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Clinical Trial Details — Status: Terminated

Administrative data

NCT number NCT03544892
Other study ID # 8840
Secondary ID
Status Terminated
Phase N/A
First received
Last updated
Start date May 1, 2018
Est. completion date June 28, 2019

Study information

Verified date January 2020
Source University of Oklahoma
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

This randomized, crossover nutrition intervention seeks to examine the effects of a non-ketogenic low carbohydrate (CHO) diet (60-80g per day) on glycemic control, lipids, and markers on inflammation in individuals with Type 1 Diabetes (T1D). This study will be used to inform clinical practice, especially in teaching medical nutrition therapy to new-onset diabetes patients and those struggling with glycemic control and hyperlipidemia. At this time, no evidenced-based universal recommendations from randomized controlled trials exist to support low carbohydrate dietary patterns as a front-line approach in individuals with T1D. The investigators hypothesize a diet consisting of 60-80 g carbohydrate diet will result in greater improvement in glycemic control compared to a 50% carbohydrate diet in patients with Type 1 diabetes over 12 weeks in the outpatient setting.


Description:

Type 1 diabetes mellitus (T1D) is marked by total insulin dependence with challenges regarding glycemic control and concomitant sequela. While standard of care medical nutrition therapy for this disease centers on matching carbohydrate to insulin at meals, recent literature and clinical reports have shown superior glycemic control and cardiovascular measures with lower carbohydrate dietary patterns (<130g/day) as compared to the standard American MyPlate (50% total calories as carbohydrate) approach. Diabetes management has evolved tremendously in the last twenty years with the development of sophisticated insulin pumps and continuous glucose monitors; but, glycemic control is still dependent on quantification of carbohydrate, imperfect in the real-world setting. Due to inherent error in carbohydrate counting, the investigators propose that less carbohydrate will produce better glycemic control by minimizing error and subsequent variation in individuals with type 1 diabetes.

There has long been a movement in the medical community to prescribe low carbohydrate diets under the premise of "less carbohydrate, less insulin, less glycemic variation". This strategy centers on "the law of small numbers", a calculus principle describing magnitude of variation in the output (glycemic variation) as the function of input size (CHO + insulin). Carbohydrate counting tends to result in ~50% error while there is ~30% variation in insulin action, making exactitude impossible. However, low CHO diets tend to provide >40% energy from fat due to the macronutrient distribution. With innate risk of cardiovascular disease in T1D, standard of care has supported restriction of total fat consumption, especially saturated fat, in effort to control cholesterol. While the American Diabetes Association recognizes that dietary fat is a controversial and complex issue, eliminating trans-fats is the only consensus point across the field. To date, most low CHO diet studies in both T1D and Type 2 Diabetes (T2D) have not shown adverse effects on lipids and tend to show decreases in triglycerides and either no change or increases in HDL, LDL, and total cholesterol.


Recruitment information / eligibility

Status Terminated
Enrollment 11
Est. completion date June 28, 2019
Est. primary completion date June 28, 2019
Accepts healthy volunteers No
Gender All
Age group 18 Years to 30 Years
Eligibility Inclusion Criteria:

- Confirmed Type 1 diabetes for > 1 year confirmed by physician diagnosis

- HbA1c >5.9% and <10%;

- Confirmation of minimum three blood glucose tests per day (meter download or chart record)

- Use of continuous subcutaneous insulin infusion therapy (CSII) or multiple daily injection (MDI) intensive insulin therapy

- No change in insulin therapy type (CSII or MDI) in last 2 months or longer

- Willingness to count carbohydrate and use bolus calculator on insulin pump during the intervention periods

- Willingness to wear a 7 day CGM at three different time points during the study

Exclusion Criteria:

- Females of childbearing potential who are pregnant or intend to become pregnant, are exclusively breastfeeding, or who are not using adequate contraceptive methods

- Use of corticosteroids during or within 30 days prior to the intervention periods

- Macroalbuminuria

- Active proliferative retinopathy combined with an HbA1c = 9%

- Known or suspected alcohol or drug abuse

- Other concomitant medical or psychological condition that according to the investigator's assessment makes the patient unsuitable for study participation

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Low carbohydrate diet
60-80 g total carbohydrate per day
Standard of care diet
> 150 g total carbohydrate per day

Locations

Country Name City State
United States University of Oklahoma Harold Hamm Diabetes Center Tulsa Oklahoma

