GlyCoBrain Observational Study

• Conditions: Healthy; Adult

• Registration Number: NCT06679088
• Lead Sponsor: Paderborn University

Brief Summary

Breakfasts with a high glycaemic index (GI) resulting in sharp rises in blood glucose may adversely affect memory and attention, particularly in the late postprandial phase (i.e., 120-180 minutes after breakfast). Young adults may be particularly responsive to these adverse effects on cognition since they are prone to experience circadian misalignment because their midpoint of sleep (i.e., chronotype) is biologically most delayed in young adulthood. Our recent research suggests that persons with a later chronotype exhibit no diurnal difference in response to a high GI meal consumed in the morning and evening, suggesting that consumption of an early breakfast "against the inner clock" may be adverse for their glycaemic response and that consumption of an early breakfast may present a burden for those with a later chronotype. Indeed, persons with later chronotypes commonly tend to exhibit less favourable eating pattern. Hence, consuming an early breakfast, e.g. in preparation for an exam, may be more problematic for persons with later chronotypes and it may be more likely that these persons choose less favorable foods for breakfast.

Thus, it remains to be clarified whether persons with a later chronotype:

1. usually consume breakfasts with a higher dietary GI than those with an earlier chronotype. Addressing this hypothesis needs to consider both the first and second breakfast (i.e., all meals until noon), since breakfast skipping may be common particularly among persons with a later chronotype

2. are more prone to consume foods from higher GI sources in preparation for an exam in the morning than those with an earlier chronotype.

3. consume breakfasts of a higher energy density and a lower micronutrient adequacy than persons with an earlier chronotype.

In this study (GlyCoBrain (Glycaemic index Cognition Brain) observational study), 350 students from the University of Paderborn, aged between 18 and 25, will be recruited until the end of February 2025. A questionnaire-based screening will assess breakfast habits and chronotype using the Munich ChronoType Questionnaire (MCTQ). In addition, students will be asked to fill in two 24-h recalls (myFood24) to provide information on their habitual diet (including breakfast). The screening will be followed by two controlled intervention studies examining the effect of (i) a high GI breakfast (GlyCoBrain intervention study 1) and (ii) a breakfast causing an (isolated) reactive hypoglycaemia (GlyCoBrain intervention study 2) on the course of memory and attention in the postprandial phase.

Detailed Description

Background Breakfast is commonly considered one of the most important meals of the days. Failure to consume a breakfast, i.e., breakfast skipping, has been related to an increased risk of overweight/obesity or type 2 diabetes in the longer-term, but may also adversely affect cognition and academic performance. Similarly, breakfasts with a high glycaemic index (GI) resulting in sharp rises in blood glucose may adversely affect memory and attention, particularly in the late postprandial phase (i.e., 120-180 minutes after breakfast). A recent meta-analysis suggests specific effects for immediate and delayed episodic memory among persons with a better glucose tolerance.

Whilst young adults generally have a better glucose tolerance they are, however, prone to circadian misalignment since their midpoint of sleep (i.e., chronotype) is most delayed. Chronotype is a biological construct mainly influenced by genetics, sex and age. Chronotype tends to shift later from adolescence into early adulthood with the peak of delay around age 20 before moving back to an earlier chronotype. Hence, persons in young adulthood are more likely to have a later chronotype and experience a circadian misalignment between the "inner clock" and social requirements. Such a desynchronization may lead to poorer glucose tolerance and an exaggerated glucose response to a high GI breakfast in individuals with a later chronotype. Our recent research suggests that persons with a later chronotype were similarly vulnerable to both very early and late high GI meals, whereas earlier chronotypes had lower glucose responses to the high GI meal consumed at breakfast. In addition, research from female twins suggests that timing of breakfast has a larger underlying genetic component than timing of dinner, suggesting that consumption of an early breakfast may present a burden for those with a later chronotype. As a result, the cognitive performance of people with a later chronotype could particularly benefit from consuming a low GI breakfast. Current studies also report that later chronotypes delay their meal timing, tend to skip breakfast, are at higher risk to consume larger meals at night than earlier chronotypes and to have less favourable dietary pattern, consuming less protein and vegetables and more sweets, sugar, alcohol and coffee.

Taken together, a later chronotype may make young adults more vulnerable to consume unfavourable breakfasts, i.e. breakfasts with a higher dietary GI, higher energy density and lower micronutrient adequacy. However, to date no study has investigated breakfast habits in relation to chronotype in young adults. Furthermore, it remains to be elucidated which food students choose to account for the necessity of academic performance in preparation for an exam in the morning.

The present study will examine the relevance of breakfast among students in detail and relate this to their chronotype. The observational study will be followed by two nutritional intervention studies only with the earliest and latest chronotypes to examine the effects of high GI breakfast or a breakfast causing a reactive hypoglycaemia on cognitive functions in the early morning.

Hypothesis The hypothesis of the GlyCoBrain observational study is that students with a later chronotype are more likely to consume breakfasts with a higher dietary GI, higher breakfast energy density and lower breakfast micronutrient adequacy. We also postulate that persons with a later chronotype are more prone to consume foods from higher GI sources in preparation for an exam than those with an earlier chronotype.

Aim The aim of the GlyCoBrain observational study is to investigate the breakfast habits of German students aged 18-25 years in relation to their chronotype.

Methods 1 (Participants): The researchers will initially recruit at least 350 students aged 18 to 25 from the University Paderborn who meet the specified inclusion criteria (see Participation Criteria). Recruitment and screening are planned to take place from October 2024 until the end of February 2025. Using the GlyCoBrain observational study, participants with the earliest and latest chronotypes will be identified for subsequent inclusion in the GlyCoBrain intervention studies.

