2.Clinical Study of the Combined Treatment of the Ginkgo Leaf Injection and Benazepril with Early Diabetic Nephropathy
Journal of Zhejiang Chinese Medical University 2006;0(04):-
[Objective]To explore the combined curative effect of the ginkgo leaf and benazepril on the early diabetic nephropathy(DN).[Method]Ninety patients with the early diabetic nephropathy(DN)were randomly divided into single group(n=45,the ginkgo leaf injection 20ml,once a day for 3 months)and combined group(n=45,added benazepril 10mg,once a day for 3 months).The changes in glycosylated hemoglobin(Hba1c) and 24-hour urinary microalbum inuria were observed before and after treatment.[Result]Hba1c remained unchanged throughout the course of the treatment,urinary microalbum inuria decreased in both groups,a more profound reduction was achieved after the combined treatment(P
3.The study about impairment of episodic memory encoding in patients with cerebral infarction
Zongjun GUO ; Lin XIAO ; Yubo TIAN ; Huanqing YU ; Zheng ZHANG ; Ang XING ; Qiang WANG
Chinese Journal of Behavioral Medicine and Brain Science 2010;19(12):1060-1062
Objective To investigate the impairment and the effect factors of encoding of episodic memory in patients with cerebral infarction. Methods 112 cases cerebral infarction patients and 115 healthy elders as controls were tested for episodic memory encoding with episodic pictures accomplished in computer, and compare the differences of encoding of episodic memory between the two groups. Results The remember indexes ( REM )of encoding memory test in patient group was significantly lower than that in control group( (70.81 ± 6.08 )vs (84.67 ± 4.49), P < 0.01 ). The REM in patients with different impaired areas was significantly different ( (65.88 ± 5.73 ), (68.92 ± 4.65 ), (73.39 ± 6.20), ( 73.53 ± 3.44), P < 0. 01 ). The REM in frontal lobe infarction group was significantly lower than that in temporal lobe infarction group (P < 0.05 ), and in temporal lobe infarction group was significantly lower than that in basal ganglia infarction group and corona radiate infarction group (P<0.05, P<0. 01). The REM in cortex infarction group was significantly lower than that in under cortex group ( ( 67.37 ± 5.40 ), ( 73.46 ± 4.99 ), P < 0.01 ). The REM in small cerebral infarction group was significantly higher than that in large cerebral infarction group( (72.67 ±4.47 ), (67.56 ± 6.18 ), P<0.01 ). The size of cerebral infarction diameter was related with the REM( r= -0.39, P<0. 01 ). The REM among control group,infarction with atrophy group, and infarction without atrophy group were significantly different( (67.03 ± 6. 17 ),( 72.84 ± 5. 00 ), ( 84.67 ± 4.49 ), P < 0. 01 ). The REM in infarction with atrophy group was significantly lower than that in infarction without atrophy group and control group( both P<0.01 ) ,The REM in infarction without atrophy group was significantly lower than that in control group (P < 0.01). Conclusion The encoding of episodic memory was impaired in cerebral infarction patients. The infarction parts,size of infarction area and atrophy was related with the impairment of encoding of episodic memory.
4.Reconstruction and Biomechanical Design of Microvascular Models
Ping ZHAO ; Xiao LIU ; Haoran SU ; Xing ZHANG ; Yubo FAN ; Xiaoyan DENG
Journal of Medical Biomechanics 2022;37(1):E180-E185
Neovascularization plays an important role in many physiological and pathological processes, but its mechanism is still unclear. Since vascular cells are subjected to a variety of biochemical and biomechanical stimulations in vivo and live in a complex microenvironment, it is necessary to construct the vascular model in vitro and simulate the in vivo microenvironment to explore the mechanism of neovascularization. Recently, owing to the advance of micromachining and microfluidic technology, various in vitro microvascular models have emerged. Variables such as shear stress, interstitial flow and biochemical gradient of angiogenic factors have been controlled in these models, which greatly promotes the research of neovascularization. The construction, development and biomechanical design of various microvascular models are reviewed in this paper.