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2020, Intravascular Ultrasound: From Acquisition to Advanced Quantitative AnalysisTissue expansion of lung bronchi due to tissue processing for histology – A comparative analysis of paraffin versus frozen sections in a pig model
2019, Pathology Research and PracticeCitation Excerpt :Rapid intraoperative frozen sectioning with subsequent confirmation of the result using paraffin sections is an important method in contemporary patient care. Tissue shrinkage caused by tissue fixation and processing has been reported for several tissue types, including optic tissue [1,6,12,13], skin [14–17], blood vessels [18,19], pericardium [20], head and neck tissue [21–24,35], prostate [25], gynecological specimens [36], neural tissue [26,27,37], tissue from the gastrointestinal tract [10,28–30] and lung tissue [31,32,38,39]. Furthermore, it is well known that discrepancies may occur in the evaluation of the most commonly used histological processing methods, namely paraffin and frozen sections [40–49].
Ecografía cutánea
2014, Actas Dermo-SifiliograficasCan high-frequency skin ultrasound be used for the diagnosis and management of basal cell carcinoma?
2014, Actas Dermo-SifiliograficasUltrasound assessment of the anatomical validity of T3 and L4 as sEMG recording sites
2011, Journal of BiomechanicsCitation Excerpt :The sites identified by de Sèze and Cazalets were, however, identified on cadavers and it remains possible that the extent of the fascia is different in live subjects for a number of reasons. First, cadaveric muscle architecture differs from living muscle architecture: aged and preserved tissues can be flattened and thinned making it difficult to find margins between contractile and non-contractile tissues (Salmhofer et al., 1996; Martin et al., 2001). Second, the resting position of muscle after death may be different to that during life (Tsui et al., 2008).