Updated on 2024/12/20

写真a

 
Ishikawa Takanori
 
Organization
Faculty of Medicine, Dentistry and Pharmaceutical Sciences Assistant Professor
Position
Assistant Professor
External link

Degree

  • 博士(歯) ( 岡山大学大学院医歯薬学総合研究科 )

Research History

  • Okayama University   学術研究院医歯薬学域 歯科矯正学分野   Assistant Professor

    2022.8

      More details

  • Kagoshima University   歯科矯正学分野   Assistant Professor

    2020.4 - 2022.7

      More details

Committee Memberships

  • 日本矯正歯科学会   研究倫理審査委員会  

    2020.7   

      More details

    Committee type:Academic society

    researchmap

 

Papers

  • Malocclusion impairs cognitive behavior via AgRP signaling in adolescent mice. Reviewed International journal

    Junya Kusumoto, Koji Ataka, Haruki Iwai, Yasuhiko Oga, Keita Yamagata, Kanako Marutani, Takanori Ishikawa, Akihiro Asakawa, Shouichi Miyawaki

    Frontiers in neuroscience   17   1156523 - 1156523   2023

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    INTRODUCTION: Occlusal disharmony induced by deteriorating oral health conditions, such as tooth loss and decreased masticatory muscle due to sarcopenia, is one of the causes of cognitive impairment. Chewing is an essential oral function for maintaining cognitive function not only in the elderly but also in young people. Malocclusion is an occlusal disharmony that commonly occurs in children. The connection between a decline in cognitive function and malocclusion in children has been shown with chronic mouth breathing, obstructive sleep apnea syndrome, and thumb/digit sucking habits. However, the mechanism of malocclusion-induced cognitive decline is not fully understood. We recently reported an association between feeding-related neuropeptides and cognitive decline in adolescent mice with activity-based anorexia. The aim of the present study was to assess the effects of malocclusion on cognitive behavior and clarify the connection between cognitive decline and hypothalamic feeding-related neuropeptides in adolescent mice with malocclusion. METHODS: Four-week-old mice were randomly assigned to the sham-operated solid diet-fed (Sham/solid), sham-operated powder diet-fed (Sham/powder), or malocclusion-operated powder diet-fed (Malocclusion/powder) group. We applied composite resin to the mandibular anterior teeth to simulate malocclusion. We evaluated cognitive behavior using a novel object recognition (NOR) test, measured hypothalamic feeding-related neuropeptide mRNA expression levels, and enumerated c-Fos-positive cells in the hypothalamus 1 month after surgery. We also evaluated the effects of central antibody administration on cognitive behavior impairment in the NOR test. RESULTS: The NOR indices were lower and the agouti-related peptide (AgRP) mRNA levels and number of c-Fos-positive cells were higher in the malocclusion/powder group than in the other groups. The c-Fos-positive cells were also AgRP-positive. We observed that the central administration of anti-AgRP antibody significantly increased the NOR indices. DISCUSSION: The present study suggests that elevated cerebral AgRP signaling contributes to malocclusion-induced cognitive decline in adolescents, and the suppression of AgRP signaling can be a new therapeutic target against cognitive decline in occlusal disharmony.

    DOI: 10.3389/fnins.2023.1156523

    PubMed

    researchmap

  • A novel auxiliary device enhances the miniscrew stability under immediate heavy loading simulating orthopedic treatment. Reviewed International journal

    Keita Yamagata, Yasuhiko Oga, Sangho Kwon, Aya Maeda-Iino, Takanori Ishikawa, Shouichi Miyawaki

