Type 1 Diabetes Clinical Trial
Official title:
The Summer Camp Study: Feasibility of Outpatient Automated Blood Glucose Control With a Bi-Hormonal Bionic Endocrine Pancreas in a Pediatric Population at the Clara Barton Diabetes Camps
This study will test the hypothesis that a wearable automated bionic pancreas system that automatically delivers both insulin and glucagon can improved glycemic control vs. usual care for young people with type 1 diabetes 12-20 in a diabetes camp environment.
| Status | Active, not recruiting |
| Enrollment | 32 |
| Est. completion date | December 2014 |
| Est. primary completion date | August 2013 |
| Accepts healthy volunteers | No |
| Gender | Both |
| Age group | 12 Years to 20 Years |
| Eligibility |
Inclusion Criteria: - Age 12-20 years with type 1 diabetes for at least one year. - Diabetes managed using an insulin infusion pump and rapid- or very-rapid-acting insulins including insulin aspart (NovoLog), insulin lispro (Humalog), and insulin glulisine (Apidra) for at least three months prior to enrollment. - Otherwise healthy (mild chronic disease such as asthma will be allowed if well controlled that do not require medications that result in exclusion). Exclusion Criteria: - Unable to provide informed assent - Unable to comply with study procedures. - Current participation in another diabetes-related clinical trial other than one that is primarily observational in nature. - Total daily dose (TDD) of insulin that is > 2 units/kg. - Pregnancy (positive urine HCG), plan to become pregnant in the immediate future, or sexually active without use of contraception - Hypoglycemia unawareness (self-reported or legal guardian report of consistent lack of hypoglycemia symptoms when BG is < 50 mg/dl) - End stage renal disease on dialysis (hemodialysis or peritoneal dialysis). - History of prolonged QT or arrhythmia - History of congenital heart disease or current known cardiac disease - Acute illness (other than non-vomiting viral illness) or exacerbation of chronic illness other than type 1 diabetes at the time of the study. - Seizure disorder or history of hypoglycemic seizures or coma in the last five years - Untreated or inadequately treated mental illness (indicators would include symptoms such as psychosis, hallucinations, mania, and any psychiatric hospitalization in the last year), or treatment with second generation anti-psychotic medications, which are known to affect glucose regulation. - Electrically powered implants (e.g. cochlear implants, neurostimulators) that might be susceptible to radiofrequency interference. - Use non-insulin, injectable (e.g. exenatide, pramlintide) or oral (e.g. thiazolidinediones, biguanides, sulfonylureas, meglitinides, dipeptidyl peptidase-4 inhibitors, acarbose)anti-diabetic medications. - History of adverse reaction to glucagon (including allergy) besides nausea and vomiting. - Unwilling or unable to completely avoid acetaminophen during the usual care and closed-loop BG control portions of the study. - History of eating disorder such as anorexia, bulimia, "diabulemia" or omission of insulin to manipulate weight - History of intentional, inappropriate administration of insulin leading to severe hypoglycemia requiring treatment - Any factors that, in the opinion of the principal investigator, would interfere with the safe completion of the study procedures. |
Allocation: Randomized, Endpoint Classification: Safety/Efficacy Study, Intervention Model: Crossover Assignment, Masking: Open Label, Primary Purpose: Treatment
| Country | Name | City | State |
|---|---|---|---|
| United States | Massachusetts General Hospital | Boston | Massachusetts |
| Lead Sponsor | Collaborator |
|---|---|
| Massachusetts General Hospital | Boston University |
United States,
| Type | Measure | Description | Time frame | Safety issue |
|---|---|---|---|---|
| Other | Mean absolute relative deviation (MARD) of CGMG vs. scheduled HemoCue BG measurements in closed-loop and usual care periods | 1 week | No | |
| Other | Difference between closed-loop and open-loop in mean insulin total daily dose | 1 week | No | |
| Other | Fraction of time bionic pancreas not functioning properly due to: system crash, communication problem (continuous glucose monitor), communication problem (pumps), pump malfunction, tubing occlusion, infusion set failure) | 1 week | Yes | |
| Other | Difference of outcome measures on day 1 vs. remaining days (days 2-5) and on day 1-2 vs. on remaining days (days 3-5) for both closed-loop and usual care | 1 week | No | |
| Primary | Difference in average blood glucose (BG) between closed-loop and open-loop periods as determined from all scheduled HemoCue measurements with mean evenly weighted across the daytime and nighttime hours. | 1 week | No | |
| Primary | Difference between closed-loop and open-loop in the percentage of the above subset of BG values less than 70 mg/dl. | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in average BG as determined from all HemoCue measurements taken during the day/nighttime including all extra measurements taken before meals, taken during exercise, and taken for hypoglycemia monitoring. | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in percentage of the above subset of BG values less than 70 mg/dl. | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in average BG as determined from the pre-meal, pre-snack, before bed, 12:00 AM, and 3:45 AM HemoCue measurements (nine measurements per day) | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in the percentage of the above subset of BG values between the closed-loop control and usual care periods less than 70 mg/dl. | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in percentage of subjects with mean BG < 154 mg/dl | 1 week | No | |
