Isolating and Exploiting the Mechanisms That Link Breakfast and Human Health - Intervention
Last updated on July 2021Recruitment
- Recruitment Status
- Recruiting
- Estimated Enrollment
- Same as current
Summary
- Conditions
- Physical Activity
- Postprandial Metabolism
- Weight Loss
- Type
- Interventional
- Phase
- Not Applicable
- Design
- Allocation: RandomizedIntervention Model: Parallel AssignmentIntervention Model Description: Participants will be randomised to one of 3 intervention arms.Masking: Single (Participant)Masking Description: Where applicable (i.e. the two breakfast feeding interventions) participants will be blinded to the breakfast that they receive for 28-days.Primary Purpose: Basic Science
Participation Requirements
- Age
- Between 18 years and 65 years
- Gender
- Both males and females
Description
Causal links between breakfast consumption, the individual components of energy balance, and health have recently been established and it is now important to examine and target the underlying biological mechanisms over a longer period of time to maximise potential health benefits. Specifically, the ...
Causal links between breakfast consumption, the individual components of energy balance, and health have recently been established and it is now important to examine and target the underlying biological mechanisms over a longer period of time to maximise potential health benefits. Specifically, the substitution of a portion of carbohydrate for protein at breakfast may enhance the potential health benefits of breakfast through targeting distinct mechanistic pathways. Broadly, introducing a greater protein load at breakfast increases insulin secretion and delays gastric emptying, thereby eliciting a potentiated insulin response. In turn this may therefore improve glucose tolerance during a subsequent meal. Additionally, maintenance of euglycaemia following breakfast consumption, coupled with the thermic effect of feeding protein may accentuate the elevated energy expenditure following breakfast observed in previous studies. Finally, both the physical and chemical properties of protein exert a marked satiating effect. Collectively, these mechanisms could interact to maximise the net impact of breakfast on energy balance and associated health outcomes. However, whilst the evidence indicates obvious benefits of feeding a higher protein dose at breakfast, relatively little research has focused on the response to protein over multiple meals/days. Furthermore, and importantly, the mechanisms involved in the second-meal phenomenon and the potential for initial meals of varied composition to target these mechanisms have never been systematically investigated. To begin investigating the outlined mechanisms healthy, non-obese participants will be recruited to undergo a 4 week intervention study in which they will consume one of three breakfasts for 28-days. The breakfast interventions provide will be: Carbohydrate rich breakfast Whey protein enriched breakfast Extended morning fast Participants will undergo 7 days of habitual physical activity and diet monitoring prior to visiting the laboratory for their preliminary metabolic assessment in which they will consume the carbohydrate rich breakfast followed by an ad libitum meal for lunch. They will then be randomised to one of the 3 breakfast interventions for 28-days. During the 28-days weekly monitoring of physical activity and energy intake will take place in order to assess energy balance. Upon completion of the intervention phase participants will revisit the laboratory to replicate the initial visit in which postprandial metabolism was assessed.
Tracking Information
- NCT #
- NCT04417205
- Collaborators
- Not Provided
- Investigators
- Principal Investigator: Harry A Smith, MSci University of Bath Principal Investigator: James A Betts, PhD University of Bath