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Circulatory, hormonal, and metabolic effects of arbutamine compared to exercise in persons with known or suspected coronary artery diseaseDorn, Karen Toft 06 June 2008 (has links)
The purpose of this study was to test the hypothesis that arbutamine, a specific B₁-adrenergic agonist, will not cause different circulatory and physiologic effects than the less specific endogenous catecholamines released in response to an exercise stress test in persons with known or suspected coronary artery disease. Nine male subjects, mean age 66 years, completed symptom-limited arbutamine (ESA) and exercise (ETT) stress tests in a randomized cross-over study. The ESA delivery device controlled infusion rate to induce a graded heart rate increase of 8 bt min⁻¹. Heart rate, systolic blood pressure, diastolic blood pressure, rate pressure product, ST segment shift, and specimens for epinephrine, norepinephrine, dopamine, cortisol, insulin, glucagon, glucose, free fatty acids, glycerol, and lactate were collected at baseline, immediate post-stress, and 10, 30, and 60 minutes post-stress. The research hypothesis was rejected. Repeated measures analysis of variance for each measure demonstrated a significant (p ≤ .05) time treatment interaction in heart rate, systolic blood pressure, rate pressure product, insulin, glucagon, glycerol, free fatty acid, and lactate responses and a significant time effect for cortisol response. Circulatory differences included higher systolic blood pressure and rate pressure product responses for ETT than ESA and a more rapid recovery of circulatory variables following ETT. Metabolic differences were due to higher free fatty acid and glycerol responses for ESA than ETT and a slower recovery of these metabolites and lactate following ESA. Hormonal differences included an earlier and greater magnitude rise in insulin response for ESA than ETT. There were no differences (p ≤ .05) by treatment, time, or time treatment interaction for diastolic blood pressure, ST segment shift, catecholamines, or glucose. In conclusion, arbutamine caused different circulatory and physiologic effects consistent with differences in adrenergic receptor activity. Arbutamine caused substantial B<sub>1+2</sub> agonist effects on hormonal and metabolic responses in cardiotonic doses employed clinically for diagnostic stress testing and may impact clinical interpretation of stress test results. / Ph. D.
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Postprandial lipoprotein metabolism in patients at high risk of coronary artery disease : effects of statin therapyDane-Stewart, Cheryl Ann January 2003 (has links)
[Formulae and special characters can only be approximated here. Please see the pdf version of the abstract for an accurate reproduction.] Atherosclerosis is a common degenerative disease in which the clinical manifestations are often through stroke or myocardial infarction. Some of the established risk factors for atherosclerosis include elevated plasma low-density lipoprotein (LDL)-cholesterol levels, obesity, diabetes mellitus (DM) and cigarette smoking. Of the risk factors, an elevation in plasma LDL is one of the most established and the most researched. This is partly a consequence of the deposition of cholesterol within arterial intima being a crucial step in the progression of atherosclerosis, combined with the finding that LDL particles are a major transporter of cholesterol in circulation. Recently there is increasing evidence showing a role of the other major transporter of cholesterol in circulation, chylomicron remnants, in the progression of atherosclerosis. The notion of atherosclerosis as a postprandial phenomenon has been further substantiated by the emergence of evidence showing a direct role of chylomicron remnants in arterial cholesterol deposition. Based on evidence that chylomicron remnants are proatherogenic, the suggestion arises that accumulation of postprandial lipoproteins in plasma may add another dimension of risk to the development of coronary artery disease (CAD). This thesis tests the general hypothesis that individuals with or at high risk of CAD have postprandial dyslipidaemia and that this metabolic abnormality is correctable with a class of lipid-lowering drugs called statins. To test the hypothesis, clinical studies were conducted in normolipidaemic CAD patients, heterozygous familial hypercholesterolaemia (FH) and postmenopausal women with type 2 DM. Determination of postprandial dyslipidaemia by comparison with control populations were conducted initially in each patient group (Studies 1, 3 and 5), followed by intervention studies investigating possible modulation of the dyslipidaemia with a statin (Studies 2, 4 and 6). Six observation statements based on case-control comparisons of postprandial lipaemia in patients with or at risk of CAD and the effects of statins on postprandial dyslipidaemia in the patient groups were derived from the general hypothesis. The observation statements were examined in the individual studies described below. Postprandial lipoprotein metabolism was assessed using a number of methods. For comparison of postprandial lipaemia in Studies 1 and 2, a classic oral fat challenge was utilised. As markers of chylomicrons and chylomicron remnants, retinyl palmitate and triglyceride were measured postprandially as well as apolipoprotein (apo) B48 concentrations, a specific marker of intestinal lipoproteins. ApoB48 was also measured in the fasting state and found to predict the postprandial responses of retinyl palmitate, triglyceride and apoB48. This suggested that fasting measurement of apoB48 could be used as a simple indicator of postprandial dyslipidaemia. Consequently for Studies 3 - 6, fasting apoB48 measurements were used as primary markers of postprandial dyslipidaemia. Other markers for chylomicrons and their remnants utilised were fasting plasma concentrations of remnant-like particle-cholesterol (RLP-C) and apoC-III. As well as these static markers, chylomicron remnant catabolism was measured using a stable isotope breath test. The breath test involves the intravenous injection of a chylomicron remnant-like emulsion labelled with ¹³C-oleate and measurement of enriched ¹³CO2 in expired breath by isotope ratio mass