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Clinical Trial Details — Status: Completed

Administrative data

NCT number NCT02365103
Other study ID # 14/NW/0310 S-LS17042014
Secondary ID
Status Completed
Phase N/A
First received
Last updated
Start date November 2014
Est. completion date March 2015

Study information

Verified date May 2019
Source University of Chester
Contact n/a
Is FDA regulated No
Health authority
Study type Interventional

Clinical Trial Summary

The purpose of this study is to investigate the inhibition effect of tea consumption on non haem iron absorption with the use of an iron tracer. The study also aims to assess the effect of time variability of tea consumption on non haem iron absorption from a typical western breakfast.


Description:

This is a non randomised controlled trial in 12 healthy participants over a period of 56 days. The study will investigate the inhibition effect of tea consumption on non haem iron absorption with the use of a stable iron isotope (Fe57) tracer. The study also aims to assess the effect of time variability of tea consumption on non haem iron absorption from a typical western breakfast.There is evidence of lower iron absorption when a meal is given with tea, compared to water. There is also evidence from previous studies that the inhibition effect is higher when tea is consumed simultaneously with a meal, compared to in between meals. However, there are limited number of human studies investigating iron absorption and time interval, particularly in the UK. The study aims to recruit 12 healthy participants. The test meals will be given together with black tea labelled with iron tracer, at various time intervals which includes together and after the meals. Test meal given with water will be used as a control. Blood samples will be collected 14 days post dosage for each of the meals. The study will take place at University of Chester, and participants will attend 5 clinics during the 56 day study. Prior to the start of study, participants will complete a 3 day food diary, where they will be given instructions by the researcher. In each clinic, weight and height will be measured, followed by a fasted blood sample and the administration of test meals.

PROJECT HYPOTHESES H1: There is a significant difference in non haem iron absorption from a typical western breakfast with tea consumption compared to without tea consumption H0:There is no significant difference in non haem iron absorption from a typical western breakfast with tea consumption compared to without tea consumption H1: Iron absorption will be lower when tea is consumed simultaneously with meals compared to when it is consumed in between meals H0: The iron absorption will not be lower when tea is consumed simultaneously with meals compared to when is consumed in between meals H1: There is an inverse correlation between tea consumption and iron status parameters H0: There is no inverse correlation between tea consumption and iron status parameters

There are several parameters which will be measured in this study. Height and weight will be measured using methods outlined in the Manual of Dietetic Practice using validated equipment (weighing scales and stadiometer). These will be measured by the student researcher at baseline and at each clinic (Clinic 1 to 5). Dietary intakes will be measured based on the data gathered in the 3 days food diary completed by the participants prior to Clinic 1 and 5. Additionally, blood samples will be taken by student researcher at each clinic. The analysis will be carried out in the Clinical Laboratories and Phlebotomy Room within the Department of Clinical Sciences and Nutrition (University of Chester), utilising the equipment and the clinical space where the participants will have to report during the administration of the meals with iron tracer. Test meals will be prepared in the food skills kitchen within the department. Analysis of blood samples will also be carried out in Clinical Sciences laboratories using relevant methodologies, including ELISA assays, bioanalysers and mass spectrometry. After the administration of meals labelled with iron tracers, all the blood samples will be stored at 80 Celsius in the laboratory until further analysis.

RECRUITMENT PROCESS The sampling will be carried out at the University of Chester. Posters/leaflets and letter/emails will be used as a medium of advertisement to the targeted group, especially to staff and students. The potential participants who require further information will be given participant information sheet which explains the procedure of the study.

STUDY PROCEDURE Clinic visits will take place between 0800 to 1000 (lasting for approximately 45 minutes) at the Clinical Sciences & Nutrition laboratory, University of Chester. 5 clinics are required, with a time interval of 14 days between clinics to allow the incorporation of the stable iron isotope (Fe57) tracer into the blood. During each clinic, participants will be given test meals labelled with iron tracer and tea, and no food or drink will be allowed for the next 3 to 4 hours. All the containers used to administer the test meals will be washed with ultrapure water to make sure complete consumption of both test meals and iron tracer. Participants will attend each clinic after an overnight fast (10 hours), and 30 ml blood samples (6 teaspoons) will be collected at each clinic. All the clinic details are given below.

Clinic 1 (Day 0): Participants will complete a screening questionnaire, followed by physical measurements of height and weight. If they satisfy the inclusion criteria, they will be invited to participate in the study and be asked to sign an informed consent form. Participants will be asked about their food consumption over the previous 24 hours and will be required to complete 3 day food diary to reflect habitual intake. Participants will be given an explanation on how to record the dietary intake. Height and weight will be measured, followed by a baseline blood sample. This will be followed by consumption of the control test meal.

Clinic 2 (Day 14): Measurement of height and weight followed by a baseline blood sample and 24 hour food recall will be carried out. This will be followed by consumption of the test meal II with tea given simultaneously with the test meal.

Clinic 3 (Day 28): Measurement of height and weight followed by a baseline blood sample and 24 hour food recall will be carried out . This will be followed by consumption of the test meal III with tea given 1 hour after the test meal.

Clinic 4 (Day 42): Measurement of height and weight followed by a baseline blood sample and 24 hour food recall will be carried out . This will be followed by consumption of reference dose iron.

