View clinical trials related to Hyperglycemia.
Filter by:The purpose of this study is to look at feasibility (the likelihood) of continued use of the FreeStyle Libre 2 Continuous glucose monitor (CGM) when started at the time of hospital discharge in patients with poorly controlled diabetes and to look at the effects of CGM use on blood glucose control and quality of life. Additional information will be collected to determine the barriers to continuing CGM use after discharge. The investigators will also collect information to see how well blood glucose has been controlled after discharge while utilizing the CGM.
REMD-477 (Volagidemab) is a human anti-glucagon receptor antibody. Its proposed mechanism of action in controlling hyperglycemia is by blocking glucagon receptor (GCGR) signaling. In this way, it increases hepatic glucose uptake, decreases hepatic glycogenolysis and gluconeogenesis, increases glycogen synthesis, and ultimately decreases blood glucose levels. This protocol will test the hypotheses that REMD-477 is safe and tolerable in patients with severe hyperglycemia on apelisib and prevent hyperglycemia associated with alpelisib in patients with advanced breast cancer who discontinue alpelisib due to severe hyperglycemia despite appropriate medical management.
The literature has shown that exercise is effective in decreasing blood glucose levels. However, it remains less clear if there is any difference between muscle groups regarding the glucose-lowering effects of exercise. The purpose of this study is to examine the differences in blood-glucose level changes in response to exercise that involves different muscle groups.
REMD-477 (Volagidemab) is a human anti-glucagon receptor antibody. Its proposed mechanism of action in controlling hyperglycemia is by blocking glucagon receptor (GCGR) signaling. In this way, it increases hepatic glucose uptake, decreases hepatic glycogenolysis and gluconeogenesis, increases glycogen synthesis, and ultimately decreases blood glucose levels. This protocol will test the hypotheses that REMD-477 is safe and tolerable in patients with severe hyperglycemia on copanlisib and that it decreases the risk of severe hyperglycemia in patients receiving copanlisib for relapsed refractory lymphoma
Study objective is to determine whether Pioglitazone (PGZ) can improve clinical outcomes in hyperglycemic acute ischemic stroke (IS). The rationale for the proposed research is to develop an acute intervention that can improve neurological recovery and decrease mortality and morbidity in high-risk diabetic stroke patients.
Glucagon regulation and response in persons with T1D at the basal state and in response to various stimuli remains unclear. Dr. Philip Cryer has previously reported that, in T1D young adults with a course of the disease of 16+9 years, the absence of endogenous insulin secretion results in increased glucagon secretion after a mixed meal, concluding that endogenous insulin reciprocally regulates the alpha-cell glucagon secretion and also suggesting that glucagon dysregulation may play an important role in post-prandial hyperglycemia in T1D. Interestingly, recent research on human islets have shown that insulin inhibits counter-regulatory glucagon secretion by a paracrine effect mediated by SGLT2-dependent stimulation of somatostatin release. An important gap in our knowledge is whether the timing of prandial insulin doses affects the glucagon response to a hyperglycemic stimulus in patients with T1D who have undetectable C-peptide. Whether appropriately timed exogenous insulin can modify the glucagon response to glucose fluctuations has not been studied. As such, this pilot study aims to characterize the glucagon response to meal-time hyperglycemia and to compare the difference in glucagon secretion when mealtime bolus insulin is given before the meal versus after the meal with the objective of understanding factors that contribute to the peak post-prandial blood glucose and AUC of blood glucose after a mixed meal in this target population.
This study is a prospective randomized study to examine the effects of exposure to dulaglutide on the prevention of stress-hyperglycemia and the metabolic inflammatory response in the perioperative period.
Glucocorticoids are known to cause an increase in insulin resistance, leading to hyperglycemia, in both diabetic and non-diabetic patients. In both the inpatient and outpatient setting, steroids are used for their anti-inflammatory property to treat a variety of conditions. There is a paucity of information regarding the best way to treat steroid-induced hyperglycemia. In this study we will compare (1) the addition of NPH insulin, an intermediate-acting insulin, given at the time of steroid administration to the patient's standard basal/bolus insulin to (2) modification of the standard basal-bolus insulin regimen which will consist primarily increasing the prandial doses at lunch and supper in order to determine which regimen is superior for glycemic control.
To evaluate the OptiScanner® for continuous glucose monitoring as a tool to optimize glucose levels in patients hospitalized for acute coronary syndromes
The purpose of this research study is to find out if the combined therapy lumacaftor-ivacaftor affects glycemia in patient with cystic fibrosis.