330 Clinical Trials for Various Conditions
This randomized controlled crossover trial of 36 pregnant individuals with gestational diabetes (GDM) or gestational glucose intolerance (GGI) will: 1. Determine the effects of physical activity (PA) timing, specifically 30 minutes of moderate intensity walking or stepping in the morning (between 5am-9am, within 30-40 minutes of starting breakfast), versus late afternoon/evening (between 4pm-8pm, within 30-40 minutes of dinner) on glucose across the 24-hour cycle. 2. Explore the potential effects of the timing of PA on sleep and mood state.
Duchenne muscular dystrophy (DMD) is an X-linked disorder that causes muscle wasting, cardiopulmonary failure, and premature death. Heart failure is a leading cause of death in DMD, but substantial knowledge gaps exist regarding predisposing risk factors. In the general population, hyperglycemia, insulin resistance, and decreased heart rate variability (HRV; reflecting autonomic dysfunction) are associated with cardiomyopathy (CM). It is unclear whether these factors are associated with DMD-CM. Closing this knowledge gap may lead to novel screening and therapeutic strategies to delay progression of DMD-CM, now the leading cause of death in patients with DMD. Despite risk factors for hyperglycemia, including the use of glucocorticoids (GCs), sarcopenia, obesity, and reduced ambulation, little is known regarding glucose abnormalities in DMD. Some of these same risk factors, along with the distance needed to travel for specialty care, present significant barriers to research participation and clinical care for individuals with DMD. Remote wearable technology may improve research participation in this vulnerable population. Therefore, this study will leverage remote wearable technologies to overcome these barriers and define the relationship between dysglycemia and DMD-CM. The goal of this remote study is to evaluate rates of hyperglycemia in individuals with DMD compared to control participants using continuous glucose monitors, and to determine the relationship between hyperglycemia and heart rate variability. Participants will utilize continuous glucose monitors, cardiac monitors, and activity monitors to evaluate glucose levels, heart rate, activity, and sleep.
Duchenne Muscular Dystrophy (DMD) is an X-linked disorder that causes muscle wasting, cardiopulmonary failure, and premature death. Heart failure is a leading cause of death in DMD, but substantial knowledge gaps exist regarding predisposing risk factors. In the general population, hyperglycemia, insulin resistance, and decreased heart rate variability (HRV; reflecting autonomic dysfunction) are associated with cardiomyopathy (CM). It is unclear whether these factors are associated with DMD-CM. Closing this knowledge gap may lead to novel screening and therapeutic strategies to delay progression of DMD related CM. Despite risk factors for hyperglycemia, including the use of glucocorticoids, low muscle mass, obesity, and reduced ambulation, little is known regarding glucose abnormalities in DMD. Some of these same risk factors, along with the distance needed to travel for specialty care, present significant barriers to research participation and clinical care for individuals with DMD. Remote wearable technology may improve research participation in this vulnerable population. Therefore, this study will leverage remote wearable technologies to overcome these barriers and define the relationship between dysglycemia and DMD-CM. In this Aim of the study, the investigators will assess the utility of remote wearable technology to predict changes in traditional metrics of metabolism and cardiac function. In this pilot study, 10 individuals with DMD will undergo cardiac magnetic resonance imaging (CMR) and oral glucose tolerance tests (OGTTs) at baseline and two years. The investigators will remotely assess glycemia (using continuous glucose monitors), HRV (using extended Holter monitors), and activity (using accelerometers) every 6 months over the 2 years and evaluate if changes in wearable metrics predict changes in CMR and OGTT.
This is a prospective, descriptive, single site, observational study in subjects receiving alpelisib for treatment of metastatic breast cancer. The purpose of the study is to characterize the impact of alpelisib on glucose control in patients with breast cancer using continuous glucose monitoring to measure glucose levels throughout the day and night. Patients will follow a hyperglycemia prevention and management regimen aimed to diminish hyperglycemia known to occur in most oncology patients starting alpelisib. All patients will wear an Abbott FreeStyle Libre 2 system to obtain continuous glucose monitor (CGM) data (glucose measured every minute for 14 days). CGM will be placed at least 10 days prior to starting alpelisib and continue for at least 3 months while taking alpelisib.
