Trans-prosthetic recanalization of a collapsed iliac limb using the GoBack catheter: a case report

Background Recanalization of graft limb occlusion can prove challenging and the use of the GoBack crossing and reentry device may be a suitable option, especially when there is no other way to restore flow with an usual endovascular approach. The GoBack catheter is a novel device designed to enhance pushability, and to enable direction-change inside hard plaques and crossing of tough lesions, even when they involve graft fabric. Case presentation It’s reported a case of a 76-year-old male who presented with claudication, previous placement of an aorto-bi iliac graft by open surgery for a ruptured abdominal aneurysm 10 years ago that, over time, developed severe kinking on the left limb and a fabric occlusion on the right limb. After several unsuccessful attempts to cross the occlusion of the right common iliac artery, the GoBack™ was deployed to create a lumen through graft’s folds. After angioplasty and stenting a satisfactory result was achieved, restoring flowCT-scan at 1 month and duplex ultrasound (DUS) at 3 months confirmed the patency of ilio-femoral axis. Conclusions The advent of this new CTO crossing device has the potential to facilitate recanalization of some of the most challenging occlusions. Facilitating more consistent distal entry and allowing for a decrease in crossing time. Therefore, the GoBack catheter should be considered as a potential complementary tool to treat vascular occlusions via endovascular approaches, especially when classical endovascular techniques fail.

Evidence of woven bone formation in carotid artery plaques

Objective: Plaque morphology plays an important prognostic role in the occurrence of cerebrovascular events. Echolucent and heterogeneous plaques, in particular, carry an increased risk of subsequent stroke. Depending on the quality of the plaque echogenicity based on B-mode ultrasound examination, carotid plaques divide into a soft lipid-rich plaque and a hard plaque with calcification. The aim of this study was to investigate structural changes in the basement membrane of different carotid artery plaque types. Patients and methods: Biopsies were taken from 10 male patients (average age; 75 + 1 years) and 7 females (68 + 3 years). The study population included patients suffering from a filiform stenosis of the carotid artery, 8 patients with acute cerebrovascular events and 9 with asymptomatic stenosis. Scanning electron and polarised light microscopic investigations were carried out on explanted plaques to determine the morphology of calcified areas in vascular lesions. Results: By means of scanning electron microscopy, multiple foci of local calcification were identified. The endothelial layer was partially desquamated from the basement membrane and showed island-like formations. Polarised light microscopy allows us to distinguish between soft plaques with transparent structure and hard plaques with woven bone formation. Conclusion: The major finding of our study is the presence of woven bone tissue in hard plaques of carotid arteries, which may result from pathological strains or mechanical overloading of the collagen fibers. These data suggest a certain parallel with sclerosis of human aortic valves due to their similar morphological characteristics.

Contrast-Enhanced Ultrasonography Characteristics in the Evaluation of Different Nature of Carotid Artery Plaques

To investigate the value of contrast-enhanced ultrasonography (CEUS) in the evaluation of neovascular density in plaques with different carotid atherosclerosis. 97 patients with carotid plaques were observed by conventional ultrasound from January 2016 to December 2018. The CEUS test was used to grade and quantify the new blood vessels in the plaque. The results showed of the 97 patients with 101 plaques, 49 were soft plaques, 45 were mixed plaques, and 7 were hard plaques. CEUS clearly showed the continuity of plaque fibrous caps and found plaque ulcers that were easily missed by conventional ultrasound. The lower the echo of the plaque, the more obvious contrast enhancement in the plaques. Quantitative analysis of CEUS showed the peak time of soft plaques was shorter and the peak intensity of soft plaques was higher compared with mixed plaques. The difference was statistically significant (P <0.01). The results displayed that carotid CEUS is a convenient and intuitive new technology that can better help analyze plaque morphology and determine and quantify the extent of neovascularization in plaque. It can be used for clinical evaluation of potential cerebrovascular risk and also provides an accurate and reproducible detection method for clinical efficacy evaluation.

Association between Human Plasma Chondroitin Sulfate Isomers and Carotid Atherosclerotic Plaques

Several studies have evidenced variations in plasma glycosaminoglycans content in physiological and pathological conditions. In normal human plasma GAGs are present mainly as undersulfated chondroitin sulfate (CS). The aim of the present study was to evaluate possible correlations between plasma CS level/structure and the presence/typology of carotid atherosclerotic lesion. Plasma CS was purified from 46 control subjects and 47 patients undergoing carotid endarterectomy showing either a soft or a hard plaque. The concentration and structural characteristics of plasma CS were assessed by capillary electrophoresis of constituent unsaturated fluorophore-labeled disaccharides. Results showed that the concentration of total CS isomers was increased by 21.4% (P<0.01) in plasma of patients, due to a significant increase of undersulfated CS. Consequently, in patients the plasma CS charge density was significantly reduced with respect to that of controls. After sorting for plaque typology, we found that patients with soft plaques and those with hard ones differently contribute to the observed changes. In plasma from patients with soft plaques, the increase in CS content was not associated with modifications of its sulfation pattern. On the contrary, the presence of hard plaques was associated with CS sulfation pattern modifications in presence of quite normal total CS isomers levels. These results suggest that the plasma CS content and structure could be related to the presence and the typology of atherosclerotic plaque and could provide a useful diagnostic tool, as well as information on the molecular mechanisms responsible for plaque instability.