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研究発表事例

様々な研究への利用

有限要素解析を用いた骨強度の予測は、医療分野においても様々な研究に適用することができます。
MECHANICAL FINDERはおかげ様をもちまして全国の様々な病院・大学・研究機関のお医者様や研究者様方に使っていただき、その多岐にわたる研究に利用されております。
以下にその一部をご紹介いたします(敬称略)。

論文・発表分野
2017
T. Sugiura, et al.: Micromotion analysis of different implant configuration, bone density, and crestal cortical bone thickness in immediately loaded mandibular full-arch implant restorations: A nonlinear finite element study. Clin Implant Dent Relat Res. 2017 Dec 6. doi: 10.1111/cid.12573. [Epub ahead of print]link_mark.png 歯科
T. Sato, et al.: Use of Nonlinear Finite Element Analysis of Bone Density to Investigate the Biomechanical Effect in the Bone around Intervertebral Cages in Posterior Lumbar Interbody Fusion.J. Biomedical Science and Engineering, 2017, Vol. 10, (No. 10), pp: 445-455link_mark.png 整形外科
K. Murakami, et al.:An evaluation of the development of jones fractures in terms of the dynamic factors. Physical Therapy in Sports, 28 (2017) e12.link_mark.png スポーツ
S. Miyamura, et al.: Altered bone density and stress distribution patterns in long-standing cubitus varus deformity and their effect during early osteoarthritis of the elbow, Osteoarthritis and Cartilage, Available online 14 October 2017. link_mark.png 整形外科
Y. Oh, et al.: Location of atypical femoral fracture can be determined by tensile stress distribution influenced by femoral bowing and neck-shaft angle: a CT-based nonlinear finite element analysis model for the assessment of femoral shaft loading stress. Injury. Published online: September 25, 2017link_mark.png 整形外科
T. Sugiura, et al.: Effects of implant tilting and the loading direction on the displacement and micromotion of immediately loaded implants: an in vitro experiment and finite element analysis. J Periodontal Implant Sci. 2017 Aug;47(4):251-262.link_mark.png 歯科
K. Murakami, et al.: Computed Tomography-Based 3-Dimensional Finite Element Analyses of Various Types of Plates Placed for a Virtually Reduced Unilateral Condylar Fracture of the Mandible of a Patient. J Oral Maxillofac Surg. 2017 Jun;75(6):1239.e1-1239.e11.link_mark.png 歯科
K. Matsukawa, et al.: Comparison of Pedicle Screw Fixation Strength Among Different Transpedicular Trajectories: A Finite Element Study. Clinical Spine Surgery. 2017 Aug;30(7):301-307.link_mark.png 整形外科
Y. Kawabata, et al.: The risk assessment of pathological fracture in the proximal femur using a CT-based finite element method. J Orthop Sci. 2017 Jul 5. pii: S0949-2658(17)30137-9. doi: 10.1016/j.jos.2017.05.015. [Epub ahead of print]link_mark.png 整形外科
H. Takano, et al.: Biomechanical Study of Vertebral Compression Fracture Using Finite Element Analysis. Journal of Applied Mathematics and Physics, 2017, 5, 953-965link_mark.png 整形外科
Y. Matsuura, et al.: Evaluation of Bone Atrophy After Treatment of Forearm Fracture Using Nonlinear Finite Element Analysis: A Comparative Study of Locking Plates and Conventional Plates. The Journal of Hnad Surgery. Published online: May 26, 2017link_mark.png 整形外科
H. Sano, et al.: Tight medial knot tying may increase retearing risk after transosseous equivalent repair of rotator cuff tendon. Bio-Medical Materials and Engineering, vol. 28, no. 3, pp. 267-277, 2017 link_mark.png 整形外科
S. Maki, et al.: Paravertebral foramen screw fixation for posterior cervical spine fusion: biomechanical study and description of a novel technique. J Neurosurg Spine. 2017 May 12:1-6. doi: 10.3171/2016.12.SPINE16803. [Epub ahead of print] link_mark.png 整形外科
