El mantenimiento de la postura es una conducta motora fundamental de los mamíferos donde participan los sistemas nervioso y músculo esquelético. Un daño/alteración en la comunicación entre estos es capaz de modificarla. Se ha observado que lesiones directas o indirectas a nivel de médula espinal como la avulsión ventral lumbosacra (ARV) modifican la generación de patrones rítmicos formados por la actividad alternada entre un músculo flexor y un extensor (p. ej. locomoción y postura). Como objetivo de nuestra investigación buscamos evaluar el efecto de la avulsión unilateral derecha de las raíces ventrales lumbar 6 a sacro 2 (L6-S2) sobre la conducta postural de la coneja. Se utilizaron 12 conejas vírgenes (6 ± 2 meses de edad) divididas en dos grupos: 1) Sham (S) (n= 6), con simulación de la avulsión; y 2) Avulsionado (ARV L6-S2) (n= 6), con avulsión unilateral derecha a nivel lumbosacro (L6-S2). Quince días después de la cirugía se realizó el registro de la postura aplicando tinta en las huellas de las cuatro extremidades para ser registradas sobre papel doble carta. Las huellas fueron digitalizadas para medir las distancias y los ángulos entre ellas. La avulsión unilateral derecha L6-S2 afectó significativamente la conducta postural de la coneja mostrando diferencias significativas entre las distancias (p˂ 0.05) y los ángulos formados entre sus extremidades (p˂ 0.05). Nuestra conclusión es que la avulsión unilateral derecha L6-S2 en la coneja modifica su conducta postural y anula la locomoción debido al daño sobre la comunicación entre el sistema nervioso y el músculo esquelético.

Abstract: The corpus luteum is a dynamic tissue that is generated after an oocyte is released by an ovarian follicle. It’s main function is the production of progesterone for the establishment and maintenance of pregnancy. This review addresses issues related to the formation, function, and regression of the corpus luteum. Physiological processes such as angiogenesis and the effect of non-steroidal hormones produced by the corpus luteum are described. The intrinsic innervation of the ovaries, including the corpus luteum is also introduced, a controversial topic since this structure is considered as non-innervated. Advances in the understanding of the physiology of the corpus luteum will help to improve our knowledge about the physiology of the gonads, primarily focusing on new treatments for fertility disorders related to luteal insufficiency. This information is highly relevant for both human clinical and livestock farming areas.

Keywords: Ovarian innervation; ovulation; ovarian function; corpus luteum; luteal insufficiency.

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