The investigators intend to conduct a single-center, prospective, randomized comparative trial of patients admitted to the intensive care unit (ICU) who received continuous glucose monitoring (CGM) vs point of care (POC) glucose monitoring. The study will examine relevant outcomes for patients in the ICU with diabetes mellitus and/or hyperglycemia. The primary outcome of the study will be the proportion of time in target range (blood glucose 70-180 mg/dL).
This study will assess the implementation of a glucose management clinical decision support tool. The specific objective is to determine if supplementing the existing glucose check reminder with a best practice advisory (BPA), an actionable insulin dosing calculator, providers will be influenced to improve the control of hyperglycemia.
Poor glycemic control is recognized as a risk factor for postoperative infection. For the neurosurgical patient, postoperative infection can lead to devastating complications such as meningitis, encephalitis and death. Neurosurgical patients often receive high doses of medications that increase blood glucose levels such as steroids, placing them at a potentially higher risk for postoperative infection. The purpose of this multisite observational study is to assess the impact of severe intraoperative hyperglycemia as a risk factor for postoperative infection in the neurosurgical patient.
The ATTEMPT (Adolescent Type 1 diabetes Treatment with SGLT2i for hyperglycEMia \& hyPerfilTration Trial) is a multi-center, double-blinded, randomized, placebo-controlled trial to evaluate the effect of treatment with Dapagliflozin when compared to placebo, in combination with adjustable insulin, on measured GFR in adolescents with T1D 12 to \<19 years of age over a 16-week treatment period.
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
The purpose of this study is to compare the outcomes between hospitalized cancer patients with high blood sugar receiving the current standard of care of administering insulin, and hospitalized cancer patients receiving a new, individualized method of insulin administration.
The main purpose of this study is to determine if exercise preserves vascular function during hyperglycemia. All subjects will consume a sugary beverage three times daily for seven days. Subjects will be randomly assigned to either the glucose with (GLU+EX) or without (GLU) structured exercise group.
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.
Hyperglycemia is present in 50 percent of patients with acute ischemic stroke. Patients with hyperglycemia have higher in hospital, 30 and 90 day mortality and morbidity. Sixty percent of these patients have some form of diabetic syndrome, known or unknown. Remaining 40% of patients are not diabetic. Contrary to logic patients with non diabetic hyperglycemia (NDH) have statistically higher morbidity and mortality compared to the diabetic hyperglycemia (DH) cohort. So far multiple treatment trials (THIS, GRASP, GIST-UK, SHINE ongoing) with differing treatment goals have shown no clear benefit, however no obvious distinction was made along the diabetic and non-diabetic hyperglycemic groups. If hyperglycemia in the acute phase was the only culprit in worsening the injury, then there should be no difference in the outcomes for DH and NDH. Existing data implies that the two categories are two distinct physiological entities that are thus not amenable to same treatment. Stating it simply NDH is not an insulin deficient state where as DH is. Alternative possibility is that body and Neurons are accustomed to high sugars in diabetics and thus can tolerate higher sugars better during ischemic stroke compared to non diabetics. The overarching hypothesis is that reducing blood sugars in NDH increases stroke volume and thus consequently worsens outcome.
Many hospitals have begun giving insulin to nearly all patients with diabetes while they are in the hospital even if a patient does not use insulin at home. Controlling blood sugar with insulin when a patient is hospitalized is believed to reduce the risk of complications and death, but research has not demonstrated these benefits except in patients who are critically ill. The purpose of this study, therefore, is to evaluate whether such insulin therapy actually does reduce in-hospital complications, deaths, need for intensive care, or length of stay in the hospital.
