Motohiro Tagaya
Overview
Explore the profile of Motohiro Tagaya including associated specialties, affiliations and a list of published articles.
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Articles
52
Citations
101
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Recent Articles
1.
Zhou Y, Liu Z, Noda D, Yamada I, Tagaya M
ACS Biomater Sci Eng
. 2025 Jan;
11(2):1150-1160.
PMID: 39864070
Octacalcium phosphate (OCP) has been used as a bone replacement material due to its higher bone affinity. However, the mechanism of affinity has not been clarified. Since the 100 crystalline...
2.
Sugimoto K, Akutsu R, Yamada S, Penaflor Galindo T, Tagaya M
ACS Appl Mater Interfaces
. 2025 Jan;
17(4):7131-7141.
PMID: 39804096
Apatite nanoparticles are biocompatible nanomaterials, so their film formation on biodevices is expected to provide effective bonding with living organisms. However, the biodevice-apatite interfaces have not yet been elucidated because...
3.
Zhou Y, Shi W, Kimura R, Chai Y, Tagaya M
Langmuir
. 2024 Oct;
40(43):22602-22613.
PMID: 39412338
The cyclic-bending morphologies of the fibrils formed by the self-assembly of type I collagen (Col) are closely related to the mechanisms of various diseases. Therefore, studies that allow the self-assembly...
4.
Shi W, Hatori S, Noda D, Yamada I, Tagaya M
ACS Biomater Sci Eng
. 2024 Sep;
10(10):6615-6624.
PMID: 39230397
We successfully synthesized folic acid (FA) immobilized hydroxyapatite (HA) nanoparticles without using a mediative reagent (e.g., silane coupling agent), and the immobilization states were evaluated and discussed. The HA nanoparticles...
5.
Kimura R, Noda D, Liu Z, Shi W, Akutsu R, Tagaya M
Biomimetics (Basel)
. 2024 Jun;
9(6).
PMID: 38921227
In the biomedical fields of bone regenerative therapy, the immobilization of proteins on the bioceramic particles to maintain their highly ordered structures is significantly important. In this review, we comprehensively...
6.
Kataoka T, Liu Z, Yamada I, Penaflor Galindo T, Tagaya M
J Mater Chem B
. 2024 Jun;
12(28):6805-6826.
PMID: 38919049
This review completely covers the various aspects of hydroxyapatite (HAp) nanoparticles and their role in different biological situations, and provides the surface and interface contents on (i) hydroxyapatite nanoparticles and...
7.
Kimura R, Chatani S, Inui M, Motozuka S, Yamada I, Tagaya M
Nanomaterials (Basel)
. 2024 May;
14(9).
PMID: 38727334
Amorphous silica particles (ASPs) have been reported to exhibit bioactive properties and are becoming the focus of attention as bioceramics. However, their interactions with proteins in living organisms remain to...
8.
Kimura R, Chatani S, Inui M, Motozuka S, Liu Z, Tagaya M
Langmuir
. 2024 Apr;
40(17):8939-8949.
PMID: 38635896
Amorphous silica particles (ASPs) have low biotoxicity and are used in foodstuffs; however, the adsorption states of proteins on their surfaces have not yet been clarified. If the adsorption states...
9.
Sugimoto K, Mikami K, Kimura R, Tagaya M
Langmuir
. 2023 Jun;
39(27):9431-9438.
PMID: 37386012
Hydroxyapatite (HA) particle, which is an inorganic component of biological hard tissues, is being applied as a bioceramic for biotechnology and medicine fields. However, early bone formation is difficult in...
10.
Sugimoto K, Zhou Y, Penaflor Galindo T, Kimura R, Tagaya M
Biomimetics (Basel)
. 2023 May;
8(2).
PMID: 37218770
In this review, the current status of the influence of added ions (i.e., SiO, CO, etc.) and surface states (i.e., hydrated and non-apatite layers) on the biocompatibility nature of hydroxyapatite...