    The Angle orthodontist   93 ( 1 )   71 - 78   2022.9

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    OBJECTIVES: To evaluate miniscrew stability and perform a histomorphometric analysis of the bone around the miniscrew under a load corresponding to orthopedic force. MATERIALS AND METHODS: Thirty-two miniscrews were implanted into eight rabbit tibias. Auxiliary group rabbits received auxiliary devices with miniscrews (n = 8, 28 days; n = 8, 56 days), and those in the nonauxiliary control group received miniscrews without auxiliary devices (n = 8, 28 days; n = 8, 56 days). Elastics were placed between miniscrews to apply a load of 5 N. Miniscrew stability was evaluated using a Periotest. Bone-to-implant contact (BIC) and spike implantation depth were measured histomorphologically. RESULTS: Periotest values in the auxiliary group were significantly lower than those in the nonauxiliary group at all time periods. There was no significant difference in BIC between the auxiliary and nonauxiliary groups at 28 or 56 days postimplantation. The implantation spike depth in the auxiliary group was significantly greater at 56 days compared to that at 28 days. Newly formed bone was observed around the spike of the auxiliary device at 56 days. CONCLUSIONS: The results suggest that the use of miniscrews in conjunction with auxiliary devices provides stable skeletal anchorage, which may be useful in orthopedic treatments.

    DOI: 10.2319/022222-163.1

    PubMed

    researchmap

  • Retrotransposons Manipulating Mammalian Skeletal Development in Chondrocytes. Reviewed International journal

    Satoshi Kubota, Takanori Ishikawa, Kazumi Kawata, Takako Hattori, Takashi Nishida

    International journal of molecular sciences   21 ( 5 )   2020.2

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    Retrotransposons are genetic elements that copy and paste themselves in the host genome through transcription, reverse-transcription, and integration processes. Along with their proliferation in the genome, retrotransposons inevitably modify host genes around the integration sites, and occasionally create novel genes. Even now, a number of retrotransposons are still actively editing our genomes. As such, their profound role in the evolution of mammalian genomes is obvious; thus, their contribution to mammalian skeletal evolution and development is also unquestionable. In mammals, most of the skeletal parts are formed and grown through a process entitled endochondral ossification, in which chondrocytes play central roles. In this review, current knowledge on the evolutional, physiological, and pathological roles of retrotransposons in mammalian chondrocyte differentiation and cartilage development is summarized. The possible biological impact of these mobile genetic elements in the future is also discussed.

    DOI: 10.3390/ijms21051564

    PubMed

    researchmap

  • Screening of key candidate genes and pathways for osteocytes involved in the differential response to different types of mechanical stimulation using a bioinformatics analysis. Reviewed

    Wang Z, Ishihara Y, Ishikawa T, Hoshijima M, Odagaki N, Hlaing EEH, Kamioka H

    J. Bone Miner Metab   37 ( 4 )   614 - 626   2019.7

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    This study aimed to predict the key genes and pathways that are activated when different types of mechanical loading are applied to osteocytes. mRNA expression datasets (series number of GSE62128 and GSE42874) were obtained from Gene Expression Omnibus database (GEO). High gravity-treated osteocytic MLO-Y4 cell-line samples from GSE62128 (Set1), and fluid flow-treated MLO-Y4 samples from GSE42874 (Set2) were employed. After identifying the differentially expressed genes (DEGs), functional enrichment was performed. The common DEGs between Set1 and Set2 were considered as key DEGs, then a protein-protein interaction (PPI) network was constructed using the minimal nodes from all of the DEGs in Set1 and Set2, which linked most of the key DEGs. Several open source software programs were employed to process and analyze the original data. The bioinformatic results and the biological meaning were validated by in vitro experiments. High gravity and fluid flow induced opposite expression trends in the key DEGs. The hypoxia-related biological process and signaling pathway were the common functional enrichment terms among the DEGs from Set1, Set2 and the PPI network. The expression of almost all the key DEGs (Pdk1, Ccng2, Eno2, Egln1, Higd1a, Slc5a3 and Mxi1) were mechano-sensitive. Eno2 was identified as the hub gene in the PPI network. Eno2 knockdown results in expression changes of some other key DEGs (Pdk1, Mxi1 and Higd1a). Our findings indicated that the hypoxia response might have an important role in the differential responses of osteocytes to the different types of mechanical force.

