Diagnosis of Insulin Resistance: 13C-Glucose Breath Test Vs HOMA Index.
Glucose IntoleranceInsulin Resistance2 moreThe prevalence of type 2 diabetes is rising in the population for many years. It is now recognized that a period of glucose intolerance precedes the clinical symptoms appearance. This is due to a combination of b-cell dysfunction and insulin resistance. It is estimated that this pre-clinical phase of type 2diabetes may antedate the onset of overt diabetes by 10-12 years. Furthermore, insulin resistance is considered to be a main component of the metabolic syndrome and associated with significant cardiovascular morbidity and mortality. Recently, there has been an effort to pinpoint the pre-diabetic phase for early therapeutic intervention in the individual. These studies, in patients with impaired glucose intolerance, have shown to be beneficial from both lifestyle change and pharmacological intervention. It is thus hypnotized that intervention in patients with insulin resistance with or without glucose intolerance may prevent the progress of type 2 diabetes and it's complications. There is difficulty in identifying individuals who are at high risk for type 2 diabetes. The prevention strategy relies on intervention in a pre-diseased state. In the case of type 2 diabetes, the early intervention is useful in the phase where there is insulin resistance, but prior to the appearance of glucose intolerance. The diagnosis of insulin resistance is a challenging one. The gold standard in diagnosing insulin resistance is the hyperinsulinemic-euglycemic clamp, but this method is not suitable for routine clinical use. Thus, less invasive methods for evaluation, like homeostasis model assessment (HOMA) and quantitative insulin sensitivity check index (QUICKI), were developed. There is a correlation between HOMA and QUICKI results and the hyperinsulinemic-euglycemic clamp. Both HOMA and QUICKI allow insulin resistance diagnosis. The results from those tests correlate with hyperinsulinemic-euglycemic clamp and allow diagnosing insulin resistance, however, those indexes require serum glucose, insulin measurements and quite complicated calculations. A new method was suggested, non-invasive, sensitive and simple, for the identification of insulin resistance. In normal individuals, in the presence of insulin, glucose is taken up by a variety of cells, undergoes glycolysis and enters the tricarboxylic acid cycle or fat synthesis. In either case, CO2 in produced as a by-product. This CO2 enters the circulation and is discarded by the lungs. The new method is based on the assumption that 13C-glucose is ingested as described and its by-product 13CO2 can be measured in the expired air. In type 2 diabetes and other states of insulin resistance glucose, uptake is impaired and results in blunted 13CO2 production. This hypothesis was tested by Lewanczuc et al. The writers compared the [13C]-glucose breath test with hyperinsulinemic-euglycemic clamp, HOMA and QUICKI indexes. They tested 26 patients at different stages of insulin sensitivity and reported a good correlation of the glucose breath test and the other indexes. We suggest testing a larger group of patients at high-risk to develop type 2 diabetes and compare the glucose breath test with HOMA index.
Epigenetics Based Diagnosis of Diabetes in Saliva and Blood Samples
Prediabetic StateDiabetes Mellitus3 moreThe aim of the present study is to investigate epigenetics based modifications and biomarkers in the saliva and blood in diabetic patients.
Screening, Early Referral and Lifestyle Tailored E_prescription for Cardiovascular Prevention
Cardiovascular DiseasesCerebral Infarction3 moreWe will evaluate an e_Prescription intervention can be integrated into an electronic screening program, which together exploit: (i) reach - the adult population has 100% mobile phone ownership and 92% internet national coverage; and (ii) behavioral change - the intervention can teach verbally and visually, thus bypassing literacy challenges, to allow simple, low-cost, repetition messaging for habit reinforcement. Uptake of the program through the various stages will be evaluated in ~2000 adults of a large representative suburban district of Karachi: As well as before-and-after physiological measures, including blood pressure (BP) and blood glucose, a random sample of 30-40 participants will be invited for interview to assess success and failure of the program. This is a pragmatic feasibility intervention implementation study.
Feasibility Trial of the Bios Device for Continuous Glucose Monitoring
Type 1 DiabetesType 2 DiabetesThe study is an open-label, prospective, within-subject comparison of the Bios device readings versus venous blood sample glucose readings, glucose readings from a Dexcom CGM and an SMBG device in subjects previously diagnosed with Type 1 or Type 2 diabetes mellitus.
24-hour Blood Pressure Dynamics and Autonomic Adrenergic Regulation in Type 2 Diabetics
Diabetes MellitusType 24 moreAutonomic neuropathy is a common complication of type 2 diabetes mellitus. Symptoms from cardiovascular autonomic neuropathy include, dizziness, orthostatic hypotension and insufficient heart rate and blood pressure (BP) regulation during physical exertion. The degree of cardiovascular autonomic neuropathy is most commonly measured as cardiac autonomic neuropathy based on at least two abnormal cardiac reflex tests, which primarily measures parasympathetic indices of the autonomic nervous system (ANS). Few measures are available for quantifying the sympathetic/adrenergic branch of the ANS. Circadian changes in BP is a documented measure of BP variability, regulated centrally by a multitude of centers. A growing number of studies indicate that a diminished BP variability is associated with increased cardiovascular risk and injury. The ANS plays a pivotal role in the execution of these circadian BP changes, mainly through sympathetic adrenergic nerve fibers Few studies have investigated the applicability of 24-hour indices as predictor for autonomic adrenergic dysfunction. No previous studies have investigated the association between clinical markers of adrenergic function, and 24-hour blood pressure indices in type 2 diabetes.
