UBC Breakfast Study 2.0

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

RECRUITING

Clinical Phase

NA

Total Enrollment

280 participants

Study Classification

INTERVENTIONAL

Study Start Date

2025-04-01

Study Completion Date

2027-12-31

Brief Summary

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Type 2 diabetes (T2D), a prevalent metabolic disorder impacting \>3 million Canadians, is characterized by insulin resistance and high blood glucose. Chronically elevated blood glucose (i.e., hyperglycemia) and swings in glucose (i.e., glucose variability) contribute to complications of T2D. Specifically, post-meal hyperglycemic spikes are independent risk factors for cardiovascular disease and mortality. People with T2D often exhibit a different circadian pattern from healthy individuals, with higher glucose excursions in the morning, after breakfast. This makes breakfast a crucial meal in achieving glycemic control. One strategy to reduce or eliminate this high glucose excursion is to consume a low-carbohydrate breakfast. Our recently published 3-month clinical trial (Oliveira et al., AJCN 2023) - funded by the Egg Farmers of Canada (EFC) \& Egg Nutrition Center (ENC) - highlighted the positive impact of a simple dietary intervention, where individuals were advised to consume an egg-based, low-carbohydrate breakfast. This intervention led to improved glycemic control assessed by continuous glucose monitoring and reduced overall energy and carbohydrate intake when compared to a low-fat guideline breakfast. While we saw a within-group reduction HbA1c in the egg-based low-carbohydrate breakfast group, the between group difference did not reach statistical significance. Since HbA1c reflects the average glucose over the preceding 3 months, likely, our previous study's duration was not long enough to demonstrate significant reductions in HbA1c. For a low-carbohydrate breakfast to be recognized as an evidence-based strategy in nutrition and clinical practice guidelines, a longer-term study that demonstrates reductions in HbA1c is needed.

Collectively, our promising early results demonstrate that the time is right and that our team is poised to deliver a longer, well-powered randomized controlled trial (RCT) to solidify low-carbohydrate breakfasts as an evidence-based strategy to improve glucose control and improve health outcomes for people living with T2D.

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Detailed Description

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Research Question: Does the advice and guidance to consume a long-term low-carbohydrate breakfast impact blood glucose levels in people with type 2 diabetes?

Objectives

The specific aims are to conduct a RCT to determine if advice and guidance to consume a low-carbohydrate breakfast, compared to standard guidelines control breakfast, for one year:

Improves glycemic control assessed by HbA1c (primary outcome) in individuals with type 2 diabetes (T2D); Improves glycemic variability and lowers postprandial hyperglycemia in individuals with T2D; Reduces body weight and fat mass in individuals with T2D; Reduces feelings of hunger and consequently lowers daily energy and carbohydrate intake in individuals with T2D.

Hypothesis:

Advice and guidance to consume a low-carb high-fat breakfast, compared to a standard control low-fat breakfast over 1 year will reduce HbA1c levels; When compared to a low-fat breakfast, low-carb high-fat breakfast will improve glucose monitoring metrics.

Compared to a low-fat breakfast, a low-carb high-fat breakfast will lower feelings of self-reported hunger; A low-carb high-fat breakfast will improve body composition in individuals with T2D.

Background Information

In the years leading up the pandemic (2016 to 2019), almost 1 in 10 Canadian adults aged 20 to 79 (9%) had diabetes. The prevalence of diabetes ranged from 1% of Canadians aged 20 to 39 to almost one in five seniors aged 60 to 79 (18%) (Statistics Canada). The high prevalence is associated with a high personal, clinical and economic burden, with diabetes resulting in approximately 15,700 deaths each year in Canada (Cho et al., 2018). Clearly, strategies to improve glucose control and reduce the burden of T2D are attractive from a quality of life and economic standpoint.

Lowering dietary carbohydrate intake has been shown to improve blood glucose control and is now recognized as an evidence-based nutritional strategy in T2D (Churuangsuk et al., 2020). However, low-carbohydrate diets are often criticized as being too difficult to sustain in the long-term. One potential strategy is to limit carbohydrate intake at only one daily meal. Since the largest hyperglycemic spike usually occurs in the morning after the first meal, manipulating the carbohydrate content of the breakfast may be a simple strategy to improve glycemic control in people with T2D.\[ Long-term trials specifically examining low-carbohydrate egg-based breakfasts are lacking. To our knowledge, our last RCT (Oliveira et al., AJCN 2023) is the most recent and robust evidence examining the effects of a low-carbohydrate breakfast on glucose control in T2D up to now (described in detail below). Pedersen et al. (2016) demonstrated in T2D patients that excluding carbohydrates from the first meal of the day could mitigate the significant glucose spike typically observed after breakfast. Similarly, Park et al. (2014) found that a high-protein breakfast reduced postprandial glucose concentrations without exacerbating the glucose response to subsequent meals, suggesting that incorporating more protein into breakfast could be a therapeutic approach for T2D management.

Considering our publications demonstrating enhanced glycemic control in T2D patients following a low-carbohydrate breakfast (Chang et al., 2019 and Oliveira et al., AJCN 2023), alongside existing research indicating the health benefits of "bigger" and high-protein breakfasts in T2D, there is compelling justification for conducting a longer-term, well-designed, adequately powered randomized controlled trial (RCT). We hypothesize that consuming a low-carbohydrate breakfast for 1-year will improve blood glucose control and be recognized as a scientifically substantiated, evidence-based nutritional strategy for T2D, with promise for potential incorporation into clinical practice guidelines.

