M. Corea scite author profile

M. Corea

5Publications

134Citation Statements Received

40Citation Statements Given

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126

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Affiliations

Vivantes Klinikum, Freie Universität Berlin, Humboldt-Universität zu Berlin

Publications

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Resetting of 24-h sodium and water balance during 4 days of servo-controlled reduction of renal perfusion pressure

Reinhardt

Corea

Boemke

et al. 1994

American Journal of Physiology-Heart and Circulatory Physiology

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This study examines whether an increase in renal perfusion pressure (RPP) is necessary to escape endogenously stimulated Na- and water-retaining mechanisms. In seven dogs stimulation was accomplished by a servo-controlled reduction of RPP (rRPP) below the threshold for pressure-dependent renin release for 4 days. Oral intake was standardized. Plasma renin activity (PRA) rose from 2.5 in controls to approximately 5 ng ANG I.ml-1 x h-1 during rRPP days. Plasma aldosterone concentration (PAC) increased by approximately 50% only on day 1 of rRPP but fell at or below control levels thereafter. The PAC-to-PRA ratio decreased during rRPP days. Atrial natriuretic factor (ANF) rose to values three times higher than in controls. Mean systemic blood pressure (MABP) rose from 111 +/- 12 in controls to 142 +/- 14 mmHg on day 4 of rRPP. On day 1 of rRPP 60% of the Na and 24% of the water intake were retained. However, after 2-3 days the input-output balance was restored but on a higher level of total body Na and total body water (new "set point"). Because elevated systemic MABP could not exert direct pressure effects on the kidneys due to servo control of rRPP, there must be other factors, e.g., fall in PAC, increase in ANF, and changes in intrarenal hemodynamics and physical factors that may have contributed to the resetting of input-output balances during rRPP.

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ACE inhibition prevents Na and water retention and MABP increase during reduction of renal perfusion pressure

Boemke

Seeliger

Rothermund

et al. 1995

American Journal of Physiology-Regulatory, Integrative and Comp

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Two groups of six dogs were studied during 4 control days and 4 days of reduced renal perfusion pressure (rRPP) servo controlled at 20% below the individual dog's 24-h mean arterial blood pressure (MABP) during control days, i.e., below the threshold for renin release. On rRPP days, endogenous activation of plasma aldosterone and angiotensin II was inhibited by the angiotensin-converting enzyme inhibitor captopril. The dogs were kept on a high-Na and high-water intake. Unlike studies during rRPP alone, there was no Na and water retention during rRPP+captopril. Glomerular filtration rate dropped by approximately 9%, and MABP remained in the range of control days. Plasma renin activity rose to values 14 times greater than control, whereas plasma aldosterone decreased by approximately 60%. Atrial natriuretic peptide remained in the range of controls. In conclusion, angiotensin-converting enzyme inhibition can prevent the otherwise obligatory Na and water retention and systemic MABP increase during a 20% reduction in renal perfusion pressure. This is achieved most likely via the captopril-induced fall in angiotensin II and plasma aldosterone levels.

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Mechanisms compensating Na and water retention induced by long-term reduction of renal perfusion pressure

Seeliger

Boemke

Corea

et al. 1997

American Journal of Physiology-Regulatory, Integrative and Comp

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Endogenous downregulation of plasma aldosterone (Aldo) concentration, despite increased plasma renin activity (PRA), has been suggested to compensate Na and water retention, which is induced by long-term reduction of renal perfusion pressure (rRPP). To determine whether fixed plasma Aldo concentration would prevent equilibration of 24-h Na and water balances during rRPP, chronically instrumented, freely moving beagle dogs were kept under standardized conditions (daily intake 5.5 mmol Na/kg body wt) and studied for 4 consecutive days under the following conditions: control without rRPP (protocol 1) and rRPP + infusion of Aldo (rRPP + Aldo, protocol 2). Because Aldo administration reduces PRA and, thereby, angiotensin II (ANG II) levels ANG II was additionally infused in protocol 3 (rRPP + ANG II + Aldo). During rRPP + Aldo, 24-h Na balances were never equilibrated. Daily Na retention was approximately 3.5 mmol/kg body wt on day 1 and decreased to approximately 1.6 mmol/kg body wt on day 4; 24-h water balances changed in a similar manner. PRA decreased stepwise. On all rRPP + ANG II + Aldo days, Na and water retentions were more extensive than during rRPP + Aldo. Daily Na retention decreased from approximately 4.4 mmol/kg body wt on day 1 to approximately 3.0 mmol/kg body wt on day 4. Plasma atrial natriuretic peptide increased during both protocols. It is concluded that 1) endogenous downregulation of components of the renin-angiotensin-aldosterone system is a pivotal compensatory mechanism to reduce Na and water retention and 2) natriuretic and diuretic factors seem to be of minor potency, because not even the sum of all could counterbalances the Na- and water-retaining effects of Aldo and ANG II.

