Calcium metabolism and familial risk of hypertension

There is circumstantial evidence that disturbances of calcium metabolism are implicated in primary hypertension. From a large number of observational epidemiological studies, data have shown that a low dietary calcium intake increases the risk for high blood pressure. There is no general sensitivity...

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Bibliographic Details
Published inSeminars in nephrology Vol. 15; no. 6; p. 512
Main Authors Grobbee, D E, van Hooft, I M, Hofman, A
Format Journal Article
LanguageEnglish
Published United States 01.11.1995
Subjects
Adolescent
Adult
Aged
Calcium - metabolism
Child
Female
Humans
Hypertension - epidemiology
Hypertension - genetics
Hypertension - metabolism
Incidence
Male
Middle Aged
Netherlands - epidemiology
Risk Factors
Netherlands
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Summary:There is circumstantial evidence that disturbances of calcium metabolism are implicated in primary hypertension. From a large number of observational epidemiological studies, data have shown that a low dietary calcium intake increases the risk for high blood pressure. There is no general sensitivity for the effects of inadequate calcium intake, but subgroups of hypertensive patients have been described characterized by reduced serum ionized calcium levels, increased urinary excretion of calcium, raised intracellular calcium levels, reduced cellular membrane calcium binding, and other indicators of a relative calcium need. Some of these changes, however, may be secondary to blood pressure elevation. The family history approach enables to study the pathophysiology of early primary hypertension, at a stage at which blood pressure differences between future hypertensive subjects and normotensive subjects are still limited. In the Dutch Hypertension and Offspring Study, young normotensive subjects were studied selected on the basis of presence or absence of familial predisposition for hypertension. The findings show that disturbances in calcium metabolism are present in the early phase of primary hypertension and may precede the development of high blood pressure. Moreover, they suggest that changes in calcium metabolism may be a characteristic of familial hypertension and could reflect a genetic basis for calcium sensitive hypertension. The presence of a relatively reduced serum calcium and increased plasma PTH [1-84] level in the offspring of hypertensive parents indicates that calcium balance in prehypertensive subjects is maintained at a higher level of circulating PTH. The implications of these findings in relation to other available data are discussed.
ISSN:0270-9295