33 Clinical Trials for Various Conditions
Using a prospective, mixed methods study design, the investigators will assess the feasibility, usefulness, and care team acceptability of CGM in conjunction with FSBG during implementation of the new subQ DKA/HHS protocol at Regions Hospital. This will include evaluating how many patients agree to have a CGM device placed, time to place the CGM devices, CGM impact on length of stay, level of care required, frequency of alerts to changing glucose levels events, and assessing the match between CGM and FSBG readings done in the inpatient setting. Results will help inform cost effective, safe, patient-centered strategies, while gauging care team satisfaction to optimize DKA and HHS management in the future.
The study team proposes that use of a novel multi-disciplinary approach with continuous glucose monitoring technology can significantly improve glycemic control and reduce readmissions among those with type 1 diabetes mellitus (T1DM) admitted for Diabetic ketoacidosis (DKA). This will also help promote a pathway for care of these patients after admission utilizing resources which are available within the Endocrinology, Diabetes and Metabolism department at the Cleveland Clinic.
Diabetic ketoacidosis (DKA) and hyperosmolar hyperglycemic state (HHS) are common, but serious metabolic disorders are often encountered in intensive care. In the intensive care setting, it is common to withhold food from patients during treatment of DKA. However, there is no evidence or current literature supporting this practice. The following proposed research investigates the initiation of an early diet versus withholding food during the treatment of diabetic ketoacidosis.
Diabetic ketoacidosis (DKA) results in significant morbidity and healthcare utilization and is the main contributor to loss of life expectancy in people with diabetes mellitus type 1 (T1DM) \<50 years old. This suggests the need to develop interventions to reduce DKA events. Innovative features of newer continuous glucose monitoring devices offer opportunities for novel strategies to reduce DKA. Designating a family member, friend, or caregiver as a Follower was associated with reduction in HbA1C, increased time in range, and improvement in quality of life metrics in people with T1DM. However, the previously published studies are limited as they were either retrospective, survey-based, or do not overlap with our proposed cohort involving adults ages 18-65 with T1DM (prior prospective studies involved either pregnant women with T1DM or adults ≥60 years of age with T1DM). This study is a randomized controlled trial pilot study to evaluate an intervention (FAM) using a Follower, Action Plan, and Remote Monitoring of glucose data to reduce severe hyperglycemia, a modifiable risk factor for DKA, in adults with T1DM at high risk for DKA. The intervention uses real-time glucose data sharing with a Follower (family member, friend, or caregiver) and personalized diabetes education provided to the dyad (person with T1DM and their chosen Follower). The overall hypothesis is that the FAM intervention will improve glycemia with the primary outcome studied in this preliminary pilot study being percentage of time spent with glucose ≥250 mg/dL.
Diabetic ketoacidosis (DKA) is a medical emergency that is associated with significant morbidity and mortality for both patients with type I and type II diabetes. By correcting hyperglycemia and inhibiting the release of free fatty acids, insulin administration leads to decreased ketone formation and resolution of acidosis. Short-acting intravenous insulin is often preferred to subcutaneous administration for initial management due to its short half-life and ease of titration, but patients will eventually need to transition to subcutaneous insulin prior to discharge. The timing of initiation or resumption of home long-acting subcutaneous insulin is controversial in the treatment of DKA. It is currently unknown if resuming a portion or all of the patient's home basal regimen during the initial treatment phase of DKA will provide an impact on patient care. The purpose of this study is to evaluate the impact of early glargine administration if the patient was not previously on basal insulin or resuming the patient's home basal insulin regimen within two hours after the start of the intravenous insulin infusion in addition to usual care will improve patient outcomes.
The purpose of this research study is to investigate the use of continuous glucose monitoring (CGM) device DEXCOM G6 in non-critically patients treated for diabetic emergency such as diabetic ketoacidosis (DKA). Patients who have DKA require hourly monitoring of glucose (sugar) level which traditionally requires admission to the intensive care unit (ICU) for hourly fingerstick monitoring. With the use of CGM device, in this research study hourly fingerstick monitoring is replaced by continuous glucose monitor (CGM) which provides glucose levels continuously in real time for nurses and provider. The investigators are testing to see if in the future patients can be treated in the stepdown unit (an intermediate care level between the intensive care unit and the general medical unit) if they do not require higher level of care besides hourly glucose monitoring. Continuous glucose monitoring (CGM) device DEXCOM G6 currently FDA Approved for patients with diabetes and is widely used for glucose monitoring in patients with diabetes in the outpatient setting. The investigators want to study the use of the DEXCOM G6 CGM in the inpatient setting to monitoring glucose levels remotely in the treatment of diabetic emergencies such as diabetic ketoacidosis and compare their care to those receiving hourly fingerstick glucose monitoring in the ICU.
