View clinical trials related to Arterial Stiffness.
Filter by:Aims: To investigate early markers of arterial stiffness and nerve dysfunction and the association to an extended glucose metabolic profile comprising glucose control (current and past), glucose variability and insulin sensitivity in children and adolescents with type 1 diabetes (T1D). Background: Most Danish children and adolescents with T1D do not achieve their metabolic target and are at increased risk of developing long-term diabetic complications, reducing their life expectancy and increase their morbidity rate. Hence, improved metabolic control, a better understanding of what optimal metabolic control means, combined with detailed monitoring of the first markers of long-term complications and their reversibility or lack thereof are needed. Methods: A prospectivel study of 400 children, aged 6-18 years old, with T1D>12 months. Early markers of long-term diabetic complications will be investigated as arterial stiffness, nerve dysfunction and nephropathy. Data on T1D onset, duration, treatment modality, self-monitoring-blood-glucose profiles, growth, weight, and pubertal status will be collected. Blood sampling will include routine tests and markers of glucose, lipid, bone, and gastrointestinal metabolism. DXA-scan, Fibroscan, bone-age, eye-examination and physical activity will be measured. Data on retrospective glucose- and lipid-profiles will be collected. The children will be offered a followup every 5 years for the next two decades. Perspectives: This study provides novel insight into the frequency of early markers of long-term diabetic complications and its association to the interplay of the pancreas, adipose, gastrointestinal and bone metabolic axis. Which can assist in identifying subgroups of children and adolescents requiring earlier in-depth screening for early markers of long-term diabetic complications, for putative interventions for prevention, hence reducing morbidity and mortality in T1D.
Hypertension is a disease with increasing and serious complications all over the world. In particular, the incidence of hypertension increases with advancing age. Secondary problems that can be caused by hypertension include peripheral vascular diseases, arteriosclerosis, increased risk of heart attack and stroke. It is a measurement of pulse wave velocity (PWV), a non-invasive indicator of arterial stiffness. It is known that sudden hemodynamic changes that occur during the induction of anesthesia cause undesirable intraoperative and postoperative complications. It is known that arterial stiffness, which is more common in elderly patients, causes orthostatic hypotension in particular. For this reason, more hemodynamic instability may be seen in the general anesthesia procedure in elderly patients with increased arterial stiffness. In our study, we aimed to investigate whether the hemodynamic changes observed during anesthesia induction in hypertensive elderly patients, whom we think have a high pulse wave velocity, are different from normotensive patients.
Heart failure with preserved ejection fraction (HFpEF) was considered as a heterogeneous disease with multi-organ and multi-system design, which is related to various complications, such as hypertension, obesity and arteriosclerosis. Studies have found that hypertension and obesity are respectively associated with increased arterial stiffness. However, there is still no research investigating the the relationship between lipids distribution and arterial stiffness in HFpEF patients.
Background: CADASIL (cerebral autosomal dominant arteriopathy with subcortical infarct and leukoencephalopathy) is a genetic disorder. It causes narrowing of the small blood vessels and can lead to strokes and dementia. Researchers want to monitor people with CADASIL over time. Objective: To learn more about how CADASIL affects a person s blood vessels over time. Eligibility: Adults ages 18 and older who have CADASIL, and healthy volunteers. Design: Participants will be screened with a medical record review. Participants will have 4 study visits over 9 years. Visits will last 6 8 hours per day, for 2 4 days. Participants will give blood and urine samples. They will have an electrocardiogram to record their heart s electrical activity. They will fill out a family tree. They will have tests that measure mental abilities like memory and attention. They may have a skin biopsy. They may have a lumbar puncture. Participants will have an eye exam. Their pupils will be dilated. They will receive a dye via intravenous (IV) line. Pictures will be taken of their eyes. Participants will have an imaging scan of their brain. They may receive a contrast agent via IV. Participants blood flow and blood vessel flexibility will be measured. In one test, a probe will be pressed against the skin of the their wrist, neck, and groin. In another test, they will hold one arm still while a microscope makes videos of the blood flow through a fingernail. In another test, they will perform light exercise or other activities while wearing an elastic band around their head or probes placed on their arm or leg. Healthy volunteers will complete some of the above tests.
