Evaluation of the Hardness of Lipid Bilayer Membranes of Liposomes by the Ultrasound Attenuation Method
スポンサーリンク
概要
- 論文の詳細を見る
We attempted to evaluate the hardness of lipid bilayer membranes of liposomes by an ultrasound attenuation method and compared the results with these obtained by a representative fluorescence probe method using pyrene. We used multilamellar vesicles type of liposomes prepared by Bangham’s method. In the ultrasound attenuation method, the measurement of the ultrasonic attenuation constant of liposomes dispersions indicated that the hardness of the bilayer membranes of the liposomes increased with the increasing cholesterol concentration and the decreasing temperature. This tendency was identical with that found in the results obtained by the fluorescence probe method using pyrene. Therefore, we consider that the ultrasound attenuation method is useful for estimating the hardness of lipid bilayer membranes of multilamellar vesicles type of liposomes.
- 日本油化学会の論文
- 2003-08-01
著者
-
KAWASHIMA Norimichi
Faculty of Engineering, Toin University of Yokohama
-
TAKEUCHI Shinichi
Faculty of Engineering, Toin University of Yokohama
-
Kawashima Norimichi
Faculty Of Engineering Toin University Of Yokohama
-
TOKUOKA Yoshikazu
Biomedical Engineering Center, Toin University of Yokohama
-
Tokuoka Yoshikazu
Biomedical Engineering Center Toin University Of Yokohama
-
Takeuchi Shinichi
Faculty Of Engineering Toin University Of Yokohama
-
MORIYAMA Eiji
Faculty of Engineering, Toin University of Yokohama
-
SAITO Tomohiro
Faculty of Engineering, Toin University of Yokohama
-
Moriyama Eiji
Faculty Of Engineering Toin University Of Yokohama
-
Kawashima Norimichi
Faculty Of Biomedical Engineering Toin University Of Yokohama
-
Saito Tomohiro
Faculty Of Engineering Toin University Of Yokohama
-
Takeuchi Shinichi
Faculty of Biomedical Engineering, Toin University of Yokohama, 1614 Kurogane-cho, Aoba-ku, Yokohama 225-8502, Japan
関連論文
- Apoptosis Induction in Cancer Cells by Ultrasound Exposure
- Basic Study on Dispersion and Surface Modification of Diamond Powders by Sonochemical Reaction
- ESR Spectroscopy of Singlet Oxygen Generated by Protoporphyrin IX in Aqueous Surfactant Solutions
- Basic Study on Sludge Concentration and Dehydration with Ultrasonic Exposure
- Improvement of Dispersibility of Nanosize Diamond by Sonochemical Reaction : Relationships among Acoustic Intensity, Disaggregation, and Surface Modification
- Basic study on dispersion and surface modification of diamond powders by ultrasound exposure
- Development of Ultrasound Transducer with Double-Peak-Type Frequency Characteristics for Harmonic Imaging and Subharmonic Imaging
- Optimum ultrasound exposure condition for excitation of nonlinear behavior of microbubbles coated with surfactant
- Oxidation Decomposition of Unsaturated Fatty Acids by Singlet Oxygen in Phospholipid Bilayer Membranes
- Photodynamic Therapy for Cancer Cells Using Metal-Halide Lamps
- Photodynamic Therapy for Cancer Cells Using a Flash Wave Light Xenon Lamp
- Delta-Aminolevulinic Acid-Based Photodynamic Therapy for Acne on the Body
- Evaluation of the Hardness of Lipid Bilayer Membranes of Liposomes by the Ultrasound Attenuation Method
- Anticancer Effect of Dye-sensitized TiO_2 Nanocrystals by Polychromatic Visible Light Irradiation
- Basic Study on Dispersion and Surface Modification of Diamond Powders by Sonochemical Reaction
- Measurement of Amount of Generated Acoustic Cavitation: Investigation of Spatial Distribution of Acoustic Cavitation Generation Using Broadband Integrated Voltage
- Investigation of Output Signal from Cavitation Sensor by Dissolved Oxygen Level and Sonochemical Luminescence
- Measurement of Spatial Distribution in Vertical Direction of Cavitation Generation by Using High Resolution Cavitation Sensor
- Apoptosis Induction in Cancer Cells by Ultrasound Exposure
- Development of Ultrasound Exposure System of Four Piezoelectric Ceramic Vibrators with Operating Frequency of 150 kHz for Dispersion of Nanometer-Sized Diamond Particles
- Lead Zirconate Titanate Thick-Film Ultrasonic Transducer for 1 to 20 MHz Frequency Bands Fabricated by Hydrothermal Polycrystal Growth
- Effects of Ultrasound Exposure Time on Nanometer-Sized Diamond Particles Dispersion