Nobuo Takeshita
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Explore the profile of Nobuo Takeshita including associated specialties, affiliations and a list of published articles.
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25
Citations
279
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Recent Articles
1.
Sasaki S, Seiryu M, Ida H, Miyashita S, Takeshita N, Irie D, et al.
Sci Rep
. 2023 Feb;
13(1):3038.
PMID: 36810765
The purpose of the present study was to fabricate a miniscrew possible for clinical application using ZrNiCuAl bulk metallic glass (BMG), which has high mechanical strength, low elastic modulus, and...
2.
Takeshita N, Takano-Yamamoto T
Methods Mol Biol
. 2022 Nov;
2582:237-253.
PMID: 36370354
Chemotaxis is a directed migration of cells in response to a gradient of extracellular molecules called chemoattractants. Development, growth, remodeling, and fracture healing of bones are advanced through intramembranous osteogenesis....
3.
Sasaki K, Takeshita N, Fukunaga T, Seiryu M, Sakamoto M, Oyanagi T, et al.
Eur J Orthod
. 2022 Sep;
44(6):698-704.
PMID: 36111523
Background: We previously found the conditions of supplementary vibration that accelerated tooth movement and induced bone resorption in an experimental rat tooth movement model. However, the molecular biological mechanisms underlying...
4.
Hoshi K, Deguchi T, Goto M, Chida T, Takeshita N, Takahashi I, et al.
Am J Orthod Dentofacial Orthop
. 2021 Oct;
161(1):140-157.
PMID: 34696924
Generally, a canted occlusal plane results in esthetic problems, such as an asymmetric mandible with midline deviation, and functional problems, such as temporomandibular disorder (TMD). For many years, orthognathic surgery...
5.
Kawatsu M, Takeshita N, Takimoto A, Yoshimoto Y, Seiryu M, Ito A, et al.
Bone
. 2021 Apr;
149:115969.
PMID: 33892176
During tooth movement in orthodontic treatment, bone formation and resorption occur on the tension and compression sides of the alveolar bone, respectively. Although the bone formation activity increases in the...
6.
Jiang W, Takeshita N, Maeda T, Sogi C, Oyanagi T, Kimura S, et al.
Sci Rep
. 2021 Jan;
11(1):2368.
PMID: 33504916
In vertebrates, new bone formation via intramembranous osteogenesis is a critical biological event for development, remodeling, and fracture healing of bones. Chemotaxis of osteoblast lineage cells is an essential cellular...
7.
Hoshi K, Kawaki H, Takahashi I, Takeshita N, Seiryu M, Murshid S, et al.
J Bone Miner Res
. 2021 Jan;
35(11):2303-2304.
PMID: 33463736
No abstract available.
8.
Takano I, Takeshita N, Yoshida M, Seki D, Oyanagi T, Kimura S, et al.
J Cell Physiol
. 2020 Sep;
236(4):2906-2919.
PMID: 32960451
Tenascin-like molecule major (Ten-m)/odd Oz (Odz), a type II transmembrane molecule, is well known to modulate neural development. We have reported that Ten-m/Odz3 is expressed in cartilaginous tissues and cells....
9.
Sogi C, Takeshita N, Jiang W, Kim S, Maeda T, Yoshida M, et al.
JBMR Plus
. 2020 Jul;
4(7):e10369.
PMID: 32666020
Mechanical stress stimulates bone remodeling, which occurs through bone formation and resorption, resulting in bone adaptation in response to the mechanical stress. Osteocytes perceive mechanical stress loaded to bones and...
10.
Aonuma T, Tamamura N, Fukunaga T, Sakai Y, Takeshita N, Shigemi S, et al.
Bone Rep
. 2020 Jun;
12:100285.
PMID: 32509933
Runt-related transcription factor 2 (Runx2) is an essential transcription factor for osteoblast differentiation, and is activated by mechanical stress to promote osteoblast function. Cleidocranial dysplasia (CCD) is caused by mutations...