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Pal\'e1gyi K, Tschirren J, Hoffman EA, Sonka M. Quantitative analysis of pulmonary airway tree structures. COMPUTERS IN BIOLOGY AND MEDICINE. 2006;36(9):974-996.\par \par Tschirren J, McLennan G, Pal\'e1gyi K, Hoffman EA, Sonka M. Matching and anatomical labeling of human airway tree. IEEE TRANSACTIONS ON MEDICAL IMAGING. 2005;24(12):1540-1547.\par \par Pal\'e1gyi K, Tschirren J, Hoffman EA, Sonka M. Assessment of intrathoracic airway trees: Methods and in vivo validation. LECTURE NOTES IN COMPUTER SCIENCE. 2004;3117:341-352.\par \par Hoffman EA, Reinhardt JM, Sonka M, Simon BA, Guo J, Saba O, et al. Characterization of the interstitial lung diseases via density-based and texture-based analysis of computed tomography images of lung structure and function. ACADEMIC RADIOLOGY. 2003;10(10):1104-1118.\par \par Pal\'e1gyi K, Tschirren J, Sonka M. Quantitative analysis of intrathoracic airway trees: Methods and validation. In: Taylor C, Noble J A, editors. INFORMATION PROCESSING IN MEDICAL IMAGING, PROCEEDINGS. Berlin; HeidelbergBLAND JM, 1986, LANCET, V1, P307BORGEFORS G, 1984, COMPUT VISION GRAPH, V27, P321CORMEN TH, 1990, INTRO ALGORITHMSGONZALES RC, 1992, DIGITAL IMAGE PROCESKITAOKA H, 1999, J APPL PHYSIOL, V87, P2207KONG TY, 1989, COMPUT VISION GRAPH, V: Springer Verlag; 2003. 2. p. 222-233p. \par \par Pal\'e1gyi K, Tschirren J, Sonka M. Quantitative analysis of three-dimensional tubular tree structures. In: Sonka M, Fitzpatrick J M, editors. Medical Imaging 2003. Bellingham; Washington: SPIE - The International Society for Optical Engineering; 2003. 2. p. 277-287p. \par \par Tschirren J, Pal\'e1gyi K, Reinhardt JM, Hoffman EA, Sonka M. Segmentation, skeletonization, and branchpoint matching - A fully automated quantitative evaluation of human intrathoratic airway trees. LECTURE NOTES IN COMPUTER SCIENCE. 2002;2489:12-19.\par \par }