香附子提取物B处理作物种子效应初报

香附子提取物Ｂ处理作物种子效应初报张建新（陕西省农业科学院农业测试中心,杨陵７１２１００）赵伯善（西北农业大学农业化学系,杨陵７１２１００）ＥｆｆｅｃｔｏｆｓｅｅｄｔｒｅａｔｍｅｎｔｗｉｔｈｅｘｔｒａｃｔＢｆｒｏｍＣｙｐｅｒｕｓｒｏｔｕｎｄｕｓ￥Ｚｈ...     

Rapporteur report: Mechanisms and interactions

The first two talks of this session described the basic characteristics of the interaction of ultrasound with matter, the first (by V.F. Humphrey) concentrating on the physical interactions, with the second (by W.D. O’Brien, Jr.) focusing on the biophysical effects and mechanisms. The regimes covered by the first and second talks were of primarily high-frequency (O(MHz)) ultrasound in liquids and tissue, respectively. In contrast, the third and final talk of the session (by M. Alves-Pereira) discussed observations made by her group of the vibroacoustic effects of low-frequency noise and infrasound, propagating through air, on humans and animals.     

A review of bioeffects of static magnetic field on rodent models

This review is aimed to summarize the experimental researches in the influences of static magnetic field on laboratory rodent models, reported by laboratory scientists, experimental technicians, clinical surgeons, animal veterinarians, and other researchers. Past studies suggested that static magnetic field-singly applied or used combined with other physical or chemical substances-significantly relieved some pains and ameliorated certain diseases in different organ systems, e.g. hypertension, osteoporosis, neuralgia, diabetes and leukemia etc. But on the other hand, some harmful events have also been observed in a number of investigations, from cellular level to fetal development. So exposure to static magnetic field might have dual effects on experimental rodent in various environments, viz. there are potentially therapeutic benefits, as well as adverse effects from it. The positive effect may relate to moderate intensities, while negative influence seems to be in connection with acute strong static magnetic fields. In addition, different orientations of static magnetic field exert different degrees of impact. Thus, the bioeffects of static magnetic field exposure on mice/rats depend on magnetic field intensities, durations and directions, though the exactly relationship between them is still vague. Further researches need to perform with appropriate methodologies, ingenious designs repeatedly and systemically, not only in animal models, but also in human volunteers and patients.