RESUMO
Objective To optimize a method for extracting traditional Chinese medicine composition with insomnia,and to prepare the insomnia granules for quality control.Methods The optimal extraction process was screened by orthogonal test using high-performance liquid chromatography with geniposide as the evaluation index.The particle size,bulk density,angle of repose,moisture,solubility,hygroscopicity and loading difference of the insomnia granule were evaluated,and the difference between the trial test and the pilot test were analyzed to comprehensively monitor the quality of the insomnia granule.Results The best extraction process was to add 10 times of water and cooked it three times for 1.5 hours each time.The average yield rate of dry extract of the pilot test and trial test was 22.10%,15.52%,and the average yield of powder was 84.96% and 93.12%,respectively.The conversion rate from the pilot test to the trial test is 76.97%.Both the trial test and the pilot test particles met the quality requirements of the 2015 edition of the pharmacopoeia.Conclusions The preparation method of the insomnia granules is simple and the quality is uniform.The results of the pilot scale showed that the conversion rate is high,the quality is controllable,and the technical feasibility of industrial production is obtained.
RESUMO
Objective To observe the effects of positive end-expiratory pressure(PEEP) on oxygen utiliza-tion coefficient in patients with acute respiratory distress syndrome(ARDS). Methods 28 ARDS patients with me-chanical ventilation were studied. Catheter of central vein was laid. Increment levels of PEEP(0,5, 10, 15 and 20cmH2O) were applied sequentially. Hemodynamics and oxygen metabolism parameters were measured and calcula-tion of O2 UC [O2 UC = (SaO2 -SvO2.)/SaO2] were carried out respectively. O2 UC in 30 normal subject groups were carried out. Results Arterial oxygen tension(PaO2) increased significantly(P < 0.05) at PEEP 5cmH2O. Oxygen u-tilization coefficient (O2 UC), heart rate(HR) and mean blood pressure (MBP) were not significantly different (P >0.05) at PEEP 10cmH2O. At PEEP 15cmH2 O, O2UC and HR increased significantly (P < 0.05), but M BP reduced obviously(P < 0.05). Conclusions Too high PEEP can result in oxygen utilization coefficient of ARDS patient de-acend furthur, can not really correct oxygen difieiency condition in patients' organization cell. The optimal PEEP should be found, and blood capacity should be appropriately increased.