    DOI: 10.1007/s00774-018-0963-7

    PubMed

    researchmap

  • Physiological role of urothelial cancer-associated one long noncoding RNA in human skeletogenic cell differentiation. Reviewed International journal

    Takanori Ishikawa, Takashi Nishida, Mitsuaki Ono, Takeshi Takarada, Ha Thi Nguyen, Shinnosuke Kurihara, Takayuki Furumatsu, Yurika Murase, Masaharu Takigawa, Toshitaka Oohashi, Hiroshi Kamioka, Satoshi Kubota

    Journal of cellular physiology   233 ( 6 )   4825 - 4840   2018.6

     More details

    Language:English   Publishing type:Research paper (scientific journal)  

    A vast number of long-noncoding RNAs (lncRNA) are found expressed in human cells, which RNAs have been developed along with human evolution. However, the physiological functions of these lncRNAs remain mostly unknown. In the present study, we for the first time uncovered the fact that one of such lncRNAs plays a significant role in the differentiation of chondrocytes and, possibly, of osteoblasts differentiated from mesenchymal stem cells, which cells eventually construct the human skeleton. The urothelial cancer-associated 1 (UCA1) lncRNA is known to be associated with several human malignancies. Firstly, we confirmed that UCA1 was expressed in normal human chondrocytes, as well as in a human chondrocytic cell line; whereas it was not detected in human bone marrow mesenchymal stem cells (hBMSCs). Of note, although UCA1 expression was undetectable in hBMSCs, it was markedly induced along with the differentiation toward chondrocytes, suggesting its critical role in chondrogenesis. Consistent with this finding, silencing of the UCA1 gene significantly repressed the expression of chondrogenic genes in human chondrocytic cells. UCA1 gene silencing and hyper-expression also had a significant impact on the osteoblastic phenotype in a human cell line. Finally, forced expression of UCA1 in a murine chondrocyte precursor, which did not possess a UCA1 gene, overdrove its differentiation into chondrocytes. These results indicate a physiological and important role of this lncRNA in the skeletal development of humans, who require more sustained endochondral ossification and osteogenesis than do smaller vertebrates.

    DOI: 10.1002/jcp.26285

    PubMed

    researchmap

  • 口蓋の歯科矯正用アンカースクリューと小臼歯の片顎抜去を伴う矯正歯科治療により過大なoverjetと顎口腔機能を改善した上顎前突症例 Reviewed

    福嶋 美佳, 國則 貴玄, 石川 崇典, 原田 真利那, 楠元 淳也, 大賀 泰彦, 宮脇 正一

    Clinical and Investigative Orthodontics (Japanese Edition)   82 ( 1 )   14 - 20   2023.5

     More details

    Language:Japanese   Publisher:(公社)日本矯正歯科学会  

    上顎前歯の突出,口唇閉鎖不全および前歯部の咀嚼障害を主訴に来院した初診時年齢16歳5ヵ月の女性にマルチブラケット装置による矯正歯科治療を行い,良好な治療結果を得たので報告する.患者は過大なoverjetを伴う骨格性II級を呈していた.口蓋正中に歯科矯正用アンカースクリューを植立し,上顎両側第一小臼歯を抜去して,前歯の圧下を伴う後方移動を行った.上顎前歯の移動量は大きかったが,歯根吸収はわずかであった.保定開始から2年6ヵ月が経過し,機能的にも良好な咬合が獲得された.(著者抄録)

