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Enzyme
Compound
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Query: UMLS:C0151744 (
myocardial ischemia
)
31,282
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Apolipoprotein E (apoE) is a plasma lipoprotein which plays a basic role in the degradation of particles rich in cholesterol and triglycerides. It is able to bind to LDL receptors, but also to receptors for chylomicron remnants. There are three major apoE isoforms, E2, E3, and E4. Their role in lipoprotein metabolism is related to their affinity for receptors. Allele E3 is predominant and apoE3 affects metabolism of lipoproteins in a standard way. When compared to allele E3, allele E2 is associated with lower LDL levels, whereas allele E4 with higher LDL levels. This has an impact on the progression of atherosclerosis. Allele E2 exhibits a protective role, whereas allele E4 is associated with a high risk factor. Lipoprotein(a) [
Lp(a)
] is a plasma lipoprotein, consisting of
apolipoprotein(a)
, linked by a covalent bond with the LDL particle. Increased
Lp(a)
levels are associated with an increased incidence of diseases based on atherosclerosis, namely the
ischemic heart disease
. Another effect of
Lp(a)
is its competition with plasminogen, resulting in a decrease of fibrinolysis and thrombogenic activity. ApoE and
Lp(a)
are independent risk factors for premature development of atherosclerosis and therefore can be considered as candidate genes of premature atherosclerosis.
...
PMID:Apolipoproteins and atherosclerosis. Apolipoprotein E and apolipoprotein(a) as candidate genes of premature development of atherosclerosis. 1098 73
Apolipoproteins B, A-I and
Lp(a)
have been proposed as independent predictors of subsequent
ischaemic heart disease
(
IHD
) improving on the prediction obtained by routine lipid measurements. In this report we have investigated the relative predictive ability of apolipoproteins and plasma lipids in a prospective study of middle aged men. 2398 men aged 49-65 years from the general population of Caerphilly, South Wales, UK were screened for evidence of
IHD
. After an overnight fast 2225 men each provided a venous blood sample on which plasma lipids, apolipoproteins B, A-I, A-II, and lipoprotein (a) (
Lp(a)
) were measured. Over a follow-up period of nearly 9 years, 282 (12%) men developed major
IHD
. Multiple logistic regression analysis showed that after adjusting for standard cardiovascular risk factors other than lipids there was a strong trend (standardised relative odds (SRO) = 1.20; P = 0.009) for incidence of
IHD
to increase with apolipoprotein B. However, on further adjusting for total cholesterol this trend largely disappeared (SRO = 1.05; P = 0.57). Similarly, a trend for incidence of
IHD
to increase with decreasing apolipoprotein A-I (SRO = 1.18; P = 0.02) disappeared when HDL cholesterol was added to the model. Levels of apolipoprotein A-II were not related to risk of subsequent
IHD
. Incidence of
IHD
was effectively constant over nearly 90% of the range of
Lp(a)
. Only among the 5% of men with
Lp(a)
greater than 70 mg dL-1 was the risk of
IHD
significantly (P = 0.04) greater than among men with
Lp(a)
less than 10 mg dL-1. Apolipoproteins B and A-I do not improve on the prediction of risk of
IHD
provided by total and HDL cholesterol, respectively. Apolipoprotein A-II was not related to risk of
IHD
.
Lp(a)
may be independently associated with incident
IHD
among the 5-10% of men with the highest levels.
...
PMID:Apolipoproteins A-I, A-II and B, lipoprotein(a) and the risk of ischaemic heart disease: the Caerphilly study. 1111 56
Ischemic heart disease
and other complications of atherosclerosis are the usual cause of death in patients with chronic renal failure. Important factors associated with early onset of atherosclerosis in these patients are hyperhomocysteinemia, hyperfibrinogenemia, and elevated levels of lipoprotein(a) (
Lp(a)
). Folic acid (15 mg/d), pyridoxine (150 mg/d), and cyanocobalamin (1 mg/wk) were administered for 4 weeks in 21 patients receiving dialysis, and a simultaneous, statistically significant reduction in the concentration of homocysteine, fibrinogen, and
Lp(a)
was found. A positive correlation between decreasing homocysteine and fibrinogen levels was also noted. The parameters studied approached presupplementation values 6 months after vitamins were discontinued. The results suggest that vitamin supplementation has a favorable effect on risk factors of atherosclerosis in patients with renal failure and that interactions may exist between homocysteine, fibrinogen, and
Lp(a)
.
