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Journal Abstract Search

198 related items for PubMed ID: 30379095

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  • 2. Histopathological and Radiographic Features of Osteolysis After Fixation of Osteochondral Fragments Using Poly-L-Lactic Acid Pins for Osteochondral Lesions of the Talus.
    Ikuta Y, Nakasa T, Sumii J, Nekomoto A, Adachi N.
    Am J Sports Med; 2021 May; 49(6):1589-1595. PubMed ID: 33780270
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  • 4. Relationship Between Bone Marrow Lesions on MRI and Cartilage Degeneration in Osteochondral Lesions of the Talar Dome.
    Nakasa T, Ikuta Y, Sawa M, Yoshikawa M, Tsuyuguchi Y, Ota Y, Kanemitsu M, Adachi N.
    Foot Ankle Int; 2018 Aug; 39(8):908-915. PubMed ID: 29652193
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  • 5. Clinical Outcomes of Osteochondral Fragment Fixation Versus Microfracture Even for Small Osteochondral Lesions of the Talus.
    Nakasa T, Ikuta Y, Sumii J, Nekomoto A, Kawabata S, Adachi N.
    Am J Sports Med; 2022 Sep; 50(11):3019-3027. PubMed ID: 35901505
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  • 7. The Presence and Degree of Bone Marrow Edema Influence Midterm Clinical Outcomes After Microfracture for Osteochondral Lesions of the Talus.
    Shimozono Y, Hurley ET, Yasui Y, Deyer TW, Kennedy JG.
    Am J Sports Med; 2018 Aug; 46(10):2503-2508. PubMed ID: 30015509
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  • 8. Clinical outcomes after arthroscopic microfracture for osteochondral lesions of the talus are better in patients with decreased postoperative subchondral bone marrow edema.
    Ahn J, Choi JG, Jeong BO.
    Knee Surg Sports Traumatol Arthrosc; 2021 May; 29(5):1570-1576. PubMed ID: 33009941
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  • 9. Simultaneous surgery for chronic lateral ankle instability accompanied by only subchondral bone lesion of talus.
    Yasui Y, Takao M, Miyamoto W, Matsushita T.
    Arch Orthop Trauma Surg; 2014 Jun; 134(6):821-7. PubMed ID: 24633828
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  • 12. The severity of preoperative bone marrow oedema negatively influences short-term clinical outcomes following arthroscopic bone marrow stimulation for osteochondral lesions of the talus.
    Li YB, Fan XZ, Zhou GJ, Su T, Cheng XY, Zhao Q, Jiang D.
    Knee Surg Sports Traumatol Arthrosc; 2024 Sep; 32(9):2440-2451. PubMed ID: 39010713
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  • 14. The role of the oblique medial osteotomy angle during osteochondral fragment fixation in patients with a posteromedial osteochondral lesion of the talus.
    Tsuyuguchi Y, Nakasa T, Ikuta Y, Sumii J, Nekomoto A, Kawabata S, Adachi N.
    J Orthop Sci; 2023 Sep; 28(5):1093-1098. PubMed ID: 35864028
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  • 16. Added Value of Preoperative Computed Tomography for Determining Cartilage Degeneration in Patients With Osteochondral Lesions of the Talar Dome.
    Nakasa T, Ikuta Y, Yoshikawa M, Sawa M, Tsuyuguchi Y, Adachi N.
    Am J Sports Med; 2018 Jan; 46(1):208-216. PubMed ID: 29016192
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  • 17. Treatment of large cystic medial osteochondral lesions of the talus with autologous osteoperiosteal cylinder grafts.
    Hu Y, Guo Q, Jiao C, Mei Y, Jiang D, Wang J, Zheng Z.
    Arthroscopy; 2013 Aug; 29(8):1372-9. PubMed ID: 23906276
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  • 18. Increased Host Bone Marrow Edema on 6-Month Magnetic Resonance Imaging Is a Risk Factor for Osteochondral Allograft Failure.
    Palhares GM, Vaswani R, Fletcher C, Hinkley P, Rizy M, Strickland SM, Gomoll A.
    Arthroscopy; 2024 Sep; 40(9):2443-2452. PubMed ID: 38242253
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  • 19. Comparison of Arthroscopic Microfracture for Osteochondral Lesions of the Talus With and Without Subchondral Cyst.
    Lee KB, Park HW, Cho HJ, Seon JK.
    Am J Sports Med; 2015 Aug; 43(8):1951-6. PubMed ID: 25989800
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  • 20. Efficacy of Particulated Juvenile Cartilage Allograft Transplantation for Osteochondral Lesions of the Talus.
    Dekker TJ, Steele JR, Federer AE, Easley ME, Hamid KS, Adams SB.
    Foot Ankle Int; 2018 Mar; 39(3):278-283. PubMed ID: 29262723
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