Bibliometric Investigation as well as Visual images of Academic Delay
8% to 25.5%, p<0.001). Endovascular thrombectomy was rarely performed in VEP (1.5% of VEP). Rt-PA treatment was associated with favorable outcome for all three age groups (p<0.05).
We showed that VEP present different vascular risk factor profiles, clinical features, and prognostic elements for short-term stroke outcome. Future studies will reveal whether we will observe an increasing trend in the use of rt-PA and endovascular thrombectomy and whether it will result in improved functional outcome for VEP.
We showed that VEP present different vascular risk factor profiles, clinical features, and prognostic elements for short-term stroke outcome. Future studies will reveal whether we will observe an increasing trend in the use of rt-PA and endovascular thrombectomy and whether it will result in improved functional outcome for VEP.
While telestroke 'hub-and-spoke' systems are a well-established model for improving acute stroke care at spoke facilities, utility beyond the hyperacute phase is unknown. In patients receiving intravenous thrombolysis via telemedicine, care at spoke facilities has been shown to be associated with longer length of stay and worse outcomes. We sought to explore the impact of ongoing stroke care by a vascular neurologist via telemedicine compared to care provided by local neurologists.
A network spoke facility protocol was revised to pilot telestroke consultation with a hub vascular neurologist for all patients presenting to the emergency department with ischemic stroke or transient ischemic attack regardless of time since onset or severity. Subsequent telestroke rounds were performed for patients who received initial telestroke consultation. Key outcome measures were length of stay, 30-day readmission and mortality and 90-day mRS. Results during the pilot (post-cohort) were compared to the same hospital's previous outcomes (pre-cohort).
Of 257 enrolled patients, 67% were in the post-cohort. Forty percent (69) of the post-cohort received an initial telestroke consult. In spoke-retained patients followed by telestroke rounds (55), median length of stay decreased by 0.8 days (P=0.01). Readmission and mortality rates did not differ significantly between groups (19.5 vs. 9.1%, P=0.14 and 3.9 vs. 3.6%, P=1, respectively). The favorable functional outcome rate was similar between groups (47.3% vs 65.9%, P=0.50).
Longitudinal stroke care via telestroke may be economically viable through length of stay reduction. Randomized prospective studies are needed to confirm our findings and further investigate this model's potential benefits.
Longitudinal stroke care via telestroke may be economically viable through length of stay reduction. Randomized prospective studies are needed to confirm our findings and further investigate this model's potential benefits.
This study examined the clinical features, functional outcomes, and prognostic indicators of acute ischemic stroke (AIS) patients who had an Alberta Stroke Program Early Computed Tomography Score (ASPECTS) ≤ 5 and who underwent mechanical thrombectomy (MT).
We included consecutive AIS patients with ASPECTS ≤ 5 who had received MT at the same hospital. Demographic, clinical, and radiological data were collected and analyzed. Functional outcome at 90 days after treatment was classified as good or poor based on the modified Rankin Scale (mRS).
Of the 152 included patients with ASPECTS ≤ 5 who received MT, 64 (42.11%) experienced poor functional outcomes and 32 (21.1%) experienced good functional outcomes. The independent predictors of poor functional outcomes were the presence of respiratory tract infections (OR 3.72, 95% CI 1.17-11.91), modified thrombolysis in cerebral infarction (OR 0.41, 95% CI 0.2-0.83), symptomatic intracerebral hemorrhage (sICH) (OR 4.96, 95% CI 1.36-18.13), and baseline score on the National Institute of Health Stroke Scale (NIHSS) (OR 1.18, 95% CI 1.03-1.36). Independent predictors of 90-day mortality included time from groin puncture to recanalization (OR 1.03, 95% CI 1.01-1.05), NIHSS scores (OR 1.28, 95% CI 1.12-1.47) and the occurrence of sICH (OR 1.81, 95% CI 1.25-5.75).
AIS patients with ASPECTS ≤ 5 can experience good functional outcomes after MT. However, patients with sICH, respiratory infection, higher NIHSS score or failed recanalization are more likely to experience poor functional outcomes.
AIS patients with ASPECTS ≤ 5 can experience good functional outcomes after MT. However, patients with sICH, respiratory infection, higher NIHSS score or failed recanalization are more likely to experience poor functional outcomes.
The present study aimed to examine the effectiveness of proton magnetic resonance spectroscopy (1HMRS) in determining the progression of neurological symptoms resulting in acute ischemic stroke in patients with lenticulostriate artery (LSA) infarction.
1HMRS was performed within 72h after neurological symptom onset. Voxel of interest was placed in tissue that included the pyramidal tract and identified diffusion weighted echo planar spin-echo sequence (DWI) coronal images. Infarct volume in DWI was calculated using the ABC/2 method. 1HMRS data (tNAA, tCr, Glx, tCho, and Ins) were analyzed using LCModel. Progressive neurological symptoms were defined as an increase of 1 or more in the NIHSS score. Patients who underwent 1HMRS after progressive neurological symptoms were excluded.
In total, 77 patients were enrolled. Of these, 19 patients had progressive neurological symptoms. The patients with progressive neurological symptoms were significantly more likely to be female and had higher tCho/tCr values, higher rates of axial slices ≥ 3 slices on DWI, higher infarct volume on DWI, higher maximum diameter of infarction of axial slice on DWI, and higher SBP on admission compared to those without. Multivariable logistic analysis revealed that higher tCho/tCr values were independently associated with progressive neurological symptoms after adjusting for age, sex, and initial DWI infarct volume (tCho/tCr per 0.01 increase, OR 1.26, 95% CI 1.03-1.52, P=0.022).