...
PMID:Homocysteine, fibrinogen, and lipoprotein(a) levels are simultaneously reduced in patients with chronic renal failure treated with folic acid, pyridoxine, and cyanocobalamin. 1122 18
To clarify the influence of elevated serum lipoprotein (a) (
Lp(a)
) concentration on
ischemic heart disease
(
IHD
) and the perforating artery occlusion type of cerebral infarction (CI) in elderly patients with type 2 diabetes, we measured the serum levels of
Lp(a)
of type 2 diabetic patients (n = 158, 81 men and 77 women). The group was followed up prospectively for 4 years and the incidence of
IHD
or CI was monitored. The diagnosis of CI was confirmed by computed tomography and that of
IHD
, which includes myocardial infarction and angina pectoris, was diagnosed by electrocardiogram and blood chemistry examination,
Lp(a)
concentrations of 20 mg/dl or more were identified as elevated
Lp(a)
levels and
Lp(a)
concentrations of less than 20 mg/dl were identified as normal
Lp(a)
levels. A Kaplan-Meier survival analysis (log-rank test) assessed the time to event rate stratified by an
Lp(a)
cutoff point of 20 mg/dl. The predictive value for CI or
IHD
events was assessed by multiple logistic regression analysis. The probability of
IHD
events was significantly higher in the elevated
Lp(a)
group than in the normal
Lp(a)
group without a history of
IHD
but was similar in the two groups for those patients with a history of
IHD
. There was no significant difference between the elevated
Lp(a)
group and the normal
Lp(a)
group with regard to CI events in patients without a history of CI and with a history of CI. On multiple logistic regression analysis,
Lp(a)
, hyperlipidemia and a history of
IHD
were significant predictors of
IHD
and hypertension, hyperlipidemia and a history of CI were significant predictors of CI. These results show that elevated serum
Lp(a)
concentrations is an independent risk factor for
IHD
, but not for the perforating artery occlusion type of CI in type 2 elderly diabetic patients.
...
PMID:[A four-year prospective study on the influence of serum elevated lipoprotein (a) concentration on ischemic heart disease and cerebral infarction in elderly patients with type 2 diabetes]. 1152 63
The guideline for the reference value of serum lipid(total cholesterol, LDL-cholesterol, HDL-cholesterol and triglyceride) was proposed by the Japan Atherosclerosis Society in 1997. These values are utilized for the diagnosis and treatment of hyperlipidemia to protect patients from
ischemic heart disease
. The upper limit of reference value was not determined by the 95 percentile range from healthy subjects, but on the basis of clinical data on serum lipid in the Japanese. This way to determine the reference value will be suitable in case of lipid, because there is a tendency to increase cholesterol level in the Japanese for these thirty years. The standardization for each lipid assay is crucial. The CDC-established Reference Methods for measuring total cholesterol(TC), HDL-C. LDL-C, and triglyceride(TG) are used to set reference values for the serum pools used for LSP(Lipid Standardization Panel) standardization. In Japan, the routine methods for cholesterol and triglyceride have been proposed by the special committee in the Japan Society of Clinical Chemistry. In contrast, homogeneous assay for HDL- and LDL-C, which are used routinely at present, have still some problems in the point of accuracy. A new ELISA for
Lp(a)
has been developed using antibody not reacting to kringle IV type 2. Its standardized assay, thus, will be available sooner or later. With respect to other lipid-related test such as RLP(remnant-like particles) and oxidized LDL, it is necessary to accumulate more clinical data for the determination of reference value.
...
