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| Name | Class |
|---|---|
| Euromed, S.A. | UNKNOWN |
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The state of skin health impacts not only on the general health of individuals, but also on mental health. Ultraviolet radiation (UV) is one of the main external factors that causes skin ageing, producing photo-aging, characterized by multiple alterations in the skin such as the appearance of wrinkles, dryness, erythema, alterations in the pigmentation, inflammation and increased fragility.
Several studies show that polyphenols extracts, including pomegranate extracts, have beneficial effects on various skin characteristics induced by photoaging by modulating internal factors that lead to changes associated with photoaging. Among these internal factors are oxidative stress, glycation stress caused by an accumulation of advances glycation end-products (AGEs), inflammation, and the composition of the intestinal and skin microbiota.
Pomanox® is a polyphenolic extract derived from pomegranate for which antioxidant activity and positive effects on the metabolism of collagen and hyaluronic acid have been shown in previous in vitro studies.
The hypothesis of the study is that the consumption of Pomanox®P30 will have beneficial effects on skin ageing in humans through the modulation of the metabolism of collagen, hyaluronic acid and the inflammatory system, the inhibition of the production of reactive oxygen species and AGEs, and/or changes in the intestinal and skin microbiota composition.
The main objective of the study is to evaluate the effect of consuming two doses of Pomanox®P30 on hyperpigmented skin spots in humans.
The secondary objectives of the study are to evaluate the effects of consuming two doses of Pomanox®P30 on other parameters related to skin ageing (wrinkles, elasticity, erythema index, hydration, pores, acne and keratin), on different markers of collagen and hyaluronic acid metabolism, oxidative stress, the anti-glycan effect and the inflammatory system, and on the composition of the intestinal and skin microbiota.
A randomized, parallel, placebo-controlled, single-center, triple-blind clinical trial with a 1:1:1 ratio between interventions with 66 participants will be conducted.
Each participant will make 4 visits:
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| Label | Type | Description | Intervention Names |
|---|---|---|---|
| 367 mg Pomanox group | Experimental | One capsule daily with 367 mg of Pomanox®P30 for 12 weeks |
|
| 700 mg Pomanox group | Experimental | One capsule daily with 700 mg of Pomanox®P30 for 12 weeks |
|
| Control group | Placebo Comparator | One capsule daily with maltodextrin for 12 weeks |
|
| Name | Type | Description | Arm Group Labels | Other Names |
|---|---|---|---|---|
| 367 mg Pomanox group | Dietary Supplement | Treatment with 367 mg Pomanox®P30 during 12 weeks |
|
| Measure | Description | Time Frame |
|---|---|---|
| Change in skin melanin index. | Skin melanin index measured by using a Mexameter® MX18. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Measure | Description | Time Frame |
|---|---|---|
| Change in skin wrinkles. | Skin wrinkles measured using a DermoPrime System. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin hydratation. | Skin hydratation measured using a DermoPrime System. |
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Inclusion Criteria:
Exclusion Criteria:
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| Name | Affiliation | Role |
|---|---|---|
| Antoni Caimari, PhD | Fundació Eurecat | Principal Investigator |
| Facility | Status | City | State | ZIP | Country | Contacts |
|---|---|---|---|---|---|---|
| Anna Crescenti | Reus | Catalonia. Spain | 43204 | Spain | ||
| Eurecat |
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| Label | URL |
|---|---|
| Technological Centre of Nutrition and Health. Eurecat\_Reus. | View source |
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| ID | Term |
|---|---|
| D035061 | Control Groups |
| ID | Term |
|---|---|
| D015340 | Epidemiologic Research Design |
| D004812 | Epidemiologic Methods |
| D008919 | Investigative Techniques |
| D012107 | Research Design |
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| 700 mg Pomanox group | Dietary Supplement | Treatment with 700 mg Pomanox®P30 during 12 weeks |
|
| Control group | Dietary Supplement | Treatment with maltodextrin during 12 weeks |
|
| At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin elasticity. | Skin elasticity measured using a Cutometer ®MPA 580. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin erythema index. | Skin erythema index measured by using a Mexameter® MX18. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin pores. | Skin pores measured using a DermoPrime System. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin acne. | Skin acne measured using a DermoPrime System. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in skin keratin. | Skin keratin measured using a DermoPrime System. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in Human Procollagen I N-Terminal Propeptide blood levels. | Serum levels of Human Procollagen I N-Terminal Propeptide will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in Human Procollagen I C-Terminal Propeptide blood levels. | Serum levels of Human Procollagen I C-Terminal Propeptide will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in Metalloproteinase-1 blood levels. | Serum levels of Metalloproteinase will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in hyaluronic acid blood levels. | Serum levels of hyaluronic acid will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in superoxide dismutase activity blood levels. | Serum superoxide dismutase activity will be measured using a colorimetric kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in reduced gluthathione blood levels. | Serum levels of reduced gluthathione will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in pentosidine blood levels. | Serum levels of pentosidine will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in carboxymethyl-lysine blood levels. | Serum levels of carboxymethyl-lysine will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in interleukin-1 alpha blood levels. | Serum levels of interleukin-1 alpha will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in interleukin-6 blood levels. | Serum levels of interleukin-6 will be measured using human ELISA kits. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in stool microbiota composition. | Total DNA extracted from stool samples will be sequenced on an Ion Torrent platform. It will be analysed the taxonomic profile, alpha diversity and beta diversity. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in skin microbiota composition. | Total DNA extracted from stool samples will be sequenced on an Ion Torrent platform. It will be analysed the taxonomic profile, alpha diversity and beta diversity. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in dimethylellagic acid glucuronide urine levels. | Urine levels of dimethylellagic acid glucuronide will be measured by Liquid Chromatography Mass Spectrometry. | At day 1 (visit V1) and day 85 (visit 3). |
| Change in urolithin A glucuronide urine levels. | Urine levels of urolithin A glucuronide will be measured by Liquid Chromatography Mass Spectrometry. | At day 1 (visit V1) and day 85 (visit 3). |
| Subject self-assessment quality of the skin. | The quality of the skin of the volunteers will be evaluated subjectively through self-assessment questionnaire of the subjects themselves. This questionnaire will assess the perception of the volunteers on the improvement of their skin in general and on wrinkles, spots, redness, elasticity, hydration, pores and acne. In the questionnaire there will be 5 grades to asses the state: worsened (0), slightly worsened (1), no change (2), slightly improved (3) and improved (4). | At day 29 (visit V2) and day 85 (visit 3). |
| Age. | The age of the volunteers will be recorded in the case report form. | At day -7 (pre-selection visit). |
| Height. | Height measured by a standardized method. | At day -7 (pre-selection visit). |
| Change in body weight. | Body weight measured by a standardized method. | At day -7 (pre-selection visit), day 1 (visit V1, day 29 (visit 2) and day 85 (visit 3). |
| Change in body mass index. | Weight and height will be combined to report Body Mass Index in kg/m^2. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in fat mass. | Fat mass measured by TANITA SC 330. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Change in muscle mass. | Muscle mass measured by TANITA SC 330. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Concomitant medication. | Concomitant medication consumed during the study will be recorded in the case report form. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Dietary supplements consumed. | Dietary supplements consumed during the study will be recorded in the case report form. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Use of cosmetic treatments. | The use of cosmetic treatments during the study will be recorded in the case report form. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Exposure to ultraviolet radiation. | Exposure of volunteers to ultraviolet radiation will be recorded in the case report form. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Products with pomegranate and ellagitannins consumption. | Consumption of products with pomegranate and ellagitannins during the study will be recorded in the case report form. | At day -7 (pre-selection visit), day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Eating habits. | Eating habits of volunteers during the study will be recorded using a food frequency questionnaire. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Physical activity. | Physical activity of volunteers during the study will be recorded using the international physical activity questionnaire. | At day 1 (visit V1), day 29 (visit 2) and day 85 (visit 3). |
| Intervention compliance. | The intervention compliance by the volunteers will be assessed by counting the number of remaining capsules and applying the formula (Number of capsules consumed/Number of capsules to consume)x100. | At day 29 (visit 2) and day 85 (visit 3). |
| Adverse events. | Possible adverse events derived from taking study's products will be recorded in the case report form. | At day 29 (visit 2) and day 85 (visit 3). |
| Reus |
| 43204 |
| Spain |
| D008722 | Methods |