AH. Abdullah, et al.: Prediction of damage formation in hip arthroplasties by finite element analysis using computed tomography images. Medical Engineering & Physics. Available online 31 March 2017link_mark.png 整形外科
MH. Jalil, et al.:Development and Characterization of Gear Shape Porous Scaffolds Using 3D Printing Technology. International Journal of Bioscience, Biochemistry and Bioinformatics; Singapore7.2 (Apr 2017): 74-83. link_mark.png その他
Y. Matsuura, et al.: Smith's fracture generally occurs after falling on the palm of the hand. J Orthop Res. 2017 Mar 6. doi: 10.1002/jor.23556. [Epub ahead of print]link_mark.png 整形外科
H. Fujii, et al.:Three-dimensional finite element model to predict patterns of pterygomaxillary dysjunction during Le Fort I osteotomy. International Journal of Oral and Maxillofacial Surgery, Available online 12 January 2017 link_mark.png 歯科
2016
E. Itoi, et al.: Deadman theory revisited. Bio-Medical Materials and Engineering 27 (2016) 171-181link_mark.png 整形外科
Y. Inaba, et al.: Evaluation of Adaptive Bone Remodeling after Total Hip Arthroplasty Using Finite Element Analysis, Perusal of the Finite Element Method, PhD. Radostina Petrova (Ed.), InTech, DOI: 10.5772/65031.link_mark.png 整形外科
T. Ogawa, et al.: Relationship between retention forces and stress at the distal border in maxillary complete dentures: Measurement of retention forces and finite-element analysis in individual participants. J Prosthet Dent. 2016 Oct 17. pii: S0022-3913(16)30365-1. Article in Presslink_mark.png 歯科
T. Hagio, et al.: Stress Distribution within the Osteochondral Lesions of the Talus with Nonshoulder-type and Shoulder-type. AOFAS Annual Meeting 2016link_mark.png 整形外科
H. Takano, et al.: Biomechanical Study of the Effects of Balloon Kyphoplasty on the Adjacent Vertebrae. Journal of Biomedical Science and Engineering, 9, 478-487. doi: 10.4236/jbise.2016.910043.link_mark.png 整形外科
M. Oba, et al.: Effect of femoral canal shape on mechanical stress distribution and adaptive bone remodelling around a cementless tapered-wedge stem. Bone & Joint Research vol. 5, No. 9, September 2016 link_mark.png 整形外科
S. Horita, et al.: Biomechanical analysis of immediately loaded implants according to the "All-on-Four" concept. Journal of Prosthodontic Research. Available online 5 September 2016 link_mark.png 歯科
T. Sugiura, et al.: The effects of bone density and crestal cortical bone thickness on micromotion and peri-implant one strain distribution in an immediately loaded implant: a nonlinear finite element analysis. Journal of Periodontal Implant Science. 2016 Jun; 46(3): 152-165 link_mark.png 歯科
Y. Shimura, et al.: Biomechanical effects of offset placement of dental implants in the edentulous posterior mandible. International Journal of Implant Dentistry. First Online: 17 June 2016 link_mark.png 歯科
M. Fujii, et al.; Prediction of Femoral Neck Strength in Patients with Diabetes Mellitus with Trabecular Bone Analysis and Tomosynthesis Images. Radiology. DOI: http://dx.doi.org/10.1148/radiol.2016151657 Ahead of Printlink_mark.png 整形外科
K. Murakami, et al.: EVALUATION OF THE DEVELOPMENT OF JONES FRACTURES IN TERMS OF THE DYNAMIC FACTORS. XXV International Conference on Sports Rehabilitation and Traumatology: FOOTBALL MEDICINE STRATEGIES RETURN TO PLAY. link_mark.png スポーツ
