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Serdar Altinay et al.
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Luka Brcic et al.
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N. Alcala et al.
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Guido Rindi et al.
MODERN PATHOLOGY (2018)
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Paul E. Sackstein et al.
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Michele Simbolo et al.
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Caterina Marchio et al.
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Alessandra Fabbri et al.
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Giuseppe Pelosi et al.
TRANSLATIONAL LUNG CANCER RESEARCH (2017)
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Natasha Rekhtman et al.
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Elisa Neubauer et al.
ONCOTARGET (2016)
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Arne Warth et al.
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Neighborhood Component Feature Selection for High-Dimensional Data
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Zhaohai Yang et al.
AMERICAN JOURNAL OF SURGICAL PATHOLOGY (2011)
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PLOS ONE (2011)