Objective: to gain experience in children and younger adolescents with in-home use of an algorithm that will dose insulin to minimize projected hyperglycemia overnight in addition to suspending the pump if hypoglycemia is projected overnight and to obtain feasibility, safety, and initial efficacy data Study Design: randomized controlled trial, with randomization on a night level within subject Patient Population: Youth 6.0 - \<15 years old with type 1 diabetes treated with daily insulin therapy for at least one year and an insulin infusion pump for at least 6 months who have HbA1c \< 10.0%. Sample Size: 30 subjects Study Duration and Visit Schedule: duration approximately 3 months, with preliminary run-in activities followed by up to 90 days spent in clinical trial phase of study; clinic visits at enrollment, following CGM and system assessment run-in phases, at start of clinical trial phase, at 21-day point of clinical trial phase, and after 42 nights of successful system use Major Efficacy Outcomes: * Primary: time in range (70-180 mg/dl, 3.9-10.0 mmol/L) overnight. * Secondary: time spent in hypoglycemia (\<70 mg/dl, 3.9 mmol/L) and time spent in hyperglycemia (\>180 mg/dl, 10.0 mmol/L) overnight. Major Safety Outcomes: CGM measures of hypo- and hyperglycemia, including morning blood glucose and mean overnight sensor glucose; adverse events including severe hypoglycemia and diabetic ketoacidosis
In this study, the investigators will test the hypothesis that acute in vivo exposure to hyperglycemia increases mitochondrial network fragmentation and mitochondrial reactive oxygen species production (ROS) production in human arterial endothelial cells.
The purpose of this study is to determine whether treatment with sitagliptin reduces the frequency and severity of high blood sugar (hyperglycemia) after cardiac surgery and to determine whether treatment with sitagliptin is effective in maintaining blood sugar control in patients with type 2 diabetes (T2D).
Emergency Department (ED) patients with severe hyperglycemia will be randomized to two treatment goals: discharge glucose less than 600 mg/dL or less than 350 mg/dL. Randomization is stratified by whether the chief complaint is "High Blood Sugar" in the electronic medical record or other.
Objective: to gain experience with in-home use of a modified algorithm that will dose insulin to minimize projected hyperglycemia overnight in addition to suspending the pump if hypoglycemia is projected overnight and to obtain feasibility, safety, and initial efficacy data. Study Design: randomized controlled trial, with randomization on a night level within subject. Major Eligibility Criteria: clinical diagnosis of type 1 diabetes, daily insulin therapy for at least one year and an insulin infusion pump for at least 6 months; 15.0 to \<46.0 years of age; HbA1c \< 10.0%; no DKA in last 6 months; no hypoglycemic seizure or loss of consciousness in last 6 months; Living with a significant other or family member ("companion") committed to participating in all study activities, and being present and available to provide assistance when the system is being used at night. Sample Size: 30 subjects. Study Duration and Visit Schedule: duration approximately 3 months, with preliminary run-in activities followed by up to 90 days spent in clinical trial phase of study; clinic visits at enrollment, following CGM and system assessment run-in phases, at start of clinical trial phase, at 21-day point of clinical trial phase, and after 42 nights of successful system use. Major Efficacy Outcomes: * Primary: time in range (70-180 mg/dl, 3.9-10.0 mmol/L) overnight. * Secondary: time spent in hypoglycemia (≤70 mg/dl, 3.9 mmol/L) and time spent in hyperglycemia (\>180 mg/dl, 10.0 mmol/L) overnight. Major Safety Outcomes: CGM measures of hypo- and hyperglycemia, including morning blood glucose and mean overnight sensor glucose; adverse events including severe hypoglycemia and diabetic ketoacidosis.
The purpose of this study is to test whether using extra doses of aspart insulin to correct blood sugars before meals improves the care of patients with type 2 diabetes in the hospital who are already receiving the standard of care treatment with glargine and aspart insulin injections to control blood sugar levels. Studies done in the past indicate that blood sugar levels are controlled on the standard treatment of insulin and that most patients do not need the small extra dose of insulin at bedtime. The investigators want to test if there is any benefit to giving patients extra doses of insulin during the day to correct the high blood sugars.
