View clinical trials related to Hypoglycemia.
Filter by:The purpose of this study is to evaluate the role of GLP-1 in causing extreme postprandial glucose reductions after bariatric surgery in a subset of patients who have severe symptomatic hypoglycemia.
Hypoglycemia can produce a spectrum of pro-inflammatory and pro-atherothrombotic changes. To date no studies appear to have investigated the effects of differing levels of hypoglycemia on the vasculature and pro-atherothrombotic balance during hypoglycemia in healthy man. The specific aim of our study will be to determine the effects of differing levels of hypoglycemia on in-vivo vascular biologic mechanisms in a healthy population.
The purpose of this study to conduct the preliminary investigation on the efficacy and safety in terms of postprandial glucose value and the rates of hypoglycaemia when expert VoiceDiab system supports patient's decision on prandial insulin programming in insulin pump therapy.
Uncontrolled diabetes is associated with increased risk for micro-vascular complication. Hypoglycemia is one of the major barriers in achieving good glucose control. Hypoglycemia is associated with a range of unpleasant symptoms including palpitations, tremor, hunger, sweating, confusion, difficulties in thinking as well as other idiosyncratic symptoms. Fear of hypoglycemia (FOH) refers to phobic avoidance reactions associated with hypoglycemia FOH may increase behavioral attempts to avoid hypoglycemia including decreased consumption of insulin and/or increased consumption of carbohydrates, resulting in poor glycemic control and an increased risk of diabetic complication. In this study, the investigators present a novel system, which simultaneously employs BioFeedback and Virtual Reality in order to cope with fear of hypoglycemia.
The purpose of this study is to determine if patients have more hypoglycemic episodes the first 3 days following pump start compared to their usual number of hypoglycemias with our actual pump initiation protocol.
Exercise is a cornerstone of diabetes management. It helps reduce blood pressure, promote weight loss, lower insulin resistance and improve glucose and lipid (triglyceride and HDL-cholesterol) profiles. Unfortunately, the benefits of exercise are often not embraced by diabetic individuals because of the fear of low blood sugar (hypoglycemia). My laboratory has demonstrated that Autonomic nervous system (ANS) counterregulatory failure plays an important role in exercise associated hypoglycemia in Type 1 DM. ANS responses are significantly reduced in Type 1 DM and are further blunted by antecedent episodes of hypoglycemia. Furthermore, there is a large sexual dimorphism of reduced ANS responses during submaximal exercise in both Type 1 DM and healthy individuals that is unexplained. Accumulating data are demonstrating that serotonergic pathways can regulate ANS discharge. Generally, serotonergic pathways are inhibitory but both single and longer term administration of selective serotonin reuptake inhibitors (SSRI's) such as Prozac has been demonstrated to increase basal epinephrine levels and enhance baroreflex control of Sympathetic nervous system (SNS) activity. What is unknown is whether fluoxetine can also enhance SNS responses and also override the large ANS sexual dimorphism present during sub maximal exercise. Therefore, the purpose of this study is to determine if the SSRI fluoxetine (Prozac) can improve SNS responses during exercise.
Insulin treatment often causes the blood glucose levels to fall too low. The body usually responds to low blood glucose levels by releasing hormones which act against the insulin to help correct the low blood glucose levels. However, this hormone response can be altered in people with diabetes. Currently there are no therapeutic agents that can be used to improve the recovery from hypoglycemia (low blood sugar). The aim of this study is to determine whether a formoterol inhaler can be used to improve and accelerate the recovery from hypoglycemia in patients with type 1 diabetes.
RYGB (roux-en-y gastric bypass) has been reported to reverse type 2 diabetes (T2DM) immediately after surgery before any significant weight loss. In addition, a growing number of patients have been recognized with life-threatening hyperinsulinemic hypoglycemia several years following their surgery. While the mechanisms by which RYGB improves glucose metabolism or alters islet cell function in patients after RYGB are not understood, recent studies suggest that increased secretion of GI hormones, primarily glucagon-like peptide 1 (GLP-1), as well as alteration in neural activity may contribute to enhanced insulin secretion in general, and to a greater extent in patients with hypoglycemia. The proposed research is designed to address the role of RYGB on insulin secretion by evaluating the contribution of stimulatory factors (neural and GI hormone) on islet cell function and the islet cell responsiveness to the physiologic stimulatory factors, in RYGB patients with and without hypoglycemia and non-operated controls.
Early breast feeding has shown to be important to mother-infant bonding and is associated with longer duration of breast feeding. However, little data is available regarding its contribution to glucose levels in the newborn infants. Newborns that are at risk to develop hypoglycemia may benefit from early breast feeding if this appears to prevent post-partum hypoglycemia.
Hypoglycemia is the term used to refer to lower than normal levels of blood sugar. This study will continue to research the causes of hypoglycemia. Patients involved in the study will be admitted to the Clinical Center of the National Institutes of Health and undergo tests for evaluating blood sugar. Patients will be required to refrain from eating for a set period of time and will undergo blood tests for insulin levels and several other specific diagnostic tests related to insulin secretion. The patients will be under supervision and will be provided with appropriate medical and surgical attention as needed.