BACKGROUND: Dilation of intercellular space diameters of oesophageal epithelium detected at transmission electron microscopy morphometry is a marker of tissue injury in non-erosive reflux disease patients. Semi-quantitative evaluation of intercellular space diameters using light microscopy seems to provide promising results. AIM/ METHODS: To comparatively evaluate intercellular space diameters in the same patients, by means of morphometry and semi-quantitative analysis, both on light microscopy and transmission electron microscopy microphotographs, biopsies were taken in 29 non-erosive reflux disease patients at distal and proximal oesophagus. Twelve asymptomatic controls underwent the same protocol. RESULTS: Morphometric analysis on transmission electron microscopy microphotographs showed mean intercellular space diameter values of patients, at distal and proximal oesophagus, 3- and 2-fold, respectively, higher than those in controls (p<0.001). On light microscopy microphotographs, mean intercellular space diameter values of patients at distal oesophagus were higher than those in controls, an overlap between patients and controls being observed. The semi-quantitative score was positive in 79% of patients and in 25% of controls at distal esophagus. CONCLUSIONS: Intercellular space diameter morphometric analysis at light microscopy is widely available, allows intercellular space diameter to be quantitatively measured with good sensitivity and specificity and could represent a useful tool in non-erosive reflux disease diagnosis. Despite satisfactory sensitivity, the semi-quantitative score at light microscopy is hampered by much lower specificity than transmission electron microscopy- and light microscopy-morphometry.
BACKGROUND: Dilation of intercellular space diameters of oesophageal epithelium detected at transmission electron microscopy morphometry is a marker of tissue injury in non-erosive reflux diseasepatients. Semi-quantitative evaluation of intercellular space diameters using light microscopy seems to provide promising results. AIM/ METHODS: To comparatively evaluate intercellular space diameters in the same patients, by means of morphometry and semi-quantitative analysis, both on light microscopy and transmission electron microscopy microphotographs, biopsies were taken in 29 non-erosive reflux diseasepatients at distal and proximal oesophagus. Twelve asymptomatic controls underwent the same protocol. RESULTS: Morphometric analysis on transmission electron microscopy microphotographs showed mean intercellular space diameter values of patients, at distal and proximal oesophagus, 3- and 2-fold, respectively, higher than those in controls (p<0.001). On light microscopy microphotographs, mean intercellular space diameter values of patients at distal oesophagus were higher than those in controls, an overlap between patients and controls being observed. The semi-quantitative score was positive in 79% of patients and in 25% of controls at distal esophagus. CONCLUSIONS: Intercellular space diameter morphometric analysis at light microscopy is widely available, allows intercellular space diameter to be quantitatively measured with good sensitivity and specificity and could represent a useful tool in non-erosive reflux disease diagnosis. Despite satisfactory sensitivity, the semi-quantitative score at light microscopy is hampered by much lower specificity than transmission electron microscopy- and light microscopy-morphometry.
Authors: Sanghoon Park; Hoon Jai Chun; Jin Su Jang; Bora Keum; Yeon Seok Seo; Yong Sik Kim; Yoon-Tae Jeen; Hong Sik Lee; Soon Ho Um; Chang Duck Kim; Ho Sang Ryu; Chang-Sub Uhm; Sung Joon Lee Journal: Dig Dis Sci Date: 2011-07-07 Impact factor: 3.199
Authors: Nicolaas F Rinsma; Ricard Farré; Fred J Troost; Montserrat Elizalde; Daniel Keszthelyi; Zsuzsanna Helyes; Ad A Masclee; José M Conchillo Journal: Int J Mol Sci Date: 2017-05-19 Impact factor: 5.923