Microbubbles in vascular imaging

Ultrasound is integral in diagnostic imaging of vascular disease. It is a common first line imaging modality in the detection of deep vein thrombosis (DVT) and carotid atherosclerosis. The therapeutic use of ultrasound in vascular disease is also clinically established through ultrasound thrombolysis for acute DVT. Contrast agents are widely used in other imaging modalities, however, contrast enhanced ultrasound (CEUS) using microbubbles remains a largely specialist clinical investigation with truly established roles in hepatic imaging only. Aim The aim of this thesis was to investigate diagnostic and therapeutic roles of CEUS in vascular disease. Diagnostically, carotid plaque characteristics were evaluated for stroke risk stratification in patients with carotid atherosclerosis. Therapeutically, microbubble augmented ultrasound thrombolysis was investigated in-vitro as a novel technique for acute thrombus removal in the prevention of post thrombotic syndrome. Methods A validated in-vitro flow model of DVT was adapted and developed for a formal feasibility study of microbubble augmented ultrasound thrombolysis. Two cross sectional studies of patients with 50-99% carotid stenosis were performed assessing firstly, plaque ulceration and secondly plaque perfusion using CEUS. Results Using commercially available microbubbles and ultrasound platform, significantly improved thrombus dissolution was demonstrated using CEUS over ultrasound alone in the in-vitro flow model of acute DVT. In particular, increased destruction of the thrombus fibrin mesh network was observed. CEUS demonstrated greater sensitivity than carotid duplex in the detection of carotid plaque ulceration with a trend toward symptomatic carotid plaques. A reduced plaque perfusion detected by both semi-qualitative and quantitative analysis was associated with a symptomatic status in patients with a 50-99% stenosis. Conclusion CEUS is a viable adjunct to vascular imaging with ultrasound. Microbubble augmented ultrasound thrombolysis is a feasible, non-invasive, non-irradiating intervention which warrants further investigation in-vivo. Carotid plaque CEUS may contribute to future scoring systems in stroke risk stratification but requires prospective validation.Open Acces

Chemical composition and quality loss during technological treatment in coho salmon (Oncorhynchus kisutch)

Coho salmon (Oncorhynchus kisutch) supports an important farming production in parallel with capture delivery, giving rise to products of great economic importance in many countries. This review covers the research carried out during the last decades related to its employment as a food product. In a first part, studies carried out concerning the chemical constituent composition and nutritional value are reviewed; a special attention is accorded to the wild/ farmed fish comparison and to the effect of diet on lipid composition variations. In agreement to the great lability of chemical constituents of aquatic foods, the second part of the manuscript provides a revision of coho salmon research related to the chemical component changes produced during technological processing and their effects on nutritional and sensory losses; in this case, a special attention is accorded to studies employing advanced technological strategies focused to partially inhibit the development of the different damage pathways.support provided by the Universidad de Chile (Chile)- Consejo Superior de Investigaciones Científicas (CSIC, Spain) research program through the following projects: Project 2003 CL 0013, Project 2004 CL 0038 and Project 2006 CL 0034. 43Peer reviewe

A rare case of adult primary jejunal volvulus

Jejunal volvulus is a rare and life threatening presentation of intestinal ischaemia. Clinical features, laboratory investigations and plain abdominal films are non-specific and so computed tomography (CT) scanning is useful in reaching a timely diagnosis. Rapid recourse to surgical intervention is typical and life saving. We report a rare case of primary jejunal volvulus which, after diagnosis on emergency CT scanning, was successfully treated by laparotomy and resection of infarcted bowel

Target Balloon-Assisted Antegrade and Retrograde Use of Re-Entry Catheters in Complex Chronic Total Occlusions

