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scientific article published on 3 July 2018 artículu científicu vědecký článek vetenskaplig artikel научни чланак სამეცნიერო სტატია 2018年學術文章 ৩ জুলাই ২০১৮-এ প্রকাশিত বৈজ্ঞানিক নিবন্ধ 2018年学术文章 научна статия tieteellinen artikkeli articol științific bilimsel makale artigo científico 2018 nî lūn-bûn מאמר מדעי مقالة علمية نشرت في 3 يوليو 2018 2018年學術文章 2018年学术文章 article scientifique article scientific tudományos cikk teaduslik artikkel scientific article published on 03 July 2018 artikull shkencor scientific article published on 3 July 2018 επιστημονικό άρθρο 2018年學術文章 2018年学术文章 scienca artikolo article científic 2018년 논문 artigo científico articolo scientifico videnskabelig artikel udgivet 3. juli 2018 2018年學術文章 научная статья vitenskapelig artikkel artikel ilmiah 2018年学术文章 artigo científico naučni članak мақолаи илмӣ vedecký článok 2018年学术文章 2018年學術文章 научни чланак artículo científico publicado en 2018 наукова стаття, опублікована в липні 2018 vitskapeleg artikkel wetenschappelijk artikel artikulong pang-agham 2018年学术文章 artykuł naukowy 2018年の論文 บทความทางวิทยาศาสตร์ bài báo khoa học im Juli 2018 veröffentlichter wissenschaftlicher Artikel
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Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study
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Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study
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Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study
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Extensibility of the supraspinatus muscle can be predicted by combining shear wave elastography and magnetic resonance imaging-measured quantitative metrics of stiffness and volumetric fat infiltration: A cadaveric study
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