CAMBIO EN EL USO DEL SUELO EN GENERAL VIEJO DE PEREZ ZELEDON

El presente trabajo es un intento de análisis de las características geográficas de sector de Valle del General. Para delimitar el área se tomó la confluencia del río Buena Vista con el Chirripó; o sea, a partir de donde se origina el río General, hasta confluencia de éste con el río Peñas Blancas, esto es, la margen izquierda del río General, entre las cotas 500 m hacia el sur del área y la de 100m al norte. El área de estudio tiene una superficie de 87.8 km²  3.251 habitantes (mapa nº 1). Se expande por la izquierda del río General y tiene como centro de atracción al antiguo pueblo de General Viejo, entre Rivas y las Juntas de Pacuar; en general, coincide con los limites político-administrativos de del distrito segundo del cantón de Pérez Zeledón. Se pretende, también, aplicar el método de trabajo de la geografía regional. Por eso, el plan de trabajo elaborado contempla el aspecto físico y humano. En el conjunto de la estructura productiva, se toma como base los cambios ocurridos en el uso del suelo entre 1973-1979; en este sentido, se pretende dar una explicación global de los elementos que intervinieron para que operaran dichos cambios y la explicación de ello en función del sistema económico imperante.   SUMMARY This article intent to analyze the geographic characteristics of sector of the General Valley. The junction of Buena Vista and Chirripó rivers was chosen in order to delimit the area; or in other words, starting from the origin of the General river to its junction with the Peñas Blancas river, that corresponds to the left margin of the General river, between the benchmarks 500 meters to the south of the area and 1000 meters to the north. The area being studied has a surface area of 87.7 square kilometers and a total of 3.251 habitants (map nº 1). Expansion occurs on the left side of the General River whose center of attraction is the old town of General Viejo, located between Rivas and the Juntas Pacuar; in general, it coincides with the political-administrative limits of the second district of Perez Zeledon canton. The application of the work method used in regional geography is also contemplated. As such, the elaborated work plan takes into account the human and physical aspects. In the combined total of the production structure, the changes that occurred in the land use between the years 1973-1979, was chosen as a base; in this sense, a global explanation is given of the elements that intervened in order to make possible such changes and of the functions of the current economic system.       RESUME Ce travail concerne seulement un secteur de la Vallée de El General, délimité comme suit : de la confluence du Rio Buena Vista et du Rio Chirripó, dont l’union donne naissance au Rio General, jusqu’i au confluence de ce Dornier avec son affluent le Rio Peñas Blancas. Il correspond à la rive gauche du General, entre les côtes 1.000 au nord, prés de Rivas, et 500 au sud (Juntas de Pacuar) courne 87.8 km² et compte 3.251 hab (carte nº 1). Il s’étend autour de l’ancien petit centre rural, El General Viejo, et coïncide plus ou moins, avec le district Nº 2 du Canton de Pérez Zeledón. On y applique la méthode d’analyse de la géographique régionale, à la fois sur les plans humain et physique, pour définir son organisation de production et son évolution entre 1973-1979, surtout pour ce qui concerne l’utilisation des terres; évolution à laquelle on présente une explication globale en fonction du système ecónomique.    

Interspecies study of the enteric nervous system and related pathologies

The enteric nervous system (ENS) modulates a number of digestive functions including well known ones, i.e. motility, secretion, absorption and blood flow, along with other critically relevant processes, i.e. immune responses of the gastrointestinal (GI) tract, gut microbiota and epithelial barrier . The characterization of the anatomical aspects of the ENS in large mammals and the identification of differences and similarities existing between species may represent a fundamental basis to decipher several digestive GI diseases in humans and animals. In this perspective, the aim of the present thesis is to highlight the ENS anatomical basis and pathological aspects in different mammalian species, such as horses, dogs and humans. Firstly, I designed two anatomical studies in horses:  “Excitatory and inhibitory enteric innervation of horse lower esophageal sphincter”.  “Localization of 5-hydroxytryptamine 4 receptor (5-HT4R) in the equine enteric nervous system”. Then I focused on the enteric dysfunctions, including:  A primary enteric aganglionosis in horses: “Extrinsic innervation of the ileum and pelvic flexure of foals with ileocolonic aganglionosis”.  A diabetic enteric neuropathy in dogs: “Quantification of nitrergic neurons in the myenteric plexus of gastric antrum and ileum of healthy and diabetic dogs”.  An enteric neuropathy in human neurological patients: “Functional and neurochemical abnormalities in patients with Parkinson's disease and chronic constipation”. The physiology of the GI tract is characterized by a high complexity and it is mainly dependent on the control of the intrinsic nervous system. ENS is critical to preserve body homeostasis as reflect by its derangement occurring in pathological conditions that can be lethal or seriously disabling to humans and animals. The knowledge of the anatomy and the pathology of the ENS represents a new important and fascinating topic, which deserves more attention in the veterinary medicine field.

Unraveling the pathophysiological mechanisms of visceral pain in the murine model of Fabry disease

Fabry disease (FD) is an X‐linked inherited, lysosomal storage disorder characterized by a deficient activity of the enzyme α-Galactosidase A (α-Gal A). This deficiency causes an accumulation of globotriaosylceramide 3 (Gb3), in nearly all organs. Gastrointestinal (GI) symptoms are among the earliest and most frequent symptoms of FD. It has been hypothesized that Gb3 accumulation is the leading cause of these, but their pathophysiology is complex and still poorly understood. Here, we aim at understanding the molecular mechanisms underpinning the GI symptoms of FD. For this purpose, we used the α‐Gal A (-/0) male mouse, a murine model of FD, to characterize morphological and molecular features of the colon tract. Our results show that α‐Gal A (-/0) mice display a thickening of the muscular layer due to a hypertrophic state of myenteric plexus ganglia, caused by an accumulation of Gb3 in neurons. Also, α-Gal A (-/0) mice present a decreased density of mucosal nerve fibres. Furthermore, α-Gal A (-/0) mice presented visceral hyperalgesia, by showing greater visceromotor response (VMR) values and obtaining higher abdominal withdrawal reflex (AWR) scores, following colorectal distension (CRD). Subsequently, the immunoreactivity of the pain-related ion channels TRPV1, TRPV4, TRPA1 and TRPM8 was detected at level of myenteric and submucosal plexus ganglia of both the genotypes. Further studies are required to assess differences of expression between α-Gal A (-/0) and control mice. Finally, we optimized the protocols to obtain three types of primary cultures from mouse intestine to be tested electrophysiologically: a mixed culture containing neurons and glia, an enriched culture of neurons, and one of glia. In summary, we revealed alterations that are likely to be part of the pathophysiological causes of FD GI symptoms. Therefore, together with further studies, this work could help identify new therapeutic targets for the treatment of visceral pain in FD.