研究者業績
基本情報
- 所属
- 日本獣医生命科学大学 獣医学部 獣医学科 教授 (小動物外科設立専門医)獣医外科学研究室 教授
- 学位
- 獣医学修士(日本獣医生命科学大学)獣医学博士(日本獣医生命科学大学)
- J-GLOBAL ID
- 200901007028918014
- researchmap会員ID
- 1000093611
経歴
8-
2011年4月 - 現在
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2002年 - 2011年
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1997年 - 2002年
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1997年 - 2002年
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1990年 - 1997年
学歴
4-
- 1990年
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- 1990年
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- 1987年
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- 1987年
委員歴
4-
2015年 - 現在
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1998年 - 現在
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1993年
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1992年
受賞
8論文
150-
Veterinary and comparative orthopaedics and traumatology : V.C.O.T 2024年3月6日OBJECTIVE: The aim of this study was to evaluate the stress changes in the radii beneath the locking plates (LP) of dogs implanted with LP using finite element analysis (FEA). STUDY DESIGN: The study included radii harvested from eight dogs. After computed tomography (CT) scans of the forelimb, the articular surface of the radius was fixed using resin. Material tests were conducted to identify the yield and fracture points and for verification with FEA. The CT data of the radius were imported into FEA software. The radii were classified into three groups based on the placement of the LP (nonplate placement, intact group; 1 mm above the radial surface, LP + 1 mm group; 3 mm above the radial surface, LP + 3 mm group). Equivalent, maximum, and minimum principal stresses and minimum principal strain were measured after FEA at the radial diaphysis beneath the plate. RESULTS: In shell elements, the LP + 1 mm and LP + 3 mm groups showed a significantly lower maximum principal stress compared with the intact group. In solid elements, the LP + 1 mm and LP + 3 mm groups showed a significantly higher equivalent stress and a significantly lower maximum principal stress compared with the intact group. CONCLUSION: When an axial load is applied to the radius, LP placement reduces the tension stress on the cortical bone of the radius beneath the plate, possibly related to implant-induced osteoporosis and bone formation in the cortical bone beneath the plate.
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BMC Veterinary Research 20(1) 2024年2月24日Abstract Background Cranial closing wedge osteotomy (CCWO) is a functional stabilisation technique for cranial cruciate ligament (CrCL) ruptures. This biomechanical study aimed to evaluate the influence of CCWO on the stability of the stifle joint. Eighteen Beagle stifle joints were divided into two groups: control and CCWO. The stifle joints were analyzed using a six-degree-of-freedom robotic joint biomechanical testing system. The joints were subjected to 30 N in the craniocaudal (CrCd) drawer and proximal compression tests and 1 Nm in the internal–external (IE) rotation test. Each test was performed with an extension position, 135°, and 120° of joint angle. Results The stifle joints were tested while the CrCLs were intact and then transected. In the drawer test, the CCWO procedure, CrCL transection, and stifle joint flexion increased CrCd displacement. The CCWO procedure and CrCL transection showed an interaction effect. In the compression test, the CCWO procedure decreased and CrCL transection and stifle joint flexion increased displacement. In the IE rotation test, CCWO, CrCL transection, and stifle joint flexion increased the range of motion. Conclusions CCWO was expected to provide stability against compressive force but does not contribute to stability in the drawer or rotational tests. In the CCWO-treated stifle joint, instability during the drawer test worsened with CrCL transection. In other words, performing the CCWO procedure when the CrCL function is present is desirable for stabilizing the stifle joint.
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Journal of Veterinary Medical Science 2024年
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American Journal of Veterinary Research 1-8 2023年9月5日Abstract OBJECTIVE To verify the validity of finite element analysis (FEA) predictions obtained from a canine lumbar segment model in comparison with experimental biomechanical testing results from the same subjects. ANIMALS 6 healthy beagle dogs were euthanized for other purposes. METHODS The L1–2 and L5–6 segments were harvested from euthanized animals and subjected to rotation tests and compression tests, respectively, using both ex vivo mechanical testing and FEA. For each method, we recorded the maximum torque value and angle of vertebral body rotation at rupture observed in rotation tests, as well as the maximum stress value and displacement of the vertebral body endplate at rupture measured from compression tests. We then calculated Pearson’s correlation coefficient to determine correlations between the angle of gyration and displacement at rupture determined by mechanical testing and FEA. The study started on March 26, 2021, and ended on March 18, 2023. RESULTS For the rotation test, correlation coefficients for the maximum torque and rotation angle of the vertebral body at rupture were r = 0.92 and 0.96, respectively. For the compression test, correlation coefficients for the maximum stress and displacement of the vertebral body endplate at rupture were r = 0.73 and 0.94, respectively. All results showed strong correlations between the FEA predictions and ex vivo mechanical test results. CLINICAL RELEVANCE These findings suggest that FEA predictions are sufficiently reliable for ex vivo mechanical test results for biomechanical studies of canine lumbar segment models.