D. Chiba, et al.:Prediction of pathological fracture of the femoral shaft with an osteolytic lesion using a computed tomography-based nonlinear three-dimensional finite element method. Journal of Orthopaedic Science. Available online 30 April 2016 link_mark.png 整形外科
H. Sano, et al.:Comparison of fixation properties between coil-type and screw-type anchors for rotator cuff repair: A virtual pullout testing using 3-dimensional finite element method. Journal of Orthopaedic Science. Available online 14 May 2016 link_mark.png 整形外科
Mhd H. Albogha, et al.:Predisposing Factors for Orthodontic Mini-Implant Failure Defined by Bone Strains in Patient-Specific Finite Element Models. Annals of Biomedical Engineering. pp 1-9. First online: 16 March 2016. link_mark.png 歯科
K. Kawanami, et al.:Effect of Denosumab Administration on Lumbar Vertebral Strength of Patients with Vertebral Bony Metastases: Preliminary Study. Anticancer Research. 36(3); 1027-1031. 2016 link_mark.png 整形外科
K. Matsukawa, et al.:Biomechanical evaluation of lumbar pedicle screws in spondylolytic vertebrae: comparison of fixation strength between the traditional trajectory and a cortical bone trajectory. Journal of Neurosurgery; Spine. Posted online on February 19, 2016. link_mark.png 整形外科
K. Matsukawa, et al.: Biomechanical evaluation of fixation strength among different sizes of pedicle screws using the cortical bone trajectory: what is the ideal screw size for optimal fixation? Acta Neurochirurgica pp 1-7, First online 15 January 2016 link_mark.png 整形外科
M. Kaneko, et al.: Prediction of proximal femur strength by a quantitative computed tomography-based finite element method--Creation of predicted strength data of the proximal femur according to age range in a normal population. Modern Rheumatology. 26(1): 151-155. 2016 link_mark.png 整形外科
ページの先頭へ
2015
N. Kiyohara, et al.: Discordance between Prevalent Vertebral Fracture and Vertebral Strength Estimated by the Finite Element Method Based on Quantitative Computed Tomography in Patients with Type 2 Diabetes Mellitus. PLoS One. 2015; 10(12): e0144496. Published online 2015 Dec 7. link_mark.png 整形外科
K. Matsukawa, et al.: Biomechanical Evaluation of Cross Trajectory Technique for Pedicle Screw Insertion: Combined Use of Traditional Trajectory and Cortical Bone Trajectory. Orthopaedic Surgery, 7(4): 317-323. 2015 link_mark.png 整形外科
K. Yukawa, et al.: Three-Dimensional Finite Elemental Analysis of Bone Stress near an Implant Placed at the Border between Mandible and Fibular Graft in Mandibular Reconstruction. Open Journal of Regenerative Medicine, 4: 35-45. 2015 link_mark.png 歯科
H. Sano, et al.: Predicting failures of suture anchors used for rotator cuff repair: A CT-based 3-dimensional finite element analysis. Bio-Medical Materials and Engineering, 25(4): 371-380. 2015 link_mark.png 整形外科
Mhd H. Albogha, et al.: Generic finite element models of orthodontic mini-implants: Are they reliable? Journal of Biomechanics. 48(14):3751-3756. 2015 link_mark.png 整形外科
K.Matsukawa, et al.: Biomechanical evaluation of the fixation strength of lumbar pedicle screws using cortical bone trajectory: a finite element study. Journal of Neurosurgery:Spine. 23(4): 471-478 2015 link_mark.png 整形外科
K. Imai :Analysis of Vertebral Bone Strength, Fracture Pattern, and Fracture Location: A Validation Study Using a Computed Tomography-Based Nonlinear Finite Element Analysis. Aging and Disease. 6(3): 180-187. 2015 link_mark.png 整形外科
