Blunted natriuretic response to an acute sodium load in obese hypertensive dogs.

West, David B.; Wehberg, Kurt E.; Kieswetter, K.; Granger, J. P.

doi:10.1161/01.hyp.19.1_suppl.i96

Cited by 22 publications

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“…Thus, a longer period of overfeeding, with greater body fat content of the animals may have changed the results observed following energy restriction in insulin and glucose, as well as other parameters measured in this study. While the decrease in blood pressures with weight reduction with either diet was expected (33), there was not a significant increase in blood pressure with weight gain during the 9-week ad libitum feeding period as we (40) and others (33) have previously reported in the dog. This may have been due to the fact that the gain in body weight following 9 weeks of the moderately high-fat diet was slight and only two of the animals had high levels of body fat (Table 2).…”

Section: Discussionsupporting

confidence: 62%

Differential Metabolic Effects of Energy Restriction in Dogs Using Diets Varying in Fat and Fiber Content

et al. 1996

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Differential metabolic effects of energy restriction in dogs using diets varying in fat and fiber content. Obes Res. 1996;4:337-345. The role of dietary fat and fiber in energy restriction for the management of obesity was examined. Twelve male castrated dogs were energy restricted for 7 weeks by feeding 60% of their calculated maintenance energy requirements (MER = 1500 kcaUm 2/d) for ideal body weight. Six dogs were restricted on a high-fat (35.4 kcal % from fat), lowfiber (2.9% dry matter basis [DMB]) diet while the other six dogs were restricted on a low-fat (24.5 kcal % from fat), high-fiber (27% DMB) diet. Compared with the high-fat, low-fiber diet, energy restriction on the low-fat, high-fiber diet resulted in significantly greater decreases in body fat (1472 ± 166 vs, 853 ± 176 g ; p < 0.05) and total serum cholesterol concentrations (108.7 ± 11.3 vs, 51.5 ± 13.9 mgldL ; p< 0.005). Reductions in body weight (2.86 ± 0.3 vs, 2.14 ± 0.3 kg; p< 0.09), and mean arterial blood pressure (17.4 ± 6.1 vs. 6.7 ±2.9 mmHg; p < 0.12) were also greater on the low-fat diet; however, these diet effects did not reach statistical signifi- cance, These data suggest that the fat and fiber content of the diet during energy restriction are important factors in the management of obesity.

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Section: Discussionsupporting

confidence: 62%

Differential Metabolic Effects of Energy Restriction in Dogs Using Diets Varying in Fat and Fiber Content

et al. 1996

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“…4 -910 We have also recently reported that the obese hypertensive dog excretes significantly less sodium and water than normotensive control dogs in response to an acute saline load. 11 Furthermore, research indicates that obese hypertensive patients exhibit abnormal renal sodium handling. 14 Thus, it appears that the regulatory mechanisms responsible for control of sodium excretion and extracellular fluid volume may be altered in obesity-associated hypertension.…”

Section: Discussionmentioning

confidence: 99%

Abnormal pressure natriuresis in the dog model of obesity-induced hypertension.

1994

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Obesity is considered to be a major factor in the pathogenesis of hypertension in industrialized countries. Recent studies have suggested that the kidneys may play an important role in the development of obesity-induced hypertension. The purpose of this study was to determine whether obesity-induced hypertension is associated with abnormalities in the pressure-natriuresis relation. Renal function studies were performed in anesthetized control dogs (body weight, 20.2+0.8 kg) and obese dogs (body weight, 26.4±0.7 kg) that were maintained on a high-fat diet for 5 to 6 weeks. Mean arterial pressure averaged 122±5 mm Hg in the control group (n=6) and 148±7 mm Hg in the obese group (n=8). The effects of renal perfusion pressure on renal hemodynamics as well as sodium and water excretions were examined at five levels of renal perfusion pressure ranging from 75 to 165 mm Hg. Pressure-natriuretic and diuretic responses were reduced in the obese dogs by 40% to 50%. The renal blood flow and glomerular filtration rate autoregulatory responses and fractional lithium excretion responses to changes in renal perfusion pressure were similar in the control and obese dog groups. Associated with the attenuated natriuretic response to renal perfusion pressure in the obese dogs were significant elevations in plasma renin activity (4.3±1.6 versus 1.6±0.5 ng angiotensin I/mL per hour), plasma aldosterone concentration (34.4±6.4 versus 15.3±3.2 ng/dL), and plasma insulin concentration (30.5+6.8 versus 20.9±2.9 IU/mL). The results of this study establish that obesity-induced hypertension in the dog is associated with a shift in the pressurenatriuresis relation. The underlying mechanism responsible for the abnormal pressure-natriuresis relation in this model of obesity may be due to activation of various sodiumretaining systems such as the renin-angiotensin-aldosterone system.

