View clinical trials related to Hypoglycemia.
Filter by:Dietary habits may affect our body by certain mechanisms, visual sense is one of the most vital human senses that needs special attention in our daily habits.
This is a randomized, parallel, controlled, non-inferiority trial to assess the impact of a tight versus a more liberalized intrapartum glycemic control in gestational diabetic mothers on neonatal glycemia. National guidelines for the management of intrapartum glucose in women with GDM are lacking. This is likely due to the scarcity of high-quality data on the topic.
Aim 1: Characterize shared decision-making and unmet patient-caregiver dyads needs for patients with diabetes and Alzheimer's Disease and related dementias (ADRD) while using a continuous glucose monitoring (CGM) device. Aim 2: Develop an interactive tool to enhance shared decision-making for diabetes management.
CLUE trial aims to determine the feasibility and predictive value for surgical site infection (SSI) of continuous glucose monitoring (CGM) in emergency laparotomy patients with diffuse peritonitis.
The primary objective of this open-label pilot study is to investigate whether an endoscopically placed lumen apposing metal stent is an effective alternative to surgery in patients that have a clear indication for reversal of their gastric bypass.
In patients with type 2 diabetes, it is necessary to identify and manage nocturnal hypoglycemia as early as possible, so as to reduce the damage caused by nocturnal hypoglycemia.We explore whether smartwatches can provide early warning of nocturnal hypoglycemic events in patients with type 2 diabetes by detecting changes in pulse variability.
Achieving near-normoglycemia has been established as the main objective for most patients with Type 1 Diabetes (T1D). Automated insulin delivery (AID) systems, the so-called artificial pancreas (AP) or closed-loop systems, may represent the ideal solution, especially for patients not reaching the therapeutic goals with multiples doses of insulin or open-loop delivery systems. Despite the advances in recent years that have proven the efficacy and safety of these devices in clinical trials and clinical practice settings, such evidence cannot be extrapolated to highly unstable patients, as problematic hypoglycemia remains an exclusion criterion in most of the trials. The SAFE-AP system is a single-hormone hybrid closed-loop controller based on a proportional derivative with an insulin feedback controller that integrates a safety layer with insulin-on-board constraints and sliding mode reference conditioning. The hybrid closed-loop system includes a second safety feedback loop with a controller that triggers carbohydrate recommendations to the patient. Both control loops are coordinated to ensure that the counter-regulatory effect of rescue carbohydrates is not counteracted with insulin. Such system has been previously proven effective in unannounced exercise, one of the main challenges in AID systems development. Additionally, the algorithm has been recently tailored to achieve a better control in the subgroup of T1D patients prone to hypoglycemia. In this project, a rigorous clinical testing of the SAFE-AP system will be carried out in 12 patients with T1D and problematic hypoglycemia, despite treatment with continuous subcutaneous insulin infusion. The safety and performance of the system will be evaluated in a 32-hour pilot study, including 4 meals, one overnight period and 2 unannounced aerobic exercise sessions. The study will be performed in a hospital setting with the on-site supervision of a specialized nurse and a diabetologist, as well as an engineer in remote control.
The goal of this observational study is to assess clinical factors associated with the occurrence of impaired hypoglycemia awareness in adult patients with type 1 diabetes The main questions it aims to answer are: 1. Determination of the prevalence of impaired hypoglycemia awareness (IAH) in adult patients with type 1 diabetes in the Polish population. 2. Assessment of the clinical usefulness of commonly used standardized scales for the assessment of IAH. 3. Determination of the clinical factors associated with the occurrence of impaired hypoglycemia awareness in adult patients with type 1 diabetes. 4. Determination of the relationship between the occurrence of IAH and the diagnosis of cardiac autonomic neuropathy. 5. Determination of the relationship between impaired hypoglycemia awareness in adult patients with type 1 diabetes and the occurrence of cognitive impairment. Participants will: - fill the standard questionnaires regarding hypoglycemia awareness: Gold, Clarck, HypoA-Q. - have late complications of diabetes checked - have procedure of cardiac autonomic neuropathy assessment - have standard laboratory evaluation during hospitalization
Type 1 diabetes (T1D) results from destruction of insulin producing beta cells by the body's own immune system (autoimmunity) causing an individual to lose the ability to make enough insulin to control their blood sugar levels and need to have insulin injections to lower blood glucose levels. Whilst high blood sugar level is a problem for people with Type 1 diabetes, taking insulin medication to lower sugar levels, delayed meals and exercise can all result in dangerously low blood sugar levels (hypoglycaemia). The biological causes of hypoglycaemia, and ways to prevent it are poorly understood. In non-diabetic individuals, a hormone called glucagon is secreted naturally to raise blood glucose levels but it is unclear why glucagon secretion is impaired during hypoglycaemia in individuals with T1D. The aim of this prospective observational study is to test the relationship between a glucagon stimulation test and risk of hypoglycaemia in T1D. It is hoped this research will establish whether this relationship could be used as a blood test and be a clinically useful biomarker of hypoglycaemia risk and, therefore, directly inform clinical care of people with T1D, particularly those with highest risk of hypoglycaemia. Assessment of beta cell decline has traditionally relied on timed C-peptide measures following a standardised liquid meal known as the mixed meal tolerance test (MMTT). Home finger prick blood spot C-peptide measurement might be a practical, cheap, and non-invasive alternative to a MMTT and would allow regular assessment of beta cell function over time. If proven that this sample type is a robust alternative to the gold standard MMTT venous C-peptide, it would dramatically decrease the cost and participant burden of T1D research into beta cell function.
In this study the investigators will explore whether the motion during sleep of people with diabetes changes as a function of the blood glucose levels. The motion will be assessed with a radar sensor, a thermal camera, and wrist worn smartwatches. Additionally, participants will answer a short daily questionnaire. Data will be collected for 10 days and analyzed at the end of the study.