Clinical Studies
633 nm LED (Red Light)
Improves Cellular Function & Collagen Production
Continuous irradiation with a 633-nm light-emitting diode (LED) was evaluated in cultured human dermal fibroblasts and human skin cells. Collagen synthesis and cellular aging markers were assessed following light exposure.
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Int J Mol Med. 2015 Mar;35(3):705-13
633 nm LED (Red Light)
Reduces UV-Induced Cellular Damage
LED irradiation was evaluated in narrow-band UVB-exposed cultured human skin cells. Effects on cellular damage and extracellular matrix components were assessed following treatment.
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Dermatol Surg. 2012 Oct;38(10):1695-703
Blue Light (≈415–465 nm)
Targets Acne-Causing Bacteria
Blue light exposure was evaluated for antimicrobial activity against Propionibacterium acnes and other microorganisms across infectious disease models.
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Photodiagnosis Photodyn Ther. 2013 Dec;10(4):496-502
LED Phototherapy
Evaluated for Acne Treatment Outcomes
A randomized clinical study evaluated three phototherapy methods in patients with acne vulgaris. Clinical response to treatment was assessed across treatment groups.
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Photodermatol Photoimmunol Photomed. 2014 Oct;30(5):246-53
655 nm LED (Red Light)
Kickstarts Hair Growth
Human hair follicles were irradiated with 655-nm red light in an in vitro culture model. Hair shaft elongation, follicle cycling, and expression of Wnt/β-catenin signaling markers were evaluated.
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Lasers Med Sci. 2018;33(3):637–645
650 nm LED (Red Light)
Keeps Hair Growing Longer
Human hair follicles obtained from patients with androgenetic alopecia were cultured ex vivo and treated with 650-nm red light. Follicle proliferation, gene expression, and transition between hair growth phases were analyzed.
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Int J Mol Sci. 2021;22(21):11785
Emulium® Mellifera MB
+43% Hydration in 30 Minutes
Corneometry test on 10 volunteers with dry skin (22–68 years old) – Measurements at T30 min, T4h, T8h vs T0 – Single application on the forearm area – Emulsion with 4% Emulium® Mellifera MB vs untreated area.
AcquaCell
+85% Cellular Hydration
Reduces Fine Lines in 2 Hours
In vivo study where 3.00% AcquaCell was applied twice daily for 2 weeks – Test samples (via biopsy) were analyzed for low molecular weight water-soluble components of the natural moisturizing complex. A separate in vivo evaluation on 20 volunteers assessed visible changes in fine lines following topical application.
Argireline® Peptide
–20.4% Reduction in Skin Roughness
18 female volunteers applied a cream containing 5% Argireline® peptide solution C to the face twice daily – After 28 days, arithmetic average roughness (Ra) was evaluated.
HyaClear®
Improves Barrier Function & Reduces Water Loss
Formulations containing sodium hyaluronate were evaluated for hydration, transepidermal water loss (TEWL), desquamation, and skin texture.
Hymagic™-4D Hyaluronic Acid
+155% Increase in Skin Hydration
–45.5% Reduction in Water Loss
Skin hydration and transepidermal water loss (TEWL) were measured following application of formulations containing Hymagic™-4D – Measurements were taken at multiple time points from 0 to 8 hours and compared to control.
Niacinamide
Reduces Hyperpigmentation & Improves Skin Tone
Melanin production was measured in a purified mushroom tyrosinase assay, cultured melanocytes, a keratinocyte/melanocyte coculture model, and a pigmented reconstructed epidermis (PREP) model – Clinical trials included 18 subjects with hyperpigmentation using 5% niacinamide vs vehicle in a paired design, and 120 subjects with facial tanning assigned to treatment groups – Changes in facial hyperpigmentation and skin colour were quantified by computer analysis and visual grading of high-resolution digital images.
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Br J Dermatol. 2002 Jul;147(1):20-31
ChronoGlow
31% Reduction in Senescence Biomarkers in 48 Hours
A replicative senescence model was developed using human fibroblasts from a 29-year-old donor. Senescence was induced by successive replication in culture up to passage 9. Fibroblasts were stimulated or not with Chronoglow™ at 0.2% for 48 hours, and senescence-associated β-galactosidase activity was measured. Cellular morphology was also analyzed via microscopic observation after vimentin immunostaining, as senescence significantly alters fibroblast structure. Chronoglow™ reduces SA-β galactosidase activity by 31% and restores a morphology closer to young fibroblasts.
ChronoGlow
+90% Antioxidant Protection with 1 Application
Antioxidant evaluation was performed using an AmplexRed assay kit to evaluate ROS scavenging properties of Chronoglow™ at increasing concentrations. Hydrogen peroxide was used to induce oxidative stress and generate ROS, which were quantified via fluorescence. Chronoglow™ demonstrates dose-dependent antioxidant efficacy, with protection levels up to 90% at 0.2%.
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