    researchmap

  • 上顎歯列弓幅径を維持しながら矯正歯科治療を行った軟口蓋裂を伴うアングルⅠ級叢生症例 Reviewed

    石川 崇典, 前田 綾, 中川 祥子, 迫口 陽子, 宮脇 正一

    九州矯正歯科学会雑誌   17 ( 1 )   1 - 6   2021.12

     More details

    Authorship:Lead author  

    researchmap

  • 口腔機能の異常と早期治療の必要性 Reviewed

    宮脇正一, 古川みなみ, 丸谷佳菜子, 福嶋美佳, 石川崇典, 渡邉温子, 中川祥子, 髙橋広太郎, 大賀泰彦, 前田綾

    東京矯正歯科学会雑誌   31 ( 2 )   140 - 147   2021

     More details

    Language:Japanese   Publisher:東京矯正歯科学会  

    researchmap

  • 重度の埋伏永久歯を牽引誘導した2症例 Reviewed

    石川崇典, 星島光博, 川邉紀章, 上岡寛

    岡山歯学会雑誌   37 ( 1 )   9 - 13   2018.6

     More details

    Language:Japanese  

    researchmap

  • 歯科矯正用アンカースクリューおよびオクルーザルスプリントを用いて咬合再構築を行った成人開咬症例 Reviewed

    早野曉, 星島光博, 石川崇典, 上岡寛

    中・四国矯正歯科学会雑誌   28 ( 1 )   95 - 103   2016

     More details

    Language:Japanese  

    researchmap

▼display all

Presentations

  • Effects of the use of an automatic embedding auxiliary skeletal anchorage device on the stability of miniscrews and surrounding bone under loading

    Yamagata Keita, Oga Yasuhiko, Sangho Kwon, Suga Mayu, Maeda Aya, Ishikawa Takanori, Kusumoto Junya, Semba Ichiro, Miyawaki Shouichi

    The 9th International Orthodontic Congress  2020.10.4 

     More details

    Event date: 2020.10.4 - 2020.11.6

    Language:English   Presentation type:Poster presentation  

    researchmap

  • Long noncoding RNAs that regulate CCN2 Invited

    Kubota S, Ishikawa T, Mizukawa T, Kondo S, El-Seoudi A, Nishida T, Hattori T, Kawata K, Furumatsu T, Takarada T, Ono M, Takigawa M

    The 10th International Workshop of CCN Family of Genes  2019 

     More details

    Language:English   Presentation type:Oral presentation (invited, special)  

    researchmap

  • Investigation on long non-coding RNAs that are associated with chondrocytic phenotype International conference

    RNA 2016  2016.6.30 

     More details

    Language:English   Presentation type:Poster presentation  

    researchmap

  • 日本におけるマウスピース型矯正装置の問題点

    玉置幸雄, 石川翔子, 髙橋沙希, 國見亮太, 中嶋宏樹, 佐藤琢磨, 宮澤健, 石川崇典, 孔泰寛, 大賀泰彦, 宮脇正一, 鹿嶋友希, 宮澤有理江, 槇宏太郎

    第83回日本矯正歯科学会学術大会  2024.10.31 

     More details

    Event date: 2024.10.29 - 2024.10.31

    researchmap

  • 若年性突発性関節炎を伴う骨格性開咬症例

    田畑香織, 穴田理嵯, 石川崇典, 上岡 寛

    第67回中・四国矯正歯科学会大会  2024.7.7 

     More details

    Event date: 2024.7.6 - 2024.7.7

    researchmap

  • CBCTを用いて測定した歯槽骨の厚みと矯正歯科治療中の歯髄壊死の関連

    藤澤厚郎、石川崇典、上岡 寛

    第67回中・四国矯正歯科学会大会  2024.7.7 

     More details

    Event date: 2024.7.6 - 2024.7.7

    researchmap

  • Urotherial cancer-associated 1(UCA1)長鎖非コードRNAが破骨細胞分化および機能へ与える影響

    難波 裕生, 井澤 俊, 石川 崇典, 久保田 聡, 上岡 寛

    第82回日本矯正歯科学会学術大会  2023.11.3 

     More details

    Event date: 2023.11.1 - 2023.11.3

    Presentation type:Oral presentation (general)  