Early Changes in Pulmonary Function and Vascular Endothelial Function and the Correlation Between...
Diabetes MellitusType 2Current knowledge: To the best of our knowledge, no studies have reported the correlation between pulmonary function and the vascular endothelial function in diabetic patients during the preclinical period. Indeed, diabetic nephropathy and retinopathy are the leading causes of end-stage renal failure and acquired blindness, respectively. However, when investigators treat patients with type 2 diabetes, investigators seldom consider the pulmonary vascular injury induced by glycemia. Experimental studies have shown that pulmonary function and Vascular endothelial function change during the preclinical stages of diabetic retinopathy. Researchers have already established that compared to healthy subjects, patients with type 2 diabetes have a reduced alveolar gas exchange capacity. The NO and ET-1 can be used to assess the Vascular endothelial function. What this paper contributes to our knowledge: Regulating glycemia can improve Vascular endothelial function . This study suggests that detecting the NO and ET-1 would allow for the prediction of changes in pulmonary function during the preclinical stages of diabetic retinopathy and the degree of retinopathy in the future.
Changes in the Retinal and Carotid Microcirculation After Restoring Normoglycemia in Patients With...
Type 2 Diabetes MellitusMicroangiopathy3 moreThis is a prospective and observational study in patients with type two diabetes. The study hypothesis is that chronic hyperglycemia causes an increase in the microcirculation on the carotid artery wall and retina, evaluated by angio-OCT. Furthermore, the reestablishment of normoglycemia would decrease this microcirculation, which could trigger hypoxic and ischemic changes, accelerating preclinical atherosclerosis. The study goal is to describe the microangiopathy in both territories in patients with type two diabetes and chronic hyperglycemia, and to evaluate changes after the reestablishment of normoglycemia.
Study Visceral Adipose Tissue and Liver Stifness in a Retrospective Cohort of Diabetes Mellitus...
NAFLDType 2 DiabetesNon Alcoholic Fatty Liver Disease (NAFLD) is an emergent disease worldwide, and soon the leading cause of hepatic transplant in the USA. Among this high number of patients, the current challenge is to detect or even predict patients at risk of inflammation (Non Alcoholic or Steatohepatitis or NASH) and end-stage fibrosis, which are the best predictors of liver-related mortality. Visceral obesity is intimately associated with metabolic disease and adverse health outcomes, such as diabetes, and NAFLD. It has been demonstrated that visceral adipose tissue-linked inflammation was a risk factor of stroke, myocardial infarction, and others metabolic-related complications. The aim of this study was to evaluate the association of the quantity and percentage of Visceral Adipose Tissue by Dual X-Ray Absorptiometry and liver stiffness by Fibroscan in patients with type 2 diabetes, and other predictors of fibrosis such as FIB-4 and Fibrotest. We retrospectively collected the data of all the diabetic patients who had undergone a DEXA and a Fibroscan between January 1st, 2014 and Decembre 31th, 2019, in the Universitary Hospital of Nancy, France.
Metagenomic Analysis of Human Gut Microbiota in Patients With Metabolic Diseases Including Diabetes...
Type 2 Diabetes MellitusDyslipidemiasMicrobiota is important for immunology, hormonal and metabolic homeostasis in human and could influence on developing diabetes and obesity. Recent studies investigates microbiota by metagenomic sequencing, however, the composite of microbiota and its metabolic role has not been fully determined. Metagenomics and microbiome analysis could early diagnose metabolic disorders and suggest treatment options for metabolic diseases. In this study, the investigators investigate the composite of microbiota and deduct basic information for treatment models using metagenomic sequencing.
MOLECULAR REGULATION OF MUSCLE GLUCOSE METABOLISM (AIMS 2A, 2B, 3)
Type 2 Diabetes MellitusObesityThe molecular nature of insulin resistance in human muscle is still incompletely defined. Our data indicate that acetylation of mitochondrial proteins in humans is regulated by muscle contraction and is dysregulated in insulin resistance. Poor function of mitochondria in skeletal muscle is a hallmark of insulin resistance in skeletal muscle. We propose to use a combination of clinical research and mass spectrometry techniques to determine how the cytosolic and mitochondrial protein acetylation is regulated by muscle contraction in insulin sensitive and resistant human volunteers. We will test the hypothesis that mitochondrial protein acetylation is decreased to a greater degree following a bout of exercise in insulin sensitive than in insulin resistant human muscle. Using these techniques we also propose to determine how acetylation of mitochondrial adenine nucleotide translocase (ANT1) at lysines 10, 23, and 92 regulates ANT1 structure and function. Finally, we propose 4) to use a combination of molecular modeling and in vitro assays together with the approach developed in Aim 3 to characterize the role of acetylation in other mitochondrial proteins. Protein targets for this aim will be prioritized based on the potential role of the protein in insulin resistance or mitochondrial function as well as dysregulation of its acetylation state in insulin resistant muscle.