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Journal Abstract Search

121 related items for PubMed ID: 37169696

  • 1.
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  • 2. Lesser Trochanteric Fragments in Unstable Pertrochanteric Hip Fractures: A Morphological Study Using Three-Dimensional Computed Tomography (3-D CT) Reconstruction.
    Xiong WF, Zhang YQ, Chang SM, Hu SJ, Du SC.
    Med Sci Monit; 2019 Mar 19; 25():2049-2057. PubMed ID: 30889172
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  • 4. Medial wall fragment involving large posterior cortex in pertrochanteric femur fractures: a notable preoperative risk factor for implant failure.
    Li P, Lv Y, Zhou F, Tian Y, Ji H, Zhang Z, Guo Y, Yang Z, Hou G.
    Injury; 2020 Mar 19; 51(3):683-687. PubMed ID: 31987607
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  • 5. New classification focusing on the relationship between the attachment of the iliofemoral ligament and the course of the fracture line for intertrochanteric fractures.
    Futamura K, Baba T, Homma Y, Mogami A, Kanda A, Obayashi O, Sato K, Ueda Y, Kurata Y, Tsuji H, Kaneko K.
    Injury; 2016 Aug 19; 47(8):1685-91. PubMed ID: 27242330
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  • 7. The remnant axial cortical length of the proximal femur in pertrochanteric fractures: a three-dimensional computed tomography study and its clinical implications.
    Li B, Hu SJ, Chang SM, Wei Z, Du SC, Xiong WF.
    BMC Musculoskelet Disord; 2023 Dec 05; 24(1):941. PubMed ID: 38053090
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  • 9. Which AO/OTA 31-A2 pertrochanteric fractures can be treated with a dynamic hip screw without developing a lateral wall fracture? A CT-based study.
    Sharma G, Singh R, Gn KK, Jain V, Gupta A, Gamanagatti S, Farooque K, Sharma V.
    Int Orthop; 2016 May 05; 40(5):1009-17. PubMed ID: 26141048
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  • 12. Anteromedial cortical support reduction in unstable pertrochanteric fractures: a comparison of intra-operative fluoroscopy and post-operative three dimensional computerised tomography reconstruction.
    Chang SM, Zhang YQ, Du SC, Ma Z, Hu SJ, Yao XZ, Xiong WF.
    Int Orthop; 2018 Jan 05; 42(1):183-189. PubMed ID: 28891021
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  • 14. Proposal of new classification of femoral trochanteric fracture by three-dimensional computed tomography and relationship to usual plain X-ray classification.
    Shoda E, Kitada S, Sasaki Y, Hirase H, Niikura T, Lee SY, Sakurai A, Oe K, Sasaki T.
    J Orthop Surg (Hong Kong); 2017 Jan 05; 25(1):2309499017692700. PubMed ID: 28211303
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  • 15. Impact of coronal plane fragments and anterior big neck fragments on the occurrence of perioperative lateral wall fractures in AO/OTA 31-A1,2 intertrochanteric fractures treated with cephalomedullary nailing.
    Kim YV, Lee KH, Lee HH, Kwon GH, Hwang JH, Lee SW.
    Eur J Trauma Emerg Surg; 2022 Oct 05; 48(5):3933-3939. PubMed ID: 35266020
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  • 16. Displaced trochanteric fragments lead to poor functional outcome in pertrochanteric fractures treated by cephalomedullary nails.
    Studer P, Suhm N, Wang Q, Rosenthal R, Saleh HA, Jakob M.
    Injury; 2015 Dec 05; 46(12):2384-8. PubMed ID: 26454629
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  • 18. Clustering of morphological fracture lines for identifying intertrochanteric fracture classification with Hausdorff distance-based K-means approach.
    Li J, Tang S, Zhang H, Li Z, Deng W, Zhao C, Fan L, Wang G, Liu J, Yin P, Xu G, Zhang L, Tang P.
    Injury; 2019 Apr 05; 50(4):939-949. PubMed ID: 31003702
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  • 19. Effect of lesser trochanter posteromedial wall defect on the stability of femoral intertrochanteric fracture using 3D simulation.
    Ren H, Ao R, Wu L, Jian Z, Jiang X, Yu B.
    J Orthop Surg Res; 2020 Jul 03; 15(1):242. PubMed ID: 32620138
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