Affiliation:
1. Freyr Solutions Phoenix SEZ, HITEC City 2, Gachibowli Hyderabad Telangana India
2. Tata Consultancy Services Limited, MIHAN Nagpur Maharashtra India
3. Nirmala College of Pharmacy, Mangalagiri Guntur Andhra Pradesh India
4. Department of Chemistry Gandhigram Rural Institute Deemed University Dindigul Tamilnadu India
5. Department of Civil Engineering, School of Building and Environment Sathyabama Institute of Science and Technology Chennai Tamilnadu India
6. Centre for Ocean Research, Col. Dr. Jeppiaar Research Park Sathyabama Institute of Science and Technology Tamilnadu Chennai India
Abstract
AbstractSpirulina platensis is a photosynthetic, blue‐green, spiral‐ or bulb‐shaped microalgae. Due to the presence of minerals, vitamins, pigments (carotenes, phycocyanin and chlorophyll) proteins (55%–70%), carbohydrates (15%–25%), and essential fatty acids (5%–8%), it has been used as a nutritional supplement for decades. NASA successfully employed it as a nutritional supplement for astronauts on space missions then its popularity was increased. The chemical composition of Spirulina, which is rich in vitamins, minerals, phenolics, vital fatty acids, amino acids, and pigments, can be beneficial to human health when incorporated into meals. The pharmacological effects include antibacterial, anticancer, metalloprotective, immune‐stimulating, and antioxidant. It modulates immunological activities and possesses anti‐inflammatory qualities by preventing mast cells from releasing histamine. Due to its high quantity of protein, carbohydrate, lipid, vital amino and fatty acids, dietary minerals and vitamins, Spirulina exerts the abovementioned benefits. In this review, up‐to‐date and possible biological aspects, patents applied on Spirulina and heights of confirmation are addressed, and the extent of current and future exploration is also explored.
Subject
Applied Microbiology and Biotechnology,General Medicine