Tielin Li scite author profile

The present study reports the effect of successful treatment of cerebral venous sinus thrombosis (CVST) with stent retriever thrombectomy combined with local thrombolytic therapy. Medical records of 29 patients were retrospectively analyzed following a diagnosis of CVST with magnetic resonance venography (MRV) or digital subtraction angiography (DSA). Systemic anticoagulation was the initial treatment in all patients following admission. In group A, stent retriever thrombectomy combined with local thrombolytic therapy was performed on 14 patients who met the criteria of endovascular therapy. Stent-assisted angioplasty was also performed when patients presented with venous sinus stenosis. A total of 15 patients in group B received systemic anticoagulant treatment. Subsequently, warfarin was administered orally for 3 to 12 months as a continuous anticoagulant therapy. International normalized ratio was monitored when patients were receiving anticoagulant therapy. Additionally, clinical presentation, decision to escalate therapy, recanalization, Glasgow Coma Scale, modified Rankin Scale (mRS) and the clinical outcome was assessed. A total of 14 patients (9 female patients, 5 male patients), with ages ranging from 17 to 57 years, met the criteria of endovascular therapy. The clinical symptoms of 12 patients had improved after receiving endovascular therapy and only 2 patients suffered from intracranial hemorrhage following the procedure. Complete recanalization of venous sinus was exhibited in 10/14 (71.4%) patients in group A when compared with 1/15 (6.7%) patients in group B. mRS were improved in the 12-month follow-up in groups A and B when compared with that at admission. In the present study, patients with acute CVST treated with stent retriever thrombectomy combined with local thrombolytic therapy had a favorable outcome. To conclude, the present study provides a treatment option in treating CVST, particularly for patients that present with evident cortical venous outflow stasis or deteriorate neurology, despite appropriate anticoagulant therapy.

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Comparison of polyvinyl alcohol copolymer with detachable balloons for the embolisation of direct carotid cavernous fistula: a single-centre experience

Duan

Lai

et al. 2017

Eur Radiol

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Significant thermal conductivity reduction of CVD graphene with relatively low hole densities fabricated by focused ion beam processing

Lee

Kihm

Lee

et al. 2019

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The detrimental effect of nanoscale hole defects on the in-plane thermal conductivity (k) was first examined for supported CVD graphene. A focused ion beam punctured equally spaced 50-nm diameter holes with different hole spacings (200, 400, and 800 nm) in supported graphene on an 8-nm thin SiO2 substrate. For the relatively low 4.91% porosity, the thermal conductivity showed a significant reduction to 212.6 W/mK from 1045 W/mK in supported graphene with no holes and even more dramatically so from 3500 W/mK in suspended pristine graphene. The thermal conductivity showed an order-of-magnitude faster reduction with increasing porosity compared to the Eucken model, which is based on the diffusive thermal transport reduction due to the void holes on the macroscale. This is believed to be attributed to the enhanced phonon scattering by the nanoscale hole edges and also by the reduced phonon passage length-scale that became comparable to the phonon mean-free-paths. Furthermore, a phenomenological fitting model is presented to comprehensively describe the k dependence on porosity, hole spacing, and the spectral dependence of the phonon mean-free-path in nanoscale holey graphene.

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Use of covered stents to treat complex cerebrovascular diseases: Expert consensus

Zhang

Tan²,

Wu³

et al. 2022

Front. Cardiovasc. Med.

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The treatment of complex cerebrovascular diseases (CCVDs) at the skull base, such as complex intracranial aneurysms, carotid-cavernous sinus fistulas, and intracranial artery traumatic injuries, is a difficult clinical problem despite advances in endovascular and surgical therapies. Covered stents or stent graft insertion is a new concept for endovascular treatment that focuses on arterial wall defect reconstruction, differing from endovascular lesion embolization or flow diverter therapies. In recent years, covered stents specifically designed for cerebrovascular treatment have been applied in the clinical setting, allowing thousands of patients with CCVDs to undergo intraluminal reconstruction treatment and achieving positive results, even in the era of flow diverters. Since there is no unified reference standard for the application of covered stents for treating CCVDs, it is necessary to further standardize and guide the clinical application of this technique. Thus, we organized authoritative experts in the field of neurointervention in China to write an expert consensus, which aims to summarize the results of covered stent insertion in the treatment of CCVDs and propose suitable standards for its application in the clinical setting. Based on the contents of this consensus, clinicians can use individualized intraluminal reconstruction treatment techniques for patients with CCVDs.

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Tielin Li

Rupture during the endovascular treatment of intracranial aneurysms: outcomes and technical aspects

Stent retriever thrombectomy combined with local thrombolytic therapy for cerebral venous sinus thrombosis: A case report

Comparison of polyvinyl alcohol copolymer with detachable balloons for the embolisation of direct carotid cavernous fistula: a single-centre experience

Significant thermal conductivity reduction of CVD graphene with relatively low hole densities fabricated by focused ion beam processing

Use of covered stents to treat complex cerebrovascular diseases: Expert consensus

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