Chelation therapy has no significant beneficial effects over placebo in patients with intermittent claudication.
The peripheral nerve pathology in ischaemic limbs with atherosclerotic peripheral vascular diseases (PVD) is difficult to ascertain because of the limited number of reports. In addition, it has been debated whether chronic ischaemia per se could cause morphological abnormalities in peripheral nerves. In this prospective study, we examined pathological findings in the sural, saphenous, deep peroneal, superficial peroneal and tibial nerves, taken from seven acutely and nine chronically ischaemic amputated legs in which ischaemia was due to non-diabetic severe PVD. For morphological comparison, nerves were also taken from amputated legs without ischaemic disease and those in which PVD was associated with diabetes. In acutely ischaemic nerves, pathological changes were dependent upon the duration of ischaemia. Axonal degeneration of both myelinated and unmyelinated nerve fibres (MFs and UMFs) with occluded vessels was prominent, if acute ischaemia was present for > 24 h. Focal lesions, a hallmark of acute ischaemic neuropathy, were seen in both acute and chronic PVD nerves. Chronic PVD nerves also revealed considerable variations in the density of MFs between the fascicles of individual nerves and between the nerves of individual subjects: demyelination and remyelination, endoneurial oedema particularly at the subperineurial region, swollen endothelial cells, various but infrequent axonal changes, and relative preservation of UMFs were also seen. All pathological changes found in acute and chronic PVD nerves, except for a high rate demyelinated and remyelinated nerve fibres, have been described in experimental models of acute ischaemic/reperfusion injury. Demyelination could be induced by chronic ischaemia. Thus, pathological alterations in chronic ischaemic neuropathy may be due to the combined effects of acute ischaemia/reperfusion and chronic hypoxia.
Background-Saphenofemoral junction (SFJ) ligation has been a major component of surgical intervention for varicose veins; however, recurrence occurs in as many as 40%. Neovascularization with reconnection of the venous channels at the transected SFJ has been identified as the major cause of this recurrence. This randomized controlled study sought to evaluate mechanical suppression of neovascularization at the SFJ, with the use of a synthetic patch, to prevent recurrence after ligation surgery. Methods and Results-A total of 389 limbs (from 292 patients) were randomized into either control (SFJ ligation surgery) or patch (SFJ ligation with polytetrafluoroethylene patch of the transected SFJ) groups. All patients underwent clinical assessment, duplex imaging, and air plethysmography studies preoperatively and at 1, 6, 12, and 36 months postoperatively. The patch consistently halved the recurrence rate to 3 years postoperatively in all clinical subgroups. In those patched SFJs that still developed recurrence, evidence of neovascularization circumventing the polytetrafluoroethylene patch was observed by both ultrasound and histology. Conclusions-This study demonstrates that use of a polytetrafluoroethylene patch is an effective mechanical suppressant of neovasculogenesis at the SFJ and can be safely used as a strategy to improve long-term outcome of varicose vein surgery. (Circulation. 2008;118:66-74.)
The alternative lengthening of telomeres (ALT) mechanism represents an alternative to the enzyme telomerase in the maintenance of mammalian telomeres in 25-60% of sarcomas and a minority of carcinomas (about 5-15%). ALT-positive cells are distinguished by long and heterogeneous telomere length distributions by terminal restriction fragment (TRF) Southern blotting. Another diagnostic marker of ALT is discrete nuclear co-localized signals of telomeric DNA and the promyelocytic leukaemia protein (PML), referred to as ALT-associated PML bodies (APBs).Recently, we detected smaller sized co-localized PML and telomere DNA (APB-like) bodies in endothelial cells adjacent to astrocytoma tumour cells in situ. In this study, we examined a wide variety of non-neoplastic tissues, and report that co-localized signals of PML and telomere DNA are present in endothelial, stromal, and some epithelial cells. Co-localized signals of PML and telomere DNA showed an increased frequency in non-neoplastic cells with DNA damage. These results suggest that a mechanism similar to that in ALT-positive tumours also operates in non-neoplastic cells, which may be activated by DNA damage.The APB components used to estimate their frequency have varied in the literature, with some authors using the shelterin complex proteins telomere repeat factors (TRF) 1 with PML or TRF2 with PML, instead of
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