Spelling suggestions: "subject:"petite ao s?dio"" "subject:"apetite ao s?dio""
1 |
Protocolos que desafiam o apetite ao s?dio: altera??es hidroeletrol?ticas, cardiovasculares e moleculares / Protocols that defy the appetite to sodium: hydroelectrolytic, cardiovascular and molecular alterationsMonteiro , L?via da Rocha Natalino 17 February 2016 (has links)
Submitted by Sandra Pereira (srpereira@ufrrj.br) on 2017-01-24T15:47:47Z
No. of bitstreams: 1
2016 - L?via da Rocha Natalino Monteiro.pdf: 1451629 bytes, checksum: c984d90970fa9192a11dedd19eb857df (MD5) / Made available in DSpace on 2017-01-24T15:47:47Z (GMT). No. of bitstreams: 1
2016 - L?via da Rocha Natalino Monteiro.pdf: 1451629 bytes, checksum: c984d90970fa9192a11dedd19eb857df (MD5)
Previous issue date: 2016-02-17 / Funda??o Carlos Chagas Filho de Amparo ? Pesquisa do Estado do RJ - FAPERJ / The constant regulation of sodium and water balance is essential for the maintenance of life. From the simplest to the most complex organisms, conservation of such elements at appropriate levels is a vital issue for the homeostasis of the individual. In order to maintain this balance, organisms resort a set of neurohumoral mechanisms that constantly regulate the content of bodily water and sodium. In recent decades, studies of neural mechanisms involved in the regulation of sodium appetite have gained ground since the excessive intake of sodium chloride has been directly related to functional changes which can lead to diseases such as hypertension. Besides the high daily consumption of sodium chloride by occidental societies, there is also a growing number cases of hypertension, particularly the so-called ?salt-sensitive?. Therefore, it is necessary that the mechanisms involved in these changes are intensively studied in scientific models. Thus, through the use of an animal model, we investigated the functional changes arising from the modification of sodium content in the diet of animals. Wistar male rats were randomly divided into 4 groups: i) control (CTRL); ii) low-sodium diet (LSD); iii) furosemide (FURO); iv) saline overload (SO). From this division, we draw the hydroelectrolytic, cardiovascular and molecular profiles of these paradigms four days after the protocols beginning. We found that low-sodium diet and furosemide were able to induce a sustained sodium appetite 4 hours after reintroduction of fluids when compared to control group (LSD: 4.1 ? 0.8 and FURO: 8.5 ? 1.0 vs. CTRL 0.15 ? 0.08 mL/100g body weight, p<0.05, respectively). Besides we have confirmed the occurrence of hypernatremia in SO group (163.7 ? 1.6 vs. 143.2 ? 0.7 mEq/L, p<0.05) we surprisingly have found higher plasma sodium levels in LSD (148.7 ? 1.0 vs. 143.2 ? 0.7 mEq/L, p<0.05) when compared to control group. During the assessment of cardiac parameters, only the FURO group showed smaller mean arterial pressure than control after administration of phenylephrine at both 10 and 50 ?g/mL concentrations (Phe10: 142.6 ? 19.1 vs. 222.4 ? 14 bpm, p<0.05; Phe50: 261.0 ? 74.8 vs. 190.9 ? 19.6 mmHg, p<0.05, respectively), probably due to hypovolemia, a factor which could also explain the absence of hyponatremia in these animals. Concerning the molecular parameters within the PVN, SO group showed an increased mRNA expression of AVP (2.61 ? 0.16 vs. 1.04 ? 0.04 a.u., p<0.05) and OT (1.52 ? 0.12 vs. 1.01 ? 0.05 a.u., p<0.05), while in the LSD group, these parameters are reduced (AVP: 0.65 ? 0.07 vs. 1.04 ? 0.04 a.u., p<0.05; OT: 0.65 ? 0.06 vs. 1.01 ? 0.05 a.u., p<0.05), when compared to control group, respectively. Finally, we found increased levels of AT1 receptor mRNA in SO group (2.94 ? 0.26 vs. 1.14 ? 0.25 a.u, p<0.05) and FURO (3.08 ? 0.51 vs. 1.14 ? 