1.Direct Puncture of the Superficial Temporal Artery in Embolization of a Scalp Arteriovenous Fistula: A Case Report
Gregory B. WALKER ; Alick P. WANG ; Jeremiah HADWEN ; Undrakh-Erdene ERDENEBOLD ; Razmik BEBEDJIAN ; Patrick SULLIVAN ; Marlise P. SANTOS ; Chad CHENIER ; Stephen KARWASKI ; Katie CARON ; Gabriella VARGA ; Jennifer LYON ; Howard J. LESIUK ; Navraj HERAN ; Manraj HERAN ; Aiman QUATEEN ; Brian J. DRAKE ; Eduardo Portela De OLIVEIRA ; Mario KONTOLEMOS ; Robert FAHED
Neurointervention 2023;18(1):67-71
We describe a minimally invasive endovascular approach to treat an arteriovenous fistula of the scalp. We performed a direct puncture of the lesion through the patient’s scalp for liquid embolic agent injection along with external compression of the superficial temporal artery to perform a “manual pressure-cooker technique.” The combination of these minimally invasive techniques resulted in an excellent clinical and radiographic outcome.
2.How Do Quantitative Tissue Imaging Outcomes in Acute Ischemic Stroke Relate to Clinical Outcomes?
Johanna M. OSPEL ; Leon RINKEL ; Aravind GANESH ; Andrew DEMCHUK ; Manraj HERAN ; Eric SAUVAGEAU ; Manish JOSHI ; Diogo HAUSSEN ; Mahesh JAYARAMAN ; Shelagh COUTTS ; Amy YU ; Volker PUETZ ; Dana IANCU ; Oh Young BANG ; Jason TARPLEY ; Staffan HOLMIN ; Michael KELLY ; Michael TYMIANSKI ; Michael HILL ; Mayank GOYAL ;
Journal of Stroke 2024;26(2):252-259
Background:
and Purpose Infarct volume and other imaging markers are increasingly used as surrogate measures for clinical outcome in acute ischemic stroke research, but how improvements in these imaging surrogates translate into better clinical outcomes is currently unclear. We investigated how changes in infarct volume at 24 hours alter the probability of achieving good clinical outcome (modified Rankin Scale [mRS] 0–2).
Methods:
Data are from endovascular thrombectomy patients from the randomized controlled ESCAPE-NA1 (Efficacy and Safety of Nerinetide for the Treatment of Acute Ischaemic Stroke) trial. Infarct volume at 24 hours was manually segmented on non-contrast computed tomography or diffusion-weighted magnetic resonance imaging. Probabilities of achieving good outcome based on infarct volume were obtained from a multivariable logistic regression model. The probability of good outcome was plotted against infarct volume using linear spline regression.
Results:
A total of 1,099 patients were included in the analysis (median final infarct volume 24.9 mL [interquartile range: 6.6–92.2]). The relationship between total infarct volume and good outcome probability was nearly linear for infarct volumes between 0 mL and 250 mL. In this range, a 10% increase in the probability of achieving mRS 0–2 required a decrease in infarct volume of approximately 34.0 mL (95% confidence interval: -32.5 to -35.6). At infarct volumes above 250 mL, the probability of achieving mRS 0–2 probability was near zero. The relationships of tissue-specific infarct volumes and parenchymal hemorrhage volume generally showed similar patterns, although variability was high.
Conclusion
There seems to be a near-linear association between total infarct volume and probability of achieving good outcome for infarcts up to 250 mL, whereas patients with infarct volumes greater than 250 mL are highly unlikely to have a favorable outcome.