PMID:[Reference values of serum lipid]. 1176 57
Women are about 10 years older than men to suffer from
ischemic heart disease
(IHD) and they often experience a sudden rise in cholesterol after menopause. These phenomena are thought to be caused by the production of estrogen in women during normal menstruation cycle and its loss after menopause. Hormone replacement therapy(HRT) has been shown to reduce IHD by nearly 50 per cent. This is caused in part by effects of estrogen on lipid metabolism; it reduces LDL and
Lp(a)
, and increases HDL. Although the first large prospective trial of HRT for secondary prevention of IHD failed to demonstrate estrogen's protective effects, HRT was effective in women with high
Lp(a)
. Thus, selection of patients and HRT regimen seems important.
...
PMID:[Hormone replacement therapy (HRT) for hyperlipidemia after menopause]. 1202 81
The role of estrogen in altering cardiovascular disease risk in women is contentious. Menopause is associated with increased risk for
ischemic heart disease
and cerebrovascular disease, which collectively are the main causes of morbidity and mortality in women of developed nations. Observational studies suggest a protective role of estrogen, whereas recent randomized controlled trials report a negative role for oral estrogen in primary and secondary prevention of cardiovascular events. Inflammatory mechanisms underlie the process of arterial thrombus formation following atheromatous plaque rupture, and as such modulation of the inflammatory process may be a potential means of reducing cardiovascular risk. Sex steroids may influence inflammatory processes and hence modify cardiovascular risk. The objective of the study was to review the current understanding of the relationships between C-reactive protein (CRP), homocysteine, IL-6, and lipoprotein (a) [
Lp(a)
] and endogenous estrogen status, exogenous estrogen treatment, and cardiovascular disease risk. The design was a review of all relevant published, peer- reviewed studies. Raised levels of CRP, homocysteine,
Lp(a)
, IL-6, and CRP are each independently associated with increased risk for cardiovascular events in women. Changes in these parameters across the menopausal transition cannot clearly be attributed to hormonal changes. With respect to the effects of exogenous postmenopausal therapy, oral estrogen use is consistently associated with elevations in CRP, no change or a reduction in homocysteine, varied effects on IL-6, and a consistent reduction in
Lp(a)
. Transdermal estradiol overall has no significant effect on any of these parameters. Progestin use appears to attenuate the effect of oral estrogen on CRP and is associated with a reduction in
Lp(a)
. Like oral estrogen, tibolone use is associated with a rise in CRP, with no change in homocysteine and consistent lowering of
Lp(a)
. Selective estrogen receptor modulators modestly lower homocysteine and
Lp(a)
, have varied effects on CRP, and have no reported effects on IL-6. Despite these varied effects of postmenopausal hormone treatment on inflammatory markers, homocysteine, and
Lp(a)
, there is no evidence that change in these markers results in modification of cardiovascular risk. Further studies are required to specifically investigate whether treatments that increase or decrease these markers in fact modulate the risk of cardiovascular events in women.
...
PMID:New markers for cardiovascular disease risk in women: impact of endogenous estrogen status and exogenous postmenopausal hormone therapy. 1278 42
The increased risk for
ischemic heart disease
(
IHD
) associated with subclinical hypothyroidism (SH) has been partly attributed to dyslipidemia. There is limited information on the effect of SH on lipoprotein (a) [
Lp(a)
], which is considered a significant predictor of
IHD
. Serum
Lp(a)
levels are predominantly regulated by apolipoprotein [apo(a)] gene polymorphisms. The aim of our study was to evaluate the
Lp(a)
levels and apo(a) phenotypes in patients with SH compared to healthy controls as well as the influence of levothyroxine substitution therapy on
Lp(a)
values in relation to the apo(a) isoform size.
