Study on the Effects of Wheat and Corn Germ Blend Oil on Antioxidation and Immune Regulation of Dyslipidemia Population

Not Applicable

Completed

• Conditions: Fatty Acid Metabolism Disorder; Oxidative Stress; Metabolic Diseases; Immune System Disorder; Dyslipidemias
• Interventions: Dietary Supplement: Peanut oil; Dietary Supplement: Phytosterol-rich Wheat and Corn Germ Blended Oil

• Registration Number: NCT06060509
• Lead Sponsor: Southeast University, China

Brief Summary

The goal of this clinical trial is to explore the role of wheat and corn germ blended oils in regulating oxidative stress and immunomodulation in dyslipidaemic populations, to explore their effects on intestinal flora, antioxidant and immunomodulation. The main questions it aims to answer are:

* How does phytosterol-rich wheat corn germ blended oil affect oxidative stress and immune function in dyslipidaemic people compared to peanut oil?

* How does phytosterol-rich wheat corn germ blended oil affect serum metabolites, serum fatty acid profile, and intestinal flora in dyslipidaemic populations compared to peanut oil? What are the specific mechanisms involved?

Participants will be randomly assigned to the intervention and control groups, the packaging of germ oil and peanut oil will have a uniform appearance, and participants will be instructed to replace their household cooking oils with the distributed cooking oil for three months, in addition to replacing all the canteens in the staff units with the trial oil for more than three months. Participants did not know who was the control oil, germ oil or peanut oil, and both were randomly distributed to different groups of participants by the third-party supervisors.

Researchers will compare peanut oil to see if phytosterol-rich germ oil can improve oxidative stress and immune function in dyslipidaemic populations, in addition to exploring possible underlying mechanisms of improvement using multi-omics techniques.

Detailed Description

The design of this intervention trial was a randomised controlled trial, in which the included dyslipidaemic population was randomly divided into a wheat corn germ blended oil intervention group and a peanut oil control group, with the male/female ratio, age, and level of basic clinical characteristics balanced between the two groups. The entire test phase consisted of a 14-day washout period and a 3-month intervention period. Participants in the intervention and control groups first entered a 14-day peanut oil washout period, which was followed by a three-month intervention phase. During the intervention phase, two different cooking oils (25-30 g of cooking oil per day according to the recommended intake of the Chinese Nutrition Society) were allocated to the two groups, with peanut oil being consumed by participants in the control group, and germ oil being used to replace the daily cooking oil for participants in the intervention group. After the participants were randomised into groups, they were provided with lunch and dinner according to the Chinese Dietary Guidelines for Residents of China and the local dietary habits of Nanjing, China, and breakfast was provided by the subjects themselves (dietary guidance was given to the subjects during the course of the study, and breakfast recipes were provided uniformly in order to achieve consistency between the two groups), and the intervention period was 3 months. Throughout the project period, all subjects followed their normal dietary habits and maintained a normal level of physical activity.

Study Timeline

• Study Start: 2023-03-01
• Study First Submitted: 2023-09-19
• Study First Submitted QC: 2023-09-23
• Study First Posted: 2023-09-29
• Primary Completion: 2023-10-01
• Study Completion: 2023-12-01
• Status Verified: 2024-10
• Last Update Submitted: 2024-10-09
• Last Update Posted: 2024-10-14

Recruitment & Eligibility

• Status: COMPLETED
• Sex: All
• Target Recruitment: 102

Inclusion Criteria

• Male or female aged 18-65 with BMI less than 30;
• At least one item meets the diagnostic criteria for dyslipidemia (2016 Chinese adult dyslipidemia prevention and treatment guide)
• No serious complications related to liver, kidney, digestive tract, endocrine diseases and chronic diseases;
• Within 3 months, he did not use the drugs and dietary supplements related to reducing blood fat and weight, and agreed not to use the above foods or drugs during the experiment;
• Volunteer to participate in this study after listening to the project introduction and sign the informed consent form.

Exclusion Criteria

• Pregnant, pregnant or lactating women;
• Patients with liver and kidney dysfunction, diabetes, coronary heart disease, hyperthyroidism, malignant tumor, asthma and other chronic diseases other than dyslipidemia;
• Endocrine disease patients, postoperative patients, patients receiving hormone therapy and psychotic patients;
• Have special eating habits: vegetarian, ketogenic diet (high fat, low carbon water), etc;
• Those who cannot follow the test requirements.

Study & Design

• Study Type: INTERVENTIONAL
• Study Design: PARALLEL

Arm && Interventions

Group	Intervention	Description
Peanut oil group	Peanut oil	Participants in the Peanut oil group replaced the daily cooking oil with Peanut oil, and were given 25-30 g of cooking oil per day according to the recommended intake of the Chinese Nutrition Society. Lunch and dinner were cooked using a uniform recipe for both intervention and control groups, and breakfast was self-cooked under the uniform dietary guidelines.
Wheat corn germ blended oil group	Phytosterol-rich Wheat and Corn Germ Blended Oil	Participants in the intervention group replaced the daily cooking oil with wheat and corn germ oil, and were given 25-30 g of cooking oil per day according to the recommended intake of the Chinese Nutrition Society. Lunch and dinner were cooked using a uniform recipe for both intervention and control groups, and breakfast was self-cooked under the uniform dietary guidelines.

Primary Outcome Measures

Name	Time	Method
Serum triglycerides concentrations	12 weeks	physiological parameter
Weight in kilogram	12 weeks	physiological parameter
Complement C3	12 weeks	physiological parameter
hip measurement	12 weeks	Unit in centimetres,physiological parameter
glutathione	12 weeks	physiological parameter
Height in metres	12 weeks	Height in metres, physiological parameter
Systolic blood pressure	12 weeks	Units in mmHg. physiological parameter.
diastolic blood pressure	12 weeks	Units in mmHg. physiological parameter.
body mass index (BMI)	12 weeks	BMI= Weight (kg)/height\^2(m)
waist circumference	12 weeks	Unit in centimetres,physiological parameter
Serum triglyceride concentrations	12 weeks	physiological parameter
Percentage of CD3+ total T cells	12 weeks	physiological parameter
Percentage of CD4+ T cells	12 weeks	physiological parameter
Percentage of CD8+ T cells	12 weeks	physiological parameter
Percentage of CD4+ CD8+ cells	12 weeks	physiological parameter
Percentage of CD16/56+ NK cells	12 weeks	physiological parameter
Immunoglobulin G	12 weeks	physiological parameter
Immunoglobulin A	12 weeks	physiological parameter
Immunoglobulin M	12 weeks	physiological parameter
Immunoglobulin E	12 weeks	physiological parameter
reactive oxygen species	12 weeks	physiological parameter
Serum LDL cholesterol concentrations	12 weeks	physiological parameter
Serum HDL cholesterol concentrations	12 weeks	physiological parameter
Percentage of CD19+ B cells	12 weeks	physiological parameter
superoxide dismutase	12 weeks	physiological parameter
malondialdehyde	12 weeks	physiological parameter

Secondary Outcome Measures

Name	Time	Method
leptin	12 weeks	physiological parameter
Transforming growth factor-β	12 weeks	physiological parameter
diamine oxidase	12 weeks	physiological parameter
endotoxin	12 weeks	physiological parameter
Lipoprotein a	12 weeks	physiological parameter
Number of participants who smoke	12 weeks	questionnaire
Number of participants taking lipid-lowering drugs	12 weeks	questionnaire

Trial Locations

Locations (1)

Southeast university; 🇨🇳 Nanjing, Jiangsu, China