16 research outputs found
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Aneurysm Formation, Growth, and Rupture: The Biology and Physics of Cerebral Aneurysms.
Cerebral aneurysms (CAs) are characterized by a pathological wall structure with internal elastic lamina and media disruption, which leads to focal weakened pouches of the arterial wall. The prevalence of unruptured CAs has been estimated to be 2%-5% in the general population. During the past few decades, the pathophysiological mechanisms behind the formation, growth, and rupture of CAs have been the focus of numerous research studies. In the present review, we have summarized the inflammatory pathways, genetics, and risk factors for the formation, growth, and rupture of CAs. In addition, we have discussed the concepts of geometric indexes, flow patterns, and fluid dynamics that govern CA development
Preventing pediatric cardiothoracic trauma: Role of policy and legislation
Data from the last 50 years suggest that pediatric patients typically
suffer cardiothoracic injuries following blunt traumatic force (70%) in
the setting of either motor vehicle crashes (53.5%) or
vehicle-pedestrian accidents (18.2%). Penetrating trauma accounts for
30% of pediatric cardiothoracic injuries, half of which are gunshot
wounds. Graduated driver licensing programs, gun-control legislation,
off-road vehicle regulation, initiatives such as “Prevent the
Bleed”, as well as professional society recommendations are key in
preventing pediatric cardiothoracic injuries
18-0034_supplementary_tables – Supplemental material for Effect of Open- vs Closed-Cell Stent Design on Periprocedural Outcomes and Restenosis After Carotid Artery Stenting: A Systematic Review and Comprehensive Meta-analysis
<p>Supplemental material, 18-0034_supplementary_tables for Effect of Open- vs Closed-Cell Stent Design on Periprocedural Outcomes and Restenosis After Carotid Artery Stenting: A Systematic Review and Comprehensive Meta-analysis by Pavlos Texakalidis, Stefanos Giannopoulos, Damianos G. Kokkinidis and Giuseppe Lanzino in Journal of Endovascular Therapy</p
Lentiviral-Induced Spinal Cord Gliomas in Rat Model
Intramedullary spinal cord tumors are a rare and understudied cancer with poor treatment options and prognosis. Our prior study used a combination of PDGF-B, HRAS, and p53 knockdown to induce the development of high-grade glioma in the spinal cords of minipigs. In this study, we evaluate the ability of each vector alone and combinations of vectors to produce high-grade spinal cord gliomas. Eight groups of rats (n = 8/group) underwent thoracolumbar laminectomy and injection of lentiviral vector in the lateral white matter of the spinal cord. Each group received a different combination of lentiviral vectors expressing PDGF-B, a constitutively active HRAS mutant, or shRNA targeting p53, or a control vector. All animals were monitored once per week for clinical deficits for 98 days. Tissues were harvested and analyzed using hematoxylin and eosin (H&E) and immunohistochemical (IHC) staining. Rats injected with PDGF-B+HRAS+sh-p53 (triple cocktail) exhibited statistically significant declines in all behavioral measures (Basso Beattie Bresnahan scoring, Tarlov scoring, weight, and survival rate) over time when compared to the control. Histologically, all groups except the control and those injected with sh-p53 displayed the development of tumors at the injection site, although there were differences in the rate of tumor growth and the histopathological features of the lesions between groups. Examination of immunohistochemistry revealed rats receiving triple cocktail displayed the largest and most significant increase in the Ki67 proliferation index and GFAP positivity than any other group. PDGF-B+HRAS also displayed a significant increase in the Ki67 proliferation index. Rats receiving PDGF-B alone and PDGF-B+ sh-p53 displayed more a significant increase in SOX2-positive staining than in any other group. We found that different vector combinations produced differing high-grade glioma models in rodents. The combination of all three vectors produced a model of high-grade glioma more efficiently and aggressively with respect to behavioral, physiological, and histological characteristics than the rest of the vector combinations. Thus, the present rat model of spinal cord glioma may potentially be used to evaluate therapeutic strategies in the future
Transcervical carotid artery revascularization: A systematic review and meta-analysis of outcomes
Objective: Carotid artery stenosis is considered a determinant factor
for cerebrovascular events, estimated to be the cause of 10% to 20% of
all ischemic strokes. Transcervical carotid artery revascularization
(TCAR) has been offered as an alternative to transfemoral carotid artery
stenting and carotid endarterectomy to treat carotid artery stenosis.
Methods: We performed a systematic review and meta-analysis of
prospective and retrospective studies reporting the outcomes of patients
who had undergone TCAR for carotid artery stenosis. The incidence of
periprocedural adverse events was calculated.
Results: A total of 45 studies with 14,588 patients met the predefined
eligibility criteria and were included in the present meta-analysis. The
technical success rate was 99% (95% confidence interval [CI],
98%-99%). The reasons for technical failure included an inability to
cross the lesion and/or failure to deploy the stent. Access site
complications occurred in 2% of all cases (95% CI, 1%-2%; 30
studies). Overall, the incidence of cranial nerve (CN) injuries was very
rare, with only 33 of 8994 patients experiencing neurologic deficits
attributed to CN involvement. Bleeding complications were reported by 20
studies and occurred in 2% (95% CI, 1%-3%) of all cases. The overall
periprocedural all-cause mortality and stroke rate was 0.5% and 1.3%,
respectively. In-stent restenosis was observed in 4 of 260 patients
(1.5%; 7 studies), and early (30-day) reocclusion or acute thrombosis
of the target lesion occurred in 12 of 1243 patients (w1%; 11 studies).
Conclusions: The results from the present study have provided
significant evidence that TCAR is a very promising and safe carotid
revascularization approach with favorable technical success rates
associated with low periprocedural stroke and CN injury rates