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The Canadian veterinary journal = La revue veterinaire canadienne 64(9) 823-827 2023年9月A 5-month-old male domestic shorthair cat was presented with severe bilateral hind-limb deformities that caused the cat to walk on the dorsal aspect of the metatarsals. Computed tomography (CT) images revealed that the calcaneus was externally rotated, and the distal end of the calcaneus was turned medially to the talus in both hind limbs. The cat was diagnosed with twisted leg deformity, a congenital tarsal hyperextension deformity (clubfoot). Based on CT images, closing wedge ostectomy was done at the level of the tarsometatarsal joint with the wider part facing laterally. Partial transection of the common calcaneal tendon was not performed. Nine weeks after surgery, the cat was able to walk and jump, with its paws correctly placed on the ground, despite the limited range of motion in the tarsal joints. Based on radiographs with maximum tarsal flexion, the angle of the partial tarsal arthrodesis limited the range of motion. This is apparently the first case report describing CT images and closing wedge ostectomy in a cat with twisted leg deformity. Key clinical message: This article reports the findings obtained from CT imaging of a cat with twisted leg deformity. The current case was successfully managed by closing wedge ostectomy without partial transection of the common calcaneal tendon.
MISC
453-
日本獣医麻酔外科学雑誌 46(Suppl.1) 260-260 2015年6月
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獣医麻酔外科学雑誌 45(Suppl.2) 209-209 2014年12月
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獣医麻酔外科学雑誌 45(Suppl.1) 206-206 2014年6月
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獣医麻酔外科学雑誌 44(Suppl.2) 237-237 2013年12月
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獣医麻酔外科学雑誌 44(Suppl.1) 238-238 2013年6月
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JOURNAL OF BONE AND MINERAL RESEARCH 28 2013年2月
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獣医麻酔外科学雑誌 43(3-4) 47-54 2012年10月脛骨高平部水平化骨切り術(TPLO)では、様々な種類のプレートが使用可能である。我々はSlocum Plate(SP)、Locking Compression TPLO Plate(LCP)、Dynamic Compression Plate(DCP)を用いてTPLOを実施した症例で、Tibial Plateau Angle(TPA)とmechanical Medial Proximal Tibial Angle(mMPTA)を計測した。異なるプレート間でのTPAとmMPTAを比較し、経時的な変化を観察した。LCP使用群ではその他の群に比較して、術後合併症の発生頻度が低い傾向を示した。SP使用群におけるTPAは術後1、2、3ヵ月目で術後直後と比較して有意に高値を示した。LCP使用群における観察期間中にTPAに有意な変化は認められなかった。DCP使用群におけるTPAは術後2、3ヵ月目で術後直後と比較して有意に高値を示した。mMPTAについては観察期間中すべての種類のプレートにおいて、有意な変化は認められなかった。各群における術後の垂直床反力(GFR)には差が認められなかった。以上のことからSPやDCP群で認められたTPAの変化は臨床上許容できる範囲内であるものの、LCPは他のプレートに比べて脛骨近位骨片のアラインメントの維持に有用であると考えられた。(著者抄録)
書籍等出版物
34講演・口頭発表等
41共同研究・競争的資金等の研究課題
15-
日本学術振興会 科学研究費助成事業 2017年4月 - 2020年3月
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日本学術振興会 科学研究費助成事業 2015年4月 - 2018年3月
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日本学術振興会 科学研究費助成事業 2012年4月 - 2015年3月
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日本学術振興会 科学研究費助成事業 2009年 - 2011年
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日本学術振興会 科学研究費助成事業 2008年 - 2010年