[Protective effects of CVB-D on cardiac myocytes injury induced by high sympathesis activity in vitro].

OBJECTIVE: To investigate the protective effect of CVB-D on cardiac myocytes injury induced by high sympathesis activity and its relationship with oxidative stress. METHODS: Primary culture cardiac myocyte of new-born rat was injuried by NE and then incubated with VE and CVB-D (10 and 50 micromol/L). Indexes of cardiac myoctye injury were assayed by morphologic change, MTT, and LDH leakage ratio. The activity of SOD and the content of MDA were investigated to identify oxidation and antioxygen. RESULTS: CVB-D (10 and 50 micromol/L) significantly increased the cell survival rate,and reduced the LDH leakage rate. CVE-D (50 micromol/L) significantly increased the activity of SOD, and decreased content of MDA in injuried cell. CONCLUSION: CVB-D has protective effect against myocardial injury induced by high sympathesis activity, the mechanism involves in ameliorating oxidative stress.

Counterflow co-flocculation flotation for water purification.

A new method for potable water treatment was brought forward and studied in this research. The treatment process was named as counterflow co-flocculation flotation (CC-FF). Pilot experiment was conducted and the operational parameters were presented. The optimized operational conditions are as follows: the detention time is 6-11 min with hydraulic load of 9-16 m3/(m2 h); the recycle ratio should be no less than 8% while the distance between the inlet of source water and recycle water should be greater than 1200 mm. If the source water turbidity was lower than 100 NTU, 0.12-0.35 mmol/L Al dosage is enough to maintain efficient turbidity removal. Since the flocculation and flotation processes were carried out in the same tank, this new technique has some advantages than the conventional flocculation-flotation methods. Firstly, the microbubbles released from recycle water will participate in the flocculation of suspended particles, hence the low-density but high shear-force-resistance flocci could be formed. Secondly, the microflocci or suspended particles will be functioned as 'nucleus' during the bubble formation from air-dissolved recycle water. Thirdly, in the midsection of the tank a blanket of bubble-microfloc aggregates could be formed, which will intercept the downward-flow flocci and upward-flow bubbles efficiently, thus keep the renovation and stability of the blanket.