Background Sufentanil target controlled infusion (TCI) provides stable analgesia, better hemodynamic control than a bolus injection of intravenous anesthetics, anticipated recovery and improved quality of anesthesia...Background Sufentanil target controlled infusion (TCI) provides stable analgesia, better hemodynamic control than a bolus injection of intravenous anesthetics, anticipated recovery and improved quality of anesthesia during perioperative period. This study evaluated the accuracy and feasibility of TCI system for sufentanil at high concentrations in Chinese surgical patients. Methods Twelve low risk adult patients undergoing elective surgery under general anesthesia were included in this study. Sufentanil was administered with a specific TCI system incorporating the population pharmacokinetic data of sufentanil previously reported, using a target effect-site concentration of sufentanil 4 or 6 ng/ml. Sufentanil TCI duration was 30 minutes. Frequent arterial blood samples were taken during and up to 24 hours after sufentanil TCI for determination of plasma sufentanil concentrations by liquid chromatography-mass spectrometry/mass spectrometry. The changes of circulatory system function during the procedure, recovery profile and adverse effects were recorded. Measured plasma sufentanil concentrations were compared with the values predicted by the TCI system. The bias (median performance error, MDPE), precision (median absolute performance error, MDAPE) and wobble (variability of performance error) of the sufentanil TCI system were determined. Results All patients had stable cardiovascular variables during induction and maintenance of anesthesia. Time to eye opening and extubation were (5.6±1.7) minutes when TCI set to 4 ng/ml and (7.2±2.3) minutes when set to 6 ng/ml. There was no episode of agitation, muscle rigidity or intraoperative awareness. The bias (MDPE), precision (MDAPE) and wobble of the sufentanil TCI system were -3.7%, 18.9% and 19.6% respectively during TCI, and the MDPE, MDAPE and wobble were -29.1%, 31.7% and 15.0% respectively after TCI (up to 8 hours). Conclusions The TCI system programmed for sufentanil at 4 or 6 ng/ml was considered acceptable for clinical use i展开更多
再生水是改善水资源布局和缓解传统水源短缺问题的一种合理且可持续的替代水源,但用于灌溉会引起土壤和作物中微生物群落结构和条件致病菌丰度变化,目前这方面的研究报道较少.本研究以辣椒为对象,设置再生水灌溉(DI)、清水和再生水混灌(...再生水是改善水资源布局和缓解传统水源短缺问题的一种合理且可持续的替代水源,但用于灌溉会引起土壤和作物中微生物群落结构和条件致病菌丰度变化,目前这方面的研究报道较少.本研究以辣椒为对象,设置再生水灌溉(DI)、清水和再生水混灌(MI,清水∶再生水=1∶1)、清水和再生水轮灌(RI)处理,以清水灌溉(PI)为对照,通过温室盆栽试验研究不同灌溉方式对土壤性质的影响,并基于高通量测序技术结合定量PCR方法探讨再生水灌溉下辣椒果实与根际细菌群落组成和病原菌分布丰度特征.结果表明,与清水灌溉相比,再生水直接灌溉增加了土壤EC值,而降低了pH值.16S r DNA高通量测序结果显示,在门分类水平上,Proteobacteria、Bacteroidetes、Actinobacteria和Firmicutes是辣椒果实和根际共有的主要类群,其优势菌属Pantoea、Pseudomonas、Sphingomonas、Sphingopyxis、Luteimonas和Mariniflexile的相对丰度受再生水灌溉方式的影响较大.再生水灌溉分别使辣椒果实和根际中Legionella spp.和Pseudomonas syringae丰度显著增加,并且对病原菌丰度的影响差异较大.综上所述,再生水适宜作为农业灌溉用水,但不同灌溉方式可能不同程度上引入微生物污染问题,其中特定条件致病菌和植物病原菌值得关注.展开更多
ICE1, an Arabidopsis thaliana transcription factor gene, was cloned by RT-PCR and successfully transformed into rice variety Kenjiandao 10 by the Agrobacterium-mediated transformation method. PCR amplification and Sou...ICE1, an Arabidopsis thaliana transcription factor gene, was cloned by RT-PCR and successfully transformed into rice variety Kenjiandao 10 by the Agrobacterium-mediated transformation method. PCR amplification and Southern blot analysis indicated that ICE1 had been integrated into rice genome. Compared with the non-transgenic plants, the transgenic plants exhibited high resistance to hygromycin B and were consistent with the Mendelian inheritance of a single copy of the transgenic ICE1. Under the low temperature stress, the transgenic plants showed the lower mortality rate and the increased proline content. These results suggest that the Arabidopsis ICE1 is functional in rice and the over-expression of ICE1 improves the tolerance to cold stress in rice.展开更多
