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1.
Motriz rev. educ. fís. (Impr.) ; 16(3): 638-648, jul.-set. 2010. tab, ilus
Artículo en Portugués | LILACS | ID: lil-563287

RESUMEN

Este trabalho tem como objetivo analisar como se deu o processo de reconfiguração de uma das artes marciais japonesas mais conhecidas – o karate –, traçando sua história no contexto das mutações ocorridas na história do Japão.


The objective of this paper is to analyze the reconfigurations process of a Japanese martial art – the Karate –, tracing its history in the context of the mutations in the Japanese history.


Asunto(s)
Artes Marciales/historia , Artes Marciales/tendencias , Deportes
2.
Reprod Biol Endocrinol ; 7: 57, 2009 Jun 03.
Artículo en Inglés | MEDLINE | ID: mdl-19493333

RESUMEN

BACKGROUND: The guinea pig is an attractive model for human pregnancy and placentation, mainly because of its haemomonochorial placental type, but is rather small in size. Therefore, to better understand the impact of body mass, we studied placental development in the capybara which has a body mass around 50 kg and a gestation period of around 150 days. We paid attention to the development of the lobulated arrangement of the placenta, the growth of the labyrinth in the course of gestation, the differentiation of the subplacenta, and the pattern of invasion by extraplacental trophoblast. METHODS: Material was collected from six animals at pregnancy stages ranging from the late limb bud stage to mid gestation. Methods included latex casts, standard histology, immunohistochemistry for cytokeratin, vimentin, alpha-smooth muscle actin, and proliferating cell nuclear antigen as well as transmission electron microscopy. RESULTS: At the limb bud stage, the placenta was a pad of trophoblast covered by a layer of mesoderm from which fetal vessels were beginning to penetrate at folds in the surface. By 70 days, the placenta comprised areas of labyrinth (lobes) separated by interlobular areas. Placental growth resulted predominantly from proliferation of cellular trophoblast situated in nests at the fetal side of the placenta and along internally directed projections on fetal mesenchyme. Additional proliferation was demonstrated for cellular trophoblast within the labyrinth.Already at the limb bud stage, there was a prominent subplacenta comprising cellular and syncytial trophoblast with mesenchyme and associated blood vessels. At 90 days, differentiation was complete and similar to that seen in other hystricognath rodents. Overlap of fetal vessels and maternal blood lacunae was confirmed by latex injection of the vessels. At all stages extraplacental trophoblast was associated with the maternal arterial supply and consisted of cellular trophoblast and syncytial streamers derived from the subplacenta. CONCLUSION: All important characteristics of placental development and organization in the capybara resembled those found in smaller hystricognath rodents including the guinea pig. These features apparently do not dependent on body size. Clearly, placentation in hystricognaths adheres to an extraordinarily stable pattern suggesting they can be used interchangeably as models of human placenta.


Asunto(s)
Modelos Animales , Placenta , Preñez/fisiología , Roedores/fisiología , Animales , Tamaño Corporal , Membrana Corioalantoides/citología , Membrana Corioalantoides/crecimiento & desarrollo , Membrana Corioalantoides/fisiología , Decidua/citología , Decidua/crecimiento & desarrollo , Decidua/fisiología , Implantación del Embrión/fisiología , Femenino , Edad Gestacional , Esbozos de los Miembros , Placenta/citología , Placenta/fisiología , Placentación , Embarazo , Saco Vitelino/citología , Saco Vitelino/crecimiento & desarrollo , Saco Vitelino/fisiología
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