0.25 a.u, p<0.05) compared to control, respectively. Thus, these results underscore the central role of neuroendocrine systems in the modulation of electrolyte and cardiovascular homeostasis / A regula??o constante do balan?o de ?gua e s?dio ? essencial para a manuten??o da vida. Desde os organismos mais simples at? os mais complexos, a conserva??o de tais elementos em n?veis adequados constitui ponto crucial para a homeostase do indiv?duo. Para tanto, os organismos lan?am m?o de uma s?rie de mecanismos neuro-humorais que regulam a todo momento o conte?do de ?gua e s?dio corporal. Nas ?ltimas d?cadas, estudos sobre mecanismos neurais envolvidos na regula??o do apetite ao s?dio t?m ganhado destaque, uma vez que o consumo exagerado de cloreto de s?dio est? diretamente relacionado a altera??es funcionais que podem gerar doen?as como a hipertens?o arterial. Al?m do alto consumo di?rio de s?dio pelas sociedades ocidentais, h? tamb?m um crescente n?mero de casos de hipertens?o arterial, particularmente do tipo denominado sal-sens?vel. Assim, ? necess?rio que os mecanismos envolvidos nessas altera??es sejam intensamente estudados em modelos cient?ficos. Desta forma, atrav?s do uso de modelo animal, investigamos neste trabalho as altera??es funcionais advindas da modifica??o do conte?do de s?dio presente na dieta dos animais. Para tanto, ratos Wistar machos foram randomicamente divididos em 4 grupos experimentais: i) controle (CTRL); ii) dieta pobre em s?dio (DP); iii) furosemida (FURO); iv) sobrecarga salina (SS). A partir desta divis?o, tra?amos os perfis hidroeletrol?tico, cardiovascular e molecular desses paradigmas de desafio ao balan?o hidroeletrol?tico. Verificamos que a dieta hiposs?dica e a furosemida foram capazes de induzir o apetite ao s?dio de forma sustentada at? 4 horas ap?s reapresenta??o de fluidos (DP 4,1 ? 0,8 de peso corporal; FURO 8,5 ? 1,0 vs. CTRL 0,15 ? 0,08 mL/100g; p<0,05). Confirmamos a ocorr?ncia de hipernatremia a partir da sobrecarga salina (SS 163,7 ? 1,6 vs. CTRL 143,2 ? 0,7 mEq/L; p<0,05) e, surpreendentemente, encontramos n?veis natr?micos maiores que o controle no grupo DP (DP 148,7 ? 1,8 vs. Ctrl 143,2 ? 0,7 mEq/L; p<0,05). Quanto ? avalia??o dos par?metros card?acos, somente o grupo furosemida apresentou PAM menor que o controle ap?s a administra??o de fenilefrina nas concentra??es de 10 e 50 ?g/mL ( Phe10 = Furo 142,6 ? 19,1 vs. Ctrl 222,4 ? 14,2 ; Phe50 = Furo 261,0 ? 74,8 vs. Ctrl 190,9 ? 19,6 mmHg; p<0,05), provavelmente devido ? hipovolemia nestes animais. Verificamos ainda que no grupo submetido ? sobrecarga salina ocorre aumento da express?o de mRNA para AVP (SS 2,61 ? 0,16 vs. CTRL 1,04 ? 0,04 a.u - unidades arbitr?rias; p<0,05) e OT (SS 1,52 ? 0,12 vs. CTRL 1,01 ? 0,05 a.u; p<0,05), enquanto que no grupo dieta pobre estes par?metros s?o reduzidos (AVP - DP 0,65 ? 0,07vs. CTRL 1,04 ? 0,04; OT - DP 0,65 ? 0,06vs. CTRL 1,01 ? 0,05 a.u; p<0,05). Por fim, encontramos n?veis aumentados de mRNA do receptor AT1 nos grupos sobrecarga salina (SS 2,94 ? 0,26 vs. CTRL 1,14 ? 0,25 a.u; p<0,05) e furosemida (Furo 3,08 ? 0,51 vs. CTRL 1,14 ? 0,25 a.u; p<0,05). Deste modo, estes resultados refor?am o importante papel dos sistemas neuroend?crinos centrais na modula??o da homeostase hidroeletrol?tica e cardiovascular
|
2 |
Influ?ncia de diferentes doses de cipionato de estradiol nas altera??es hidroeletrol?ticas de ratas ovariectomizadas. / Influence of different doses of estradiol cipionate on the hidroelectrolytic challenges of female ovariectomized rats.MENEZES, Veronica Cristina Lopes 30 July 2015 (has links)
Submitted by Jorge Silva (jorgelmsilva@ufrrj.br) on 2017-06-14T19:34:21Z
No. of bitstreams: 1
2015 - Veronica Cristina Lopes Menezes.pdf: 1388664 bytes, checksum: eb95b2be98ffd5f3a96140f14377f8f2 (MD5) / Made available in DSpace on 2017-06-14T19:34:21Z (GMT). No. of bitstreams: 1
2015 - Veronica Cristina Lopes Menezes.pdf: 1388664 bytes, checksum: eb95b2be98ffd5f3a96140f14377f8f2 (MD5)
