The Metabolic Effects of Consuming Carbohydrate With Different Protein Types

Overview

This study aims to find out how consuming different proteins with rice affect metabolism. Most meals the investigators eat predominantly consist of a carbohydrate and protein (i.e. rice, noodles, bread etc with meats or seafood). However, it is still unknown how consuming different proteins with commonly eaten carbohydrates affect metabolism. Previous studies have shown that proteins stimulate hormones such as insulin, glucagon and gut hormones. However, the extent of the response depends on protein type. The metabolic responses to carbohydrates have also been shown to be greatly affected when they are eaten with proteins. However, most of the previous studies have used glucose as the carbohydrate and it is still unknown how eating proteins with carbohydrate foods such as rice affect metabolism. Therefore, this study has been initiated to determine the metabolic effects of eating different protein types with rice. Using the most common carbohydrate eaten in Asia (rice) and four commonly eaten protein foods (egg, chicken, fish and beancurd), this study aims to observe the metabolic effects of co-ingesting proteins and carbohydrate. The resulting data will provide valuable insights into the metabolic effects of protein-carbohydrate meals and will be useful in the development of practical advice and dietary guidelines for those with chronic diseases (such as diabetes and obesity).

Study Type

  • Study Type: Interventional
  • Study Design
    • Allocation: Randomized
    • Intervention Model: Crossover Assignment
    • Primary Purpose: Other
    • Masking: None (Open Label)
  • Study Primary Completion Date: October 8, 2018

Detailed Description

The study will recruit 20 healthy Chinese male subjects from the general public over a period of one year. The test foods will be rice, rice with egg, rice with fish, rice with chicken and rice with beancurd.Potential participants will have to come on one morning in an overnight fasted state for consenting and screening procedures. Only those fulfilling the inclusion and exclusion criteria will be admitted into the study. Each participant will be required to come on 5 non-consecutive days, with each session lasting approximately 4 hours. On each day, participants will arrive at the laboratory between 8-9 am following an overnight fast. An indwelling catheter will be inserted into a vein in their forearm or antecubital fossa and kept patent. Baseline blood samples will be obtained after which they will be given the test food to consume. Further blood samples will be taken at periodic intervals for the subsequent 3.5 hours. Blood samples will be taken every 15 minutes in the first 60 minutes and every 30 minutes for the remaining 150 minutes. At every time point blood samples will be extracted from a finger prick (for measuring glucose) and from the cannula (for measuring all other metabolites). At the same time points subjects will have to fill in visual analogue scales on feelings of hunger and satiety.

Interventions

  • Other: White rice
    • Control – white rice
  • Other: Rice with chicken breast
    • Treatment 1 – steamed white rice with steamed chicken breast
  • Other: Rice with fish
    • Treatment 2 – steamed white rice with steamed fish
  • Other: Rice with egg white
    • Treatment 3 – steamed white rice with egg white
  • Other: Rice with beancurd
    • Treatment 4 – steamed white rice with steamed beancurd

Arms, Groups and Cohorts

  • Other: Rice
    • Control session – white rice (equivalent to 50g available carbohydrates)
  • Active Comparator: Rice with chicken
    • Treatment 1 – White rice and steamed chicken breast (25g protein)
  • Active Comparator: Rice with fish
    • Treatment 2 – White rice and steamed fish (25g protein)
  • Active Comparator: Rice with egg white
    • Treatment 3 – White rice and egg white (25g protein)
  • Active Comparator: Rice with beancurd
    • Treatment 4 – White rice and steamed beancurd (25g protein)

Clinical Trial Outcome Measures

Primary Measures

  • Blood glucose response (incremental area under the curve) measured using the hemocue
    • Time Frame: 3.5 hours post consumption
    • Blood glucose response (incremental area under the curve) measured using the hemocue
  • Insulin (incremental area under the curve) is determined using the COBAS
    • Time Frame: 3.5 hours post consumption
    • Insulin (incremental area under the curve) is determined using the COBAS
  • Glucagon determined using the ELISA
    • Time Frame: 3.5 hours post consumption
    • Glucagon is determined using the ELISA

Secondary Measures

  • Effects of physical activity
    • Time Frame: Assessed at the start of every test session 1-2 weekly and up to 8 weeks in total per subject.
    • Self-reported evaluation of physical activity according to a qualitative scale: light, medium or strenuous exercise done the day before the study visit.
  • Satiety: Hunger and fullness measured using the Visual analogue scale
    • Time Frame: Assessed at the start of every test session 1-2 weekly and up to 8 weeks in total per subject.
    • Hunger and fullness measured using the Visual Analogue Scale

Participating in This Clinical Trial

Inclusion Criteria

  • Chinese ethnicity – Male – Age between 21-40 years – Do not have any metabolic diseases (diabetes, hypertension etc) – Do not have G6PD deficiency – Not on prescription medication known to affect glucose related metabolism – Not allergic/intolerant to any of the test foods – Do not partake in sports at the competitive and/or endurance levels – Weight of at least 45kg – Body mass index between 18.0 to 24.9 kg/m2 – Normal blood pressure (120/80 mmHg) – Fasting blood glucose <6.0 mmol/L

Gender Eligibility: Male

Minimum Age: 21 Years

Maximum Age: 40 Years

Are Healthy Volunteers Accepted: Accepts Healthy Volunteers

Investigator Details

  • Lead Sponsor
    • Clinical Nutrition Research Centre, Singapore
  • Provider of Information About this Clinical Study
    • Principal Investigator: Melvin Leow, Principal Investigator – Clinical Nutrition Research Centre, Singapore

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