文摘Background Sufentanil target controlled infusion (TCI) provides stable analgesia, better hemodynamic control than a bolus injection of intravenous anesthetics, anticipated recovery and improved quality of anesthesia during perioperative period. This study evaluated the accuracy and feasibility of TCI system for sufentanil at high concentrations in Chinese surgical patients. Methods Twelve low risk adult patients undergoing elective surgery under general anesthesia were included in this study. Sufentanil was administered with a specific TCI system incorporating the population pharmacokinetic data of sufentanil previously reported, using a target effect-site concentration of sufentanil 4 or 6 ng/ml. Sufentanil TCI duration was 30 minutes. Frequent arterial blood samples were taken during and up to 24 hours after sufentanil TCI for determination of plasma sufentanil concentrations by liquid chromatography-mass spectrometry/mass spectrometry. The changes of circulatory system function during the procedure, recovery profile and adverse effects were recorded. Measured plasma sufentanil concentrations were compared with the values predicted by the TCI system. The bias (median performance error, MDPE), precision (median absolute performance error, MDAPE) and wobble (variability of performance error) of the sufentanil TCI system were determined. Results All patients had stable cardiovascular variables during induction and maintenance of anesthesia. Time to eye opening and extubation were (5.6±1.7) minutes when TCI set to 4 ng/ml and (7.2±2.3) minutes when set to 6 ng/ml. There was no episode of agitation, muscle rigidity or intraoperative awareness. The bias (MDPE), precision (MDAPE) and wobble of the sufentanil TCI system were -3.7%, 18.9% and 19.6% respectively during TCI, and the MDPE, MDAPE and wobble were -29.1%, 31.7% and 15.0% respectively after TCI (up to 8 hours). Conclusions The TCI system programmed for sufentanil at 4 or 6 ng/ml was considered acceptable for clinical use i
文摘再生水是改善水资源布局和缓解传统水源短缺问题的一种合理且可持续的替代水源,但用于灌溉会引起土壤和作物中微生物群落结构和条件致病菌丰度变化,目前这方面的研究报道较少.本研究以辣椒为对象,设置再生水灌溉(DI)、清水和再生水混灌(MI,清水∶再生水=1∶1)、清水和再生水轮灌(RI)处理,以清水灌溉(PI)为对照,通过温室盆栽试验研究不同灌溉方式对土壤性质的影响,并基于高通量测序技术结合定量PCR方法探讨再生水灌溉下辣椒果实与根际细菌群落组成和病原菌分布丰度特征.结果表明,与清水灌溉相比,再生水直接灌溉增加了土壤EC值,而降低了pH值.16S r DNA高通量测序结果显示,在门分类水平上,Proteobacteria、Bacteroidetes、Actinobacteria和Firmicutes是辣椒果实和根际共有的主要类群,其优势菌属Pantoea、Pseudomonas、Sphingomonas、Sphingopyxis、Luteimonas和Mariniflexile的相对丰度受再生水灌溉方式的影响较大.再生水灌溉分别使辣椒果实和根际中Legionella spp.和Pseudomonas syringae丰度显著增加,并且对病原菌丰度的影响差异较大.综上所述,再生水适宜作为农业灌溉用水,但不同灌溉方式可能不同程度上引入微生物污染问题,其中特定条件致病菌和植物病原菌值得关注.
基金supported by a project grant from the Education Department of Heilongjiang Province, China (Grant No. 11511248).
文摘ICE1, an Arabidopsis thaliana transcription factor gene, was cloned by RT-PCR and successfully transformed into rice variety Kenjiandao 10 by the Agrobacterium-mediated transformation method. PCR amplification and Southern blot analysis indicated that ICE1 had been integrated into rice genome. Compared with the non-transgenic plants, the transgenic plants exhibited high resistance to hygromycin B and were consistent with the Mendelian inheritance of a single copy of the transgenic ICE1. Under the low temperature stress, the transgenic plants showed the lower mortality rate and the increased proline content. These results suggest that the Arabidopsis ICE1 is functional in rice and the over-expression of ICE1 improves the tolerance to cold stress in rice.