Lp(a)
levels were measured in 69 patients with SH before and after restoration of a euthyroid state and in 83 age- and gender-matched healthy controls. Apo(a) isoform size was determined by sodium dodecyl sulfate (SDS) agarose gel electrophoresis followed by immunoblotting and development via chemiluminescence. Patients with SH exhibited increased
Lp(a)
levels compared to controls (median value 10.6 mg/dL vs. 6.0 mg/dL, p = 0.003]), but this was not because of differences in the frequencies of apo(a) phenotypes. There was no association between thyrotropin (TSH) and
Lp(a)
levels in patients with SH. In subjects with either low (LMW; 25 patients and 28 controls) or high (HMW; 44 patients and 55 controls) molecular weight apo(a) isoforms,
Lp(a)
concentrations were higher in patients than in the control group (median values 26.9 mg/dL vs. 21.8 mg/dL, p = 0.02 for LMW, and 6.0 mg/dL versus 3.3 mg/dL, p < 0.001 for HMW). Levothyroxine treatment resulted in an overall reduction of
Lp(a)
levels (10.6 mg/dL baseline vs. 8.9 mg/dL posttreatment, p = 0.008]). This effect was mainly evident in patients with LMW apo(a) isoforms associated with high baseline
Lp(a)
concentrations (median values 26.9 mg/dL vs. 23.2 mg/dL pretreatment and posttreatment, respectively; p = 0.03). In conclusion, even though a causal effect of thyroid dysfunction on
Lp(a)
was not clearly demonstrated in patients with SH, levothyroxine treatment is beneficial, especially in patients with increased baseline
Lp(a)
levels and LMW apo(a) isoforms.
...
PMID:Lipoprotein (a) levels and apolipoprotein (a) isoform size in patients with subclinical hypothyroidism: effect of treatment with levothyroxine. 1281 13
Increased blood cholesterol concentration is one of the main factors in
ischemic heart disease
, development of which is determined by atherosclerotic changes in coronary vessels. Diet and treatment with 3-hydroxi-3-metilglutaril coenzyme A (HMG-CoA) reductase inhibitors helps to reduce low density lipoprotein cholesterol (LDL-Ch) blood concentration up to recommended level of 3.0 mmol/l in most patients but in some patients particularly with familial dyslipidemias cholesterol concentration remains increased even after treatment with maximal doses of lipid-regulating agents or their combinations. The most frequently used mechanical methods of cholesterol removal from blood include the procedures of extracorporeal apheresis. Low density lipoprotein (LDL) apheresis not only significantly reduces the blood concentrations of total cholesterol (TCh), and LDL-Ch, lipoprotein (a) (
Lp(a)
and fibrinogen but also stops the progression of atherosclerosis in coronary vessels.
...
PMID:[Low density lipoprotein apheresis]. 1470 3
Systemic lupus erythematosus (SLE) is a multifactorial polysystemic autoimmune disorder. Although life expectance in SLE has been improved by adequate immune suppressive therapy, the importance of chronic renal failure has not been reduced. Among late complications of the disease accelerated atherosclerosis attempts increasing attention. Dyslipoproteinemia and increased concentration of lipoproteins are important risk factors of atherosclerotic cardiovascular complication in SLE. Serum lipid parameters of 50 patients with lupus were examined in the present work. Thirty patients had histologically proven lupus nephritis (LN+), while the other group did not have renal involvement (LN-). Serum triglyceride, total cholesterol, LDL-C and apolipoprotein B (apoB) concentrations were significantly higher in the lupus nephritis (LN+) group. On the other hand, HDL-C and apoAI levels were also elevated in patients with LN. As a consequence of that, LDL-C/HDL-C and the apoB/apoAI ratios did not differ between patients with or without kidney involvement. This concluded the authors to measure the concentration of lipoprotein (a) in SLE patients, as
Lp(a)
is known to be an independent risk factor of atherosclerosis. Results indicated a significantly increased
Lp(a)
concentration in patients with lupus nephritis as compared to the LN- group. All but 2 patients without kidney involvement had lower than 100 mg/L
Lp(a)
concentration, while 27% of patients with lupus nephritis has an
Lp(a)
level between 100-300 mg/L. Further more,
Lp(a)
concentration was higher than 300 mg/L in 13% of the LN+ group. In a good correlation of these observations patients with nephritis suffered more frequently from deep venous thrombosis and
ischaemic heart disease
. The frequencies of hypertension and non-insulin dependent diabetes mellitus were slightly elevated in patients with nephritis. Present results suggest the importance of elevated lipoprotein (a) concentration in patients with lupus nephritis, further increasing the risk of athero-thrombotic cardiovascular complications.
...
PMID:[Lipid profile in patients with systemic lupus erythematosus, with special focus on lipoprotein(a) in lupus nephritis]. 1502 32
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