Study of serum lipid profile in pregnancy induced hypertension

被引：26

作者：

De J. ^{[2
]}

Mukhopadhyay A.K. ^{[1
]}

Saha P.K. ^{[2
]}

机构：

[1] Department of Physiology, Medical College and Hospital

[2] Dept. of Biochemistry, Medical College and Hospital

来源：

Indian Journal of Clinical Biochemistry | 2006年 / 21卷 / 2期

关键词：

Blood lipids; Dyslipidemia; Eclampsia; Normal pregnancy; PIH; Pre-eclampsia;

D O I：

10.1007/BF02912935

中图分类号：

学科分类号：

摘要：

Four groups of subjects: normal healthy normotensive nonpregnant women (Group A), normal normotensive pregnant women (Group B), women with preeclamptic toxaemia (Group C) and eclamptic women (Group D): with fifty subjects in each group, were investigated for serum lipid profile in the third trimester of pregnancy. There was significant increase in serum triglyceride and VLDL cholesterol level as well as decrease in LDL cholesterol in normal pregnancy, while total cholesterol and HDL cholesterol levels did not show any statistically significant alteration. The preeclampsia (Group C) was associated with a significant rise in triglyceride and VLDL cholesterol and fall in HDL cholesterol concentration, while eclamptic women showed significant fall in HDL cholesterol and rise in LDL cholesterol as compared to normal pregnant women. However, interestingly, elevation of the ratios of total cholesterol:HDL cholesterol and triglyceride:HDL cholesterol as well as diminuition of the ratio of HDL cholesterol:VLDL cholesterol showed statistical significance in pregnancy induced hypertension in both Groups C and D, while eclamptic women showed significant elevation of LDL cholesterol:HDL cholesterol ratio in addition.

引用

页码：165 / 168

页数：3

共 22 条

[11] Yamaguchi K., Triglycerides and apoproteins in toxaemia of pregnancy, Nippon Sanka Fujika Gakkai Zasshi, 40, 2, pp. 1875-1882, (1988)
[12] Hubel C.A., Lyall F., Weissfeld L., Gandley R.E., Roberts J.M., Small low-density lipoproteins and vascular cell adhesion molecule-1 are increased in association with hyperlipidemia in preeclampsia, Metabolism, 47, 10, pp. 1281-1288, (1998)
[13] Bradley R., Crook D., Pregnancy, oral contraception and hormone replacement therapy, Textbook of Clinical Biochemistry: Metabolic and Clinical Aspects, pp. 413-422, (1995)
[14] Kaaja R., Tirkkanen M.J., Viinnkka L., Ylikorkala O., Serum lipoproteins, insulin and urinary prostanoid metabolites in normal and hypertensive pregnant women, Obstet. Gynecol., 85, 3, pp. 353-356, (1995)
[15] Teichmann A.T., Wieland H., Cremer P., Knlow G., Mehle U., Serum lipid and lipoprotein concentrations in pregnancy and at onset of labour in normal and complicated pregnancies caused by hypertensive gestosis and fetal growth retardation, Geburtshilfe Frauenheilkd, 48, 3, pp. 134-139, (1988)
[16] Knopp R.H., Warth M.R., Charles D., Childs M., Li J.R., Mabuchi H., Von M.I.A., Lipoprotein metabolism in pregnancy, fat transport to the fetus and the effects of diabetes, Biol. Neonate, 50, 6, pp. 297-317, (1986)
[17] Potter J.M., Netel P.J., The hyperlipidaemia of pregnancy in normal and complicated pregnancies, Am. J. Obstet. Gynaecol., 133, 2, pp. 165-170, (1979)
[18] Arbogast B.W., Leeper S.C., Merrick R.D., Olive K.E., Taylor R.N., Which plasma factors bring about disturbance of endothelial function in preeclampsia?, Lancet, 343, 8893, pp. 340-341, (1994)
[19] Gratacos E., Casals E., Gomez O., Llurba E., Mercader I., Cararach V., Cabero L., Increased susceptibility to low density lipoprotein oxidation in women with a history of preeclampsia, British Journal of Obst. & Gynae., 110, 4, pp. 400-404, (2003)
[20] Wakatsuki A., Ikenoue N., Okatani Y., Shinohara K., Fukaya T., Lipoprotein particles in preeclampsia: Susceptibility to oxidative modification, Obstet. Gynecol., 96, 1, pp. 55-59, (2000)

← 1 2 3 →