Purpose, Retrograde recanalizations have gained increasing recognition in complex arterial occlusive disease. Re-entry devices are a well described adjunct for antegrade recanalizations. We present our experience with target balloon-assisted antegrade and retrograde recanalizations using re-entry devices in challenging chronic total occlusions. Materials and Methods: We report data from a retrospective multicenter registry. Eligibility criteria included either antegrade or retrograde use of the OutbackTM or GoBackTM re-entry catheter in combination with a balloon as a target to accomplish wire passage, when conventional antegrade and retrograde recanalization attempts had been unsuccessful. Procedural outcomes included technical success (defined as wire passage though the occlusion and delivery of adjunctive therapy with <30% residual stenosis at final angiogram), safety (periprocedural complications, e.g., bleeding, vessel injury, or occlusion of the artery at the re-entry site, and distal embolizations), and clinical outcome (amputation-free survival and freedom from target lesion revascularization after 12-months follow-up). Results: Thirty-six consecutive patients underwent target balloon-assisted recanalization attempts. Fourteen (39 %) patients had a history of open vascular surgery in the index limb. Fifteen patients were claudications (Rutherford Class 2 or 3, 21 presented with chronic limb threatening limb ischemia (Rutherford Class 4 to 6). The locations of the occlusive lesions were as follows: iliac arteries in 3 cases, femoropopliteal artery in 39 cases, and in below-the-knee arteries in 12 cases. In 15 cases, recanalization was attempted in multilevel occlusions. Retrograde access was attempted in 1 case in the common femoral artery, in the femoropopliteal segment in 10 cases, in below-the-knee arteries in 23 cases, and finally in 2 patients via the brachial artery. In 10 cases, the re-entry devices were inserted via the retrograde access site. Technical success was achieved in 34 (94 %) patients. There were 3 periprocedural complications, none directly related to the target balloon-assisted re-entry maneuver. Amputation-free survival was 87.8 % and freedom from clinically driven target lesion revascularization was 86.6 % after 12-months follow-up. Conclusion: Target balloon-assisted use of re-entry devices in chronic total occlusions provides an effective and safe endovascular adjunct, when conventional antegrade and retrograde recanalization attempts have failed

Target Balloon-Assisted Antegrade and Retrograde Use of Re-Entry Catheters in Complex Chronic Total Occlusions

Purpose, Retrograde recanalizations have gained increasing recognition in complex arterial occlusive disease. Re-entry devices are a well described adjunct for antegrade recanalizations. We present our experience with target balloon-assisted antegrade and retrograde recanalizations using re-entry devices in challenging chronic total occlusions. Materials and Methods: We report data from a retrospective multicenter registry. Eligibility criteria included either antegrade or retrograde use of the OutbackTM or GoBackTM re-entry catheter in combination with a balloon as a target to accomplish wire passage, when conventional antegrade and retrograde recanalization attempts had been unsuccessful. Procedural outcomes included technical success (defined as wire passage though the occlusion and delivery of adjunctive therapy with <30% residual stenosis at final angiogram), safety (periprocedural complications, e.g., bleeding, vessel injury, or occlusion of the artery at the re-entry site, and distal embolizations), and clinical outcome (amputation-free survival and freedom from target lesion revascularization after 12-months follow-up). Results: Thirty-six consecutive patients underwent target balloon-assisted recanalization attempts. Fourteen (39 %) patients had a history of open vascular surgery in the index limb. Fifteen patients were claudications (Rutherford Class 2 or 3, 21 presented with chronic limb threatening limb ischemia (Rutherford Class 4 to 6). The locations of the occlusive lesions were as follows: iliac arteries in 3 cases, femoropopliteal artery in 39 cases, and in below-the-knee arteries in 12 cases. In 15 cases, recanalization was attempted in multilevel occlusions. Retrograde access was attempted in 1 case in the common femoral artery, in the femoropopliteal segment in 10 cases, in below-the-knee arteries in 23 cases, and finally in 2 patients via the brachial artery. In 10 cases, the re-entry devices were inserted via the retrograde access site. Technical success was achieved in 34 (94 %) patients. There were 3 periprocedural complications, none directly related to the target balloon-assisted re-entry maneuver. Amputation-free survival was 87.8 % and freedom from clinically driven target lesion revascularization was 86.6 % after 12-months follow-up. Conclusion: Target balloon-assisted use of re-entry devices in chronic total occlusions provides an effective and safe endovascular adjunct, when conventional antegrade and retrograde recanalization attempts have failed