Innovations : technology and techniques in cardiothoracic and vascular surgery
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Innovations (Phila) · Sep 2012
Clinical TrialThe PleuraFlow Active Chest Tube Clearance System: initial clinical experience in adult cardiac surgery.
To address the clinical consequences related to chest tube clogging, a novel chest drainage apparatus, the PleuraFlow Active Tube Clearance System (Clear Catheter Systems, Bend, OR), was developed. The aim of this world's first clinical experience study was to follow clinicians using the PleuraFlow system to assess usability issues and potential areas of improvement in the heart surgery setting. ⋯ Overall, the physicians and nurses rated the PleuraFlow system positively for its ability to be incorporated into the postoperative workflow of managing the drainage of patients after heart surgery. This device may be useful to allow caregivers to be certain that chest tubes are functioning in the early hours after surgery, when active bleeding is resolving and when complications from undrained blood can ensue.
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Innovations (Phila) · Sep 2012
Management of pleural empyema with single-port video-assisted thoracoscopy.
The aim of this study was to evaluate the safety and efficacy of an original technique of single-port video-assisted thoracoscopy (S-VATS) for the minimally invasive treatment of pleural empyema in fibrinopurulent stage. ⋯ It seems that S-VATS is a safe and effective procedure for the treatment of pleural empyema in fibrinopurulent stage.
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Innovations (Phila) · Jul 2012
Drug, devices, technologies, and techniques for blood management in minimally invasive and conventional cardiothoracic surgery: a consensus statement from the International Society for Minimally Invasive Cardiothoracic Surgery (ISMICS) 2011.
The objectives of this consensus conference were to evaluate the evidence for the efficacy and safety of perioperative drugs, technologies, and techniques in reducing allogeneic blood transfusion for adults undergoing cardiac surgery and to develop evidence-based recommendations for comprehensive perioperative blood management in cardiac surgery, with emphasis on minimally invasive cardiac surgery. ⋯ BIOCOMPATIBLE CPB CIRCUITS: The routine use of biocompatible coated CPB circuitry may be considered as part of a multimodal blood conservation program. However, the heterogeneity of surface-modified products, anticoagulation management, and CPB technique does not significantly impact surgical blood loss and transfusion needs (Class IIb,Level A). RECOMMENDATIONS FOR MINIATURIZED EXTRACORPOREAL CARDIOPULMONARY CIRCUIT VERSUS CONVENTIONAL EXTRACORPOREAL CARDIOPULMONARY CIRCUIT: Miniaturized extracorporeal cardiopulmonary circuit can be considered as a blood conservation technique to reduce allogeneic blood exposure (Class IIa, Level A); however, issues related to heparinization management and biocompatible coatings remain to be clarified. RECOMMENDATIONS FOR ULTRAFILTRATION (CONTINUOUS OR MODIFIED):h Ultrafiltration may be considered for blood conservation (Class IIb, Level A); however, the impact on clinically relevant outcomes remains unknown. RECOMMENDATIONS FOR PLATELET PLASMAPHERESIS:It is reasonable to recommend platelet plasmapheresis for blood management in cardiac surgery (Class IIa, Level A), although the impact on clinically relevant outcomes remains unknown. RECOMMENDATIONS FOR POINT-OF-CARE MONITORING:The evidence is too premature to recommend point-of-caretechnology for routine use because its use has not been shown to impact clinical outcome (Class IIb, Level A). RECOMMENDATIONS FOR SURGICAL TECHNIQUES FOR OPCAB, MINIMALLY INVASIVE STERNOTOMY FOR AORTIC VALVE SURGERY, MINIMALLY INVASIVE STERNOTOMY FOR MITRAL VALVE SURGERY, AND TRANSCATHETHER AORTIC VALVE IMPLANTATION: Although these minimally invasive procedures are not primarily selected for the purpose of blood management, the reduced allogeneic blood exposure should be considered in the balance of benefits and risks when selecting the appropriate surgery for patients.
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Innovations (Phila) · Jul 2012
Comparative StudyAugmented reality image guidance improves navigation for beating heart mitral valve repair.
Emerging off-pump beating heart valve repair techniques offer patients less invasive alternatives for mitral valve (MV) repair. However, most of these techniques rely on the limited spatial and temporal resolution of transesophageal echocardiography (TEE) alone, which can make tool visualization and guidance challenging. ⋯ Augmented reality-enhanced TEE facilitates more direct and safe intracardiac navigation of the NeoChord DS tool from left ventricular apex to MV leaflet. Tracked tool path results demonstrate fourfold improved accuracy, fivefold shorter navigation times, and overall improved safety with AR imaging guidance.
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Innovations (Phila) · May 2012
Randomized Controlled Trial Comparative StudyThe efficacy of electromagnetic navigation to assist with computed tomography-guided percutaneous thermal ablation of lung tumors.
Electromagnetic (EM) navigation is increasingly used to assist with bronchoscopic interventions such as biopsy or fiducial placement. Electromagnetic navigation can also be a useful adjunct to computed tomography (CT)-guided thermal ablation and biopsy of lung tumors. This study compares procedures carried out using an EM navigation system (Veran Medical Technologies Inc, St Louis, MO) with procedures using CT fluoroscopy only. ⋯ Electromagnetic navigation reduces the time to successfully place an ablation probe in a target tumor. Further study is required to determine whether EM navigation may also reduce the number of adjustments, skin punctures, and CT scans as well as decrease CT fluoroscopy time.