K. Murakami, et al.: Biomechanical analysis of poly-L-lactic acid and titanium plates fixated for mandibular symphyseal fracture with a conservatively treated unilateral condylar fracture using the three-dimensional finite element method. Dental Traumatology. 31(5): 396-402. 2015 link_mark.png 歯科
M. Omori, et al.: A biomechanical investigation of mandibular molar implants: reproducibility and validity of a finite element analysis model. International Journal of Implant Dentistry 2015, 1:10 doi:10.1186/s40729-015-0011-5 link_mark.png 歯科
AH Abdullah, et al.; Effects of Hip Arthroplasties on Bone Adaptation in Lower Limbs: A Computational Study. Journal of Biosciences and Medicines. 3(4): 1-7. 2015 link_mark.png 整形外科
Mhd H. Albogha, et al.: Maximum principal strain as a criterion for prediction of orthodontic mini-implants failure in subject-specific finite element models. Angle Orthodontist. 86(1): 24-31. 2015 link_mark.png 歯科
H. Ike, et al.: Effects of rotational acetabular osteotomy on the mechanical stress within the hip joint in patients with developmental dysplasia of the hip. Bone Joint J. 97-B(4) 492-497. 2015 link_mark.png 整形外科
K. Matsukawa, et al.: Comparison of Pedicle Screw Fixation Strength among Different Transpedicular Trajectories: A Finite Element Study. Journal of Spinal Disorders & Techniques. Post Acceptance: February 5, 2015, Publish Ahead of Print link_mark.png 整形外科
AH. Abdullah, et al.; Stress Evaluation of Lower Limbs with Hip Osteoarthritis and Hip Arthroplasty. Journal of Medical and Bioengineering 4(2): 100-104. 2015 link_mark.png 整形外科
ページの先頭へ
2014
T. Gonda, et al.: Biomechanical factors associated with mandibular cantilevers: analysis with three-dimensional finite element models. Int J Oral Maxillofac Implants. 2014 Nov-Dec; 29(6): e275-82 link_mark.png 歯科
AH Abdullah, et al.: Risk of Femoral Bone Fractures in Hip Arthroplasties during Sideway Falls. International Journal of Applied Physics and Mathematics. 4(4): 286-289. 2014 link_mark.png 整形外科
M. Wada, et al.,: Implant Placement With a Guided Surgery System Based on Stress Analyses Utilizing the Bone Density: A Clinical Case Report. Journal of Oral Implantology. 40(5): 603-606. 2014 link_mark.png 歯科
Y. Hirata, et al. : Correlation between mechanical stress by finite element analysis and 18F-fluoride PET uptake in hip osteoarthritis patients. Journal of Orthopaedic Research. Early View (Online Version of Record published before inclusion in an issue, 2014) link_mark.png 整形外科
Y. Oh, et al.: Potential pathogenic mechanism for stress fractures of the bowed femoral shaft in the elderly: Mechanical analysis by the CT-based finite element method. Injury. Published Online: August 29, 2014 link_mark.png 整形外科
R. Shigemitsu, et al.: Patient-data-based finite-element stress analysis of mandibular bone with implant-supported overdenture. Computers in Biology and Medicine. Available online 28 August 2014 link_mark.png 整形外科
Y. Matsuura, et al.: Investigation of the Accuracy of Finite element analysis for Evaluation of Distal Radius Strength: A Cadaveric Study. 8TH INTERNATIONAL HAND AND WRIST BIOMECHANICS SYMPOSIUM 2012/4/20-21 YOKYOHAMA JAPAN 整形外科
Y. Matsuura, et al.: Accuracy of specimen-specific nonlinear finite element analysis for evaluation of radial diaphysis strength in cadaver material. Computer Methods in Biomechanics and Biomedical Engineering. 10.1080/10255842.2014.974579. 2015 link_mark.png 整形外科
Y. Matsuura, et al.: Accuracy of specimen-specific nonlinear finite element analysis for evaluation of distal radius strength in cadaver material. Journal of Orthopaedic Science. 10.1007/s00776-014-0616-1. 2014 link_mark.png 整形外科
