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Query: UMLS:C0042373 (
vascular disease
)
17,070
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Strokes are one of the most common causes of mortality and long term severe disability. There is evidence that lipoprotein (a) (
Lp(a)
) is a predictor of many forms of
vascular disease
, including premature coronary artery disease. Several studies have also evaluated the association between
Lp(a)
and ischaemic (thrombotic) stroke. Several cross sectional (and a few prospective) studies provide contradictory findings regarding
Lp(a)
as a predictor of ischaemic stroke. Several factors might contribute to the existing confusion--for example, small sample sizes, different ethnic groups, the influence of oestrogens in women participating in the studies, plasma storage before
Lp(a)
determination, statistical errors, and selection bias. This review focuses on the
Lp(a)
related mechanisms that might contribute to the pathogenesis of ischaemic stroke. The association between
Lp(a)
and other cardiovascular risk factors is discussed. Therapeutic interventions that can lower the circulating concentrations of
Lp(a)
and thus possibly reduce the risk of stroke are also considered.
...
PMID:Lipoprotein (a) and stroke. 1096 Nov 70
Atherosclerotic
vascular disease
is a major cause of death for uremic patients who are on hemodialysis (HD). Recent evidence suggests that lipoprotein (a) [
Lp(a)
] may aggravate atherosclerosis by inhibiting activation of transforming growth factor-beta 1 (TGF-beta 1). Plasma
Lp(a)
and plasma TGF-beta 1 activation in HD patients (n = 51), chronic renal failure patients not subjected to hemodialysis (non-HD-CRF; n = 12), and healthy volunteers (control; n = 13) were investigated. Plasma
Lp(a)
was significantly higher in HD (18.75 +/- 1.62 mg/ml) and non-HD-CRF patients (25.0 +/- 8.4 mg/ml) than in control subjects (10.9 +/- 5.8 mg/ml). The degree of atherosclerosis in HD patients was assessed by measuring the intima-media thickness (IMT) and plaque score with the use of an ultrasound scanner. IMT and plaque score were higher in HD and non-HD-CRF patients than in controls. A significant positive correlation was found in HD patients between
Lp(a)
and IMT (r = 0. 377, P < 0.01) as well as between
Lp(a)
and plaque score (r = 0.43, P < 0.01). Plasma total TGF-beta 1 significantly increased in HD (119.8 +/- 53.5 ng/ml) and non-HD-CRF patients (93.2 +/- 25.0 ng/ml) compared with control subjects (17.7 +/- 6.4 ng/ml), whereas the plasma level of mature (active) TGF-beta1 did not differ among the groups. When plasma TGF-beta 1 and supernatant TGF-beta 1 from cultured peripheral mononuclear cells were compared before and after an HD session, neither total nor mature TGF-beta 1 showed a significant difference between the values before and after an HD session. There were no significant relationships between plasma total TGF-beta 1 and IMT or plaque score, between mature TGF-beta 1 and IMT or plaque score, or between mature TGF-beta 1 and
Lp(a)
. In conclusion,
Lp(a)
may be an important atherogenic factor in CRF patients. However, it was not clarified whether
Lp(a)
exerts its effect by inhibiting TGF-beta 1 activation in CRF patients.
...
PMID:Role of lipoprotein (a) and TGF-beta 1 in atherosclerosis of hemodialysis patients. 1100 20
Although macroangiopathies such as peripheral vascular disease (PVD), cerebral
vascular disease
(CVD), and coronary heart disease (CHD) can often be observed in patients with diabetes mellitus, they are not specific for diabetes mellitus. Moreover, it is unclear whether their progressive mechanism is different. In the present study, we compared the risk factors among the diabetic macrovascular complications. Univariate analyses showed that in all patients, age at examination, duration of diabetes, thrombin-antithrombin III complex (TAT) level, fibrinogen level, lipoprotein (a) (
Lp(a)
) level, total cholesterol (T-Chol) level, and existence of microagiopathy were risk factors for PVD. Age, duration of diabetes, insulin level, TAT level, fibrinogen level, HDL cholesterol (HDL-Chol) level, hypertension, and nephropathy were risk factors for CVD. Only fibrinogen level was a risk factor for CHD. Moreover,
Lp(a)
level was a risk factor for PVD and CVD in male patients, but not in females. On the other hand, insulin level was a risk factor for CVD in female patients, but not in males. Multivariate analyses showed that TAT level, T-Chol level, and neuropathy were independent variables for PVD and that age, TAT level, and HDL-Chol level were independent variables for CVD. On the other hand, only fibrinogen level was the independent variable for CHD in males. Our results suggest that the progressive mechanism of PVD and CVD might be different from that of CHD and might differ according to gender in Japanese diabetic patients.
