful symptoms changes the patient's quality of life.
The role of circulating tumor cells (CTC) in patients suffering from lung cancer and thoracic malignancies is not well known and it is still widely debated. The use of intraoperative cardiorespiratory supports like ECMO (extracorporeal membrane oxygenator) and CPB (cardiopulmonary by-pass) during extended resections in oncologic patients has been questioned because of the theoretical risk of tumor cells spreading, although there is no clinical or experimental evidence supporting this hypothesis. The aim of the present study is to quantify the possible presence and amount of CTC in the peripheral blood of patients undergoing lung/mediastinal resection, before and after surgical procedure, comparing patients receiving intraoperative cardiorespiratory support with patients - with similar oncologic disease and extension - operated without the need of ECMO or CPB.