The benefit of mechanical thrombectomy (MT) in acute ischemic stroke (AIS) due to large vessel intracranial occlusions is directly related to the technical success of the procedures in achieving fast and complete reperfusion. While a precise definition of refractoriness is lacking in the literature, it may be considered when there is reperfusion failure, long procedural times, or high number of passes with the MT devices. Detailed knowledge about the causes for refractory MT in AIS is limited; however, it is most likely a multifaceted problem including factors related to the vascular anatomy and the underlying nature of the occlusive lesion amongst other factors. We aim to review the impact of several key unfavorable anatomical factors that may be encountered during endovascular AIS treatment and discuss potential bail-out strategies to these challenging situations.
BACKGROUND AND PURPOSE: Intracranial hemorrhage (ICH) is an important event that is diagnosed on head NCCT. Increased NCCT utilization in busy hospitals may limit timely identification of ICH. RAPID ICH is an automated hybrid 2D-3D convolutional neural network application designed to detect ICH that may allow for expedited ICH diagnosis. We determined the accuracy of RAPID ICH for ICH detection and ICH volumetric quantification on NCCT.MATERIALS AND METHODS: NCCT scans were evaluated for ICH by RAPID ICH. Consensus detection of ICH by 3 neuroradiology experts was used as the criterion standard for RAPID ICH comparison. ICH volume was also automatically determined by RAPID ICH in patients with intraparenchymal or intraventricular hemorrhage and compared with manually segmented ICH volumes by a single neuroradiology expert. ICH detection accuracy, sensitivity, specificity, positive predictive value, negative predictive value, and positive and negative likelihood ratios by RAPID ICH were determined. RESULTS:We included 308 studies. RAPID ICH correctly identified 151/158 ICH cases and 143/150 ICH-negative cases, which resulted in high sensitivity (0.956, CI: 0.911-0.978), specificity (0.953, CI: 0.907-0.977), positive predictive value (0.956, CI: 0.911-0.978), and negative predictive value (0.953, CI: 0.907-0.977) for ICH detection. The positive likelihood ratio (20.479,) and negative likelihood ratio (0.046, CI 0.023-0.096) for ICH detection were similarly favorable. RAPID ICH volumetric quantification for intraparenchymal and intraventricular hemorrhages strongly correlated with expert manual segmentation (correlation coefficient r ¼ 0.983); the median absolute error was 3 mL.CONCLUSIONS: RAPID ICH is highly accurate in the detection of ICH and in the volumetric quantification of intraparenchymal and intraventricular hemorrhages.ABBREVIATIONS: CNN ¼ convolutional neural network; ICH ¼ intracranial hemorrhage; LR ¼ likelihood ratio; NPV ¼ negative predictive value; PPV ¼ positive predictive value I ntracranial hemorrhage (ICH) secondary to trauma, cerebrovascular disease, tumors, coagulation disorders, and other disorders results in significant morbidity and mortality. [1][2][3] The volume and severity of ICH at presentation correlate with neurologic status and likelihood of survival, 4,5 and prompt medical and surgical intervention have been shown to reduce the mortality rate associated with ICH. 6,7 Therefore, accurate and timely ICH diagnosis is essential for patient treatment, and prompt detection and interpretation of ICH on NCCT are necessary. Excluding acute ICH is also a critical component of the evaluation of patients with stroke for IV thrombolysis.The presentation of ICH is often nonspecific, and ICH is most commonly diagnosed on head NCCT. 2 Prompt NCCT interpretation in busy emergency departments and hospitals remains challenging, and interpretation delays may result in patient care delays, which can lead to poor outcomes. 8 Triage software that identifies ICH, estimates ICH volume, and alerts radiologi...
Device size selection can enhance Y-stentrieving efficacy and safety as a rescue strategy in stroke thrombectomy
BackgroundDespite advancements in stroke treatment, refractory clots are relatively common, prompting the exploration of alternative techniques. Bifurcation occlusions pose specific intraprocedural challenges, occasionally dealt with by two stentrievers deployed in Y-configuration. Previous studies have portrayed this strategy as feasible, yet little is known about its safety and efficacy, and how to best select retrievers.ObjectiveTo determine whether device selection influences the efficacy and safety of Y-stentrieving.MethodsWe performed a multicentric, retrospective analysis of patients undergoing Y-stentrieving rescue for bifurcation occlusions. Demographics, devices, procedural metrics, neurological severity, reperfusion, disability, and safety were assessed.ResultsY-configuration stents were used as a rescue maneuver after 2.16±1.5 failed attempts with other techniques in 20 patients. Successful reperfusion (modified Thrombolysis in Cerebral Infarction score 2b–3) was achieved in 70% of patients after the first Y-stentrieving attempt. The first stentriever more often had a larger diameter (5.15±0.92 vs 3.67±0.57 mm, p=0.017) and longer length (33.12±5.78 vs 20.67±1.15 mm, p=0.002) in successfully reperfused cases. Also, the diameter of the first device was associated with both any parenchymal (6.0 vs 4.71±0.99 mm, p=0.045) and symptomatic (6.0 vs 4.86±1.02 mm, p<0.001) hemorrhages. Exact logistic regression demonstrated that a longer length first stentriever independently predicted better angiographic outcomes (OR=1.26, p=0.036), and a 6 mm diameter first stentriever independently predicted more intracranial hemorrhages (OR=15.28, p=0.044). No periprocedural mortality was recorded.ConclusionY-stentrieving is an effective and safe bail-out strategy for refractory bifurcation clots. Longer stents may promote better angiographic outcomes, whereas avoidance of disproportionately large retrievers may mitigate intracranial hemorrhage. Future studies should account for these factors when evaluating alternative stentriever techniques.
Introduction. Cerebrovascular disorders are the main causes of heavy burden health worldwide, also, it is critical to understand the pathophysiological mechanism and then trying to prevent the neurological sequels. Objective. To discuss the inflammatory and oxidative stress aspects associated to the cerebrovascular diseases, focusing on biomarkers, also the role of omega oils, and the intracellular molecular network associated to the tissue burden on those conditions. Results. One of the most promising biomarkers it is Neuron-Specific Enolase (NSE). Serum NSE levels were elevated in stroke-patients compared to the non-stroke controls. Also, studies have demonstrated that in specific ratio omega oils 3, 6 and 9 can ameliorate the inflammatory and oxidative stress in nervous tissue and could be useful to the inflammatory and oxidative stress negative effects of cerebrovascular diseases. In addition, the study of the molecular mechanisms is essential to understand which molecules could be addressed in cascade of events preventing the permanent damage on the nervous tissue. Final considerations. The studies on cerebrovascular disorders must precisely identify the mechanisms and key molecules involved and improve the time of diagnostics and prognostics reducing the negative impacts of those conditions.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
Contact Info
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
Product
Resources
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2025 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.
