Objective To explore the mechanism of protective effect of Rhodioloside in cerebral ischemia-reperfusion rats and its relevance to phosphatidylinositol 3-kinases ( PI3-K)/protein serine-threonine kinases ( AKT) signaling pathway .Methods Forty eight Sprague-Dawley rats were randomly divided into four groups: sham-operation group , ischemia-reperfusion group , and Rhodiolo-side treatment groups (5 and 10 mg/kg).The model of right middle cerebral artery occlusion was established with thread ligation meth -od.The score of the neurological deficit was estimated 2 h followed by 24 h reperfusion.Histopathological changes were observed by hematoxylin-eosin(HE) staining.The infarct volume was measured with triphenyltetrazolium chloride (TTC) staining.Apoptotic cells were assessed with terminal deoxynucleotidyl transferase (TdT)-mediated dUTP nick end labeling (TUNEL) method.The expressions of PI3-K and p-AKT were evaluated with immunohistochemistry .Results The score of the neurological deficit was decreased more ob-viously, the number of apoptotic were decreased more significantly , the expressions of PI3-K and p-AKT were increased more signifi-cantly in the Rhodioloside treatment groups (5 and 10 mg/kg) than in the ischemia-reperfusion group ( P <0.05).The score of the neurological deficit was decreased , the number of apoptotic was decreased , and the expressions of PI 3-K and p-AKT were increased in the Rhodioloside treatment group (10 mg/kg) than the Rhodioloside treatment group (5 mg/kg) ( P <0.05).Conclusions The protective mechanism of Rhodioloside therapy against cerebral ischemia r-eperfusion injury might be associated with activating the PI 3-K/AKT signaling pathway and then inhibiting neuronal apoptosis .

Objective:To compare the osteogenesis ability between human umbilical cord Wharton's Jelly-derived mesenchymal stem cells(hUCWJMSCs) and human periodontal ligament mesenchymal stem cells (hPDLSCs) in vitro.Methods:hUCWJMSCs and hPDLSCs were in vitro cultured.The cell proliferation capacity was examined by MTT assay.After osteogenesis induction culture,ALP activity of the cells was determined,minerialization was observed by alizarin red staining,OPN and Runx2 mRNA expression was analyzed by Real-time PCR.Results:hUCWJMSCs grew faster than hPDLSCs.After osteogenic differentiation induction,hPDLSCs group showed higher ALP level,more mineralized nodule formation and higher Runx2 expression compared with hUCWJMSCs group (P ＜ 0.05);while the OPN expressed higher in hUCWJMSCs than in hPDLSCs (P ＜ 0.05).Conclusion:hUCWJMSCs and hPDLSCs have osteogenesis differentiation potential,hPDLSCs are more osteogenetic.

Objective: To explore the effect of HIF-1α on osteogenic-angiogenic coupling response in bone mesenchymal stem cells (BMSCs) and provide new concepts for engineered bone tissue in vitro. Methods: With the approval of the hospital’s experimental animal ethics committee, BMSCs were harvested from Wistar rats. The lentivirus carrying hypoxia-inducible factor-1α (HIF-1α) and empty lentivirus were stably transfected into the third generations of BMSCs to form LV-HIF-1α-BMSCs and LV-BMSCs. Meanwhile, BMSCs without transfection of lentivirus were used as a blank control. Then, the effect of HIF-1α transfection was verified by qPCR and Western Blot. LV-HIF-1α-BMSCs were induced to differentiate into endothelium-like cells (iECs). The morphology was observed by optical microscopy, the differentiation rate was detected by cellular flow CD31, and the Transwell test was used to detect the migration ability. At the same time, LV-HIF-1α-BMSCs and LV-BMSCs were continuously cultured to form osteogenic cell sheets (OCTs), which were stained by alkaline phosphatase on day 14 and alizarin red staining on day 21, and counted for mineralization capacity. Finally, iECs were implanted into OCTs to form prevascularized osteogenic cell sheets (P-OCTs), immunofluorescence CD31 was performed to detect the formation of vascular networks, and the results were recorded on days 1, 3, 7, and 14. Meanwhile, osteopontin (OPN) and osteocalcin (OCN) were detected by western blot to verify their ability for osteogenic differentiation on days 1, 7, and 14. Results: The optimal multiplicity of infection (MOI) for lentiviral transfection was 30, and the transfection efficiency was >80%. The results of qPCR and western blot showed that compared with the LV-BMSCs group and BMSCs group, the LV-HIF-1α-BMSCs group had stable and high expressions of HIF-1α (P<0.05). LV-HIF-1α-BMSCs showed an enhanced ability to differentiate into endothelial cells, with a differentiation rate as high as 91.81%. Transwell assay verified that HIF-1α could recruit iECs in vitro. Alkaline phosphatase staining and alizarin red staining confirmed that OCTs formed by LV-HIF-1α-BMSCs had a statistically significant osteogenic differentiation ability compared with LV -BMSCs control group (P<0.05). When iECs were implanted into the LV-HIF-1α-BMSCs group OCTs to form P-OCTs, iECs substantially proliferated and rapidly fused, and formation of the progressive lumen was revealed by immunofluorescent CD31 staining. The expressions of OPN and OCN were significantly enhanced compared with those of the LV-BMSCs control group; OCN was the highest on day 7, and OPN was the highest on day 1 (P<0.05). Conclusion BMSCs transfected by HIF-1α have good osteogenic-angiogenic effect after induction and differentiation, which provides experimental foundation for optimizing the construction of three-dimensional prevascularized bone tissue.

Objective    To analyze the risk factors for acute kidney injury (AKI) after off-pump coronary artery bypass grafting (OPCABG). Methods     The PubMed, EMbase, The Cochrane Library, Web of Science, Wanfang data, CBM, VIP, CNKI were searched by computer for researches on risk factors associated with the development of AKI after OPCABG from the inception to March 2022. The meta-analysis was performed using RevMan 5.4 software. The Newcastle-Ottawa Scale (NOS) was used to evaluate the quality of included studies. Results    A total of 18 researches were included, involving 9 risk factors. The NOS score of all included studies was≥6 points. Meta-analysis results showed that age [OR=1.03, 95%CI (1.01, 1.06), P=0.020], body mass index (BMI) [OR=1.10, 95%CI (1.05, 1.15), P<0.001], history of hypertension [OR=1.45, 95%CI (1.27, 1.66), P<0.001], history of diabetes [OR=1.50, 95%CI (1.33, 1.70), P<0.001], preoperative serum creatinine level [OR=2.05, 95%CI (1.27, 3.32), P=0.003], low left ventricular ejection fraction [OR=4.51, 95%CI (1.39, 14.65), P=0.010], preoperative coronary angiography within a short period of time [OR=2.10, 95%CI (1.52, 2.91), P<0.001], perioperative implantation of intra-aortic balloon pump [OR=3.42, 95%CI (2.26, 5.16),  P<0.001], perioperative blood transfusion [OR=2.00, 95%CI (1.51, 2.65), P<0.001] were risk factors for AKI after OPCABG. Conclusion    Age, BMI, history of hypertension, history of diabetes, preoperative serum creatinine level, low left ventricular ejection fraction, preoperative coronary angiography within a short period of time, perioperative implantation of intra-aortic balloon pump, perioperative blood transfusion are risk factors for AKI after OPCABG. Medical staff should focus on monitoring the above risk factors and early identifying, in order to prevent or delay the onset of postoperative AKI and promote early recovery of patients.