Early Basal Insulin Administration in Adult Diabetic Ketoacidosis Management
This is a randomized, double-blind, placebo-controlled trial to determine if administration of intravenous thiamine will lead to quicker resolution of acidosis in patients admitted to the hospital with diabetic ketoacidosis. The investigators will secondarily investigate whether thiamine improves cellular oxygen consumption, shortens intensive care unit (ICU) and hospital stay or decreases hospital resource utilization.
This is a study investigating the best way to treat diabetic ketoacidosis (DKA) with intravenous (IV) fluids in the hospital. The purpose of this study is to determine whether the "two bag" system of administering IV fluids for the treatment of adults with DKA leads to a shorter time requiring intravenous insulin (a shorter time to anion gap closure), when compared to usual care the traditional "one bag" system of IV fluids. Participants will be assigned randomly to either the usual care group or the "two bag" system group. Based on studies performed in the past, the investigators predict that patients treated with the two bag system of IV fluids for DKA will have a significantly shorter time requiring treatment with intravenous insulin when compared to the traditional one bag system.
Given the longer half life of insulin degludec compared to glargine /levemir ,investigators believe that insulin degludec will reduce the rate of recurrent DKA. The investigator will randomize participants to control and intervention group. Control group will receive Lantus/Levemir and intervention group will receive degludec. The investigators will call participants monthly and see them in the clinic every three months.The investigators will follow them for 1 year and evaluate if there will be a difference in rate of DKA in between these two groups.
The purpose of this study is to determine whether adult DKA patients who present to the emergency department treated with early subcutaneous long acting insulin versus standard care receive a shorter total duration of intravenous (IV) insulin infusion.
The management goals of diabetic ketoacidosis (DKA) in the pediatric type 1 diabetes (T1DM) population are fluid and electrolyte repletion, insulin administration, and correction of acidosis in order to stabilize the patient. Traditionally, a rapid-acting insulin IV infusion is begun immediately and continued until the acidosis is corrected and hyperglycemia normalized. Once the acidosis is corrected, patients are able to be transitioned to a subcutaneous insulin regimen. The role that a subcutaneous long-acting insulin such as glargine has in the acute treatment of DKA has not been extensively studied. While giving glargine during the treatment of DKA is becoming more common place, few studies have examined the potential risks and benefits of its use. This study will investigate the effects of early administration of glargine during DKA in patients with newly diagnosed TIDM. The design of this study is a prospective, double-blind study of children ages 2-21 who are admitted to the hospital in DKA with a diagnosis of T1DM. The control group will receive all traditional methods of treatment for DKA, including a placebo subcutaneous injection. The study group will receive the same treatment, but will be supplemented with a subcutaneous glargine injection.
The purpose of this study is to assess brain and memory changes in patients with uncontrolled diabetes (a condition called diabetic ketoacidosis (DKA))
About the Study: This research study is being conducted to see if diabetic ketoacidosis has any impact on learning, behavior and development in children with Type 1 diabetes mellitus. If there is an impact, is it transient or persistent? Sixty to 80 children between the ages of 4 to 17 years with Type 1 diabetes mellitus will have neuropsychological testing and a non-sedated MRI scan of the head performed. The investigators will compare this to a control group of 30-40 children between the ages of 4 to 17 years without Type 1 diabetes mellitus. The children with Type 1 diabetes mellitus will not have any changes made to their current diabetes regimen. The children with Type 1 diabetes mellitus should continue to check blood glucose values as required by your doctor and bring their meter(s) for downloading to each visit. The children with Type 1 diabetes mellitus should also tell your doctor about the frequency of severe low and high blood glucose values.
