Abstract-After investigation of the contents and redox status of antioxidants and lipids in homogenates of both normal artery and atherosclerotic plaque, we now investigated them in the density fractions (very low, low, high, and protein fractions) of atherosclerotic plaque freshly obtained from carotid endarterectomy. By using the optimum extraction method (homogenization in carbonate buffer) and after density gradient ultracentrifugation, we isolated and characterized density fractions of plaque for apolipoproteins, size and contents of ␣-tocopherol (␣-TOH), unesterified cholesterol, cholesteryl linoleate (Ch18:2), and hydroxides and hydroperoxides of Ch18:2, ie, Ch18:2-O(O)H. The distribution of apolipoproteins was more heterogeneous than that in the corresponding lipoproteins isolated from blood, and the majority of material in all plaque density fractions was present in large particles eluting in the void volume of gel-filtration columns. The content of unesterified cholesterol per unit of protein in low-and high-density fractions was 10-fold that in corresponding plasma lipoproteins. Low-and very-low-density fractions contained most of the lesion lipids and ␣-TOH. Two to five percent of lesion Ch18:2 was present as Ch18:2-O(O)H and distributed more or less equally among all density fractions, yet the content of ␣-TOH per unit of Ch18:2 was higher than that in corresponding plasma lipoproteins. These results demonstrate that ␣-TOH and oxidized lipids coexist in all lesion density fractions, further supporting the notion that large proportions of lipids in lipoproteins of advanced stages of atherosclerosis are oxidized. However, although not ruling it out, our results do not support the suggestion that advanced stages of atherosclerosis are associated with gross deficiencies in the lipoproteins' vitamin E content. (Arterioscler Thromb Vasc
1. Capillary permeability was determined by the disappearance rate of Evans Blue dye from plasma in healthy non-pregnant women, normal third-trimester primigravidae and primigravidae with pregnancy-induced hypertension. 2. Extracellular fluid volume was determined from the disappearance curves of injected mannitol in the same subjects and the plasma volume was measured by the Evans Blue dye dilution technique. 3. In normal pregnancy capillary permeability was not altered from that of non-pregnant subjects. Although extracellular fluid volume and plasma volume were increased in normal pregnant compared with non-pregnant women, the distribution of fluid between plasma volume and interstitial fluid volume was unaltered. 4. Women with established pregnancy-induced hypertension had a more rapid Evans Blue disappearance rate and a lower plasma volume than normal pregnant women, independent of the presence of proteinuria. Maternal plasma volume correlated positively and significantly with fetal birth weight in women with pregnancy-induced hypertension, emphasizing the important relationship between maternal plasma volume and fetal outcome. 5. The increased capillary permeability in women with pregnancy-induced hypertension was associated with a reduction in the plasma volume/interstitial fluid volume ratio but a normal extracellular fluid volume, suggesting that the reduced plasma volume did not result from sodium loss but rather from a redistribution of the total extracellular fluid volume. These changes did not differ significantly in subgroups with and without oedema.
The relationship between plasma renin (PRC) and aldosterone (PAC) concentrations was determined in 83 normal third trimester pregnant women (P), 50 women with pregnancy-induced hypertension (PIH), and 80 age-matched nonpregnant women not taking oral contraceptives (NP). Normal pregnant women had a slightly higher 24-h urine sodium: creatinine ratio than the other groups (P less than .001) (NP: 10 +/- 4 v P: 15 +/- 8 v PIH: 12 +/- 7; mean +/- SD). Both PRC and PAC were higher in normal pregnant women as was the ratio PAC:PRC [normal pregnant 195 (158 to 337) v nonpregnant 130 (101 to 209), median (interquartile range); P less than .001]. This was accompanied by a slightly reduced slope (sensitivity) of the logPRC-logPAC relationship in normal pregnant women (P less than .05). Women with PIH had reduced PRC and PAC compared with normal pregnant women but a two-fold greater increase in PAC:PRC ratio [PIH 411 (277 to 598) v normal pregnancy 195 (158 to 337), P less than .001], with a rise in the slope (sensitivity) of the logPRC-logPAC relationship in women with PIH (P less than .001). Thus there is proportionately greater aldosterone release in the third trimester of normal pregnancy than in nonpregnant women. This preferential increase in aldosterone may be due to altered adrenal sensitivity to angiotensin II or may reflect enhanced nonangiotensin stimulation of aldosterone during pregnancy. Women with PIH have reduced PRC and PAC but relatively greater stimulation of aldosterone than normal pregnant women, possibly due to enhanced sensitivity of the adrenal glands to angiotensin II.
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