Thoracic trauma is one of the leading causes of morbidity and mortality in developing countries. In this retrospective study, we present our 10-year experience in the management and clinical outcome of 4205 cases with chest trauma associated with blunt and penetrating injuries in a level I trauma hospital in Turkey. In 66% of the cases, blunt injury mostly related to traffic accidents was the cause of chest trauma. Additional organ injuries were found in 35% (n=1471). Conservative treatment was administered for most patients. Tube thoracostomy was administered in 40% of all cases, whereas thoracotomy was performed in 6% (n=252), of which 209 were early interventions (P=0.001). The morbidity rate in all victims was 25.2%. The mortality rate was 9.3% for all patients and was 6.8% in blunt, 1.4% in penetrating, and 17.7% in associated organ injuries. Mortality and injury severity score (ISS) increased in patients having early surgery (P=0.001). Although most patients could be managed with conservative approaches, early thoracotomy was required in some cases. We believe that urgent hospital admission, early diagnosis, and multidisciplinary approach are very important to improve outcome.
The results of this study clearly demonstrated that a minimally invasive approach using robotic-assisted surgery has advantages in terms of body image, self-esteem, and cosmetic outcomes over the conventional approach in patients undergoing cardiac surgery.
TEA significantly reduced the intensity of postoperative pain and analgesic consumption in the early postoperative period following CABG. The delivery of effective analgesia along with conventional medications may prevent chronic pain after surgery.
BackgroundEuropean surgeons were the first worldwide to use robotic techniques in cardiac surgery and major steps in procedure development were taken in Europe. After a hype in the early 2000s case numbers decreased but due to technological improvements renewed interest can be noted. We assessed the current activities and outcomes in robotically assisted cardiac surgery on the European continent.MethodsData were collected in an international anonymized registry of 26 European centers with a robotic cardiac surgery program.ResultsDuring a 4-year period (2016–2019), 2,563 procedures were carried out [30.0% female, 58.5 (15.4) years old, EuroSCORE II 1.56 (1.74)], including robotically assisted coronary bypass grafting (n = 1266, 49.4%), robotic mitral or tricuspid valve surgery (n = 945, 36.9%), isolated atrial septal defect closure (n = 225, 8.8%), left atrial myxoma resection (n = 54, 2.1%), and other procedures (n = 73, 2.8%). The number of procedures doubled during the study period (from n = 435 in 2016 to n = 923 in 2019). The mean cardiopulmonary bypass time in pump assisted cases was 148.6 (63.5) min and the myocardial ischemic time was 88.7 (46.1) min. Conversion to larger thoracic incisions was required in 56 cases (2.2%). Perioperative rates of revision for bleeding, stroke, and mortality were 56 (2.2%), 6 (0.2 %), and 27 (1.1%), respectively. Median postoperative hospital length of stay was 6.6 (6.6) days.ConclusionRobotic cardiac surgery case numbers in Europe are growing fast, including a large spectrum of procedures. Conversion rates are low and clinical outcomes are favorable, indicating safe conduct of these high-tech minimally invasive procedures.
Robotic surgery for intracardiac pathologies in children is relatively uncommon. This study presents our initial experience with robotic-assisted cardiac surgery in children. We also present the feasibility and safety of robotic surgery in children. From May 2013 to June 2018, 30 children underwent totally endoscopic robotic atrial septal defect closure (n = 22), right-sided (n = 5) or left-sided (n = 1) partial anomalous pulmonary venous connection repair, tricuspid valve annuloplasty (n = 4), and mitral valve replacement (n = 2, due to Barlow and rheumatic diseases). The mean age of the patients was 16.1 ± 1.1 years (range, 13-17) and the mean weight was 56.7 ± 0.1 kg (range, 42-77). Associated anomalies included left persistent superior vena cava (n = 2) and the absence of innominate vein (n = 1). All procedures were completed uneventfully. Operation time was 4.1 ± 0.6 h. No patient was converted to thoracotomy or sternotomy. Cardiopulmonary bypass and aortic clamping times were 90.6 ± 28.0 (range, 45-136) and 48.6 ± 24.9 (range, 15-94) min, respectively. The mean ventilation time was 3.7 ± 1.2 h and hospital stay time was 3.3 ± 0.7 days. No right phrenic nerve injury, hemorrhage, or blood transfusion were noted. One patient had postoperative pneumothorax, and 1 had supraventricular arrhythmia. Follow-up was a mean of 1.7 years (range, 1-52 months). Patients were healthy and no residual intracardiac defect was observed on echocardiography examinations. There was no operative or follow-up mortality. Robotically assisted cardiac surgery is a feasible and safe approach in selected pediatric patients. In the future, new generation robotic devices may offer an alternative surgical approach in cardiac surgery for younger children with lower body weight.
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