Time-dependent effects of ethanolic extract of Boswellia papyrifera, administered systemically, on spatial memory retention in the Morris water maze were investigated in male rats. A total extract of Boswellia papyrifera (300 mg/kg) was administered every eight hours to three groups of rats by gavage for 1, 2 and 4 weeks. In a separate set of experiments, three doses of a fraction of the extract, called the boswellic acids (100, 200 and 300 mg/kg) were administered by gavage to three groups of rats three times a day for 2 weeks. Following these applications, animals were trained for 4 days. Behavioral testing for evaluation of spatial memory retention was performed 48 h after completion of training. Boswellia papyrifera extracts and boswellic acids caused a significant reduction in escape latency and distance traveled but had no influence on swimming speed. These findings provide evidence that Boswellia papyrifera extracts affect spatial memory retention irrespective of the treatment period. In addition our data show that systemic administration of the boswellic acids fraction enhanced spatial memory retention in a dose-dependent manner. These improving effects may be due to some extent to the interactions of these products with inflammatory mediators, neurotransmitter signaling cascades or protein kinase pathways in the brain.
Background
Combination of dyslipidemic phenotypes, including elevated plasma levels of low‐density lipoprotein cholesterol (LDL‐C), elevated plasma triglycerides (TG), and decreased low‐density lipoprotein cholesterol (HDL‐C) concentrations, is important because of the association of individual phenotypes with increased risk of cardiovascular disease (CVD). We investigated the prevalence of combined dyslipidemias and their effects on CVD risk in an Iranian large population.
Method
A total of 9847 individuals were recruited as part of the Mashhad Stroke and Heart Atherosclerotic Disorders (MASHAD) cohort study. Anthropometric parameters and biochemical indices were measured in all of the subjects. Different types of combined dyslipidemias including high TG + low HDL‐C, high TG + low HDL‐C + high LDL‐C, low HDL‐C + high LDL‐C, high TG + high LDL‐C, and finally high TG + high LDL‐C + low HDL‐C were considered. Ten‐year CVD risk was calculated using the QRISK2 risk algorithm and adjustments were made as suggested by the Joint British Societies’ (JBS2). Logistic regression analyses were performed to determine the association between different combined dyslipidemias and categorical QRISK.
Results
A total of 3952 males and 5895 females were included in this current study. Among the included subjects, 83.4% had one form of dyslipidemia, and 16.6% subjects were not dyslipidemic. The mean age was 48.88 ± 7.9 and 47.02 ± 8.54 years for dyslipidemic and nondyslipidemic groups, respectively. The results showed that the frequency of dyslipidemia was 98%, 87.1%, and 90% in subjects with metabolic syndrome, CVD, and diabetes, respectively. Our results suggested that around 15.7% of study population were at 10 years CVD risk (high ≥20) and it was higher in men than women (P < .001). Moreover, risk of CVD was higher in TG↑ & HDL↓ & LDL↑ group than other groups.
Conclusion
Prevalence of dyslipidemia was 83.4% among Iranian adults. The results showed that individuals with increased plasma TG and LDL‐C, and low HDL‐C levels had the highest 10 years CVD risk compared to other combined dyslipidemic phenotypes.
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Mesenchymal stem/stromal cells (MSCs) are adult multipotent cells with self-renewal potential and the ability to differentiate into specialized cells. MSCs home in various tissues and can be isolated using simple methods. Because of this feasibility in the isolation and culture of MSCs in vitro, many scientists have focused on the therapeutic applications of MSCs for various diseases and conditions. The selection of the tissue source to obtain MSCs mainly depends on the availability of the tissue, the patient’s health status, as well as the expertise of the researcher. However, some studies indicate that MSCs derived from different tissue sources are not the same and possess different regenerative capacities. Therefore, in this review, we have collected and summarized the results from studies that have performed head-to-head comparisons between MSCs isolated from different tissues. Despite the assessment method discrepancy between studies, results from these studies reveal that MSCs derived from different tissue sources are not the same. Some such as umbilical cord-derived MSCs and menstrual blood-derived MSCs were identified with robust angiogenic potentials. However, cord blood-derived MSCs possessed a strong cartilage repair capacity. Further investigations are required to establish certain capabilities for MSCs derived from a particular tissue origin. Nevertheless, it is recommended to consider the possibility of functional variations between MSCs isolated from distinct tissue origins when applying MSCs in clinics.
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