Research Method

Overview

Two-hundred eighty (N=280) individuals with diagnosed T2D (30-79 years old), will be recruited from across Canada for a 1-year parallel-group remotely-delivered RCT through online and newspaper advertising, emails, third-part recruitment agency as well as word of mouth. Participants will be randomized to consume a low-carbohydrate breakfast (LC, n=140) or a low-fat "standard care" control breakfast (CTL, n=140) for 12 months, stratified by age (30-50, 51-79) and biological sex (M/F).

Participants will continue to take any medications as instructed by their physicians throughout this real-world trial but will be asked to report any changes that occur to study personnel over the 1-year period.

Experimental conditions

A 1-year parallel-group RCT is proposed. Due to the nature of the dietary intervention trial, study participants and investigators will not be blinded - however, masking will be implemented wherever possible (e.g., for data analysis). Eligible participants will be randomized to either the:

i) Low Carbohydrate Breakfast (LC, n=140) or ii) Low-fat "standard care" Control Breakfast (CTL, n=140) Both breakfasts will be consumed daily for a period of 1-year.

Breakfast options Similar to our previous trial, each group will be provided with an initial menu of 12 recipes consisting of \~400-500 kcal from which to choose each morning. LC breakfasts will contain \<10% carbohydrates, 60-75% fat, and 15-30% protein (e.g., omelette with cheese) and CTL breakfasts will contain 45-70% carbohydrates, 20-40% fat, 15-25% protein (e.g., oatmeal with berries). Participants will be instructed to have their first meal of the day (before 12pm) as per recipes and to upload a daily photo of their breakfast to confirm compliance. As in our previous low-carbohydrate breakfast study no instructions will be provided for other meals as the goal is to be free-living with minimal intervention and increased potential for implementation and translation to real-world life.

Dietary intake assessment Participants will be guided to register three 3-day food records (2 weekdays and 1 weekend day) at baseline, 3, 6, 9 and 12 months of the trial through REDCap-UBC links. Macronutrient composition and total caloric intake will be calculated using ESHA software to determine any group differences across time.

Hunger and Fullness questionnaire Participants will complete a 100 mm Visual Analog Scales (VAS) to measure self-reported hunger, fullness and desire for sweet and savoury foods at multiple timepoints across one day at baseline, 3, 6, 9 and 12 months. They will be advised to fill out the survey after breakfast.

GODIN Leisure-Time Exercise Questionnaire Participants will be asked to report changes to their physical activity by completing a GODIN questionnaire through a REDCap-UBC link sent by email at baseline and end of the trial. The Godin Leisure-Time Exercise Questionnaire allows the assessment of self---reported leisure---time physical activity.

Chronotype survey (exploratory outcome) Chronotype will be determined using the Morningness-Eveningness questionnaire (MEQ) send through a REDCap-UBC link by email at baseline.

Blood testing Blood samples will be collected at baseline and after 12 months for HbA1c and lipids (triglycerides, total, HDL, and LDL cholesterol) at the nearest local laboratory with lab requisition provided by research team.

Anthropometry Anthropometric measures (height, body weight, and waist circumference) will be assessed at baseline, 3, 6, 9 and, 12 months during Zoom calls with the dietitian.

Glucose monitoring Participants in both groups will receive a flash glucose monitoring sensor (FreeStyle Libre 2) at baseline, to record their glucose levels for 14 days before starting the breakfast recipes. Once intervention has started, they will wear the flash glucose monitoring sensor for 14 days at 6 and 12 months to capture changes related to dietary approach. The sensor will be an informative tool for glycemic control in both groups by measuring daily postprandial hyperglycemia and providing the data necessary to calculate 24-hour average, post-meal incremental areas under the curve (iAUC), and glycemic variability.

Conditions

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Type 2 Diabetes

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

TREATMENT

Blinding Strategy

SINGLE

Outcome Assessors

Study Groups

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Low-carbohydrate breakfast

Group Type EXPERIMENTAL

Low-carbohydrate breakfast

Intervention Type OTHER

Daily low-carbohydrate breakfasts for one year.

Low-fat Control breakfast

Group Type ACTIVE_COMPARATOR

Low-fat Control breakfast

Intervention Type OTHER

Low-fat breakfasts for one year.

Interventions

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Low-carbohydrate breakfast

Daily low-carbohydrate breakfasts for one year.

Intervention Type OTHER

Low-fat Control breakfast

Low-fat breakfasts for one year.

Intervention Type OTHER

Eligibility Criteria

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Inclusion Criteria

i) physician-diagnosed T2D, ii) 30-79 years old and iii) on stable medication for at least 3 months

Exclusion Criteria

i) Use of exogenous insulin; ii) taking more than 3 glucose lowering medications; iii) ongoing medical treatment for diseases such as cancer, auto-immune or inflammatory disease, or kidney disorders; iv) allergy, intolerance or aversion to eggs or any other dietary restrictions (e.g., vegan, breakfast skipping) that will prevent them from following the standardized study diets; v) being unable to follow the controlled diet instructions; vi) currently following a low-carbohydrate or very low-carbohydrate diet (ketogenic diet); vii) currently pregnant or lactating, or planning on becoming pregnant within the next 12 months; viii) with scheduled surgery or medical intervention that prevents following study diet; and ix) being unable to follow remote guidance by internet or smartphone.

Minimum Eligible Age

30 Years

Maximum Eligible Age

79 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No