Randomized trial to determine if the volume of fluid administration in pediatric patients with DKA impacts the rate of normalization of serum bicarbonate, pH as well as the length of treatment
The investigators will conduct a randomized controlled trial comparing four different intravenous (IV) fluid treatment protocols for pediatric diabetic ketoacidosis (DKA). Two rates of rehydration will be compared; a more rapid rate and a slower rate. Within each of these two basic rehydration protocols, the investigators will vary the type of rehydration fluid used (0.9% saline or 0.45% saline). The investigators will compare the different treatments by conducting assessments of neurological injury, by measuring the frequency of significant cerebral edema, and by measuring long-term neurocognitive function. These studies will allow us to determine whether variations in IV fluid treatment protocols affect acute neurological outcomes of DKA. Additionally, they will provide important data regarding the impact of DKA and DKA treatment on long-term neurocognitive function in children. In this way, the investigators hope to identify a more ideal fluid management strategy for children with DKA. Previous studies have suggested that DKA may cause blood flow to the brain to be reduced and that brain injury might result from this reduction in blood flow and/or the effects of re-establishment of normal blood flow during DKA treatment with insulin and iv fluids. The investigators hypothesize that more rapidly re-establishing normal blood flow to the brain during DKA, by giving fluids more rapidly and using fluids with a higher sodium (salt) content, will help to minimize brain injury caused by DKA.
The purpose of this study is to determine whether insulin administered by a subcutaneous injection is effective in the treatment of a diabetic crisis and to determine if beta-hydroxybutyrate is useful to monitor during treatment of a diabetic crisis.
The purpose of this trial is to compare two different rates of fluid administration during diabetic ketoacidosis (DKA) treatment in children to determine which fluid administration rate is more beneficial for brain metabolism and for preventing or decreasing brain swelling during DKA.
The study is a multicenter, randomized controlled trial to compare the safety and efficacy of insulin analogs and human insulins both during acute intravenous treatment and during the transition to subcutaneous insulin in patients with diabetic ketoacidosis (DKA).
The purpose of this study is to determine the effects of the addition of insulin glargine during the early phase of moderate to severe Diabetic Ketoacidosis (DKA) in children. The investigators hypothesize that the addition of insulin glargine during the early phase of management of DKA will accelerate acidosis correction, decrease the length of insulin infusion, and decrease the total intensive care unit time in children admitted to the ICU.
A frequent complication in the management of diabetic ketoacidosis (DKA) in children with type 1 diabetes is rebound hyperglycemia (blood glucose over 180 mg/dL) which increases the risk of re-developing DKA and can lengthen the hospital stay. The investigators want to study whether giving the long-acting insulin glargine (Lantus®) early in DKA management (versus after complete resolution of the DKA) helps prevent rebound hyperglycemia and makes the transition to insulin injections easier. Participants will also have the option to wear a continuous glucose monitor (CGM) during the study to help us understand blood glucose control during and after DKA.
Objectives: Intravenous (IV) fluid administration is a fundamental component of diabetic ketoacidosis (DKA) treatment. Normal saline (NS), the most common IV fluid used in DKA management, contains more chloride than human blood. Excessive amounts of chloride have been shown to cause a detrimental metabolic acidosis. Other IV fluids have more physiologic chloride levels, such as lactated ringers (LR). This study will compare the rates of hyperchloremic metabolic acidosis in children treated with NS to those treated with LR to determine the effect on overall length of acidosis and length of stay in the hospital or intensive care unit. Design: Single-center, double blinded, randomized controlled trial. Subjects: Children aged 0 to 18 years who present with diabetic ketoacidosis and require pediatric intensive care unit admission. Patients with evidence of shock, multi-organ failure or clinically significant cerebral edema will be excluded. The projected study population will be 104 patients, 52 in each arm. Interventions: Patients will be enrolled within 1 hour of presentation to the emergency room or pediatric intensive care unit if transferred directly from another facility. They will be randomized to receive intravenous fluids containing 0.9% saline or lactated ringers. All patients will be treated using the institutional DKA protocol with the content of the intravenous fluids being the only difference in treatment between arms. Study intervention lasts until the end of the acute management of DKA. Planned measurements and study outcomes: The primary study outcome will be duration of metabolic acidosis. Resolution of metabolic acidosis will be defined in three ways: 1. Normalization of the ketosis; 2. Normalization of the serum pH; 3. Normalization of the serum bicarbonate level. Secondary outcomes will include length of stay in the pediatric intensive care unit and length of stay in the hospital. All outcomes will be correlated with the overall chloride load given via intravenous fluids during DKA management. Regression modelling will control for any baseline differences between the groups in regards to severity of DKA, and if newly diagnosed or poorly controlled diabetes mellitus.
