Integrated optical density analysis of the immunohistochemical expression of the progesterone receptor in the uterine endometrium of prepubertal araucana sheep / Análisis por densidad óptica integrada de la expresión inmunohistoquímica del receptor de progesterona en el endometrio uterino de ovejas prepúberes de raza araucana

SUMMARY: Progesterone receptors are expressed in the reproductive organs of adult sheep, where they regulate morphofunctional and reproductive development. However, various studies have shown the presence of these receptors in the uterus of prepubertal females. It is not clear what role these receptors have at this level of development in uterine tissue. Therefore, it is relevant as a first step in the investigation, to determine the expression and histological distribution of the progesterone receptor in prepubertal sheep in order to determine possible functions at this level of reproductive development. Immunohistochemical analysis allows visualizing the specific presence of a protein in the cellular and histological context, however, the results displayed through digital images are qualitative data and subject to the observer's criteria. In this work, a quantitative analysis method of immunohistochemical expression of the progesterone receptor in ovine endometrium is presented, using digital analysis of images, by means of integrated optical density of digital photographs of histological sections processed with immunohistochemical methods. The results show the possibility of quantitatively evaluating the expression of progesterone receptors in the endometrial stroma and prepubertal endometrial glands by applying the integrated optical density analysis of digital images.

RESUMEN: Los receptores de progesterona se expresan en los órganos reproductores de ovejas adultas, donde regulan el desarrollo morfofuncional y reproductivo. Sin embargo, diversos estudios han demostrado la presencia de estos receptores en útero de hembras prepúberes. No está claro, el papel que estos receptores tienen en este nivel de desarrollo en tejido uterino. Por lo que, es relevante como primer paso en la investigación, determinar la expresión y distribución histológica del receptor de progesterona en ovejas prepúberes con el fin determinar posibles funciones en este nivel de desarrollo reproductivo. El análisis inmuno- histoquímico permite visualizar la presencia específica de una proteína en el contexto celular e histológico, sin embargo, los resultados visualizados a través de imágenes digitales, son datos cualitativos y sujeto al criterio del observador. En este trabajo se presenta un método de análisis cuantitativo de expresión inmunohistoquímica del receptor de progesterona en endometrio ovino, utilizando análisis digital de imágenes, mediante densidad óptica integrada de fotografías digitales de cortes histológicos procesados con métodos inmunohistoquímicos. Los resultados muestran la posibilidad de evaluar cuantitativamente la expresión de los receptores de progesterona en el estroma endometrial y las glándulas endometriales prepúberes aplicando el análisis de densidad óptica integrado de imágenes digitales.

Quantitative evaluation of micro-structural damage of vulnerable areas in rats with diffuse axonal injury with 7.0T MRI / 中华创伤杂志

Objective To observe the spatiotemporal characteristics of the micro-structural injury in a rat model of diffuse axonal injury (DAI) and quantitatively assess the axonal injury severity in the vulnerable areas. Methods The 7.0 T MRI was performed in rats in DAI group (n =20) and control group ( n = 15 ) to synthesize the diffusion tensor imaging ( DTI) parameter map and calculate the parameter value of the vulnerable areas. Immunohistochemistry was used to detect β-APP expression in the vulnerable areas and the IPP software to quantitatively assess the axonal injury severity. Results Compared with the control group, FA and AD maps showed local signal defection or reduction in the corpus callosum and their values decreased significantly in the brain stem and corpus callosum in the DAI group (P ＜0.01 ). The integrated optical density (IOD) value of the vulnerable areas in the DAI group was significantly higher than that of the control group ( P ＜ 0. 01 ) , with the highest level in the brain stem (P＜0.05). The normalized FA, AD and ADC in the vulnerable areas were correlated negatively with the IOD (P ＜ 0.05). Conclusion DTI can detect invisible micro-structural injury in the vulnerable areas and quantitatively assess the axonal injury severity in vivo in the early stage.