The development of low-frequency ultrasound imaging technology and the improvement of ultrasound contrast agent production technology mean that they play an increasingly important role in tumor therapy. The interactio...The development of low-frequency ultrasound imaging technology and the improvement of ultrasound contrast agent production technology mean that they play an increasingly important role in tumor therapy. The interaction between ultrasound and microbubbles and their biological effects can transfer and release microbubbles carrying genes and drugs to target tissues, mediate the apoptosis of tumor cells, and block the embolization of tumor microvasculature. With the optimization of ultrasound parameters, the development of targeted microbubbles, and the emergence of various composite probes with both diagnostic and therapeutic functions, low-frequency ultrasound combined with microbubble contrast agents will bring new hope for clinical tumor treatment.展开更多
The effects of melittin on growth and bacteriostasis of four pathogens were extensively investigated using scanning electron microscopy(SEM) and transmission electron microscopy(TEM).The results indicated that the mel...The effects of melittin on growth and bacteriostasis of four pathogens were extensively investigated using scanning electron microscopy(SEM) and transmission electron microscopy(TEM).The results indicated that the melittin had a marked bacteriostatic effect on the four pathogenic bacteria.Among these,E.cacotowora was influenced most powerfully and quickly,the yeast and F.fulva were the second,and the S.aureus was inhibited by a low concentration but was killed by a high concentration.It was observed in the experiments that melittin killed pathogenic bacteria in three ways.One was by pore formation.After integrating melittin into the plasma membrane,a vacuole was formed then penetrated,resulting in bacterial content leakage.The vacuole also experienced plasmolysis and the growing cavity destroyed the membrane.A third effect was the formation of vacuoles in the cells which induced the pycnosis of the cytoplasm resulting in a cell death.The mechanism of melittin bacteriostasis was the result of integrating melittin with phospholipod double layers of the plasmalemma and the endomembranes.展开更多
基金Project supported by the Health and Family Planning Commission of Zhejiang Province(No.2017KY676),China
文摘The development of low-frequency ultrasound imaging technology and the improvement of ultrasound contrast agent production technology mean that they play an increasingly important role in tumor therapy. The interaction between ultrasound and microbubbles and their biological effects can transfer and release microbubbles carrying genes and drugs to target tissues, mediate the apoptosis of tumor cells, and block the embolization of tumor microvasculature. With the optimization of ultrasound parameters, the development of targeted microbubbles, and the emergence of various composite probes with both diagnostic and therapeutic functions, low-frequency ultrasound combined with microbubble contrast agents will bring new hope for clinical tumor treatment.
文摘The effects of melittin on growth and bacteriostasis of four pathogens were extensively investigated using scanning electron microscopy(SEM) and transmission electron microscopy(TEM).The results indicated that the melittin had a marked bacteriostatic effect on the four pathogenic bacteria.Among these,E.cacotowora was influenced most powerfully and quickly,the yeast and F.fulva were the second,and the S.aureus was inhibited by a low concentration but was killed by a high concentration.It was observed in the experiments that melittin killed pathogenic bacteria in three ways.One was by pore formation.After integrating melittin into the plasma membrane,a vacuole was formed then penetrated,resulting in bacterial content leakage.The vacuole also experienced plasmolysis and the growing cavity destroyed the membrane.A third effect was the formation of vacuoles in the cells which induced the pycnosis of the cytoplasm resulting in a cell death.The mechanism of melittin bacteriostasis was the result of integrating melittin with phospholipod double layers of the plasmalemma and the endomembranes.
