View clinical trials related to Hyperglycemia.
Filter by:The purpose of this study is to test the effectiveness of a mobile application diabetes prevention program delivered with microlearning and microcoaching.
Glycemic imbalances are very common in shock patients admitted to intensive care units. A blood glucose control every 2 hours is routinely performed in patients requiring insulin therapy. In practice, we use a protocol and management software called "CPG" (Personalized Control of Blood Glucose). This involves taking capillary samples from the fingertips. In addition to the pain generated, local haematomas and sensitivity disorders have been described. Night-time sampling also leads to repeated awakenings. The "CGM GUARDIAN 2" system has been validated for the measurement of glucose in interstitial fluid in insulin-dependent diabetic patients. An electrode is placed on the patient's abdomen or arm for up to 6 days. This electrode consists of a needle that is inserted subcutaneously only during the placement. The sugar level is read using a sensor placed on the electrode and an insulin pump (which will not deliver therapy (for our study) and which will be used only as an information reader to know the glucose level and trends). Interstitial fluid is automatically drawn from the electrode every minute and averaged every 5 minutes. This device has not yet been validated in resuscitation patients.
Hyperglycemia is seen in approximately 30% of patients who do not have a history of diabetes and undergo general surgery. Hyperglycemia in this setting is associated with increased risk of postoperative complications. The purpose of this study is to investigate risk factors for developing high sugars during the time of surgery, and if these high sugars can be prevented by the use of an injectable diabetes medication (dulaglutide) prior to surgery.
Use of real-time continuous glucose monitoring (RT-CGM) systems in inpatient settings especially during the COVID-19 pandemic, may allow hospital staff to remotely monitor glucose while reducing viral exposure and preserving use of PPE. RT-CGM may be of benefit to inpatients with unstable glycaemia and at risk of severe hypoglycaemia, as it can automatically alert the treating clinical team of hypo and hyperglycaemia. This is of clinical relevance as up to 45% of inpatients with diabetes were found to have asymptomatic hypoglycaemia events in hospital, especially overnight. It may therefore provide a safer method of monitoring glycaemia in hospital compared to conventional bedside capillary glucose testing, by minimising the likelihood of hyper- and hypoglycaemic events and their known associated worse outcomes. The aim of this pilot study is to to demonstrate that use of Dexcom G6 RT-CGM may provide a safer and effective method of monitoring glycemia in hospital. Data from this pilot study will be used to design and implement a larger multi-centre pivotal trial.
The main purpose of this study is how to manage hyperglycemic patients in emergency departments, to determine the conditions that require blood glucose regulation and to examine the prognosis of the patients in the next 30 days, depending on the regulation method.
GDM is characterized by decreased insulin sensitivity, decreased insulin secretion, or a combination of both. Women with GDM are at significant risk for overt T2DM later in life, and postpartum insulin sensitivity and secretion in women with GDM has not been quantified, limiting our ability to optimize screening for overt T2DM. In addition, compliance with currently recommended postpartum T2DM screening by OGTT is poor. Quantification of postpartum insulin sensitivity and secretion in women at high risk for T2DM will inform strategies to improve diagnostic strategies. Continuous glucose monitoring (CGM) is a new technology that may be useful to identify women with persistent hyperglycemia. Understanding maternal glycemia and physiology that drives glycemia in the postpartum period is limited. Completion of this study will define postpartum maternal glycemia, quantify insulin secretion versus insulin sensitivity defects, and demonstrate the feasiblity of using continuous glucose monitoring to identify women most at risk for overt T2DM.
The GLP-1 receptor (GLP1R) gene is found on the beta cells of the pancreas. Its role is in the control of blood sugar level by enhancing insulin secretion from the pancreas after eating a meal. The purpose of this research study to find out how genetic variations in GLP1R alter insulin secretion, in the fasting state and when blood sugars levels are elevated.
This is a pilot acute dietary intervention study with a randomized cross-over design aiming to investigate whether acute supplementation of extra virgin olive oil (EVOO) rich in oleocanthal could attenuate postprandial hyperglycemia and activation of platelets in T2DM patients. For this reason, non-insulin dependent diabetic patients (10-15) will be randomly assigned to consume in five different days white bread (50 g CHO) with butter, butter with ibuprofen, refined olive oil and olive oil with oleocanthal (250 mg/Kg 500 mg/Kg). Blood samples will be collected pre- and post-intervention up to 4 hours in order to determine platelet aggregation, postprnadial glycemia, lipemia, inflammation and oxidative stress. Taking into account the strong anti-inflammatory and anti-platelet properties of oleocanthal, this study will assess whether oleocanthal-rich olive oils could exert similar effects under real in vivo conditions in T2DM patients. It will also assess whether these effects are achieved through improvement of postprandial glycemia and lipemia.
The insulin receptor is dependent on magnesium and hypomagnesemia is associated with increased insulin resistance and decreased insulin secretion and action. Recent data suggest that hypomagnesemia may play a role in development of type 2 diabetes. Kidney transplantation patients have low plasma magnesium levels, partly due to treatment with calcineurin inhibitors. However, the role of magnesium in the development of post-transplant diabetes mellitus (PTDM) is unclear. The present study addresses, whether hypomagnesemia is feasible to reverse by oral administration of magnesium. The investigators wish to investigate whether oral magnesium supplementation is sufficient to increase magnesium levels in kidney transplant recipients, and if supplementation improves glycemic parameters as measured by an oral glucose tolerance test (OGTT).
Antenatal corticosteroids, particularly, betamethasone is routinely administered to pregnant women at risk for preterm delivery to improve neonatal outcomes. Although antenatal betamethasone was shown to induce both maternal hyperglycemia and neonatal hypoglycemia, to date, there is insufficient data to establish whether treatment for maternal hyperglycemia, particularly, metformin, will decrease the risk for neonatal hypoglycemia, particularly of preterm neonates. In the present study the investigators will examine the effect of treatment with metformin on maternal glycemic control and hypoglycemia in preterm neonates following maternal betamethasone treatment.