Mami Matsukawa
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Explore the profile of Mami Matsukawa including associated specialties, affiliations and a list of published articles.
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Articles
85
Citations
281
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Recent Articles
21.
Murashima N, Michimoto I, Koyama D, Matsukawa M
IEEE Trans Ultrason Ferroelectr Freq Control
. 2020 Aug;
68(1):65-71.
PMID: 32746210
To understand the in-plane elastic character of ultrasonic waves in the skull, longitudinal wave velocities were studied in the MHz range using a conventional pulse technique. Taking advantage of the...
22.
Harada Y, Koyama D, Fukui M, Emoto A, Nakamura K, Matsukawa M
Sci Rep
. 2020 Apr;
10(1):6168.
PMID: 32277091
A method to estimate orientation direction of liquid crystal molecules three-dimensionally under ultrasound excitation was proposed and the relationship between the ultrasound vibration and the molecular orientation was discussed. Our...
23.
Makino T, Nakamura T, Bustamante L, Takayanagi S, Koyama D, Matsukawa M
IEEE Trans Ultrason Ferroelectr Freq Control
. 2020 Feb;
67(8):1525-1532.
PMID: 32086207
Piezoelectricity in bone is thought to be a mechanism by which ultrasound promotes the healing of bone fractures. However, a few studies have been conducted in the more clinically relevant...
24.
Masuda K, Komatsu H, Koyama D, Matsukawa M
IEEE Trans Ultrason Ferroelectr Freq Control
. 2019 Aug;
67(1):117-123.
PMID: 31449013
The viscosity and the surface profile of a thixotropic gel were controlled via ultrasound vibrations. The ultrasound device consisted of two piezoelectric lead zirconate titanate transducers glued to each end...
25.
Tabata H, Koyama D, Matsukawa M, Yoshida K, Krafft M
Langmuir
. 2019 Aug;
35(35):11322-11329.
PMID: 31419140
Microbubbles shelled with soft materials are expected to find applications as ultrasound-sensitive drug delivery systems, including through sonoporation. Microbubbles with specific vibrational characteristics and long intravascular persistence are required for...
26.
Kawase M, Yasui H, Shibagaki Y, Kawabe M, Matsukawa M
J Acoust Soc Am
. 2019 Jan;
144(6):EL492.
PMID: 30599656
Micro-Brillouin scattering was used to measure gigahertz ultrasonic wave velocities in the articular cartilage of a bovine femur. Velocities propagating parallel to the surface of the subchondral bone were 3.36-3.83 ...
27.
Kubota T, Hirata K, Takayanagi S, Matsukawa M
Annu Int Conf IEEE Eng Med Biol Soc
. 2018 Nov;
2018:4225-4228.
PMID: 30441286
Hydroxyapatite (HAp) is compatible with bone tissue and used as a bone prosthetic material especially for the implants coating. The c-axis of biological apatite (BAp) in bone is mainly oriented...
28.
Masuda K, Koyama D, Matsukawa M
IEEE Trans Ultrason Ferroelectr Freq Control
. 2018 Nov;
65(11):2160-2166.
PMID: 30418873
This paper investigates acoustic levitation and noncontact transportation techniques for use with planar objects. An acoustic levitation system was developed which consists of a 1-mm-thick and 400-mm-long bending plate along...
29.
Kawabe M, Takayanagi S, Ichihashi H, Suzuki M, Yanagitani T, Matsukawa M
IEEE Trans Ultrason Ferroelectr Freq Control
. 2018 Jul;
65(10):1882-1887.
PMID: 30028697
It is difficult to perform 2-D imaging of elastic properties using the Brillouin scattering technique because the weak thermal phonon signal in the sample leads to low measurement accuracy and...
30.
Taki H, Nagatani Y, Matsukawa M, Kanai H, Izumi S
J Acoust Soc Am
. 2017 Nov;
142(4):2322.
PMID: 29092537
Ultrasound signals that pass through cancellous bone may be considered to consist of two longitudinal waves, which are called fast and slow waves. Accurate decomposition of these fast and slow...