View clinical trials related to Hyperglycemia.
Filter by:Diabetes mellitus type 2 is a long-term metabolic disorder that is primarily characterized by insulin resistance, relative insulin deficiency and hyperglycemia. Our hypotheses is that liver would be the primary organ responsible for the metabolic disorder because of some unknown defects, where sugar would not be efficiently converted to glycogen and fat, leading to hyperglycemia. The constant hyperglycemia would keep pressure on beta-cells in the pancreas to eventually exhaust their ability to produce and secret sufficient amount of insulin, exacerbating the disease. The Immunotherapy would enhance the liver functions and correct the abnormal sugar metabolism. In addition, the ex vivo activated cells produce and secret growth factors which would help endothelial cells of blood vessels to reproduce and grow, resulting in reduced arteriosclerosis.
Insulin preparation -random assignment to regular insulin lin or lispro insulin as first treatment- was administered at constant infusion rate (0.04 units/Kg/h) in patients presenting blood glucose concentration ≥180 mg/dl and was discontinued when blood glucose concentration ≤140 mg/dl (therapeutic blood glucose concentration drop). Further reduction in blood glucose concentration after discontinuation of insulin infusion was recorded (post-infusional blood glucose concentration drop). During the study period blood glucose concentration, in whole blood, was measured every 30 minutes. At least 6 hours interval was allowed between the 2 treatments.
Hypothesis: A beverage with a resistant starch will blunt and sustain the post-prandial rise in blood glucose and insulin concentrations compared to beverage with maltodextrin (an easily digested carbohydrate).
Objective: to determine which regimen results in best glycemic control and safety profile, expressed as glucose values within target range and occurrence of hypoglycemia. Secondary objective is to compare patient satisfaction, clinical outcomes and toxicity. Study design: Randomized open label cross-over study Study population: Patients ≥ 18 years, who developed glucocorticoid induced hyperglycemia requiring initiation or adjustment of antihyperglycemic agents in a previous chemotherapy cycle. Patient should have ≥2 cycles of chemotherapy scheduled, with 3-10 consecutive days of ≥12,5mg prednisone-equivalent glucocorticoid and a wash-out period of 4-38 days between each cycle. Intervention: subjects will be treated by insulin regimen A and B in random order during two consecutive cycles of chemotherapy. A) intermediate acting insulin 0.01 IU / mg prednisone-equivalent / kg body weight once daily subcutaneous B) Short-acting insulin according to sliding scale regimen, dose adjusted to current grade of hyperglycemia. Main study parameters: Difference in fraction of blood glucose measurements (BGM) within target range and occurrence of hypoglycemia. Nature and extent of the burden and risks associated with participation, benefit and group relatedness: Both study treatments are just a slight variation in regular care for glucocorticoid induced hyperglycemia. Glycemic control is likely to improve due to treatments and increased counselling. All subjects will receive both treatment regimens. The burden consists of 16-32 extra BGMs over 2 x 4-10 days, wearing the glucose sensor, 1 venipuncture (if HbA1c and creatinin are not determined in routine laboratory within 3 months before start), and 1 randomization visit to the outpatient clinic. Potential risk is the occurrence of hypoglycemia, as is present in any insulin therapy. The investigators account for this risk by giving subjects dietary advice and education how to prevent, recognize and treat hypoglycemia.
In patients suffering from aneurysmal subarachnoid hemorrhage (aSAH), hyperglycemia is considered an adverse prognostic factor. Glycated hemoglobin (or HbA1c) can be measured to estimate the average plasma glucose concentration over prolonged periods of time, thus determination of glycated hemoglobin at admission after aSAH serves as an approximation of blood glucose levels in the weeks preceding aneurysm rupture. In this patient registry admission HbA1c, clinical course and neurological outcome after 6 month are recorded, to determine whether elevated blood glucose levels prior to aneurysm rupture influence the clinical course and patient outcome after aSAH.
The purpose of this study is to investigate how millet incorporation into different baked product types influences glycemic response and satiety.
The study was designed to investigate the optimal management of hyperglycemia developed during pasireotide treatment in participants with Cushing's disease or Acromegaly, which was not manageable with metformin. This was a Phase IV, multi-center, randomized, open-label study. Eligible patients started pasireotide subcutaneously (s.c.) for Cushing's disease and pasireotide LAR (long-acting release) for Acromegaly. Participants being treated with pasireotide s.c or LAR at screening were eligible as long as they met protocol criteria during the screening period. If previously normo-glycemic participants experienced an increase in their fasting blood glucose and met the criteria for diabetes while on pasireotide, they started anti-diabetic treatment using metformin. If they continued to have elevated blood glucose above target on metformin within the first 16 weeks, they were randomized in a 1:1 ratio to receive treatment with incretin based therapy or insulin for approximately 16 weeks. Participants who continued to receive clinical benefit after completing the Core Phase could enter an optional Extension Phase if pasireotide was not commercially available in their country or a local access program was not available to provide drug. Patients continued in the Extension Phase until the last participant randomized in the Core Phase completed 16 weeks of treatment post-randomization.
Most critically ill patients are confronted with hyperglycaemia, which is associated with an increased mortality and morbidity risk. Normalising these elevated blood glucose levels by intensive insulin therapy may improve patient outcome, but is associated with an increased risk of hypoglycaemia. The LOGIC-2 study hypothesises that the LOGIC-Insulin computerised software algorithm will allow better (less hyperglycaemia) and safer (less hypoglycaemia) blood glucose control in critically ill patients than nurse-directed blood glucose control.
This is a clinical study of a drug named dopamine and how it affects our bodies ability to make and secrete insulin. Insulin is a hormone made in the pancreas that helps our body regulate sugar levels. We think that this drug decreases the amount of insulin our body makes and causes our sugar levels to be high. When you are critically ill there can be many adverse effects if you have sugar levels that are too high.
The purpose of this study is to investigate if daily consumption of barley beta-glucans effect lipid and glucose metabolism and alter intestinal microbiota composition in participants with metabolic syndrome or with high risk for metabolic syndrome development. It is assumed that 4-week intervention with beta-glucans will improve some clinical signs of metabolic syndrome and alter composition of intestinal microbiota. Variation in microbiota composition will be investigated with emphasis on Bacteroidetes and Firmicutes ratio. Furthermore it is presupposed that consumption of beta-glucans will stimulate growth of beneficial intestinal bacteria from genus Lactobacillus and Bifidobacteria and consequently effect production of short chain fatty acids in population with metabolic syndrome. Moreover it is presupposed that 4-week consumption of beta-glucans will have influence on glucose metabolism and will consequently improve insulin resistance within people with metabolic syndrome or high risk for metabolic syndrome development. It is assumed that 4-week consumption of beta-glucans will improve specific plasma lipid content in population with metabolic syndrome.