Background: Slow arrhythmia, a common clinical condition, has a higher incidence in the elderly population. Shenxian Shengmai Oral Liquid has been shown to improve the symptoms of patients with slow arrhythmia in man...Background: Slow arrhythmia, a common clinical condition, has a higher incidence in the elderly population. Shenxian Shengmai Oral Liquid has been shown to improve the symptoms of patients with slow arrhythmia in many clinical studies and systematic reviews. Sixty participants with slow arrhythmia will be randomized to treatment group (Shenxian Shengmai Oral Liquid) and control group (Shenxian Shengmai Oral Liquid Placebo) in a 2:1 ratio. This clinical trial is a pilot study to compare the effects of Shenxian Shengmai Oral Liquid and the control groups; to analyze the effect of Shenxian Shengmai Oral Liquid for slow arrhythmia.展开更多
In the research of bio-molecular chips and sensors, extra electric biases are most often employed to control and manipulate the DNA and protein molecules moving through micro/nano-fluidic channels. In order to accurat...In the research of bio-molecular chips and sensors, extra electric biases are most often employed to control and manipulate the DNA and protein molecules moving through micro/nano-fluidic channels. In order to accurately and flexibly control the bio-molecules as they move within the channels, a clear understanding of how the current changes within the buffer solution caused by an applied bias is fundamental. In this report, the current changed value of different buffer solutions, e.g., KC1, TE, and TBE was systematically studied with real-time monitoring and quantitative analysis in the situation of the buffers moving through a fluidic channel with a 5 μm inner diameter, driven by biases of 50 or 100 mV. The results revealed that the relation- ship between the current changed value and the pause interval of the applied electric field is highly consistent with the Hill Equation, which is helpful for accurately detecting and manipulating single biomolecules in microfluidic sensors and biochips.展开更多
文摘Background: Slow arrhythmia, a common clinical condition, has a higher incidence in the elderly population. Shenxian Shengmai Oral Liquid has been shown to improve the symptoms of patients with slow arrhythmia in many clinical studies and systematic reviews. Sixty participants with slow arrhythmia will be randomized to treatment group (Shenxian Shengmai Oral Liquid) and control group (Shenxian Shengmai Oral Liquid Placebo) in a 2:1 ratio. This clinical trial is a pilot study to compare the effects of Shenxian Shengmai Oral Liquid and the control groups; to analyze the effect of Shenxian Shengmai Oral Liquid for slow arrhythmia.
基金supported by the Major Research Plan of the National Natural Science Foundation of China(Grant No.91123030)the Interna-tional Cooperation Foundation of the National Science and Technology Major Project of the Ministry of Science and Technology of China(Grant No.2011DFA12220)the National Natural Science Foundation of China(Grant No.61378083)
文摘In the research of bio-molecular chips and sensors, extra electric biases are most often employed to control and manipulate the DNA and protein molecules moving through micro/nano-fluidic channels. In order to accurately and flexibly control the bio-molecules as they move within the channels, a clear understanding of how the current changes within the buffer solution caused by an applied bias is fundamental. In this report, the current changed value of different buffer solutions, e.g., KC1, TE, and TBE was systematically studied with real-time monitoring and quantitative analysis in the situation of the buffers moving through a fluidic channel with a 5 μm inner diameter, driven by biases of 50 or 100 mV. The results revealed that the relation- ship between the current changed value and the pause interval of the applied electric field is highly consistent with the Hill Equation, which is helpful for accurately detecting and manipulating single biomolecules in microfluidic sensors and biochips.
