Innovations : technology and techniques in cardiothoracic and vascular surgery
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Innovations (Phila) · Jan 2014
Minimally invasive segmental artery coil embolization for preconditioning of the spinal cord collateral network before one-stage descending and thoracoabdominal aneurysm repair.
Paraplegia remains the most devastating complication after thoracic and thoracoabdominal aortic aneurysm (TAA/A) repair. The collateral network (CN) concept of spinal cord perfusion suggests segmental artery (SA) occlusion to mobilize redundant intraspinal and paraspinal arterial sources and ultimately trigger arteriogenesis, leading to spinal cord blood flow restoration within 96 to 120 hours. This principle is used by the two-staged approach to TAA/A-repair--which has lead to an elimination of paraplegia in an experimental model. However, the clinical implementation of a two-staged surgical procedure is challenging, particularly in the absence of an appropriate vascular segment for a "staged" open anastomosis or an appropriate endovascular landing zone. Selective, transfemoral minimally invasive SA coil embolization (MISACE) could provide the solution for one-stage repair of extensive aortic pathologies by triggering arteriogenic CN preconditioning and thereby allowing for recruitment of otherwise redundant arterial collaterals to the spinal cord. ⋯ The MISACE technique allows for rapid serial endovascular occlusion of all thoracic and lumbar SAs. This new innovative approach bares the potential to CN preconditioning at the respective level of aortic pathology--to allow for adequate perioperative spinal cord blood supply--before conventional open or endovascular surgery. Selective, transarterial MISACE might lead to a dramatic reduction of ischemic spinal cord injury after open and endovascular TAA/A repair in the future.
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Innovations (Phila) · Jan 2014
Relocation of papillary muscles for ischemic mitral valve regurgitation: the role of three-dimensional transesophageal echocardiography.
The assessment of the mitral valve apparatus (MVA) and its modifications during ischemic mitral regurgitation (IMR) is better performed by three-dimensional (3D) transesophageal echocardiography (TEE). The aim of our study was to carry out nonrestrictive mitral annuloplasty in addition to relocation of papillary muscles (PPMs) oriented by preoperative real-time 3D TEE through the mitral valve quantification dedicated software. ⋯ Relocation of PPMs plus ring annuloplasty reduce mitral valve tenting and may improve mitral valve repair results in patients with severe IMR. This technique may be easily and precisely guided by preoperative offline 3D echocardiographic mitral valve reconstruction.
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Innovations (Phila) · Nov 2013
The accuracy of transit time flow measurement in predicting graft patency after coronary artery bypass grafting.
Transit time flow measurement (TTFM) is a method used to assess intraoperative blood flow after vascular anastomoses. Angiography represents the criterion standard for the assessment of graft patency after coronary artery bypass grafting (CABG). The purpose of this study was to compare flow measurements from TTFM to diagnostic angiography. ⋯ Although TTFM can be a useful tool for graft assessment after CABG, false negatives can occur. Angiography remains the criterion standard to assess graft patency and quality of the anastomosis after CABG.
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Innovations (Phila) · Nov 2013
Minimally invasive coronary bypass using internal thoracic arteries via a left minithoracotomy: "the Nambiar Technique".
Harvesting of the right internal thoracic artery (RITA) under direct vision, through a left minithoracotomy, without robotic or thoracoscopic assistance has never been done or described before. Bilateral internal thoracic arteries (BITAs) in coronary artery bypass grafting (CABG) have shown greater survival and freedom from reintervention. The aim was to develop a multivessel minimally invasive CABG technique in which the BITAs are harvested under direct vision and complete revascularization of the myocardium is done by the off-pump method, using only BITAs (left internal thoracic artery [LITA]-RITA Y) through a 2-in left minithoracotomy, without robotic/thoracoscopic assistance-the "Nambiar Technique." ⋯ The Nambiar Technique encompassed using a 2-in left minithoracotomy incision through which the BITAs were conveniently harvested in a skeletonized manner under direct vision without robotic or thoracoscopic assistance. Multivessel total arterial revascularization was then done using the LITA-RITA Y composite conduit by the off-pump methodology. The early outcomes have been excellent, and coronary angiograms showed widely patent grafts. This technique is reproducible and can be done on an empty beating heart to aid in training.