Central and peripheral cardiovascular control in diabetic rats

Tomlinson, Kerry C.

January 1989

No description available.

590

Diabetes and heart disease

Elemental concentrations in blood from diabetic and non-diabetic coronary artery bypass patients using neutron activation analysis and proton induced X-ray emission analyses

Ridge, Charlotte

January 2001

Diabetes is one of the fastest growing diseases today, affecting over a million people in the UK. Numerous medical complications, such as heart disease, are regularly associated with diabetes. Despite advances in methods of diagnosis and treatment there is still a need for greater understanding of these diseases. This will include research directed towards the influence of specific treatments and reasons for the high incidence of diabetes and heart disease in 'at risk' populations. Changes in elemental status are associated as the cause or effect of various diseased states. Elemental imbalance in diabetics can result in impaired glucose tolerance and insulin resistance and in sufferers of heart disease elemental changes impair heart rate and elasticity of blood vessels. In the UK 10,000 patients with Ischaemic Heart Disease undergo coronary artery bypass grafting (CABG) surgery each year. Elemental analysis has been carried out on blood samples collected from a group of patients admitted to hospital for bypass surgery. Proton Induced X-ray Emission (PIXE) and Instrumental Neutron Activation Analysis (INAA) have been applied as complementary analytical tools for determining elemental concentrations. Differences have been examined between CABG patients with and without diabetes. Both experimental methods have been used to investigate elemental levels in whole blood, erythrocytes and plasma. Elemental concentration varied according to the blood constituent and reflected short and long-term influences on elemental homeostasis. Plasma was found to concentrate Na, Mg and Ca the highest using both experimental techniques. All blood samples were collected and prepared at St. George's Hospital, Tooting in the UK. An additional study was conducted to investigate the influence of the bypass operation on the patient's elemental status. Whole blood was obtained at pre (1h before operation), post (1-2 hours after operation) and recovery (24 hours after completion of the operation) stages of bypass surgery. Differences between the three phases were observed, individual variations have been plotted so rates of change can be seen and evaluated with the particular medical history. Concentrations of Na, Mg, Al, P, S, Cl, K, Ca and Fe in whole blood were determined. The two measurement techniques found different concentrations however results showed a general trend that post operative concentrations were elevated compared to pre operative values. Analysis of blood drawn during the recovery phase, 24 hours after the surgery, found that concentration were typically approaching pre operative levels. Both PIXE and INAA found concentrations of Na, Mg and Al peaked post operation and then decreased in the recovery phase, towards values measured pre surgery. Various factors may be responsible for the elemental changes occurring during surgery including, hormone production, routine administration of intra-operative fluids and contact of blood with non- endothelial surfaces. Hierarchical cluster analysis has been used to confirm differences between elemental levels in pre, post and recovery stages of bypass surgery. The dendograms produced indicate significant distinction between the three stages. The explosive impact of diabetes in the UK resident Asian population is discussed and the influence of diabetogenic agents introduced. Examination of research literature revealed that betel nut has been implicated as a causative agent in several medical conditions. Samples of Betel nut and six associated chewing materials widely used in Asian communities has been collected and prepared for analysis. Instrumental neutron activation analysis has been used to determine the concentration of Na, Mg, Al, Cl, Ca, V, Mn, Cu and Br in the samples by means of short-lived radionuclides.

610

Relationships among Cynical Hostility, Metabolic Syndrome, and Cardiac Structure and Function in Multi-Ethnic Post-Myocardial Infarction Patients: A Structural Modeling Approach

Wachowiak, Paul Stephen

10 August 2009

BACKGROUND: Risk factors associated with Metabolic Syndrome (MetS) have been implicated in cardiovascular disease (CVD) development and outcomes. Few studies have investigated relationships between psychological variables, MetS factors, and indices of cardiac structure and function (CSF) among healthy individuals in a single conceptual model. No studies to date have analyzed such relationships in patients with CVD. METHODS: The present study examined associations between cynical hostility (CynHo), MetS factors, and CSF in 186 multi-ethnic post-myocardial infarction (MI) patients. Structural equation modeling was used to test a theory driven model of MetS that had good statistical fit. Primary MetS variables included waist circumference (WC), the homeostatic model of insulin resistance (HOMA-IR), glucose area under the curve (G-AUC), triglycerides (TRIG), high-density lipoprotein cholesterol (HDL-C), and diastolic blood pressures (DBP). Secondary MetS variables included plasminogen activator inhibitor-1 (PAI-1) and a latent inflammation variable comprised of CRP and IL-6. Cardiac function variables were fractional shortening (FS), E/A ratio, and rate-pressure product (RPP). A latent cardiac mass (CM) variable was also created. RESULTS: The final structural model had good model fit (Chi-Square(102)=100.65, p=0.52, CFI=1.00, RMSEA=0.00, and SRMR=0.04). Direct paths were supported between WC and CM and all MetS factors except TRIG and G-AUC. WC was indirectly associated with DBP via CM. The model supported positive direct paths between HOMA-IR and G-AUC, TRIG, and PAI-1, but not inflammation or HDL-C. HOMA-IR demonstrated a direct positive association with RPP and direct inverse associations with FS and E/A ratio. No direct paths were supported between other MetS variables except one between TRIG and HDL-C. CynHo demonstrated a direct positive relationship with HOMA-IR. CONCLUSIONS: Similar to findings in healthy individuals, central adiposity and IR play primary roles in CSF impairment in post-MI patients. Findings suggest that CynHo could promote the progression of metabolic dysfunction and cardiac disease via factors that influence the efficiency of glucose metabolism. Interventions for post-MI patients should take into account both direct and indirect effects of CynHo, central adiposity, and IR on the progression of CVD in this population to reduce adverse outcomes and improve quality of life.