...
PMID:Comparison of risk factors of macrovascular complications. Peripheral vascular disease, cerebral vascular disease, and coronary heart disease in Japanese type 2 diabetes mellitus patients. 1112 Apr 54
We conducted an open-label study to test the effects of atorvastatin on serum lipids, lipoprotein(a) [
Lp(a)
] and plasma fibrinogen levels. A total of 90 dyslipidaemic, non-smoking patients (45 patients with primary hypercholesterolaemia and 45 patients with primary mixed hyperlipidaemia) aged 48 +/- 11 years were studied. The patients were treated with 20 mg of atorvastatin for 24 weeks, in a single nocturnal dose. At baseline and every eight weeks, the fasting lipid profile, together with serum
Lp(a)
and plasma fibrinogen levels (Clauss method), were measured. Atorvastatin was highly effective in normalising the serum lipid profile. No significant change in median serum
Lp(a)
levels was observed in the whole group of patients (0.14 g/l before, vs. 0.16 g/l after, treatment) as well as in patients with raised (> 0.30 g/l) baseline levels (n = 32). A small non-significant increase of plasma fibrinogen was found (3.04 g/l vs. 3.14 g/l) after 24 weeks of atorvastatin administration. The effects of atorvastatin on both these variables did not differ in patients with hypercholesterolaemia or mixed hyperlipidaemia. In conclusion, our findings suggest that the effect of atorvastatin on plasma fibrinogen levels in dyslipidaemic patients without evident
vascular disease
is not clinically relevant. Furthermore, any rise in fibrinogen levels that may occur is likely to be transient in nature. Further studies are necessary to clarify this issue. There was no evidence that atorvastatin influences serum
Lp(a)
levels.
...
PMID:The effect of atorvastatin on serum lipids, lipoprotein(a) and plasma fibrinogen levels in primary dyslipidaemia--a pilot study involving serial sampling. 1126 11
Although molecular cardiology is a relative young discipline, the impact of the new techniques on diagnosis and therapy in cardiovascular disease are extensive. Our insight into pathophysiological mechanisms is rapidly expanding and is changing our understanding of cardiovascular disease radically and irrevocably. Molecular cardiology has many different aspects. In this paper the importance of molecular cardiology and genetics for every day clinical practice are briefly outlined. It is expected that in the genetic predisposition for atherosclerotic disease multiple genes are involved (genetics). The role of only a minority of genes involved in the atherosclerotic process is known. Far less is known about particular gene-gene and gene-environment interactions. In some families disease can be explained mostly by a single, major gene (monogenic), of which the lipid disorder Familial Hypercholesterolemia is an example. In other cases, one or several variations in minor genes (multigenic) contribute to an atherosclerotic predisposition, for instance the lipoprotein lipase gene. Although mutations in this gene influence lipoprotein levels, disease development is predominantly depending on environmental influences. Recently several additional genetic risk factors were identified including elevated levels of lipoprotein (a) [
Lp(a)
], the DD genotype of angiotensin converting enzyme (ACE), and elevated levels of homocysteine. This illustrates the complexity of genetics in relation to atherosclerosis and the difficulty to assign predictive values to separate genetic risk factors. Furthermore, little attention has been given to protective genes thus far, explaining why some high risk patients are protected from
vascular disease
. Genetics based treatment or elimination of the genetic risk factor requires complete understanding of the pathogenic molecular basis. Once this requirement is fulfilled, disease management can be strived for, provided that adequate medical management is available. Recent studies suggest that such treatment should be genotype specific, as the genetic makeup can determine the outcome of a pharmacological intervention (pharmacogenetics). Once the trigger for atherosclerosis has initiated disease development, various genes are activated or silenced and contribute to lesion progression. Every stage of lesion development depends on a different gene expression programme (genomics). In this review paper an introduction is provided into genetics, pharmacogenetics and gene expression with respect to atherosclerotic disease.
...
