The consequences of using aspirin (ASA) for the pathogenesis of Chagas disease are unclear. This study evaluated the effects of treatment of Chagas disease with ASA on the esophageal nitrergic myenteric neuron population and esophageal wall in mice. We observed that treatment of chagasic infection with ASA protects the esophageal myenteric neurons from the atrophy caused by the Trypanosoma cruzi infection. The mice were infected with 1300 trypomastigotes of Y strain T. cruzi intraperitoneally. Part of infected mice was treated with ASA from fifth to twelfth day after inoculation. Our data support the hypothesis that eicosanoids given during the acute phase of the chagasic infection may act as immunomodulators aiding the transition to and maintenance of the chronic phase of the disease. Besides, ASA treatment did not provoke alterations in the esophageal wall and the myenteric neurons in infected mice.
Patients with Chagas' disease may develop dysfunctions of oesophageal and colonic motility resulting from the degeneration or loss of the myenteric neurons of the enteric nervous system. Studies have shown that the use of aspirin, also known as acetylsalicylic acid (ASA), influences the pathogenesis of the disease. However, this remains controversial. The aim of this study was to evaluate the consequences of treatment with low doses of aspirin during the chronic phase of Chagas' disease on oesophageal function. Twenty male Swiss mice, 60 days of age, were used. The animals were infected with Y strain of Trypanosoma cruzi, injected intraperitoneally. Aspirin was given at a dose of 50 mg/kg to some of the infected animals, from the 55th to 63rd day after inoculation on consecutive days, and from the 65th to 75th day on alternate days. We investigated food passage of time, wall structure and nitrergic neuronal population of the distal oesophagus. Our data revealed that the use of low doses of aspirin in chronic Chagas' disease caused an increase in the number of nitrergic neurons and partially prevented hypertrophy of the oesophagus. In addition, the aspirin administration impeded Chagas' diseases associated changes in intestinal transit time. Thus treatment with aspirin in the chronic phase of Chagas' disease changes the natural history of the disease and raises the possibility of using it as a new therapeutic approach to the treatment of this aspect of Chagas' disease pathology.
Ileocolonic aganglionosis (ICA) is the congenital and hereditary absence of neurons that constitute the enteric nervous system and has been described in various species including humans - Hirschsprung's disease - and horses - overo lethal white syndrome (OLWS). Hirschsprung's disease affects circa 1 in 5,000 live births. At best, this disease means an inability to absorb nutrients from food (humans). At worse, in horses, it always means death. Despite our general understanding of the functional mechanisms underlying ICA, there is a paucity of reliable quantitative information about the structure of myenteric and submucosal neurons in healthy horses and there are no studies on horses with ICA. In light of these uncertainties, we have used design-based stereology to describe the 3-D structure - total number and true size - of myenteric and submucosal neurons in the ileum of ICA horses. Our study has shown that ICA affects all submucosal neurons and 99% of myenteric neurons. The remaining myenteric neurons (0.56%) atrophy immensely, i.e. 63.8%. We believe this study forms the basis for further research, assessing which subpopulation of myenteric neurons are affected by ileocolonic aganglionosis, and we would like to propose a new nomenclature to distinguish between a complete absence of neurons - aganglionosis - and a weaker form of the disease which we suggest naming ‘hypoganglionosis'. Our results are a step forward in understanding this disease structurally.
RESUMO. Objetivou-se avaliar os efeitos da oferta de uma dieta contendo 4% de proteínas para ratos adultos, quanto aos aspectos morfométricos do plexo mientérico do íleo. Vinte animais foram distribuídos aleatoriamente em dois grupos: Controle (n = 10) que receberam ração comercial com 26% de proteína e Experimental (n = 10) alimentados com ração com teor proteico reduzido para 4%, durante 90 dias. Neurônios do plexo mientérico do íleo presentes em preparados totais foram evidenciados por intermédio da técnica de Giemsa e da NADH-diaforase. Tanto a população neuronal total, assim como a subpopulação NADH-diaforase positiva sofreram atrofia com redução da área do pericário, do núcleo e do citoplasma.Palavras-chave: desnutrição proteica, sistema nervoso entérico, intestino delgado.Atrophy of myenteric neurons in the ileum of rats submitted to severe protein deficiency ABSTRACT. The effects of a 4%-protein diet in adult rats with respect to the morphometric aspects of the myenteric plexus in the ileum were assessed. Twenty animals were randomly divided into two groups: Control Group (n = 10), which received 26%-protein chow, and Experimental Group (n = 10), which received 4%-protein chow for 90 days. Neurons in the myenteric plexus in the ileum in whole mount were evidenced through Giemsa and NADH-diaphorase techniques. The overall neuronal population as well as the subpopulation positive for NADH diaphorase presented atrophy, with a reduction of the perikaryon, nucleus and cytoplasm.Keywords: protein malnutrition, enteric nervous system, small intestine. IntroduçãoA desnutrição, doença eminentemente social, é um dos maiores problemas de saúde pública, que abrange países subdesenvolvidos, em desenvolvimento e bolsões de miséria de países desenvolvidos (NÓBREGA, 1996). Definida como uma ausência do aporte total ou parcial de nutrientes essenciais para a dieta, sobretudo proteína e energia, ocorre frequentemente em crianças menores de cinco anos de idade (NÓBREGA, 1996). Dentro deste contexto, vale destacar que é comum em países em desenvolvimento ocorrer a substituição da dieta balanceada por uma alimentação rica em amido, já que os alimentos proteicos são normalmente mais caros e, por isso, menos acessíveis.Sob carência de nutrientes, o organismo tende a poupar tecidos de baixa renovação como o nervoso (DEO, 1978). Este tecido compõe os elementos do sistema nervoso central e periférico. Considerando este último, na parede do tubo digestório encontrase o plexo mientérico entre os estratos circular e longitudinal da túnica muscular, o qual se organiza como uma rede de gânglios, dispostos regularmente e entremeados com fibras nervosas que se estendem do esôfago ao ânus. Este plexo é responsável pelo controle da motilidade intestinal (FURNESS;COSTA, 2006). É sabido que a desnutrição compromete o funcionamento normal do sistema digestório, o que pode levar à má absorção e à alteração da motilidade intestinal (DOUGLAS, 2004). Como a maioria das reações biomoleculares requer a ação de enzimas (que geralmente são proteínas...
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