This experimental study aims to evaluate the effects of different strategies for increasing fruit and vegetable intake and to see how these interventions influence markers of health in people aged 18-65 who currently consume fewer than 2 portions of fruit and vegetables a day. The main questions it aims to answer are: 1. How does 5-a-day advice, with and without the inclusion of fruit juice, impact fruit and vegetable intake over a four-week period? 2. What are the acceptability and perceived ease of increasing fruit and vegetable intake with and without the inclusion of fruit juice in 5-a-day recommendations? 3. What are the effects of increasing fruit and vegetable intake with and without fruit juice on markers of metabolic health? Researchers will answer these questions by comparing results from three groups of participants. All participants will provide a pre- and post-intervention blood sample, complete various questionnaires, and follow a four-week intervention that comprises educational material and a weekly £10 voucher. Over the course of the four weeks, they will report what they ate in a day on four different days. The groups differ in the educational materials provided and where they can spend their voucher: * Group 1 (Control) - information on the importance of including an experimental control in research and a weekly voucher to spend at a retailer of their choice, * Group 2 (F\&V) - information on 5-a-day advice (excluding fruit juice) and a weekly voucher to spend in a supermarket on F\&V, and * Group 3 (F\&V + Juice) - information on 5-a-day advice (including fruit juice) and a weekly voucher to spend in a supermarket on F\&V.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
OTHER
Masking
NONE
Enrollment
42
Information packs will be developed for participants outlining the importance of a control group in research studies to maximise compliance. Participants will receive a £10 gift voucher weekly that they can spend at selected retailers of their choosing.
Information packs will be developed to support participants in increasing their intake of whole fruits and vegetables, excluding fruit juice. The information packs will be developed using published guidance from the UK government, expert panels, and regulatory bodies. The packs will be co-developed with the public to ensure the guidance is appropriate for its target audience. Participants will also receive a £10 supermarket voucher weekly to purchase fruit and vegetables.
Information packs will be developed to support participants in increasing their intake of whole fruits and vegetables, including fruit juice. The information packs will be developed using published guidance from the UK government, expert panels, and regulatory bodies. The packs will be co-developed with the public to ensure the guidance is appropriate for its target audience. Participants will also receive a £10 supermarket voucher weekly to purchase fruit and vegetables.
Newcastle University
Newcastle upon Tyne, Tyne and Wear, United Kingdom
Number of daily fruit and vegetable portions (from dietary recalls)
The number of daily portions of fruit and vegetables consumed (including fruit juice in group 3) will be determined by 4 x 24-hour dietary recalls using the validated dietary recall software Intake24 (Foster et al., 2019).
Time frame: 4 weeks
Number of daily fruit and vegetable portions (from brief screening tool)
The 6-item fruit and vegetable screener module from the BRFSS (Behavioral Risk Factor Surveillance System; CDC, 2020) will be used as a secondary measure to capture self-reported fruit and vegetable intake pre- and post-intervention. Data will be compared against the more granular dietary data from Intake24, to evaluate agreement and suitability of this tools for use as an outcome measure in future fruit and vegetable-based interventions.
Time frame: 4 weeks
Concentration of plasma ascorbic acid
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of plasma ascorbic acid (μmol/L), or vitamin C, will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (lutein)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid lutein (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (zeaxanthin)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid zeaxanthin (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (beta-cryptoxanthin)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid beta-cryptoxanthin (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (lycopene)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid lycopene (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (alpha-carotene)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid alpha-carotene (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of serum carotenoids (beta-carotene)
Prior to and following the intervention, participants will provide a fasted blood sample for determining objective biomarkers of fruit and vegetable intake. Concentration of the serum carotenoid beta-carotene (μmol/L) will be measured via high-performance liquid chromatography (HPLC) using methods well-validated in our laboratory. These markers will help verify any participant-reported changes in fruit (including juice) and vegetable intake.
