R.C. De Lucca scite author profile

1.The renal artery to a lone remaining kidney was constricted in fourteen concious dogs. The following variables were measured in all animals: blood pressure (BP), cardiac rate (CR), plasma renin concentration (PRC), plasma volume (PV), extracellular fluid volume (ECFV) and plasma non-protein nitrogen (NPN). Sodium balance was estimated in eleven dogs. Cardiac output (CO), total peripheral resistence (TPR) and stroke volume (SV) were measured in nine dogs. Angiotensin responsiveness (AR) was measured in six animals.2. Within 2 hr the following changes occurred: a sharp increment of BP, PRC and TPR, with initial reduction or no change in CO and CR; SV and PV were not changed. The linear regression of BP changes on PRC changes did not differ statistically from the one previously obtained during the infusion of exogenous renin in the conscious dog. AR was much depressed at 2 hr.3. After 24 hr a slight but sigdicant sodium retention developed, while PV and ECFV and SV increased, CO remained unchanged owing to a decrease of CR. PRC tended to return toward normal while BP remained high. Thus the linear regression between these two variables disappeared. At this stage AR increased toward normal and in two dogs exceeded normal. 4.On days 3 4 and 6-7 after constriction, CO increased owing to a rise of SV, while TPR decreased. PV and ECFV were expanded while sodium balance was maintained. AR varied very much in the individual dogs according mainly to changes of PRC, sodium balance and PV. 5. On days 12-14 sodium balance became positive again, PRC returned within normal levels in almost all the dogs. PV and ECFV also tended to decrease to normal.CO and AR were measured in only two dogs at this stage.6. It is suggested that the early rise of blood pressure might be produced by the

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Pathogenesis of Arterial Hypertension after the Constriction of the Renal Artery Leaving the opposite Kidney Intact Both in the Anaesthetized and in the Conscious Dog

Bianchi

Baldoli

Lucca

et al. 1972

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1. The renal artery was constricted leaving the opposite kidney intact in ten conscious and seven anaesthetized dogs. Intravenous infusion of exogenous renin was done in seven conscious dogs; in four of these the renal artery was constricted 15-17 days later. The following variables were measured in all animals before and after renal artery constriction: plasma renin concentration, blood pressure, cumulative sodium balance, plasma volume, extracellular fluid volume and plasma non-protein nitrogen. Before and after renal artery constriction in the conscious dogs cardiac output, stroke volume, total peripheral resistance and cardiac rate were also measured. In a few dogs angiotensin responsiveness and plasma concentration of renin substrate were also measured.2. There was no significant difference between the regression of change in blood pressure on change in plasma renin concentration within 2 h from renal artery constriction in the conscious dogs and that observed during intravenous infusion of renin. Comparing the changes of these variables with the ones previously obtained with renal artery constriction to the lone remaining kidney, for a given increase of plasma renin concentration the rise of blood pressure was lower when the contralateral kidney was untouched. The changes of the other variables in the conscious dogs may be divided into three phases: a first phase lasting hours, in which, besides the changes described above, there was an increase of total peripheral resistance while the other variables remain unchanged : a second phase, 24 h after constriction, in which blood pressure, total peripheral resistance and plasma renin clearance decreased while plasma volume, cardiac output and extracellular fluid volume slightly increased; however, only the plasma volume change was statistically significant: and a third phase 6-7 days after constriction, when all the variables returned towards normal values, except that the blood pressure and total peripheral resistance remained significantly higher. Sodium balance remained at equilibrium throughout the study

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Alterations of Tooth Eruption and Growth in Pups Suckling from Diabetic Dams

et al. 2005

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Several studies have confirmed a decrease in the quality and quantity of milk of mothers with diabetes during lactation. However, it remains unclear how maternal diabetes affects the offspring specifically during lactation. The aim of this study was to evaluate body and mandibular growth and tooth eruption in pups suckling from diabetic dams. The study was performed on 13 Wistar rat pups that were born to dams that were subjected to experimental diabetes on the day of parturition. Body weight and body size were recorded regularly throughout the study. The experimental pups and a group of eight age-matched pups suckling from nondiabetic dams were killed at weaning. Both hemimandibles were excised and fixed. Right hemimandibles were radiographed to assess mandibular growth and tooth eruption. The left hemimandibles were processed to obtain buccolingually oriented sections at the level of the first mesial root of the first lower molar. Histologic and histomorphometric studies were performed. Results showed that body weight and body size were significantly lower in experimental animals at weaning compared with their age-matched controls. Smaller mandible size and reduced tooth eruption in experimental animals compared with controls were observed. The length, width, and bone volume of the developing alveolus were reduced in experimental animals compared with controls. The results obtained in this study allow the conclusion that suckling from diabetic dams results in reduced body, mandible size, and tooth eruption of the pups at weaning. Diabetes encompasses a group of metabolic diseases characterized by hyperglycemia, which results from decreased insulin secretion, from functional deficiency of insulin action, or both. Diabetes-associated chronic hyperglycemia causes dysfunction, long-term damage, and failure of several body organs (1).When a mother has diabetes, the alterations in maternal metabolism cause damage to the offspring, not only during gestation but also during lactation. Alterations in maternal metabolism during gestation are responsible for fetal macrosomia and congenital malformations, among other consequences (2,3). There are reports of the long-term effects of neonatal breastfeeding in children of mothers with pregestational diabetes during pregnancy (4). It may result in an increased risk for becoming overweight and developing impaired glucose tolerance during childhood. Moreover, diabetic dams have decreased yield and altered composition of the milk (5-9). Alterations in maternal metabolism caused by diabetes during lactation may affect the offspring specifically when the known effects that maternal diabetes has on their pups during pregnancy are excluded. Thus, the first aim of this study was to measure the effect of reduced milk quality and quantity on body size and weight of the pups of dams that were rendered diabetic before lactation.Tooth eruption is a complex process in developmental biology and is yet to be fully understood. Tooth and periodontal development are two major events associated ...

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Effect of different doses of hexavalent chromium on mandibular growth and tooth eruption in juvenile Wistar rats

Lucca

Dutrey

Villarino

et al. 2009

Experimental and Toxicologic Pathology

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Impairment of rat tooth eruption in pups born to mothers exposed to chronic stress during pregnancy

Fontanetti

Lucca

Mandalunis

et al. 2013

Archives of Oral Biology

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R.C. De Lucca

Effect in the Conscious Dog of Constriction of the Renal Artery to a Sole Remaining Kidney on Haemodynamics, Sodium Balance, Body Fluid Volumes, Plasma Renin Concentration and Pressor Responsiveness to Angiotensin

Pathogenesis of Arterial Hypertension after the Constriction of the Renal Artery Leaving the opposite Kidney Intact Both in the Anaesthetized and in the Conscious Dog

Alterations of Tooth Eruption and Growth in Pups Suckling from Diabetic Dams

Effect of different doses of hexavalent chromium on mandibular growth and tooth eruption in juvenile Wistar rats

Impairment of rat tooth eruption in pups born to mothers exposed to chronic stress during pregnancy

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