View clinical trials related to Hyperglycemia.
Filter by:The major purpose of this Quality Improvement project is to begin to address the issues surrounding glycemic control in the hospital setting by collecting accurate, reliable and verifiable data on the occurrence of hyperglycemia (BG >300 mg/dL), and whether or not CIO is used (immediately before and 72 hours after the BG >300 mg/dl).
Glycemic control can be safely achieved in surgical and medical intensive care unit settings and has been shown to improve short and long-term clinical outcomes. As such, insulin infusion protocols are routinely used in the ICU setting. The investigators plan to establish the use of strict glycemic control in a heterogenous group of acutely ill patients in the ED setting. The investigators propose to study the aspects of implementing a strict glycemic control protocol in the ED.
The postprandial phase in diabetic patients is characterized by a rapid increase in blood glucose levels, increase in platelet aggregation, LDL oxidation and over production of thrombin. The aim of the study is to determine whether meal induced platelet activation is related to post-prandial hyperglycemia, and can be attenuated by good postprandial glucose control with rapidly acting insulin in patients with T2DM.
A randomized trial to compare three insulin-titration protocols for tight glycemic control in surgical ICU: an absolute glucose (Matias) protocol, a relative glucose change (Bath) protocol, and an enhanced model predictive control algorithm (eMPC)
Patients with chronic obstructive pulmonary disease (COPD) are commonly admitted to hospital with exacerbations of their lung disease. A combination of the acute illness and treatment with oral steroids causes a rise in blood sugar. Patients with high blood sugar do worse than those with normal blood sugar. The aim of this study is to develop a safe and effective protocol for tight control of blood glucose with insulin on acute medical wards outside the intensive care environment. This will allow us to perform a formal trial to determine whether blood glucose control with insulin reduces death and complications from COPD exacerbations.
30 type 2 diabetic patients will be PET-scanned twice ( half of the patients heart-PET, half of the patients CNS-PET) in random order with infusions of placebo or GLP-1-analogue during hyperglycemic clamp to uncover the metabolic effects of GLP-1-analogues in perspectives of intervention of macrovascular late diabetic pathology such as stroke and AMI. Earlier studies have revealed tendencies towards steady glucose metabolism in the CNS despite fluctuations in blood sugar when infusing native GLP-1.
High blood glucose levels in surgical patients with and without diabetes are associated with increased risk of medical complications and death. Over the short-term, high blood glucose can adversely affect fluid balance, impair immunologic response to infection, and promote inflammation and endothelial dysfunction (blood vessel function). Blood glucose control with intensive insulin therapy in patients with critical illness (very sick patients in intensive care unit) reduces the risk of multiorgan failure and systemic infections, and decreases short- and long-term mortality. High blood glucose has also been associated with poor outcome in non-critically ill patients admitted to general surgical and medical wards; however, intensive glycemic control is not aggressively pursued because of fear of hypoglycemia. A computerized search of biomedical journal literature from MEDLINE, PubMed, and Ovid from 1966 to 2008 provided very little information on the prevalence and outcome of high blood glucose during the perioperative period (before and after surgery) in non-critically ill patients. Therefore, the present study aims to evaluate the impact of high blood glucose, in large number of subjects with and without diabetes, during general (non-cardiac) surgery.
The purpose of this study is to determine the efficacy of intravenous Exenatide therapy in hyperglycemic patients admitted to the coronary intensive care unit.
This study will test the effects of resistant starch type 4 on blood sugar and hunger in adults with Type 2 diabetes.
This study tested the effects of resistant starch type 4 on blood sugar and hunger in young adults with Type 2 diabetes.