Y. Matsuura, et al.: Specimen-Specific Nonlinear Finite Element Modeling to Predict Vertebrae Fracture Loads after Vertebroplasty. Spine. 39(22): E1291-E1296. 2014 link_mark.png 整形外科
H. Ike, et al.: Comparison between mechanical stress and bone mineral density in the femur after total hip arthroplasty by using subject-specific finite element analyses. Computer Methods in Biomechanics and Biomedical Engineering. Published online: 24 Mar 2014 link_mark.png 整形外科
K. Murakami, et al.: Theoretical efficacy of preventive measures for pathologic fracture after surgical removal of mandibular lesions based on a three-dimensional finite element analysis. Journal of Oral and Maxillofacial Surgery. 72(4): 833.e1-833.e18. 2014 link_mark.png 歯科
Jie. G, et al.: Comparative stress analysis of delayed and immediate loading of a single implant in an edentulous maxilla model. Journal of Dental Biomechanics. Volume 5: 1-7. 2014 link_mark.png 歯科
D. Tawara, et al.: Nonlinear mechanical analysis of posterior spinal instrumentation for steoporotic vertebra: Effects of mechanical properties of the rod on the failure risks around the screw. Journal of Biomechanical Science and Engineering. 10.1299/jbse.13-00163. 2014 link_mark.png 整形外科
ページの先頭へ
2013
H. Sano, et al.: Stress Distribution Within Rotator Cuff Tendons With a Crescent-Shaped and an L-Shaped Tear. Knee Surgery, Sports Traumatology, Arthroscopy. 21(8): 1777-1782. 2013) link_mark.png 整形外科
Y. Hirata, et al.: Comparison of Mechanical Stress and Change in Bone Mineral Density Between Two Types of Femoral Implant Using Finite Element Analysis. Journal of Arthroplasty. 28(10): 1731-1735. (2013) link_mark.png 整形外科
D. Umebayashi, et al.: Transvertebral anterior cervical foraminotomy: midterm outcomes of clinical and radiological assessments including the finite element method. European Spine Journal. 10.1007/s00586-013-2974-3: 1-7. 2013 link_mark.png 脳神経外科
K. Nakamura, et al.: Dental application of novel finite element analysis software for three-dimensional finite element modeling of a dentulous mandible from its computed tomography images. Proceedings of the Institution of Mechanical Engineers, Part H: Journal of Engineering in Medicine December 2013 vol. 227 no. 12 1312-1318 link_mark.png 歯科
A. Hasegawa, et al.: Accuracy of three-dimensional finite element modeling using two different dental cone beam computed tomography systems. Odontology. 101(2): 210-215. 2013 link_mark.png 歯科
石川昌洋 他: 下顎骨における即時垂直荷重でのインプラント周囲骨に発生する応力の3次元有限要素法解析 Stress Analysis of Bone-implant Interface in the Mandible with Immediate Vertical Loading: A Three-dimensional FEM. 歯産学誌 27(1): 22-30. 2013 歯科
村上憲治 他: 臨床応用を目指した有限要素法・マルチボディシミュレーションシステムの開発 -股関節での応用例- Aiming for Clinical Application: Development od a Finite Element Method-based Multiple-body Simulation System. -Example application to the hip joint -. 日本臨床スポーツ医学会誌 21(3): 776-786. 2013 スポーツ
堀田聡 他: 無歯下顎骨において後方支持インプラントが即時荷重インプラント周囲骨のひずみ分布に及ぼす影響. 臨床バイオメカニクス 34: 357-362. 2013 歯科
杉浦勉 他: 歯科インプラント埋入部位の骨質が周囲骨のひずみ分布に及ぼす影響. 臨床バイオメカニクス 34: 363-369. 2013 歯科
村上和宏 他: CT画像もとに作成した3次元有限要素モデル解析による下顎骨内病変摘出後の術後骨折の予測とその予防法の検討. 臨床バイオメカニクス 34: 371-380. 2013 歯科
大塩 雅人 他: 顎骨の力学特性の不均質性を考慮した有限要素解析による口腔インプラント埋入方向の検討. 日本口腔インプラント学会誌 26(2): 250-258. 2013 歯科
村上憲治 他: サッカー競技におけるキック動作の各相の股関節周囲の応力分布と障害の関連. 日本理学療法学術大会 2012(0), 48100228-48100228, 2013 スポーツ
ページの先頭へ
2012