The aim of this study is to examine the reproducibility of postprandial coronary heart disease (CHD) risk marker and sleep responses to acute exercise bouts and to quantify the magnitude of individual variability in responses using a replicated crossover design. Healthy, recreationally active men will complete two identical rest control and two identical exercise (60 min at 60% maximum oxygen uptake) conditions in randomised sequences. Fasting and postprandial venous blood samples, arterial blood pressure and arterial stiffness measurements will be taken at pre-determined intervals, and sleep duration and quality will be assessed. Reproducibility and individual variability will be examined using bivariate correlations and linear mixed modelling.
This observational study is assessing the effects that arterial stiffness may have on patients with heart failure (HF) and chronic kidney disease (CKD). Arterial stiffness will be measured by assessing pulse wave velocity (PWV). Carotid- Femoral PWV is the gold standard in measuring arterial stiffness non- invasively. Many studies have shown increasing PWV is a predictor of cardiovascular events, but the significance of increasing PWV as a surrogate marker for the potential worsening (decompensation) of HF or CKD has not been explored. This study aims to investigate patients with HF and CKD by assessing PWV while in a decompensated state and again when in a stable condition after 4 weeks of discharge to investigate a link between decompensation and rise of arterial stiffness. The research team aim to recruit 120 patients in this study with 40 patients in each of the 3 groups- heart failure with reduced ejection fraction (HFrEF), heart failure with preserved ejection fraction (HFpEF) and acute kidney injury (AKI). All AKI patients would have had known CKD (stages 3a, 3b or 4). The study participants will be initially recruited in hospital while admitted in an acute state and tests including bloods, ECG, echocardiography and PWV will be performed. The tests (excluding echocardiography) will be repeated 4 weeks after discharge. There is no intervention in this study. The study seeks to improve the understanding of the role of the vasculature in the development of acute HF in the two common types- HFrEF and HFpEF. As CKD is a common comorbidity in heart failure patients we felt that a study of the behaviour of arterial stiffness in this cohort will add to this understanding. If arterial stiffness is found to be an important component of the HF syndrome therapeutic interest could be focused at managing arterial stiffness with novel therapy.
After the Fontan procedure applied in patients with a functional or anatomical single ventricle, patients are faced with significant morbidity and mortality risk. Most of the common complications after Fontan such as arrhythmia, cyanosis, ventricular dysfunction, heart failure, atrioventricular valve insufficiency, protein-losing enteropathy, thrombosis, bleeding, venous insufficiency directly or indirectly limit exercise capacity. It has been reported that hemodynamic, vascular and muscular factors may be effective in the decrease of exercise capacity. In previous studies, it has been reported that cardiac output, one of the hemodynamic parameters, is the main factor affecting exercise capacity in patients with Fontan, and this is due to insufficient increase in stroke volume. In addition to the hemodynamic profile, the effects of muscle oxygenation, arterial stiffness and peripheral muscle strength on exercise capacity have been mentioned in different studies. For this reason, it is thought that examining the effects of hemodynamic, vascular and muscular profile together on submaximal and maximal exercise capacity in patients with Fontan will provide information about the mechanisms of influence of different exercise capacities and will provide important information in terms of determining exercise-based rehabilitation programs for such patients.
This is an observational cross-sectional study whose objective is to analyse associations between the intestinal and salivate microbiota with lifestyles (eating patterns, physical activity, tobacco and alcohol consumption), arterial aging and cognitive function. It will take place in five different research units located in Spain
VIKIPEDIA is a multi-centre, placebo-controlled, randomized, open-label intervention clinical trial on Peritoneal Dialysis (PD) patients. At baseline the investigators will recruit End-Stage Renal Disease patients undergoing PD and randomize them to either daily per os supplementation of 1mg menaquinone-7 or placebo for 1.5 year. The investigators will study the effect of vitamin K2 supplementation (through normalization of dp-ucMGP) on arterial stifness and the occurence of cardiovascular events. The investigators will also cosider as secondary endpoints, mortality, central aortic blood pressure and indices of 24h-ambulatory blood pressure.
The greatest challenge in our ageing society are cardiovascular diseases such as stroke, heart attack, peripheral artery disease of the legs with non-healing wounds (ulcers), or diabetes. How healthy ageing affects the smallest blood vessels (microcirculation) and is not well understood. One reason for this is that no generally available medical instrument has the resolution to study the microcirculation. The recently developed optical coherence tomography angiography (OCTA), currently mainly used by eye doctors, is able to visualise the microcirculation. We have developed an automated software (OCTAVA) to determine metrics to characterise the microcirculation on the layers of density, diameter and tortuosity. In the current study we aim at providing reference values of these metrics in hands and feet of healthy people according to age together with macrovascular function in arms and legs.