Showing 4 results for Algae
Bahareh Nowruzi,
Volume 12, Issue 4 (2-2022)
Abstract
Today, the valuable metabolites of microalgae are widely used in the production of many cosmetic products, as the biomass of algae contains pigments, proteins, essential fatty acids, polysaccharides, vitamins and minerals, all of which are present in both natural foods and cosmetics are used. In fact, these secondary metabolites with anti-blemish and anti-microbial, anti-aging, sunscreen and skin whitening effects can repair and heal the skin and protect the skin from UV damage and prevent inflammation. Existing cosmetics can in many cases be replaced with microalgae-derived cosmetics that are environmentally friendly as well as safe. The effects of microalgae and their derivatives have been tested in various nutritional studies around the world. However, there are very few studies on their cosmetic applications, so in this review article we tried to study several species of microalgae, cultivation methods, use of biomass and bioactive molecules derived from microalgae in the production of anti-aging products, sunscreen and skin whitening in the formulation of cosmetic compounds.
Atoosa Asadollahi, Bahareh Nowruzi, Mahsa Fattahi,
Volume 13, Issue 4 (2-2023)
Abstract
Microalgae are photosynthetic microorganisms which are the result of permanent exposure to stressful conditions such as high or low temperature, high salinity, osmotic pressure, ultraviolet radiation (uv), contain valuable bioactive compounds in cosmetic products .the existing cosmetic products can be replaced with the cosmetic products that are compatible with the environment and can be included in the topical formulations of skin care such as moisturizers, Anti-wrinkles, anti - aging and anti - acne. In addition, the extracts from these microalgae are used to make sunscreen to treat skin pigmentation and improve wounds; therefore most commercial cosmetics have a wide range of natural compounds extracted from cyanobacteria and this leads to increasing antioxidant, regenerative, moisturizer, shielding and brighteners for both hair and skin. In this article the cosmetic use of cyanobacteria extract and dried powder in improving the appearance and health skin have been investigated. Furthermore, analyzing the brand of Spirulina has been discussed.
Bahareh Nowruzi, Mahsa Fattahi, Mohammadamin Jahangirzadeh,
Volume 14, Issue 2 (8-2023)
Abstract
Microalgae are a diverse group of photosynthetic eukaryotic and prokaryotic microorganisms in different shapes and sizes that have evolved by being in stressful conditions and have devised mechanisms to maintain their survival. The production of unique biochemical compounds called bioactive compounds is one of these mechanisms. These compounds restore and heal the skin and protect the skin from damage caused by various factors, and in many cases these products are used in the treatment of diseases and cosmetic formulations. Today, cosmetic products derived from microalgae, which are environmentally friendly and safe, replaced the products in the market. In this review article, the potential of many species of microalgae and their derived bioactive molecules in the production of cosmetics is discussed. In addition to that, by presenting the current microalgae products in the global cosmetics market, it highlights the importance of these organisms in the use of microalgae in the production of quality cosmetics, and finally by providing suggestions such as encapsulating pigments to increase resistance and the stability of pigments envisages their greater use in the cosmetic industry in the future.
Bahareh Nowruzi, Mohammad Jabari, Zeynab Yassin,
Volume 15, Issue 1 (5-2024)
Abstract
Worldwide, 16,000 deaths occur daily due to wound injuries, leading to increased concern in low- and middle-income countries. Today, with the increasing demand of consumers to use natural biological compounds instead of using harmful and carcinogenic chemical compounds, algae were introduced to the market as an effective clinical skin alternative. In fact, ease of cultivation and low nutritional requirements make algal polysaccharides an attractive alternative for advanced wound dressings. Micro and macroalgae are a new source of biological saccharide polymers for wound healing. The hydrophilic nature of these polymers due to their capacity to trap water molecules in their structure makes hydrogels that have a high ability to absorb and release liquid. In this review article, by studying the latest articles, some algae polysaccharides that are widely used as wound healing dressings such as alginates, fucoidans, carrageenans, laminarin, agar-agar and olvan are discussed. These compounds are not only used as functional biomaterials for controlled drug delivery, but also for cell stabilization and preparation of scaffolds for tissue engineering.