PMID:Molecular genetics and gene expression in atherosclerosis. 1157 98
Patients with homozygous familial hypercholesterolaemia (FH) caused by receptor-negative, low-density lipoprotein (LDL) receptor gene mutations have higher concentrations of LDL-cholesterol in plasma and earlier onset of cardiovascular disease (CVD) than patients homozygous for receptor-defective, LDL receptor mutations. In contrast, it is uncertain whether the severity of atherosclerotic disease differs in heterozygous FH caused by receptor-negative and receptor-defective mutations. The present authors investigated the influence of LDL receptor mutation type on the clinical phenotype in 31 patients with heterozygous FH caused by the receptor-negative, Trp23-stop mutation and in 31 patients heterozygous for the receptor defective Trp66-Gly mutation. Untreated levels of plasma LDL-cholesterol and calculated cholesterol-years score did not differ significantly between the two groups of patients. Detection of
vascular disease
was based on two approaches: (1) measurement of coronary calcification by spiral computed tomography (CT) scanning; and (2) ultrasonic measurement of carotid intima-media thickness (IMT). Age was significantly correlated to the presence of coronary calcification, but controlling for relevant cofactors, there was no evidence that the receptor-negative mutation caused more calcification than the receptor-defective mutation. Furthermore, carotid IMT was significantly influenced by plasma concentrations of
Lp(a)
and triglycerides, as well as by age, sex and smoking status, but again, there was no statistically significant effect of LDL receptor gene mutational type. The similarity in vascular phenotypes was probably caused by a similar life-long burden of LDL-cholesterol in the two groups of patients.
...
PMID:LDL receptor mutation genotype and vascular disease phenotype in heterozygous familial hypercholesterolaemia. 1212 47
Although oxidized lipoproteins may play an important role in the progression of atherosclerosis, no report has mentioned the significance of oxidized lipoprotein (a) (Lp[a]) in the pathogenesis of cardiovascular disease. Initially, we compared the mitogenic actions of
Lp(a)
and oxidized
Lp(a)
on human vascular smooth muscle cells (VSMC).
Lp(a)
significantly stimulated the growth of human VSMC in a dose-dependent manner, whereas oxidized
Lp(a)
showed a stronger stimulatory action on VSMC growth than native
Lp(a)
. Interestingly, antioxidants probucol and fluvastatin inhibited the oxidation of
Lp(a)
. Moreover, the stimulatory effect of oxidized
Lp(a)
on human VSMC growth was significantly inhibited by probucol. Finally, we elucidated the molecular mechanisms of how
Lp(a)
stimulated the growth of VSMC. Extracellular signal-regulated kinase (ERK), as those controlled by kinases, modulate critical cellular functions such as cell growth, differentiation, and apoptosis, was transiently phosphorylated by oxidized
Lp(a)
as well as native
Lp(a)
from 5 minutes, and the phosphorylation disappeared within 30 minutes. The degree of ERK phosphorylation by oxidized
Lp(a)
was much higher than that by native
Lp(a)
. Administration of a specific inhibitor of MEK, PD 98059, significantly attenuated VSMC growth induced by native
Lp(a)
or oxidized
Lp(a)
in a dose-dependent manner (P<0.01). The current study demonstrated that oxidized
Lp(a)
is more potent than native
Lp(a)
in stimulating VSMC growth. Oxidized
Lp(a)
may play an important role in the pathogenesis of
vascular disease
.
...