Methods 2 (Methods): In the screening of the GlyCoBrain observational study, participants are first asked to provide general information (gender, age, university schedule, time of last menstruation). Additionally, the criteria for exclusion from participation in the screening of the observational study as well as the intervention studies are queried. This includes information on smoking status, shift work, travel across more than two time zones in the past three months, pregnancy, breastfeeding, medication use, chronic diseases, food intolerances, and allergies. Chronotype, that is defined as the midpoint of the sleep period (mid-time sleep), will be assessed with the Munich ChronoType questionnaire (MCTQ, © Roenneberg and co-workers, 2015). To assess the Chronotype, participants will be asked about their sleep behavior over the past four weeks. Sleep patterns on workdays and free days are inquired about separately to account for differences in sleep duration and timing. This separation is important for accurately adjusting the chronotype calculation, considering differences in sleep duration and timing between these days. In the MCTQ, students will be asked whether they engage in regular work (including study periods), how many days they perform this activity, when they go to bed, how long it takes them to fall asleep, when they wake up, and when they get up.

In addition, the breakfast behavior on exam days will be surveyed in comparison to normal days on which lectures will take place. The questionnaire assumes that the exam is taken at 9 o'clock to simulate a realistic daily routine. The breakfast behavior questionnaire evaluates the extent to which a participants' intake of specific food (29 items), beverages (14 items), meal replacements, or supplements on exam days differs from that on regular days. Participants are also asked where and at what time they eat their breakfast. Further, students will be asked to provide information about any food allergies and details on the food and beverages they bring to the exam.

Habitual intake is assessed by two 24-hour recalls, one collected at the study center at the day of the visit and another one collected remotely at home within 1 week from the visit. The German version of myFood24, a web-based dietary assessment tool, will be used for accurately capturing individuals' dietary intake. In myFood24, students are required to input detailed information about the foods and beverages they have consumed on the day before, including portion sizes and meal types. This data is then analyzed against a food composition database to provide insights into nutrient intake and dietary patterns.

Additionally, body composition will be assessed by Bioimpedance Analysis (BIA, mBCA 515, SECA) to estimate individual percentages of body fat, muscle mass, total body water and extracellular water. Additionally, body weight is measured directly by the medical Body Composition Analyzer (mBCA). Body height is measured using an ultrasound measuring station (seca 287 db). Waist circumference is assessed on the exposed upper body at the midpoint between the lower ribcage and the hip bone. Furthermore, information on physical activity (using a questionnaire from the Study on "Health in Adults in Germany", part of the Robert-Koch-Institut (RKI, Germany)) and screen-time (using a questionnaire previously employed in the Dortmund Nutritional and Anthropometric Longitudinally Designed (DONALD) study, a long-term observational study at University Bonn, Germany) will be collected.

Statistical analyses Multivariable multilevel regression models will be used to examine whether a later chronotype is associated with a less favorable breakfast GI, breakfast food choices and breakfast energy density and nutrient composition. Models will adjust for potential confounders (e.g., sex, age, life-style characteristics, body composition).

Study Timeline

• Study Start: 2024-10-01
• Status Verified: 2024-11
• Study First Submitted: 2024-11-05
• Study First Submitted QC: 2024-11-05
• Study First Posted: 2024-11-07
• Primary Completion: 2025-02-28
• Last Update Submitted: 2025-03-31
• Last Update Posted: 2025-04-03
• Study Completion: 2027-02-28

Recruitment & Eligibility

• Status: ENROLLING_BY_INVITATION
• Sex: All
• Target Recruitment: 350

Inclusion Criteria

• Students at Paderborn University aged between 18 and 25 years
• Proficient in the German language because all questionnaires are in German.

Exclusion Criteria

• Students studying nutritional science and home economics
• acute or permanent use of sleep-promoting medications (including herbal preparation):
• chemical medications: melatonin, diphenhydramine, doxylamine
• herbal preparations: hops, St. John's wort, lemon balm, lavender, passionflower, Baldurat, Neurexan, cannabinoids
• Use of psychotropic medications (antidepressants, tranquilizer, antipsychotics)
• Use of methylphenidate (e.g. Ritalin, Medikinet, Concerta)
• Use of cannabinoids by prescription
• Continuous administration of antihistamines when discontinuation is not feasible during the intervention
• Use of herbal preparations affecting memory and concentration (e.g. gingko, ginseng, ashwagandha)
• Use of other medications (e.g. insulin, metformin, SGLT2 inhibitors, steroids, ACE inhibitors)
• Selected chronic diseases (depression and other mental disorders such as anxiety disorder, ADHD, diabetes mellitus (all types), prediabetes, blood clotting disorders (e.g., thrombocytopenia, hemophilia), eating disorders (e.g., anorexia, binge eating, bulimia)
• Addiction disorders (e.g., alcohol, drug, or medication dependency)
• Chronic inflammatory bowel diseases
• infectious diseases (HIV, hepatitis)
• Pregnant and breastfeeding individuals
• Shift work or travel in the past 3 months across more than 2 time zones
• students with a pacemaker/defibrillator

Study & Design

• Study Type: OBSERVATIONAL
• Study Design: Not specified

Primary Outcome Measures

Name	Time	Method
Breakfast food choice in preparation of an exam	Assessed once at the beginning of the study	Questionnaire inquiring selected food items, beverages and meal replacements
Breakfast quality, dietary GI and nutrient composition	At inclusion into the study and after 6 days	2 times Computer-assisted 24-hour recall of consumed foods and beverages in the past 24 h

Trial Locations

Locations (1)

Paderborn University; 🇩🇪 Paderborn, North-Rhine-Westfalia, Germany