    researchmap

  • 不正咬合は視床下部におけるAgRPの発現増加を介して成長期マウスの認識機能 を低下させる

    楠元淳也, 大賀泰彦, 山形勁太, 丸谷佳菜子, 石川崇典, 宮脇正一, 國則貴玄, 菅真有

    第82回日本矯正歯科学会学術大会  2023.11.2 

     More details

    Event date: 2023.11.1 - 2023.11.3

    researchmap

  • 顔面半側肥大症の成人患者に対して外科的矯正治療を行った1例

    太田 明美, 早野 暁, 石川 崇典, 加持 秀明, 菅原 康志, 上岡 寛

    第81回日本矯正歯科学会学術大会 

     More details

    Event date: 2022.10.5 - 2022.10.7

    researchmap

  • 顔面半側肥大症患者に対して外科的矯正治療を行った1例

    太田明美, 早野暁, 石川崇典, 加持秀明, 菅原康志, 上岡寛

    第32回日本顎変形症学会学術大会 

     More details

    Event date: 2022.6.9 - 2022.6.10

    researchmap

  • 覚醒時の咬筋活動と疼痛関連顎関節症との関連性

    大迫佑季, 前田綾, 中川祥子, 古川みなみ, 大賀泰彦, 髙橋広太郎, 福嶋美佳, 原田真利那, 成昌建, 丸谷佳菜子, 石川崇典, 宮脇正一

    第17回九州矯正歯科学会学術大会 

     More details

    Event date: 2022.1.30

    researchmap

  • 新規骨固定装置は即時加重された歯科矯正用アンカースクリューの安定性を向上させる

    山形 勁太, 大賀 泰彦, 前田 綾, 石川 崇典, 菅 真有, 宮脇 正一

    第80回日本矯正歯科学会学術大会  2021.11.3 

     More details

    Event date: 2021.11.3 - 2021.11.5

    researchmap

  • Physiological role of urothelial cancer-associated 1 (UCA1) long noncoding RNA in human skeletogenic cell differentiation

    Takanori Ishikawa, Takashi Nishida, Mituaki Ono, Takarada Takeshi, Ha Thi Thu Nguyen, Shinnosuke Kurihara, Takayuki Furumatsu, Yurika Murase, Masaharu Takigawa, Toshitaka Oohashi, Hiroshi Kamioka, Satoshi Kubota

    2021.3 

     More details

    Event date: 2021.3

    researchmap

  • 長鎖(約6kb) lssODNおよびCRISPER/Cas9を用いたヒト科霊長類特異的lncRNAのマウス受精卵へのエレクトロポレーションによるノックインの試み

    近藤星, 桑原実穂, Fu Shanqi, 池田健司, 石川崇典, 大野充昭, 西田崇, 久保田聡, 服部高子

    第92回日本生化学会大会  2019 

     More details

    Language:Japanese   Presentation type:Oral presentation (general)  

    researchmap

  • 骨芽細胞分化にUCA1長鎖ノンコーディングRNAが与える影響

    第36回日本骨代謝学会学術集会  2018.7.26 

     More details

    Language:English   Presentation type:Poster presentation  

    researchmap

  • ヒト軟骨細胞分化におけるUCA1長鎖ノンコーディングRNAの役割

    第31回日本軟骨代謝学会  2018.3.4 

     More details

    Language:English   Presentation type:Oral presentation (general)  

    researchmap

  • 軟骨細胞細胞分化に関わる長鎖ノンコーディングRNAの骨形成における役割

    第35回日本骨代謝学会学術集会  2017.7.27 

     More details

    Language:English   Presentation type:Oral presentation (general)  

    researchmap

  • 軟骨細胞、骨芽細胞分化にUCA1長鎖ノンコーディングRNAが与える影響

    2017.3.5 

     More details

    Language:English   Presentation type:Oral presentation (general)  