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“…46 We have recently demonstrated that the natriuretic response to an acute sodium load is significantly attenuated in obese dogs. 7 Although the exact mechanism responsible for the blunted natriuretic response to an acute sodium load in obesity-hypertension is unknown, abnormalities in sodium-retaining systems such as renin-angiotensin and renal sympathetic nervous systems may be involved. 8 To quantify the role of renal nerves in the blunted response to an acute sodium load in obese dogs, we examined the changes in renal hemodynamics and sodium excretion in separate innervated and denervated kidneys simultaneously within the same dog.…”

Section: Discussionmentioning

confidence: 99%

“…5 Furthermore, we have recently demonstrated that the natriuretic response to an acute sodium load is significantly attenuated in obese dogs. 7 Although the exact mechanism responsible for the blunted natriuretic response to an acute sodium load in obesity hypertension is unknown, abnormalities in sodiumretaining systems such as renin-angiotensin and renal sympathetic nervous systems may be involved. 8 A possible role for renal nerves is supported by studies indicating that obesity is associated with increased activity of the sympathetic nervous system.…”

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confidence: 99%

Blunted natriuretic response to a high-sodium meal in obese dogs. Role of renal nerves.

et al. 1994

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Although the relation between body weight and arterial pressure is well established, the mechanisms involved in the pathogenesis of obesity-related hypertension are unclear. However, recent studies suggest that abnormalities in renal function may be involved. The purpose of this study was to test the hypothesis that obese animals have a reduced ability to excrete a sodium load as a result of abnormal renal nerve function. To quantify the role of renal nerves, we examined changes in renal hemodynamics and sodium excretion in response to a high-sodium meal (200 mmol Na) in separate innervated and denervated kidneys simultaneously within the same conscious dog. Two surgically designed hemibladders with indwelling catheters were used to collect urine from innervated and denervated kidneys of the same dog. Body weight averaged 19.9±1.0 kg in the control lean dogs and 25.1±1.1 kg in the obese dogs. Arterial pressure averaged 101 ±4 mm Hg in the obese dogs and 90±4 mm Hg in the lean A lthough the association between body weight and / \ arterial pressure has been documented in a JL \ . number of epidemiologic and experimental studies, the mechanisms underlying the pathogenesis of obesity-induced hypertension are unclear. "3 Recent studies, however, have indicated that the development of obesity-induced hypertension may be related to abnormal renal handling of sodium.4 -6 Development of hypertension in dogs fed a high-fat diet is associated with significant sodium retention and extracellular fluid volume expansion. -6 The pressure-natriuresis relation has also been reported to be abnormal in obese hypertensive dogs.5 Furthermore, we have recently demonstrated that the natriuretic response to an acute sodium load is significantly attenuated in obese dogs.7 Although the exact mechanism responsible for the blunted natriuretic response to an acute sodium load in obesity hypertension is unknown, abnormalities in sodiumretaining systems such as renin-angiotensin and renal sympathetic nervous systems may be involved. 8A possible role for renal nerves is supported by studies indicating that obesity is associated with increased activity of the sympathetic nervous system. dogs. In response to the high-sodium meal in lean dogs, urinary sodium excretion increased from 20.8±4.2 to 189.7±21.2 \imo\l min in the innervated kidneys and from 25.3±5.9 to 194.8±26.9 jimol/min in the denervated kidneys. In contrast, urinary sodium excretion in obese dogs increased from 9.6±1.4 to 129.9±34.3 ^mol/min in the innervated kidneys and from 18.4±3.7 to 125.2+30.5 /imol/min in the denervated kidneys. Cumulative sodium excretion over 140 minutes was significantly lower in the obese dogs (innervated, 8.4±2.8 mmol; denervated, 9.8±2.7 mmol) than in the lean dogs (innervated, 19.1±3.3 mmol; denervated, 21.2+4.2 mmol) in response to the high-sodium meal. These data indicate that the natriuretic response to a high-sodium meal is markedly attenuated in obese dogs. Furthermore, the renal nerves do not appear to play a major role in mediating this a...

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Blunted natriuretic response to an acute sodium load in obese hypertensive dogs.

Cited by 22 publications

References 0 publications

Differential Metabolic Effects of Energy Restriction in Dogs Using Diets Varying in Fat and Fiber Content

Differential Metabolic Effects of Energy Restriction in Dogs Using Diets Varying in Fat and Fiber Content

Abnormal pressure natriuresis in the dog model of obesity-induced hypertension.

Blunted natriuretic response to a high-sodium meal in obese dogs. Role of renal nerves.

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