ABSTRACT
Post-stroke cognitive impairment (PSCI) directly affects the outcome of patients with stroke. Enlarged perivascular spaces (EPVS) suggest the impairment of brain clearance mechanism and may affect cognitive function. More and more studies have confirmed that the presence of EPVS will aggravate PSCI. This article reviews the relationship between EPVS and PSCI.
ABSTRACT
A large number of studies have shown that the elevated lipoprotein (a) is a risk factor for ischemic stroke, but the specific mechanism is still unclear. Therefore, this article reviews the role of elevated lipoprotein (a) in ischemic stroke, its mechanism, and intervention measures.
ABSTRACT
The perivascular space is formed by the pia mater around the blood vessels and participates in the fluid exchange and waste clearance in the brain. The enlarged perivascular space (EPVS) indicates the disorder of brain clearance mechanism, which is closely related to the occurrence and development of a variety of clinical diseases. In recent years, there are a lot of studies on the pathogenesis and influencing factors of EPVS. This article reviews its anatomy, neuroimaging, pathogenesis, and risk factors.
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Objective:To explore the correlation between enlarged perivascular spaces and other imaging markers of cerebrovascular disease in patients with ischemic stroke.Methods:Totally 287 patients with ischemic stroke hospitalized in neurology department from January 2018 to January 2019 were selected. According to the severity of EPVS in different parts of the brain, the correlations between the severity of EPVS in different parts of the brain and cerebral microbleeds (CMBs), white matter hyperintensity (WMH), lacunar infarcts (LIs) were analyzed. SPSS 22.0 software was used for analysis. Chi-square test, independent sample t-test, rank-sum test and non parametric Mann-Whitney U test were used for group comparison, and Logistic regression analysis was used for multivariate analysis. Results:EPVS was common and severe in patients with ischemic stroke. Periventricular white matter hyperintensity(PWMH)( β=1.604, P<0.001, OR=4.971, 95% CI=2.015-12.263), CMBs ( β=1.224, P=0.018, OR=3.339, 95% CI=1.232-9.383) and LIs ( β=0.626, P=0.047, OR=1.871, 95% CI=1.009-3.470) were independent risk factors for BG-EPVS. PWMH ( r=0.614), DWMH ( r=0.622), LIs ( r=0.532) were positively correlated with the severity of BG-EPVS (all P<0.01). Conclusion:The imaging makers of CSVD are related to BG-EPVS, which can affect the severity of brain BG-EPVS in patients with ischemic stroke.
ABSTRACT
Objective@#To study the biomechanical property and histocompatibility of acellular porcine fascia so as to supply a new substitute material for tissue repair.@*Methods@#Samples of normal porcine fascia, acellular porcine fascia and normal human fascia were prepared for histological and biomechanical examination. Xenogeneic fresh porcine fascia, acellular porcine fascia and allogeneic rabbit fascia were implanted into the back of rabbit. Tissues were taken for HE staining and histocompatibility test.@*Results@#Histological examination showed that the cellular components which elicit immune rejections had been removed in the acellular porcine fasciam, with the complete extracellular matrix reserved. Arrangement of collagen fiber was loose in the acellular porcine fascia. The biomechanical performance test of the three samples showed that there was no significant difference in the extreme tensile strength (4.47±0.54) MPa, (4.49±0.91) MPa, (4.79±1.35) MPa for acellular porcine fascia, normal porcine fascia and normal human fascia respecively, P>0.05). There was no significant difference between acellular porcine fascia extracellular matrix and porcine fascia with the cell in breaking elongation (501.83%±52.01%, 661.17%±200.28%, P>0.05). However, there was a significant difference in the breaking elongation between human fascia (98.08%±26.02%)and the other 2 kinds of porcine fascia (P<0.01). Histocompatibility test showed the local reactions of the acellular porcine fascia group were weaker than the normal porcine fascia group.@*Conclusions@#With sound preparativemethod, the acellular porcine fascia has good biomechanical property and histocompatibility and may serve as a good alternative material for tissue repair.