Increased tCho/tCr score were associated with progressive neurological symptoms in patients with LSA ischemic stroke. Quantitative evaluation of 1HMRS parameters may be useful for predicting the progression of neurological symptoms.
Increased tCho/tCr score were associated with progressive neurological symptoms in patients with LSA ischemic stroke. Quantitative evaluation of 1HMRS parameters may be useful for predicting the progression of neurological symptoms.A persistent primitive olfactory artery (PPOA) is a rare anomaly of anterior cerebral artery (ACA), which generally arises from the internal carotid artery (ICA), runs along the olfactory tract, and makes a hairpin bend to supply the territory of the distal ACA. PPOA is also associated with cerebral aneurysms. An accessory MCA is a variant of the middle cerebral artery (MCA) that arises from either the proximal or distal portion of the A1 segment of the ACA, which runs parallel to the course of the MCA and supplies some of the MCA territory. We experienced a rare case of coexistence of PPOA with an unruptured aneurysm and accessory MCA. Three-dimensional computed tomographic angiography (3D-CTA) has an excellent picture of the spatial relationship of the surrounding bony and vascular structure.
To explore a new approach mainly based on deep learning residual network (ResNet) to detect infarct cores on non-contrast CT images and improve the accuracy of acute ischemic stroke diagnosis.
We continuously enrolled magnetic resonance diffusion weighted image (MR-DWI) confirmed first-episode ischemic stroke patients (onset time less than 9h) as well as some normal individuals in this study. They all underwent CT plain scan and MR-DWI scan with same scanning range, layer thickness (4mm) and interlayer spacing (4mm) (The time interval between two examinations less than 4h). Setting MR-DWI as gold standard of infarct core and using deep learning ResNet combined with a maximum a posteriori probability (MAP) model and a post-processing method to detect the infarct core on non-contrast CT images. After that, we use decision curve analysis (DCA) establishing models to analyze the value of this new method in clinical practice.
116 ischemic stroke patients and 26 normal people were enrolled. 58 patients were allocated into training dataset and 58 were divided into testing dataset along with 26 normal samples. The identification accuracy of our ResNet based approach in detecting the infarct core on non-contrast CT is 75.9%. The DCA shows that this deep learning method is capable ofimprovingthe net benefit of ischemic stroke patients.
Our deep learning residual network assisted with optimization methods is able to detect early infarct core on non-contrast CT images and has the potential to help physicians improve diagnostic accuracy in acute ischemic stroke patients.
Our deep learning residual network assisted with optimization methods is able to detect early infarct core on non-contrast CT images and has the potential to help physicians improve diagnostic accuracy in acute ischemic stroke patients.Leukocytes (neutrophils, monocytes) in the active circulation exhibit multiple phenotypic indicators for a low level of cellular activity, like lack of pseudopods and minimal amounts of activated, cell-adhesive integrins on their surfaces. In contrast, before these cells enter the circulation in the bone marrow or when they recross the endothelium into extravascular tissues of peripheral organs they are fully activated. We review here a multifaceted mechanism mediated by fluid shear stress that can serve to deactivate leukocytes in the circulation. The fluid shear stress controls pseudopod formation via the FPR receptor, the same receptor responsible for pseudopod projection by localized actin polymerization. The bioactivity of macromolecular factors in the blood plasma that interfere with receptor stimulation by fluid flow, such as proteolytic cleavage in the extracellular domain of the receptor or the membrane actions of cholesterol, leads to a defective ability to respond to fluid shear stress by actin depolymerization. The cell reaction to fluid shear involves CD18 integrins, nitric oxide, cGMP and Rho GTPases, is attenuated in the presence of inflammatory mediators and modified by glucocorticoids. The mechanism is abolished in disease models (genetic hypertension and hypercholesterolemia) leading to an increased number of activated leukocytes in the circulation with enhanced microvascular resistance and cell entrapment. XST-14 research buy In addition to their role in binding to biochemical agonists/antagonists, membrane receptors appear to play a second role to monitor local fluid shear stress levels. The fluid shear stress control of many circulating cell types such as lymphocytes, stem cells, tumor cells remains to be elucidated.Thrombosis is one of the main causes of failure in device implantation. Computational thrombosis simulation is a convenient approach to evaluate the risk of thrombosis for a device. However, thrombosis is a complicated process involving multiple species and reactions. Application of a macroscopic, single-scale computational model for device-induced thrombosis is a cost-effective approach. The current study has refined an existing thrombosis model, which simulated thrombosis by tracing four species in blood non-activated platelets, activated platelets, surface adherent platelets, and ADP. Platelets are activated mechanically by shear stress, and chemically by ADP. Platelet adhesion occurs on surfaces with low wall shear stress with platelet aggregation inhibited in regions of high shear stress. The study improves the existing thrombosis model by 1) Modifying the chemical platelet activation function so that ADP activates platelets; 2) Modifying the function describing thrombus deposition and growth to distinguish between thrombus deposition on wall surfaces and thrombus growth on existing thrombus surfaces; 3) Modifying the thrombus breakdown function to allow for thrombus breakdown by shear stress; 4) Modeling blood flow as non-Newtonian.