Time frame: 4 weeks
Concentration of metabolic health markers
Prior to and following the intervention, participants will provide a fasted blood sample to determine markers of metabolic health. The Nightingale metabolomic biomarker panel, assessed pre- and post-intervention using Nuclear Magnetic Resonance (NMR) spectroscopy, will be used to evaluate the impact of the intervention on markers of metabolic health.
Time frame: 4 weeks
Measure of depression symptom severity (PHQ-9)
The impact of the study interventions on symptoms of depression will be evaluated by administering the PHQ-9 questionnaire (a validated tool to measure levels of depression) pre- and post-intervention. Participants will provide information on the frequency with which they have been affected by depression-related symptoms (from not at all to nearly every day). There are four options for participants to select and each is associated with a score (not at all (0), several days (+1), more than half the days (+2), nearly every day (+3)). The sum of these scores indicates the level of depression severity (0-4 none/minimal; 5-9 mild anxiety; 10-14 moderate; 15 -19 moderately severe; 20-27 severe).
Time frame: 4 weeks
Measure of anxiety symptom severity (GAD-7)
The impact of the study interventions on anxiety symptoms will be evaluated by administering the GAD-7 questionnaire (a validated tool to measure levels of anxiety) pre- and post-intervention. Participants will provide information on the frequency with which they have been affected by anxiety-related symptoms. There are four options for participants to select, and each option is associated with a score (not at all (0), several days (+1), more than half the days (+2), and nearly every day (+3)). The sum of these scores indicates the level of anxiety (0-4 minimal; 5-9 mild anxiety; 10-14 moderate anxiety; greater than 15 severe anxiety).
Time frame: 4 weeks
Total number of gut symptoms (score)
Participants will complete the gut symptoms questionnaire (Winham and Hutchins, 2011) pre- and post-intervention. This involves responding to 4 close-ended questions (yes/no) enquiring about changes in the frequency of flatulence, stool frequency, stool consistency, or bloating frequency in the past week. The total number of symptoms the participant reported as having increased in the last week is their gut symptom score.
Time frame: 4 weeks
Change in flatulence symptoms
Participants will complete the gut symptoms questionnaire (Winham and Hutchins, 2011) pre- and post-intervention. One of these items is a close-ended question (yes/no) enquiring about changes in the frequency of flatulence in the past week. If participants report a change, they will be asked to indicate the direction (increase/decrease) and magnitude of change (from 1 = least change to 5 = greatest change on a 5-point likert scale).
Time frame: 4 weeks
Change in stool frequency
Participants will complete the gut symptoms questionnaire (Winham and Hutchins, 2011) pre- and post-intervention. One of these items is a close-ended question (yes/no) enquiring about changes in stool frequency in the past week. If participants report a change, they will be asked to indicate the direction (increase/decrease) and magnitude of change (from 1 = least change to 5 = greatest change on a 5-point likert scale).
Time frame: 4 weeks
Change in stool consistency
Participants will complete the gut symptoms questionnaire (Winham and Hutchins, 2011) pre- and post-intervention. One of these items is a close-ended question (yes/no) enquiring about changes in stool consistency in the past week. If participants report a change, they will be asked to indicate the direction (increase/decrease) and magnitude of change (from 1 = least change to 5 = greatest change on a 5-point likert scale).
Time frame: 4 weeks
Change in bloating frequency
Participants will complete the gut symptoms questionnaire (Winham and Hutchins, 2011) pre- and post-intervention. One of these items is a close-ended question (yes/no) enquiring about changes in bloating frequency in the past week. If participants report a change, they will be asked to indicate the direction (increase/decrease) and magnitude of change (from 1 = least change to 5 = greatest change on a 5-point likert scale).
Time frame: 4 weeks
Assessment of intervention acceptability
Acceptability of the interventions will be assessed post-study via a custom questionnaire, using 5-point visual analogue scales and informed by the Theoretical Framework of Acceptability (Sekhon et al., 2017).
Time frame: 4 weeks
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