Diabetic ketoacidosis (DKA) is a complication of type 1, or "insulin-dependent," diabetes (T1DM) and is defined by a high blood glucose level (over 200 mg/dL) coupled with severe acidosis. In this state the body breaks down fat tissue for adequate energy production. This results in ketone and acid production, and ultimately DKA. Cerebral edema (CE), or "brain swelling," can also occur with severe DKA. Current evaluation for DKA-related CE necessitates a high index of clinical suspicion and often times such patients receive advanced brain imaging such as computed tomography (CT) scans.Ocular sonography (ultrasound) is an alternative imaging technique that can provide immediate diagnostic capability at the bedside and minimize radiation exposure. This technique has been used to rapidly and accurately detect increased brain swelling through measurement of the optic nerve sheath diameter (ONSD) in a number of clinical situations including pediatric head trauma, hydrocephalus and ventriculoperitoneal shunt malfunctions, and altitude sickness in adults. Investigators plan to conduct a prospective study including children aged 7-18 years. The objective of this study is to assess the utility of sonographic measurements of the ONSD as a tool for identification of DKA-related CE.
To determine if co-administration of subcutaneous (SQ)Insulin glargine in combination with intravenous (IV) insulin decreases the time to resolution of ketoacidosis and requirement for ICU admission compared to IV insulin with delayed administration of SQ glargine for the treatment of diabetic ketoacidosis (DKA).
At this time, Saint Mary's Medical Center is currently in the process of implementing a standardized diabetic ketoacidosis (DKA) protocol. The first main goal of this project will be to evaluate patient outcomes to determine the effects of treating patients without a standardized protocol and to establish a baseline on how patients are being treating with DKA. The final goal of the project will be to compare outcomes of those patients not placed on the protocol to those that were treated using SMMC newly implemented DKA protocol. The overall goal of this project is to determine the benefit of an institutional DKA protocol.
The overarching goals of this study are to determine whether tubular dysfunction (elevated urine sodium, bicarbonate and amino acids) and injury (elevated kidney injury molecule 1 \[KIM-1\], neutrophil gelatinase-associated lipocalin \[NGAL\] and matrix metallopeptidase 9 \[MMP9\]) exist in diabetic ketoacidosis (age 3-18), whether it is reversible and whether it is related to uricosuria and copeptin. The investigators propose to study a cohort of youth (ages 3-18, n=40) with T1D who have serum and urine collection at DKA diagnosis and 3-month follow-up.
This study involves looking at Cerebral oximetry measurements in pediatric and neonatal patients who are experiencing a critical illness. Such as Altered mental status, seizures, trauma, sepsis, etc.
This is a research study to understand how diabetic ketoacidosis may affect the brain and learning and to see if these changes are transient or permanent. The investigators hope to learn more about how diabetic ketoacidosis may cause changes in brain compliance (by wearing a non-invasive head band/helmet like device from Jan Medical: The Nautilus Neurowave System™ (NNS), learning, talking, behavior, or development. The investigators will compare those results from those with diabetes mellitus to those age and gendered matched healthy controls. Possible subjects in this study have diabetes mellitus and are between the ages of 10 to less than 17 years old OR do NOT have diabetes and are between the ages of 10 to less than 17 years old.
Over 50% of obese African-Americans (AA) presenting with newly diagnosed, severe hyperglycemia and/or unprovoked diabetic ketoacidosis (DKA) display clinical, metabolic, and immunogenetic features of type 2 diabetes. Prior studies indicate that these patients a) have markedly decreased insulin secretion and impaired insulin action at presentation, b) absent or low prevalence of beta-cell autoantibodies and c) are able to discontinue aggressive insulin therapy in \~70% of cases within 3 months of follow-up. These patients have been referred to as having ketosis-prone type 2 diabetes (KPDM). Most patients with KPDM, however, experience a hyperglycemic relapse within a year of insulin discontinuation. Consequently, patients with "KPDM" are an ideal model to follow throughout their clinical course. The specific aims of this proposal are to 1) identify clinical, metabolic, and immunogenetic markers that alone, or in combination, are predictive of short- and long-term near-normoglycemic remission and 2) determine whether pioglitazone or sitagliptin therapy will delay an insulin-deficient relapse once insulin is discontinued. The Principal Investigator hypothesizes that measures of beta-cell function at presentation, alone or in combination with measures of insulin sensitivity, will correlate with the ability of a patient to achieve and remain in near-normoglycemic remission. She also hypothesizes that intervention compared to placebo will preserve beta-cell function, improve insulin sensitivity, and prevent an insulin-deficient relapse. This prospective, cohort study with a RCT arm would better characterize the natural history of KPDM, facilitate the direction of long-term therapy, and likely decrease the recurrence of DKA which is associated with increased mortality and morbidity.
The goal of this study is to quantify day-to-day changes in blood glucose during treatment towards remission in ketosis-prone diabetes (KPDM) and describe them using a mathematical model of KPDM pathogenesis and remission.