    researchmap

  • 軟骨細胞形質に関わる長鎖非コードRNAの探索

    第34回日本骨代謝学会学術集会  2016.7.23 

     More details

    Language:English   Presentation type:Poster presentation  

    researchmap

  • 軟骨細胞形質を支える長鎖非コードRNA

    第29回日本軟骨代謝学会  2016.2.29 

     More details

    Language:English   Presentation type:Oral presentation (general)  

    researchmap

▼display all

Awards

  • 第82回日本矯正歯科学会学術大会 優秀演題賞

    2023.11   不正咬合は視床下部におけるAgRPの発現増加を介して成長期マウスの認識機能 を低下させる

    楠元淳也、大賀泰彦、山形勁太、丸谷佳菜子、石川崇典、宮脇正一、國則貴玄、菅真有

     More details

  • 第80回日本矯正歯科学会学術大会 優秀演題賞

    2021.11   日本矯正歯科学会   新規骨固定装置は即時加重された歯科矯正用アンカースクリューの安定性を向上させる

    山形 勁太, 大賀 泰彦, 前田 綾, 石川 崇典, 菅 真有, 宮脇 正一

     More details

  • 第26回日本軟骨代謝学会賞

    2021.3   日本軟骨代謝学会  

    Takanori Ishikawa, Takashi Nishida, Mituaki Ono, Takarada Takeshi, Ha Thi Thu Nguyen, Shinnosuke Kurihara, Takayuki Furumatsu, Yurika Murase, Masaharu Takigawa, Toshitaka Oohashi, Hiroshi Kamioka, Satoshi Kubota

     More details

Research Projects

  • 長鎖非コードRNAによる骨細胞メカニカルストレス応答制御機構の解明

    Grant number:21K10189  2021.04 - 2024.03

    日本学術振興会  科学研究費助成事業 基盤研究(C)  基盤研究(C)

    石川 崇典, 宮脇 正一, 前田 綾, 大賀 泰彦, 久保田 聡, 西田 崇, 服部 高子, 高江洲 かずみ

      More details

    Grant amount:\4160000 ( Direct expense: \3200000 、 Indirect expense:\960000 )

    最近、タンパク質をコードしない長鎖非コードRNAが様々な生理的機能に関与していることが明らかとなっている。しかしながら、矯正歯科治療における歯の移動において極めて重要な生体反応である、骨細胞のメカニカルストレス応答に関与するとされる長鎖非コードRNAの報告はまだない。そこで、本研究では骨細胞のメカニカルストレス応答下で機能する長鎖非コードRNAを特定し、その詳細な分子機構を明らかにすることを目的とし、研究を実施している。
    目的とする長鎖非コードRNAを特定するため、マイクロアレイによる網羅的遺伝子発現解析を予定しており、初年度はまず実施するサンプルの条件を検討した。骨細胞様細胞株MLO-Y4細胞を培養し、同細胞に様々な種類のメカニカルストレスを負荷後、同サンプルを回収し、骨芽細胞マーカー遺伝子および骨芽細胞分化に関与しているとされる長鎖非コードRNAを定量RT-PCRにより評価し、マイクロアレイを実施するサンプルの選定を行った。初年度末の時点で概ね本作業は完了しており、今後はコントロール群と比較し遺伝子変動の大きかった方法でメカニカルストレスを付与したMLO-Y4細胞を準備し、網羅的遺伝子発現解析を実施していく。同サンプルの解析結果より、特定の長鎖非コードRNAの遺伝子発現の上昇もしくは低下が確認できると考えており、2年目以降では、その中で特に遺伝子発現の変動が多かったRNAをin vitroにてノックダウンおよび強制発現させ、骨代謝マーカー遺伝子の発現変動を確認し詳細な機能を調査することとしている。

    researchmap

  • Functional analysis of UCA1 long non-coding RNA in bone formation

    Grant number:19K24119  2019.08 - 2021.03

    Japan Society for the Promotion of Science  Grants-in-Aid for Scientific Research  Grant-in-Aid for Research Activity Start-up

