AMBULATORY BLOOD-PRESSURE AND RENAL-FUNCTION IN HEALTHY-CHILDREN AND ADOLESCENTS

被引:27
作者
HARSHFIELD, GA
PULLIAM, DA
ALPERT, BS
机构
[1] Department of Pediatrics, University of Tennessee, Memphis, TN
来源
AMERICAN JOURNAL OF HYPERTENSION | 1994年 / 7卷 / 03期
关键词
RENAL FUNCTION; AMBULATORY BLOOD PRESSURE; RACIAL DIFFERENCES;
D O I
10.1093/ajh/7.3.282
中图分类号
R6 [外科学];
学科分类号
1002 ; 100210 ;
摘要
Our previous studies using noninvasive ambulatory blood pressure (ABP) monitoring demonstrated racial differences in the diurnal pattern of blood pressure (BP), with higher nighttime BP for African-Americans than for Angle-Americans despite similar daytime BP. We have hypothesized that the increased BP load in African-Americans contributes to the increased prevalence of hypertension and BP-induced target organ damage in adults. The purpose of this study was to examine the relationship between ABP patterns and renal function in healthy, normotensive black and white youths. The subjects were 22 African-American and 28 Angle-American children and adolescents aged 10 to 18 years. Renal function was estimated by creatinine clearance (C-Cr). The African-American and Angle-American subjects were similar in age, gender composition, casual BP, and C-r, The relationship between C-Cr and BP was not significant for casual BP or daytime BP for either group, or with nighttime BP in the Angle-American subjects. In contrast, C-Cr was related negatively to both nighttime systolic BP (r = -0.47, beta = -1.21; P <.02) and nighttime diastolic BP in the African-American subjects (r = -0.45, beta = -2.13; P <.03). These results are consistent with our hypothesis.
引用
收藏
页码:282 / 285
页数:4
相关论文
共 11 条
[1]  
Harshfield G.A., Alpert B.S., Willey E.S., Et al., Race and gender influence ambulatory blood pressure patterns of adolescents, Hypertension, 14, pp. 598-603, (1989)
[2]  
Harshfield G.A., Hwang C., Grim C.E., Circadian variation of blood pressure in blacks: Influence of age, gender and activity, J Hum Hypertens, 4, pp. 43-47, (1990)
[3]  
James G.D., Race and perceived stress independently affect the diurnal variation of blood pressure in women, Am J Hypertens, 4, pp. 382-384, (1991)
[4]  
Fumo M., Teeger S., Lang R., Et al., Diurnal blood pressure variation and cardiac mass in American blacks and whites and South African blacks, Am J Hypertens, 5, pp. 111-116, (1992)
[5]  
Harshfield G.A., Pulliam D.A., Alpert B.S., Et al., Renin-sodium profiles influence ambulatory blood pressure patterns in children and adolescents, Pediatrics, 87, pp. 94-100, (1991)
[6]  
Verdecchia P., Schillaci G., Guerrieri M., Et al., Circadian blood pressure changes and left ventricular hypertrophy in essential hypertension, Circulation, 81, pp. 528-536, (1990)
[7]  
Shimada K., Kawamoto A., Matsubayashi K., Et al., Silent cerebrovascular disease in the elderly: Correlation with ambulatory pressure, Hypertension, 16, pp. 692-699, (1990)
[8]  
Opsahl J.A., Abraham P.A., Halstenson C.E., Et al., Correlation of office and ambulatory blood pressure measurements with urinary albumin and N-acetyl-glucos-aminidase excretions, Am J Hypertens, 1, pp. 117S-120S, (1988)
[9]  
Gilbert R.E., Phillips P., Jerums G., Relationship between ambulatory blood pressure and albuminuria in normal subjects, Am J Hypertens, 4, pp. 959-962, (1991)
[10]  
Portaluppi F., Montanari L., Massari M., Et al., Loss of nocturnal decline of blood pressure in hypertension due to chronic renal failure, Am J Hypertens, 4, pp. 20-26, (1991)
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