A 4 week prospective, randomized controlled study was carried out to assess the impact of a care delivery intervention which focused on blood glucose (BG) management among adults with type 2 diabetes presenting to the Emergency Department (ED) with BG \> 200mg/dL (11.1 mmol/L). The intervention was designed by a multi-disciplinary team of ED physicians and nurses, endocrinologists and diabetes educators. The intervention incorporated three components: a guideline-based algorithm for diabetes medication management; survival skills diabetes self-management education (DSME); and support for health system navigation. The control group received usual care per the ED's policies and procedures for management of high blood glucose.
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.
There are no guidelines for the management of glucocorticoid- (henceforth steroid) induced elevated blood sugars (henceforth hyperglycemia). Oncology ward patients have particularly high rates of hyperglycemia and are frequently exposed to high dose steroid therapy. A prior study by Muthala et al. (unpublished data) found a relationship between insulin requirements needed to maintain normal blood sugars, patient weight, and mg of steroid administered. In this pilot study, through an endocrine consult team, a weight-based, steroid dose-based insulin protocol will be implemented for the management of hyperglycemia in lymphoma patients requiring high dose steroid therapy, with the goal of reducing hyperglycemia incidence.
This is a randomized controlled trial to determine the safety and efficacy of Sitagliptin in patients with stress hyperglycemia or mild diabetes following cardiac surgery. Patients will receive Sitagliptin or placebo. Sitagliptin may be of particular use in this patient population due to the effects on hepatic glucose production (a major feature of SH), safety (lack of contra-indications for heart failure or renal failure and no hypoglycemia), and tolerability. The secondary objective of this study is to determine whether the management of patients with persistent insulin requirements following cardiac surgery differs among patients with stress hyperglycemia or mild diabetes.
The objective of this study is to formulate and validate a green tea confection (i.e. "gummy" candy) as a strategy to attenuate postprandial hyperglycemia-induced impairments in vascular function. The central hypothesis is that a green tea confection will protect against vascular endothelial dysfunction by suppressing postprandial hyperglycemia. The central hypothesis of this application will be assessed by developing a green tea-containing confection, examining its physiochemical properties and its inhibition of starch digestion, and then validating its vasoprotective activities in healthy humans by assessing its blood glucose-regulating activities.
The investigators hypothesize that includes patient weight and glucocorticoid dose can be used to safely initiate insulin treatment in diabetic/hyperglycemic patients who are to be treated with pharmacological doses of glucocorticoids.
The question of a possible hyperglycemic effect from single-dose dexamethasone is an important issue for clinicians managing patients in the intraoperative and postoperative periods. Recent evidence suggests that even moderate elevations in blood glucose levels may be associated with adverse events. The aim of this clinical investigation is to determine whether standard clinical doses of dexamethasone produce hyperglycemia in the perioperative period.
The purpose of this study is to determine whether metformin is an effective adjunctive treatment for transient hyperglycemia in patients with acute lymphoblastic leukemia (ALL) undergoing induction chemotherapy
Diabetes and high blood sugar are extremely common among patients presenting to US Emergency Departments. Intravenous fluids with or without insulin are often used to treat these patients. However, simple, low-cost interventions, such oral hydration have not been studied in this context. Oral rehydration may be better than no therapy at all, which is often what these patients receive in the first few hours when presenting to busy, overcrowded Emergency Department (ED) with long wait times, or in resource-poor environments such as developing countries. The investigators propose a study to see if oral hydration for adult patients presenting to the ED with high blood sugar i.e. finger-stick (FS) values between 250 and 500 mg/dL can help lower blood sugar at the same rate as intravenous fluids. Half the patients will be given intravenous fluids per our department protocol, while the other half of the patients will be given 2 liters of water to drink over a 1-hour period. Both groups will have their blood sugar measured every 30 mins for 2 hours. The investigators will analyze the data to determine if there is a statistically significant difference in blood sugar between the two groups within 2 hours.
The Stroke Hyperglycemia Insulin Network Effort (SHINE) Trial is a multicenter, randomized, controlled clinical trial of 1400 patients that will include approximately 60 enrolling sites. The study hypotheses are that treatment of hyperglycemic acute ischemic stroke patients with targeted glucose concentration (80mg/dL - 130 mg/dL) will be safe and result in improved 3 month outcome after stroke.