M. Kaneko, et al.: Predictiong vertebral bone strength with a quantitative computed tomography-based finite-element method -creation of strength data according to age range in a normal population and analysis of factors affecting strength. Journal of Bone & Joint Surgery, British Volume. 94-B(SUPP XXXVII 63): 2012 link_mark.png 整形外科
M. Wada, et al.: Implant placement with a guided surgery system based on stress analyses utilizing the bone density. Journal of Oral Implantology In-Press. 2012 link_mark.png 歯科
A. Hasegawa. Accuracy of three-dimensional finite element modeling using two different dental cone beam computed tomography systems. Odontology. 2012 link_mark.png 歯科
M. Sano, et al.: Biomechanical Rationale for Six Splinted Implants in Bilateral Canine, Premolar, and Molar Regions in an Edentulous Maxilla. Implant Dentistry. 21(3): 220-224. 2012 link_mark.png 歯科
A. Takahashi, et al.: Patellar morphology and femoral component geometry influence patellofemoral contact stress in total knee arthroplasty without patellar resurfacing. Knee Surgery, Sports Traumatology, Arthroscopy. 29(9): 1787-1795. 2012 link_mark.png 整形外科
L.M. Ren, et al.: A comparative biomechanical study of bone ingrowth in two porous hydroxyapatite bioceramics. Applied Surface Science. 2012 link_mark.png その他
L.M. Ren, et al.: Biomechanical evaluation of porous bioactive ceramics after implantation: micro CT-based three-dimensional finite element analysis. Journal of Materials Science: Materials in Medicine. 23(2): 463-472. 2012 link_mark.png その他
H. Sano, Stress distribution inside bone after suture anchor insertion: simulation using a three-dimensional finite element method. Knee Surgery, Sports Traumatology, Arthroscopy. 2012 link_mark.png 整形外科
Y. Matsuura, et al.: Investigation of the accuracy of finite element analysis for evaluation of distal radius strength: A cadaveric study. The 8th International Hand and Wrist Biomechanics Symposium 2012 link_mark.png 整形外科
Y. Tomizuka, et al.: Finite Element Analysis of Movement of Lower Jaw Molars Using Implant Anchor. Journal of the Japanese Society for Experimental Mechanics. 12 No. Special_Issue: s267-s272. 2012 link_mark.png 歯科
ページの先頭へ
2011
M. Kaneko, et al.: Prediction of proximal femur strength by a quantitative computed tomograpy-based finite element method -Creation of predicted strength data of the proximal femur according to age range in a normal population and analysis of risk factors for hip fracture. Journal of Bone & Joint Surgery, British Volume. 93-B(SUPP II 216): 2011 link_mark.png 整形外科
D. Tawara, et al.: Patient-Specific Finite Element Analyses Detect Significant Mechanical Therapeutic Effects on Osteoporotic Vertebrae During a Three-Year Treatment. Journal of Biomechanical Science and Engineering. 6(4): 248-261. 2011 link_mark.png 整形外科
H. Ike, et al.: Relationship between stress of finite element studies and bone mineral density in the femur after total hip arthroplasty. J Bone Joint Surg Br. 93-B(SUPP IV 420): 2011 link_mark.png 整形外科
K. Imai: Vertebral fracture risk and alendronate effects on osteoporosis assessed by a computed tomography-based nonlinear finite element method. Journal of Bone and Mineral Metabolism. 29(6): 645-651. 2011 link_mark.png 整形外科
T. Motohashi, et al.: Three-dimensional finite element stress analysis of the different bioabsorbable osteosynthesis plate forms in the bilateral sagittal splitting ramus osteotomy. Asian Journal of Oral and Maxillofacial Surgery. 23(1): 10-17. 2011 link_mark.png 歯科