| Secondary | Difference in the percentage of study days with mean BG < 154 mg/dl over the duration of the closed-loop period vs. the usual care period | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of hypoglycemic events as determined from HemoCue measurements | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in fraction of time spent within glucose ranges (< 70 mg/dl, 70-120 mg/dl, 70-180 mg/dl, > 180 mg/dl, > 250 mg/dl) | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in mean BG during exercise | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of hypoglycemic episodes and nadir BG during exercise | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in mean BG and likelihood of hypoglycemia on nights after a period of exercise > 30 minutes vs. nights after days without exercise | 1 week | Yes | |
| Secondary | Difference of outcome measures on day 1 vs. remaining days (days 2-5) and on day 1-2 vs. on remaining days (days 3-5) in closed-loop and usual care periods | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in mean continuous glucose monitoring glucose (CGMG) | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of CGMG events < 70 mg/dl (episodes separated by < 15 minutes will be considered a single episode) and nadir for each | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in fraction of time spent within CGMG ranges (< 70 mg/dl, 70-120 mg/dl, 70-180 mg/dl, > 180 mg/dl, > 250 mg/dl) | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in area over the curve and below 70 mg/dl (measure of total hypoglycemia exposure) | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in area over the curve and below 50 mg/dl (measure of total hypoglycemia exposure) | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in percentage of subjects with mean CGMG < 154 mg/dl | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in percentage of study days with mean CGMG < 154 mg/dl | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in mean CGMG in the four hour period following meals | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in mean CGMG during exercise | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of incidents of hypoglycemia and nadir CGMG during exercise | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in standard deviation of CGMG values (glycemic variability) | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in standard deviation of CGMG values at night (11:00 PM to 7:00 AM) | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in average BG as determined from all HemoCue measurements taken during the daytime including all extra measurements taken before meals, taken during exercise, and taken for hypoglycemia monitoring. | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in average BG as determined from all HemoCue measurements taken during the nighttime including all extra measurements taken for hypoglycemia monitoring. | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in percentage of the above subset of BG values at night less than 70 mg/dl. | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in number of hypoglycemic events at night as determined from HemoCue measurements | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in fraction of time at night spent within glucose ranges (< 70 mg/dl, 70-120 mg/dl, 70-180 mg/dl, > 180 mg/dl, > 250 mg/dl) | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in mean CGMG at night | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of CGMG events < 70 mg/dl (episodes separated by < 15 minutes will be considered a single episode) and nadir for each during nighttime hours | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in fraction of time spent within CGMG ranges (< 70 mg/dl, 70-120 mg/dl, 70-180 mg/dl, > 180 mg/dl, > 250 mg/dl) at night | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in area over the curve and below 70 mg/dl (measure of total hypoglycemia exposure) at night | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in area over the curve and below 50 mg/dl (measure of total hypoglycemia exposure) at night | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in standard deviation of CGMG values (glycemic variability) at night | 1 week | No | |
| Secondary | Difference between closed-loop and open-loop in number of carbohydrate interventions for hypoglycemia | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in number of carbohydrate interventions for hypoglycemia at night | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in total number of grams of carbohydrate taken for hypoglycemia | 1 week | Yes | |
| Secondary | Difference between closed-loop and open-loop in total number of grams of carbohydrate taken for hypoglycemia at night | 1 week | Yes |
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