The objective of this clinical trial is to determine the activity of dealcoholized muscadine wine to alleviate oxidative stress, inflammation, skin photoaging, and alter gut microbiome in women 40-67 years of age. The investigators hypothesize that dealcoholized muscadine wine daily for 42 days will significantly alleviate oxidative stress, inflammation, skin photoaging, and alter the gut microbiome in women compared to drinking sugar water.
Aging of the skin is characterized by wrinkling, sagging, and laxity. About 80% of facial skin aging is classified as extrinsic, or photoaging because it results from exposure to UV light of the sun that causes oxidative stress The remaining 20% of facial aging is the intrinsic type which is partially caused by the accumulation of proteins that are modified by reactive carbonyls in a reaction known as protein glycation. Aging also shifts the composition of the gut microbiome in at least 35 genera towards an unhealthy state of dysbiosis. Previous studies showed that muscadine polyphenols inhibited protein glycation under a simulated physiological condition. Additional experiments using cell culture and mice showed that dealcoholized muscadine wine alleviated inflammation and protected against dysbiosis in the gut. The objective of this research is to confirm the health benefits of muscadine wine polyphenols in a clinical trial. The investigators hypothesize that dealcoholized muscadine wine consumption in women 40-65 years old will alleviate skin photoaging and skin conditions by decreasing oxidative stress and inflammation. It is also expected to improve the composition of the gut microbiome.
Study Type
INTERVENTIONAL
Allocation
RANDOMIZED
Purpose
BASIC_SCIENCE
Masking
TRIPLE
Enrollment
20
300 ml of Dealcoholized Muscadine Wine
300ml of Sugar Water and Acid Content
Food Science and Human Nutrition Department at University of Florida
Gainesville, Florida, United States
Sensitivity of skin to UV radiation
Irradiation will be applied to dorsal skin (back, scapular region not typically exposed to the sun) with 2 times of minimal erythema dose using an FDA approved UVB phototherapy light and a UV light meter. At each time point on day 0 and 29, skin color will be measured before and 24 h after irradiation. Skin color will be evaluated by a colorimeter.
Time frame: Baseline, 28 days
skin transepidermal water loss
Skin transepidermal water loss will be measured using a Tewameter (CK Electronic GmbH, Germany) to evaluate the water barrier function of the skin. The Tewameter measures the density gradient of the water evaporation from the skin (g/h/m\^2)
Time frame: Baseline, 28 days
Change in Gut Microbiome
Fecal samples will be collected and microbial DNA will be extracted from fecal samples . The 16S ribosomal gene (V1-3 region) of each sample will be amplified and sequenced using a barcoding system on a MiSeq sequencer.
Time frame: Baseline, 28 days
skin hydration
Skin hydration will be measured with a Corneometer (CK Electronic GmbH, Germany).
Time frame: Baseline, 28 days
skin erythema and melanin index
Skin erythema and melanin index will be assessed with Mexameter (CK Electronic GmbH, Germany). These two components are mainly responsible for the color of the skin. They are measured by reflectance.
Time frame: Baseline, 28 days
skin pH
Skin pH will be measured using a Skin-pH-Meter (CK Electronic GmbH, Germany).
Time frame: Baseline, 28 days
This platform is for informational purposes only and does not constitute medical advice. Always consult a qualified healthcare professional.
Skin smoothness, scaliness, and roughness
Skin will be scanned using a probe.
Time frame: Baseline, 28 days
Skin net elasticity, viscoelasticity, and biological elasticity
Skin will be measured using a probe.
Time frame: Baseline, 28 days