Previous issue date: 2015-07-30 / CAPES / The distribution of estrogen receptors in brain structures that are envolved in the hidroelectrolyte balance such as the lamina terminalis (LT), subfornical organ (SFO) and dorsal raphe nucleus (DRN) demonstrated that estradiol can modulate important responses in body fluids. In the literature experimental data support that estrogen can increase the triptofan-hydroxilase type 2 , the main enzyme for the serotonin synthesis. The primary question here is whether or not differences in the baseline or stimulated intake are a function of different levels of circulating gonadal hormones in female ovariectomized rats. Female Wistar intact rats (~230 g) were previously aclimated in metabolic cages during 5 days and ad libitum access to water and hypertonic saline (1.8%) bottles and food. Room temperature was maintained at 22?2 ?C with 12:12 h light-dark cycle (lights off at 19:00). Rats were anesthetized with intraperitoneal injections of a mixture of ketamine (75 mg/kg) and xylazine (5 mg/kg) and then bilaterally ovariohysterectomized. There were four experimental groups: OVX (replaced with corn oil), 2,5 ?g/kg (E2 2,5), 10,0 ?g/kg (E2 10,0) and 40,0 ?g/kg (E2 40,0), daily during seven days, s.c. After 24 h of the surgery the hormonal replacement initiated (estradiol cypionate, EC, Pfizer, Animal Health). We did three experimental protocols: baseline evaluations, sodium depletion and fluid replacement. The estrogen replacement exibitted a dose dependent effect in the following parameters under basal conditions: daily body weight, daily urinary volume and daily food intake. After sodium depletion there were no difference in the urinary volume after 2 and 24 hours of the experiment. But after fluid reposition we observed a dose dependent effect in the ingestive behaviour of water and hypertonic saline intake in sodium depleted and control animals. Our data support that estradiol can alter the natriorexigenic and dipsogenic responses especially after sodium depletion depending of the estrogenic status. / A distribui??o de receptores estrog?nicos em estruturas centrais envolvidas na regula??o da homeostase hidroeletrol?tica como o ?rg?o vasculoso da l?mina terminal, n?cleo subfornicial, n?cleo dorsal da rafe indica que o estradiol pode atuar nessas estruturas em resposta a altera??es nos fluidos corporais. Nosso objetivo foi verificar se a reposi??o hormonal pode influenciar de maneira concentra??o-dependente o status hidroeletrol?tico e neuroend?crino de ratas castradas com reposi??o hormonal em diferentes doses de forma comparativa. Ratas Wistar (~230 g) foram previamente adaptadas, por 5 dias, em gaiolas metab?licas, com acesso ad libitum aos bebedouros volum?tricos de ?gua e salina hipert?nica e ao alimento, sendo mantidas sob ciclo claro-escuro de 12 horas em sala com temperatura controlada em 22??2 ?C. Ao final da adapta??o, as ratas previamente anestesiadas com cetamina (75 mg/kg) e xilazina (5 mg/kg) foram submetidas ? cirurgia de ovariectomia bilateral. Os animais foram divididos em 4 grupos: OVX, reposi??o com ?leo de milho), repostos com ?leo de milho cipionato de estradiol (E2) 2,5 ?g/kg (E2 2,5), 10,0 ?g/kg (E2 10,0) e 40 ?g/kg (E2 40,0). O tratamento de reposi??o foi feito pela via subcut?nea, diariamente durante 7 dias tendo sido iniciado no dia seguinte ? cirurgia. Foram realizados tr?s protocolos experimentais: avalia??o sob condi??es basais, deple??o de ?ons s?dio e reapresenta??o de fluidos. Neste estudo o estradiol apresentou efeito dose dependente nos seguintes par?metros sob condi??es basais: peso corporal di?rio, volume urin?rio di?rio, ingest?o de alimento di?rio. Ap?s deple??o de s?dio n?o houve diferen?a em rela??o ao volume urin?rio de 2 e de 24 horas ap?s o experimento. No entanto ap?s a reapresenta??o dos fluidos houve efeito dose-dependente no comportamento ingestivo de ?gua e de salina hipert?nica tanto nos animais depletados de s?dio quanto nos animais controles.Os dados suportam que o estradiol modula o comportamento ingestivo dos animais sob condi??es basais e ap?s a deple??o de s?dio.
|
Page generated in 0.079 seconds