Sponsors (1)

Lead Sponsor Collaborator
University of Oklahoma

Country where clinical trial is conducted

United States, 

Outcome

Type Measure Description Time frame Safety issue
Primary Time in Range Difference in time spent with glucose values between 70-180 mg/dL assessed by continuous glucose monitoring (CGM) 5 days of worn CGM during each intervention
Secondary Mean Glucose Difference in mean glucose values assessed by CGM Baseline to 12 weeks (1 week worn CGM data)
Secondary Standard deviation of glucose Difference in standard deviation of glucose values assessed by CGM Baseline to 12 weeks (1 week worn CGM data)
Secondary Mean amplitude of glycemic excursions Difference in mean amplitude of glycemic excursions assessed by CGM Baseline to 12 weeks (1 week worn CGM data)
Secondary Time in hypoglycemia Difference in time spent with glucose values <70 mg/dL; between 55-70 mg/dL; and <55 mg/dL Baseline to 12 weeks (1 week worn CGM data)
Secondary Time in hyperglycemia Difference in time spent with glucose values >180 mg/dL Baseline to 12 weeks (1 week worn CGM data)
Secondary Change in HbA1c Difference in change in hemoglobin A1c Baseline to 12 weeks
Secondary Coefficient of Variation Estimate of glucose variability calculated by dividing the standard deviation by average glucose Baseline to 12 weeks (1 week worn CGM data)
Secondary Severe hypoglycemia Difference in number of severe hypoglycemia episodes (glucagon or IV dextrose administration) Baseline to 12 weeks
Secondary Total daily insulin dose Difference in total daily insulin dose Baseline to 12 weeks
Secondary Total daily basal insulin 24 hour Difference in total daily basal insulin in 24 hours Baseline to 12 weeks
Secondary Total daily bolus insulin 24 hour Difference in total daily bolus insulin in 24 hours Baseline to 12 weeks
Secondary Body weight Change in body weight Baseline to 12 weeks
Secondary Body Mass Index (BMI) Change in BMI Baseline to 12 weeks
Secondary Systolic Blood Pressure (mm Hg) Change in systolic BP Baseline to 12 weeks
Secondary Diastolic Blood Pressure (mm Hg) Change in diastolic BP Baseline to 12 weeks
Secondary Pulse, per minute Change in pulse Baseline to 12 weeks
Secondary Energy Intake (kcal/day) Change in energy intake Baseline to 12 weeks
Secondary Daily carbohydrate intake (total carbohydrate, g/day) Change in carbohydrate intake Baseline to 12 weeks
Secondary Percent energy intake as Carbohydrate Change in % carbohydrate intake Baseline to 12 weeks
Secondary Daily protein intake (total protein, g/day) and Daily fat intake (total fat, g/day) Change in protein intake Baseline to 12 weeks
Secondary Fat quality intake (% total fat as monounsaturated, polyunsaturated, saturated, omega-3) Change in fat quality Baseline to 12 weeks
Secondary Standard Lipid Panel Change in (Total cholesterol, HDL cholesterol, LDL cholesterol-calculated, triglycerides; mg/dL) Baseline to 12 weeks
Secondary LDL-P (nmol/L) Change in LDL-P Baseline to 12 weeks
Secondary HDL-P (umol/L) Change in HDL-P Baseline to 12 weeks
Secondary VLDL-P Change in VLDL-P (nmol/L) Baseline to 12 weeks
Secondary LDL size Change in LDL size (nm) Baseline to 12 weeks
Secondary HDL size Change in HDL size (nm) Baseline to 12 weeks
Secondary VLDL size Change in VLDL size (nm) Baseline to 12 weeks
Secondary High-sensitive C-reactive protein (hs-CRP) Change in hs-CRP Baseline to 12 weeks
Secondary Plasma lipopolysaccharide Surrogate marker for inflammation Baseline to 12 weeks
Secondary Serum Ketones (beta-hydroxybutyrate) beta-hydroxybutyrate (mmol/L) Baseline to 12 weeks
Secondary Type 1 Diabetes Nutrition Knowledge Survey Validated nutrition knowledge survey (nutrition label reading, carbohydrate counting) Baseline to Week 33 (end of study)
Secondary Diet Quality Minerals, Vitamins, Dietary Fiber amounts compared to DRIs for age, ascertained by 3 day 24 hour food logs Baseline to 12 weeks
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