M. Ito, et al.: Reproducing the Bio-Mechanics of the Implant-Bone Interface. Biomechanics of Implant-Bone Interface?In vitro Studies The Preliminary Program for IADR/AADR/CADR 89th General Session and Exhibition (March 16-19, 2011) 歯科
平田康英 他: 有限要素解析を用いたインプラント機種による大腿骨応力分布の比較. 臨床バイオメカニクス 32: 191-195. 2011 整形外科
石井壮郎 他: 投球障害肩の力学モデルの開発 ∼ 投球動作における肩関節の応力分布シミュレーション ∼. 肩関節. 35(3): 939-943. 2011 スポーツ
伊藤学 他: インプラント-骨界面を再現した力学解析法の検討: 実験モデルと有限要素解析モデルの比較. 日本口腔インプラント学会誌. 24(1): 10-16. 2011 歯学
ページの先頭へ
2010
D. Tawara, et al.: Mechanical evaluation by patient-specific finite element analyses demonstrates therapeutic effects for osteoporotic vertebrae. Journal of the Mechanical Behavior of Biomedical Materials. 3(1): 31-40. 2010 link_mark.png 整形外科
D. Sakagoshi, et al.: A Mechanical Analysis of Femoral Resurfacing Implantation for Osteonecrosis of the Femoral Head. The Journal of Arthroplasty. 25(8): 1282-1289. 2010 link_mark.png 整形外科
A. Hasegawa, et al.: Development of 3D CAD/FEM Analysis System for Natural Teeth and Jaw Bone Constructed from X-Ray CT Images. International Journal of Biomaterials. 2010: 7pages. 2010 link_mark.png 整形外科
T. Arahira, et al.: Assessment of Mechanical Stability and Safety for Fully Edentulous Maxilla with Dental Implants. Journal of Solid Mechanics and Materials Engineering. 4(7): 953-962. 2010 link_mark.png 整形外科
D. Tawara, et al.: Mechanical Therapeutic Effects in Osteoporotic L1-Vertebrae Evaluated by Nonlinear Patient-specific Finite Element Analysis. Journal of Biomechanical Science and Engineering. 5(5): 499-514. 2010 link_mark.png 整形外科
T. Arahira, et al.: Biomechanical Analysis of Implant Treatment for Fully Edentulous Maxillae with Different Bone Quality. 6th World Congress of Biomechanics (WCB 2010). August 1-6, 2010 Singapore. 31:961-964. 2010 link_mark.png 整形外科
H. Takahashi, et al.: Three lateral osteotomy designs for bilateral sagittal split osteotomy: biomechanical evaluation with three-dimensional finite element analysis. Head & Face Medicine. 2010 link_mark.png 整形外科
大西五三男 他: 有限要素法による骨強度評価の臨床応用 (第11回日本骨粗鬆症学会 シンポジウム 骨粗鬆症における画像診断). 日本骨粗鬆症学会雑誌 18(2): 192-196. 2010 整形外科
東藤貢 他: 股関節の応力状態に及ぼす臼蓋形成不全の影響. 臨床バイオメカニクス 31: 149-154. 2010 整形外科
石井壮郎 他: 投球姿勢における肩関節の応力分布シミュレーション : 有限要素法解析とMRIとの相関. 日本臨床スポーツ医学会誌 18(2): 280-289. 2010 スポーツ
大西五三男: 運動器医療の応用研究 2 有限要素法による骨粗鬆症(骨強度)評価. 治療学 44(7): 58(778)-61(781). 2010 整形外科
ページの先頭へ
2009
M. Bessho, et al.: Prediction of proximal femur strength using a CT-based nonlinear finite element method: Differences in predicted fracture load and site with changing load and boundary conditions. Bone 45 (2009) 226-231 link_mark.png 整形外科
K. Imai, et al.: Assessment of vertebral fracture risk and therapeutic effects of alendronate in postmenopausal women using a quantitative computed tomography-based nonlinear finite element method. Osteoporosis International. 20(5): 801-810. 2009 link_mark.png 整形外科
K. Mizuno, et al.: Comparison of human FE model and crash dummy responses in various child restraint systems. International Journal of Crashworthiness. 14(2): 139-149. 2009 link_mark.png 整形外科
T. Matsumoto, et al.: Prediction of Vertebral Strength Under Loading Conditions Occurring in Activities of Daily Living Using a Computed Tomography-Based Nonlinear Finite Element Method. Spine. 34(14): 1464-1469. 2009 link_mark.png 整形外科
N. Wakao, et al.: The effect of impact direction on the fracture load of osteoporotic proximal femurs. Medical Engineering & Physics. 31(9):1134-1139. 2009 link_mark.png 整形外科
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