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Influence of Captopril on 24-Hour Balances and the Diurnal Patterns of Urinary Output, Blood Pressure, Aldosterone and Atrial Natriuretic Peptide in Conscious Dogs

Boemke¹,

Palm²,

Mohnhaupt³

et al. 1995

Kidney Blood Press Res

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The diurnal time course of urinary flow rate (UV), urinary sodium (U_NaV), and potassium (U_KV) excretion, and of hormones such as atrial natriuretic peptide (ANP) and aldosterone, was investigated during 5 days of continuous captopril infusion (15 µg · kg body weigth^-1 · min^-1) in 4 conscious dogs on a high sodium diet (14.5 mmol Na·kg body weigth^-1 24 h^-1). All food and water was given once daily at 8.30 a.m. On the control day and on days 1, 3, and 5 of·captopril infusion, urine was collected by an automated system at 20-min intervals over 24 h, blood was taken every 4 h. Mean arterial blood pressure (MABP) and heart rate were evaluated as 5-min averages. Time courses of U_NaV, UV, and UKV were compared with the individual control day without captopril. With captopril, 24-hour balances for Na and H₂0 were slightly negative, while the K balance was slightly positive for 2-3 days. Thereafter, all 24-hour balances were restored. MABP continued to decrease even after Na and water intake and output had come into balance again. Captopril treatment changed the diurnal excretion pattern for U_NaV and UV characteristically. In the postprandial period until 5 p.m., less Na and urine were excreted than on the control day, whereas during the evening and night more Na and urine were excreted. The changes in the excretion pattern persisted for the entire observation period. The results indicate that disturbances in the regulating systems, induced by converting-enzyme blockade, bring about complex reactions of, e.g., MABP ANP and aldosterone that finally restore Na and water 24-hour input/output balances.

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Diurnal Pattern of Sodium Excretion in Dogs with and without Chronically Reduced Renal Perfusion Pressure

Corea

Seeliger²,

Boemke³

et al. 1996

Kidney Blood Press Res

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In 5 conscious dogs the diurnal patterns of urinary sodium excretion (U_NaV) were investigated, initially during 1 control day and, thereafter, during 4 days of servo-controlled reduction of renal perfusion pressure (rRPP). The individual dog’s mean arterial blood pressure was reduced to 80% of the blood pressure on the control day. This value was always found to be below the threshold for the pressure-dependent renin release. During the entire study period urine was collected in 4-hour intervals and blood samples were taken every 4 h. The dogs were kept on a standardized high sodium and high water intake and were fed once daily at 8.30 h. On the control day, U_NaV, urinary flow rate (UV), fractional lithium excretion (FE_Li) and fractional sodium excretion (FE_Na) had similar diurnal patterns. They peaked 4-8 h after food intake and decreased to low values during the night. On day 1 of rRPP, U_NaV and FE_Na were maintained at very low levels in all collection periods, whereas the patterns of UV and FE_Li were unaltered compared with the patterns on the control day. On days 2-4of rRPP, a clear-cut maximum in the patterns of U_NaV and FE_Na recurred, comparable with the patterns on the control day. However, compared with the control day this maximum was shifted by 4 h towards the night. In contrast, the patterns of UV and FE_Li remained unchanged compared with the control day. The results indicate that U_NaV has a typical time course in conscious, sodium- and water-replete dogs fed once daily. Endogenous stimulation of sodium reabsorption by means of rRPP results in a characteristic 4-hour shift of U_NaV and FE_Na towards the night during rRPP days 2-4. This delay in U_NaV seems to be evoked by processes in the distal tubule.

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M. Corea

Resetting of 24-h sodium and water balance during 4 days of servo-controlled reduction of renal perfusion pressure

ACE inhibition prevents Na and water retention and MABP increase during reduction of renal perfusion pressure

Mechanisms compensating Na and water retention induced by long-term reduction of renal perfusion pressure

Influence of Captopril on 24-Hour Balances and the Diurnal Patterns of Urinary Output, Blood Pressure, Aldosterone and Atrial Natriuretic Peptide in Conscious Dogs

Diurnal Pattern of Sodium Excretion in Dogs with and without Chronically Reduced Renal Perfusion Pressure

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