PMID:Mitogenic activity of oxidized lipoprotein (a) on human vascular smooth muscle cells. 1221 72
Previous studies have shown that homocysteine influences the structure of lipoprotein(a) [
Lp(a)
] and its affinity to fibrin, and that there is an increased risk of
vascular disease
when both homocysteine and
Lp(a)
are elevated. The aim of this study was to determine whether there is a correlation between increased total homocysteine (tHCY) and high
Lp(a)
concentrations, and whether increased concentrations of tHCY affect the concentration of unbound serum
apolipoprotein(a)
[Apo(a)]. Forty-seven male subjects recruited from a primary prevention screening program with normal serum creatinine and
Lp(a)
concentrations above 30 mg/dL were included and underwent a standardized oral methionine-loading test to increase the plasma tHCY concentration. This increase might lead to a modification of the Apo(a) structure, thus possibly influencing the serum concentration of unbound Apo(a). Fasting blood samples were taken before the tests and after 6 hours. The median values of tHCY increased about 4-fold after the methionine-loading test. Fasting tHCY did not show an association with Apo(a) and a post-methionine load increase of unbound Apo(a) was not observed. Backward multiple linear regression analysis, however, revealed that only post-load tHCY was independently and significantly influenced by
Lp(a)
. Furthermore,
Lp(a)
correlated significantly with post-load tHCY, but not with fasting tHCY. Subdividing the subjects according to the
Lp(a)
concentration showed a significantly higher median concentration of tHCY after methionine load in subjects with
Lp(a)
over 50 mg/dL compared to subjects with
Lp(a)
under 50 mg/dL (P =.009). A similar cut-off was seen for post-load Apo(a) at 7.3 mg/dL (P =.04). Factors such as age, C677T-methylene-tetrahydrofolate-reductase (MTHFR) mutation, folate, vitamin B(12), and creatinine showed no significant influence on post-load tHCY in the different subgroups. The reasons for our findings remain partially unclear. However, considering our results and the current knowledge on the association of tHCY and
Lp(a)
concentration with the renal function, we hypothesize that both parameters may be linked by commencing renal metabolic dysfunction. It should be stressed that our hypothesis is speculative and that further studies will be necessary to improve the understanding of the interrelation of tHCY and
Lp(a)
concentration.
...
PMID:Post-methionine-load hyperhomocysteinemia and increased lipoprotein(a) are associated with renal metabolic dysfunction: a hypothesis. 1237 Aug 40
Lipid abnormalities are important variables in the development of vascular atherosclerotic lesions in ESRD patients while
Lp(a)
represents an independent risk factor. In order to evaluate lipid changes in HD and CAPD patients, serum cholesterol (TC), HDLc, LDLc, TG, apolipoproteins (AI,AII,B,E),
Lp(a)
, and albumin levels were estimated in 109 ESRD dialyzed patients, 46 in HD and 63 in CAPD (mean duration 50 +/- 40 and 25 +/- 19 months, respectively), and 45 volunteers with high serum levels of C and TG, without renal insufficiency. Both HD and PD group revealed statistically significantly higher levels than controls for TC, TG, LDL-C, Apo-B,-E, while HDL-C levels were significantly lower. Except for the lower serum albumin levels in both dialyzed groups after six months lower ApoAI levels and higher ApoB levels were observed in HD and PD patients respectively.
Lp(a)
levels remained unchanged in HD group, while a statistically significant increase appeared in PD patients that was negative correlated with the decreased serum albumin levels. These results indicate that renal replacement modalities result in a different effect in lipoprotein metabolism that may play an important role in atherosclerotic
vascular disease
of dialyzed ESRD patients.
...
PMID:Lipoprotein abnormalities in hemodialysis and continuous ambulatory peritoneal dialysis patients. 1238 Sep 8
The risk of cardiovascular disease is increased approximately two- to four-fold in patients with diabetes mellitus compared with non-diabetic controls. The nature of this increased risk cannot be completely explained by the contribution of traditional risk factors. As such, there has been a great deal of interest in assessing the role of lipoprotein(a) (
Lp(a)
), an LDL-like lipoprotein, in the vascular complications of diabetes. Although numerous studies in the non-diabetic population have demonstrated an association between elevated plasma
Lp(a)
concentration and risk for atherosclerotic disorders, the contribution of
Lp(a)
to the enhanced risk of
vascular disease
in the diabetic population is not clearly defined. Herein we review the structure and potential functions of
Lp(a)
, the determination of
Lp(a)
levels, and the epidemiological evidence supporting its role in coronary heart disease and address the following controversial questions regarding the role of
Lp(a)
in diabetes mellitus: (1) are plasma
Lp(a)
levels and phenotype distributions altered in type 1 (insulin-dependent) diabetes mellitus and type 2 (non-insulin-dependent) diabetes mellitus and does the degree of metabolic control influence
Lp(a)
levels in these patients; (2) what is the relationship between
Lp(a)
and renal disease in patients with diabetes mellitus; (3) do increased plasma
Lp(a)
concentrations in patients with diabetes contribute to the vascular complications of this disease; and (4) can the atherogenicity of
Lp(a)
in diabetes be enhanced in the absence of elevated levels of this lipoprotein due to biochemical modifications.
...
PMID:The relationship between lipoprotein(a) and the complications of diabetes mellitus. 1286 3
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