Y
Yoshifumi Saijo
Researcher at Tohoku University
Publications - 271
Citations - 3132
Yoshifumi Saijo is an academic researcher from Tohoku University. The author has contributed to research in topics: Acoustic microscopy & Ultrasound. The author has an hindex of 27, co-authored 253 publications receiving 2864 citations. Previous affiliations of Yoshifumi Saijo include Aarhus University Hospital.
Papers
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Journal ArticleDOI
Brachio-ankle pulse wave velocity and cardio-ankle vascular index (CAVI).
Tomoyuki Yambe,Makoto Yoshizawa,Yoshifumi Saijo,Tasuku Yamaguchi,Muneichi Shibata,Satoshi Konno,Shin-ichi Nitta,Takashi Kuwayama +7 more
TL;DR: In this paper, a new method for measuring pulse wave velocity (PWV) has been proposed in Japan, where the brachial artery (ba) and the ankle was measured by applying air pressure with the aid of a volume plethysmograph.
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Ultrasonic tissue characterization of infarcted myocardium by scanning acoustic microscopy.
TL;DR: The ultrasonic properties of the diseased myocardium at the microscopic level will provide important information for ultrasonic tissue characterization at the macroscopic level.
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Changes of articular cartilage after immobilization in a rat knee contracture model
TL;DR: In this paper, the changes of articular cartilage of the knee joint during immobilization in a rat model were evaluated by gross observation, histomorphometric grading, and measurements of thickness and number of chondrocytes.
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Time–frequency analysis for pulse driven ultrasonic microscopy for biological tissue characterization
Naohiro Hozumi,R. Yamashita,Cheol Kyou Lee,Masayuki Nagao,Kazuto Kobayashi,Yoshifumi Saijo,Mami Tanaka,Naohiko Tanaka,Shigeo Ohtsuki +8 more
TL;DR: A time-frequency analysis was applied to determine the sound speed thorough the tissue with Frequency dependence of sound speed was obtained with a myocardium of a rat sliced into 10 microm.
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The ultrasonic properties of gastric cancer tissues obtained with a scanning acoustic microscope system
TL;DR: Measurements and observations suggest that the ultrasonic properties are influenced by cellular arrangement, intercellular junction and intracellular chemical components.