    Ishikawa Takanori

      More details

    Grant amount:\2860000 ( Direct expense: \2200000 、 Indirect expense:\660000 )

    We confirmed the expression of the osteoblastic gene and UCA1 gene in the process of differentiation of human bone marrow mesenchymal stem cells into osteoblasts. As a result, osteoblastic gene was induced, but UCA1 gene expression was reduced. In addition, forced expression of UCA1 in human bone marrow mesenchymal stem cells by a lentiviral vector enhanced ALP gene expression at 1 week after the initiation of osteoblastic differentiation. However, the effect on ALP gene expression decreased along with time, and it was no longer observed 3 weeks after the infection. These results indicate that UCA1 promotes differentiation at an early stage of osteoblastic differentiation but may not affect the subsequent differentiation process, while its expression also declines.

    researchmap

 

Class subject in charge

  • Clinical training:Early orthodontic treatment (2024academic year) special  - その他

  • Lecture and Research Projects:Early orthodontic treatment (2024academic year) special  - その他

  • Clinical training: Adult orthodontics (2024academic year) special  - その他

  • Lecture and Research Projects: Adult orthodontics (2024academic year) special  - その他

  • Practicals: Orthodontics and Dentofacial Orthopedics (2024academic year) special  - その他

  • Research Projects: Orthodontics and Dentofacial Orthopedics (2024academic year) special  - その他

  • Research Projects and Practicals: Orthodontics and Dentofacial Orthopedics I (2024academic year) special  - その他

  • Lecture and Research Projects: Orthodontics and Dentofacial Orthopedics I (2024academic year) special  - その他

  • Research Projects and Practicals: Orthodontics and Dentofacial Orthopedics II (2024academic year) special  - その他

  • Lecture and Research Projects: Orthodontics and Dentofacial Orthopedics II (2024academic year) special  - その他

  • Practica A for Clinical Specialties in Dentistry(Early orthodontic treatment) (2024academic year) special  - その他

  • Practica A for Clinical Specialties in Dentistry(Adult orthodontics) (2024academic year) special  - その他

  • Practica B for Clinical Specialties in Dentistry(Early orthodontic treatment) (2024academic year) special  - その他

  • Practica B for Clinical Specialties in Dentistry(Adult orthodontics) (2024academic year) special  - その他

  • Clinical training:Early orthodontic treatment (2023academic year) special  - その他

  • Lecture and Research Projects:Early orthodontic treatment (2023academic year) special  - その他

  • Clinical training: Adult orthodontics (2023academic year) special  - その他

  • Lecture and Research Projects: Adult orthodontics (2023academic year) special  - その他

  • Practicals: Orthodontics and Dentofacial Orthopedics (2023academic year) special  - その他

  • Research Projects: Orthodontics and Dentofacial Orthopedics (2023academic year) special  - その他

  • Research Projects and Practicals: Orthodontics and Dentofacial Orthopedics I (2023academic year) special  - その他

  • Lecture and Research Projects: Orthodontics and Dentofacial Orthopedics I (2023academic year) special  - その他

  • Research Projects and Practicals: Orthodontics and Dentofacial Orthopedics II (2023academic year) special  - その他

  • Lecture and Research Projects: Orthodontics and Dentofacial Orthopedics II (2023academic year) special  - その他

  • Practica A for Clinical Specialties in Dentistry(Early orthodontic treatment) (2023academic year) special  - その他

  • Practica A for Clinical Specialties in Dentistry(Adult orthodontics) (2023academic year) special  - その他

  • Practica B for Clinical Specialties in Dentistry(Early orthodontic treatment) (2023academic year) special  - その他

  • Practica B for Clinical Specialties in Dentistry(Adult orthodontics) (2023academic year) special  - その他

▼display all