spectrometry. The fractional catabolic rate (FCR) of the injected emulsion was subsequently calculated using multi-compartmental modeling (SAAM II). The studies are presented in this thesis as published and unpublished works. In Study 1, postprandial lipoprotein metabolism was compared between 18 normolipidaemic CAD patients (cholesterol 4.54 ± 0.12 mmol/L, triglyceride 1.09 ± 0.16) with 13 asymptomatic healthy controls using an oral fat challenge. Normolipidaemic CAD patients had higher postprandial area-under-curve (AUC) for triglyceride (+34%, p=0.019), retinyl palmitate (+74%, p=0.032) and apoB48 (+36%, p<0.001). Fasting apoB48 was also higher (+41%, p=0.001) and found to correlate significantly with AUC of triglyceride (p=0.017), retinyl palmitate (p=0.001) and apoB48 (p<0.001). The data suggest that normolipidaemic CAD patients have increased concentrations of intestinal lipoproteins in the fasting and postprandial state. In addition to these findings, significant correlations of fasting apoB48 with postprandial markers (p<0.02) suggests the fasting marker to be a simpler surrogate marker for the degree of total postprandial lipaemia. Study 2 investigated the effect of atorvastatin treatment on postprandial dyslipidaemia found in the 18 near-normolipidaemic CAD patients from Study 1. The trial was conducted in a randomised, placebo-controlled design, using oral fat challenges before and after 12-weeks atorvastatin/placebo treatment. Compared with the placebo group, atorvastatin decreased the total postprandial AUC for iii triglyceride (-22%, p=0.05) and apoB48 (-34%, p=0.013). Fasting markers of apoB48 (-35%, p=0.019) and RLP-C (-36%, p=0.032) also decreased significantly. Atorvastatin was also found to increase LDL-receptor activity by +218% (p<0.001) as reflected in binding studies. The data suggest atorvastatin reduces the fasting levels of intestinal lipoproteins as well as total postprandial lipaemia, but without acute dynamic changes in postprandial lipaemia. The reduction in fasting and total postprandial lipoprotein levels could be partly attributed to an increase in LDL-receptor mediated removal from circulation. In Study 3, postprandial lipaemia was compared in 15 heterozygous FH patients with 15 healthy controls. FH patients had higher fasting concentrations of apoB48 (+56%, p<0.001) and RLP-C (+48%, p=0.003). The elevation in these fasting markers of chylomicrons and their remnants suggests FH patients have postprandial dyslipidaemia due to an accumulation of these particles in plasma. Study 4 examined the effects of long- (> 6 months) and short-term (4 weeks) simvastatin treatment on modulating postprandial dyslipidaemia found in the 15 FH patients from Study 3. Short- and long-term simvastatin treatment decreased the fasting concentrations of apoB48 (-29% and 15% respectively, p<0.05) and RLP-C (both -38%, p<0.001), but did not significantly alter the FCR of the injected chylomicron remnant-like emulsion. The data suggest that in heterozygous FH both long- and short-term simvastatin treatments decrease the fasting markers of postprandial lipoproteins by mechanisms that may not be mediated via processes differentiated by the 13CO2 breath test. This implies that the effect on postprandial lipaemia may be from a decrease in production and/or a possible increase in catabolism of triglyceride-rich lipoproteins (TRLs). In Study 5, postprandial lipaemia was compared in 24 postmenopausal women age and body mass index matched with 14 postmenopausal women with type 2 DM. Postmenopausal diabetic women were found to have higher fasting concentrations of apoB48 (+21%, p=0.021) and apoC-III (+16%, p=0.042) as well as lower FCR of the chylomicron remnant-like emulsion (-50%, p<0.001). The data suggest that postmenopausal diabetic women have postprandial dyslipidaemia, and that this is due to delayed catabolism of chylomicron remnants. Study 6 was an hypothesis-generating exercise examining the effects of 4-weeks pravastatin treatment on postprandial dyslipidaemia found in 7 postmenopausal women with type 2 DM from Study 5. Although plasma LDL-cholesterol was reduced (-19%, p=0.028), there were no significant effects found on fasting apoB48 concentrations (-12%, p=0.116) or the FCR of the chylomicron remnant-like emulsion (+38%, p=0.345). A larger sample size of patients and/or treatment with a more potent statin at a dosage known to affect chylomicron remnant metabolism would be required to demonstrate a significant reduction in postprandial dyslipidaemia in postmenopausal women with type 2 DM. The results of the above mentioned studies combined support the general hypothesis that postprandial dyslipidaemia is a feature of patients with or at risk of CAD. This defect may be demonstrated using fasting apoB48 as an indicator of the degree of postprandial lipaemia. Postprandial dyslipidaemia may reflect a reduction in catabolism, as suggested with the breath test in type 2 DM, and/or an over overproduction of chylomicrons. Both these mechanisms would also increase competition for lipolysis and clearance pathways between hepatically and intestinally-derived lipoproteins. The exact mechanisms by which postprandial dyslipidaemia occurs are yet to be determined. Statins appear to improve defective postprandial lipaemia in patients with or at risk of CAD, which is in agreement with the general hypothesis. The effectiveness of a statin is dependant on their potency in inhibiting cholesterol biosynthesis and increasing receptor mediated clearance of LDL and chylomicron remnants. The studies conducted in this thesis show that postprandial dyslipidaemia can be reduced by statins but not to the extent demonstrated in controls. However, the demonstrated reduction in fasting and total postprandial lipaemia translates to a lowering in overall arterial exposure to circulating proatherogenic particles. The elevation in fasting and postprandial levels of proatherogenic chylomicron remnants found in the patient groups described in this thesis indicates another dimension to their risk of coronary disease. The reductions in the overall levels of proatherogenic particles in patients with or at high CAD risk, infers a possible reduction in the risk of coronary disease in these patients.
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