BACKGROUND: Bacterial cellulose (BC) is a versatile material produced by microorganisms in the form of a membranous hydrogel, totally biocompatible, and endowed with high mechanical strength. Its high water-holding capacity based on its highly porous nanofibrillar structure allows BC to incorporate and to release substances very fast, thus being suitable for the preparation of skincare masks. AIMS: The preparation and characterization of cosmetic masks based on BC membranes and active cosmetics. METHODS: The masks were prepared by the simple incorporation of the cosmetic actives into BC membranes, used as a swelling matrix. The masks were characterized by Fourier transform infrared (FTIR), scanning electron microscopy (SEM), sensory tests, and skin moisture tests on volunteers. RESULTS: The results of sensory tests revealed the good performance of BC, being considered effective by the panel of volunteers, specially for adhesion to the skin (7.7 at the score scale), and improvement of the skin moisture (the hydration effect increased 76% in 75% of the volunteers that used vegetable extract mask formulation [VEM]), or a decrease in skin hydration (80% of the volunteers showed 32.6% decrease on skin hydration using propolis extract formulation [PEM] treatment), indicating the BC nanofiber membranes can be used to skincare applications. CONCLUSION: The results demonstrate the BC can be used as an alternative support for cosmetic actives for skin treatment.
BACKGROUND: Bacterial cellulose (BC) is a versatile material produced by microorganisms in the form of a membranous hydrogel, totally biocompatible, and endowed with high mechanical strength. Its high water-holding capacity based on its highly porous nanofibrillar structure allows BC to incorporate and to release substances very fast, thus being suitable for the preparation of skincare masks. AIMS: The preparation and characterization of cosmetic masks based on BC membranes and active cosmetics. METHODS: The masks were prepared by the simple incorporation of the cosmetic actives into BC membranes, used as a swelling matrix. The masks were characterized by Fourier transform infrared (FTIR), scanning electron microscopy (SEM), sensory tests, and skin moisture tests on volunteers. RESULTS: The results of sensory tests revealed the good performance of BC, being considered effective by the panel of volunteers, specially for adhesion to the skin (7.7 at the score scale), and improvement of the skin moisture (the hydration effect increased 76% in 75% of the volunteers that used vegetable extract mask formulation [VEM]), or a decrease in skin hydration (80% of the volunteers showed 32.6% decrease on skin hydration using propolis extract formulation [PEM] treatment), indicating the BC nanofiber membranes can be used to skincare applications. CONCLUSION: The results demonstrate the BC can be used as an alternative support for cosmetic actives for skin treatment.
Authors: Abdoulhdi A Borhana Omran; Abdulrahman A B A Mohammed; S M Sapuan; R A Ilyas; M R M Asyraf; Seyed Saeid Rahimian Koloor; Michal Petrů Journal: Polymers (Basel) Date: 2021-01-11 Impact factor: 4.329
Authors: Ahmed K Saleh; Hamada El-Gendi; Nadia A Soliman; Waleed K El-Zawawy; Yasser R Abdel-Fattah Journal: Sci Rep Date: 2022-02-09 Impact factor: 4.996
Authors: Samia S Abouelkheir; Marwa S Kamara; Salma M Atia; Sara A Amer; Marina I Youssef; Rana S Abdelkawy; Sherine N Khattab; Soraya A Sabry Journal: Sci Rep Date: 2020-08-26 Impact factor: 4.379