Status
Conditions
Treatments
About
The benzoic acid derivatives sodium and potassium benzoate are preservatives that are commonly added to food and beverages to inhibit microbial growth and prevent spoilage. In the US the major source of benzoate intake is beverages. Studies have shown that piglets or chicks fed low levels of benzoic acid have greater feed efficiency and gain more weight than control fed animals. It has also been shown that benzoic acid inhibits the release of a key metabolic hormone, leptin, from isolated adipocytes (fat cells). Inadequate leptin levels result in increased appetite, decreased metabolic rate, weight gain, insulin resistance and increased diabetes risk.
The primary aim of the proposed research is to directly determine if benzoate consumption in human volunteers results in lower levels of leptin, decreased metabolic rate and increased insulin resistance. If so this would implicate benzoic acid as an obesogen and would help inform more effective approaches to obesity prevention and treatment. A secondary aim of the study is to establish a connection between benzoate exposure and biomarkers in urine that can be used to help treat obese patients.
Full description
Our hypothesis is that benzoic acid is an obesogenic xenobiotic that attenuates the leptin signaling pathway resulting in lower metabolic rate and hence a propensity to weight loss non-responsiveness.
This hypothesis will be addressed in this pilot project via the following Specific Aims:
Aim 1. Determine if dietary benzoate attenuates leptin levels and metabolic rate in human subjects. Twenty heathy adolescents and young adults (age 18-25 yrs.) who are either overweight (BMI 25-29.9) or obese (BMI ≥ 30) will be studied. Following a 14 day period of avoiding benzoate containing beverages (washout period) subjects will then consume 36 oz./day of benzoate containing beverages (~ 3.9 - 4.5 mg benzoate/kg body weight per day exposure) for 7 days (exposure period). Fasting plasma samples will be collected pre and post-exposure and leptin, adiponectin, insulin and glucose levels will be compared. Indirect calorimetry will be used to compare resting energy expenditure pre-and post-exposure.
Aim 2. Validate the use of urinary hippurate and glycine to assess benzoate exposure. An early morning void urine samples will be collected pre-and post-exposure. Non-targeted NMR-based metabolomics analysis will be used to compare changes in individual subject's urinary metabolome using pre- and post-exposure as the "phenotypic" anchors.
Enrollment
Sex
Ages
Volunteers
Inclusion criteria
Exclusion criteria
Metabolic disease
Use of medication that may influence metabolism
Benzoate sensitivity
Known pregnancy
Primary purpose
Allocation
Interventional model
Masking
20 participants in 1 patient group
Loading...
Data sourced from clinicaltrials.gov
Clinical trials
Research sites
Resources
Legal