Clinic 5(Day 56): Prior to the completion of the study, participants will be given another 3 day food diary which has to be completed before the clinic for another assessment of dietary intake. Measurement of height and weight followed by a final blood sample drawn to measure the incorporation of iron from the reference dose and 24 hour food recall.

DATA-PLAN

Sample size determination and justification :

Sample size was estimated using iron absorption data (mean ± S.D) from a study by Derman et al. (1977) in which they reported iron absorption (%) of 6.7 ± 6.2 when the test meals were administered with tea and 34.0 ± 23.0 when the test meals were administered without tea. With an effect size of 1.324, the total sample size required in the proposed study is 10. Taking into account a 20% drop out rate, the total sample size required to demonstrate a significant difference in iron absorption between consumption of meal with and without tea is 12 (Power = 0.95).

Data Analysis :

All statistical analyses will be conducted by the research student with International Business Machines (IBM)® Statistical Package for the Social Sciences (SPSS)® Statistic Data Editor Software (Version 21). Values for iron absorption and meal ratios will be expressed as geometric means and standard deviations. Iron absorption values (in percentage) will be logarithmically transformed for the purpose of analyses and will then be retransformed to recover the original units (Hurrell et al., 1999). Assuming that the data is normally distributed after performing normality test (Shapiro Wilks), paired student t tests will be conducted (i) to compare the iron absorption from each pair of meals and (ii) to obtain the absorption ratios in the test meals in relative to the reference dose without meal. Pearson's correlation test will be performed to investigate the relationship between tea drinking and iron status biomarkers. A nonparametric approach will be adopted if the data is not normally distributed for all analyses. Differences will be considered significant with a p value < 0.05.


Recruitment information / eligibility

Status Completed
Enrollment 12
Est. completion date March 2015
Est. primary completion date March 2015
Accepts healthy volunteers Accepts Healthy Volunteers
Gender Female
Age group 19 Years to 40 Years
Eligibility Inclusion Criteria:

- pre menopausal women;

- aged 19- 40 years;

- healthy;

- non- pregnant nor lactating.

Exclusion Criteria:

- history of gastrointestinal and metabolic disorders;

- have donated blood within past 6 months;

- regularly consuming nutritional supplements.

Study Design


Related Conditions & MeSH terms


Intervention

Other:
Test meal I (given with water)
4 mg of the iron stable isotope, in a form of ferrous sulphate solution, extrinsically labelled in the test meal administered in the study, enrichment in the system will take approximately 14 days post dosing
Test meal II (simultaneously with tea)
4 mg of the iron stable isotope, in a form of ferrous sulphate solution, extrinsically labelled in the test meal administered in the study, enrichment in the system will take approximately 14 days post dosing
Test meal III (1 hour after test meal)
4 mg of the iron stable isotope, in a form of ferrous sulphate solution, extrinsically labelled in the test meal administered in the study, enrichment in the system will take approximately 14 days post dosing
Reference iron dose
3 mg of the iron stable isotope, in a form of ferrous sulphate solution, extrinsically labelled and administered in the study, enrichment in the system will take approximately 14 days post dosing

Locations

Country Name City State
United Kingdom University of Chester Chester Cheshire

Sponsors (1)

Lead Sponsor Collaborator
University of Chester

Country where clinical trial is conducted

United Kingdom, 

References & Publications (1)

Ahmad Fuzi SF, Koller D, Bruggraber S, Pereira DI, Dainty JR, Mushtaq S. A 1-h time interval between a meal containing iron and consumption of tea attenuates the inhibitory effects on iron absorption: a controlled trial in a cohort of healthy UK women using a stable iron isotope. Am J Clin Nutr. 2017 Dec;106(6):1413-1421. doi: 10.3945/ajcn.117.161364. Epub 2017 Oct 18. — View Citation

Outcome

Type Measure Description Time frame Safety issue
Primary Iron absorption (%) measured by mass spectrometer Iron absorption is estimated based on the erythrocyte iron incorporation to the body system with the use of iron tracer after 14 days following administration of the test meals 14 days after each test meal
Secondary Serum ferritin measured by Biomerieux mini VIDAS To assess the body iron storage 1 year
Secondary Hepcidin measured by enzyme-linked immunosorbent assay (ELISA) kit To assess the mechanism involved in iron absorption 1 year
Secondary Full blood count measured by Beckman Coulter Counter To assess the iron status 1 year
Secondary Zinc protoporphyrin (ZPP) measured by haemato-fluorimetry To assess the iron status 1 year
Secondary Total binding iron capacity (TIBC) measured by enzyme-linked immunosorbent assay (ELISA) kit To assess the total capacity of circulating transferrin bound to iron 1 year
Secondary Transferrin saturation measured by enzyme-linked immunosorbent assay (ELISA) kit To assess the proportion of transferrin bound to iron 1 year
Secondary Transferrin receptor measured by enzyme-linked immunosorbent assay (ELISA) kit To assess the severity of iron deficiency even in presence of inflammatory disorders 1 year
Secondary C- reactive protein measured by enzyme-linked immunosorbent assay (ELISA) kit To assess levels of inflammation 1 year
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