Cannabis-infused foods: Phytonutrients, health, and safe product innovations.

Cannabis-infused foods are currently on the rise in markets all around the world. Meanwhile, there are concerns over the health implications for consumers. Studies have explored the therapeutic potential and nutritional and economic benefits of cannabis usage. Yet, the phytonutrients, processing methods, and health implications of cannabis-infused foods have not been well explored. This review evaluates existing evidence on the nutritional, processing, safety, and phytonutrient composition of cannabis-infused food products and their medicinal and functional prospects. Cannabis seeds contain the highest amount of dietary nutrients, while flowers contain the highest amount of bioactive constituents. Oils, butter, seeds, flowers, and leaf extracts are the plant forms currently incorporated into food products such as beverages, baked products, cooking ingredients, functional foods, nutraceuticals, and nootropics. Cannabis-infused foods have been found to offer therapeutic benefits for pain management, brain function, gut health, and certain cancers. Findings also show significant constraints associated with cannabis-infused foods regarding dosage guidelines, limited research, efficacy, and long-term health effects on consumers. This is further worsened by the lack of policies that regulate the industry. To realize the full potential of cannabis use in the food and health industries and in research, regulatory guidelines are needed to control dosages and improve its efficient use in these industries. This will go a long way to ensure the safety of cannabis users and enhance responsible production, marketing, and distribution.

Multipurpose Benefits of an Underexplored Species Purslane (Portulaca oleracea L.): A Critical Review.

Sustainable food production through integrating knowledge of indigenous and local communities has significance for meeting the UN-SDGs (sustainable development goals). The majority of the food supply comes from cereal crops, which are exceptionally delicate to changing weather and climate conditions. Therefore, climate-resilient underutilized local crops may be a good option to be considered as potential crops for dietary diversification. The present review on Portulaca oleracea L. commonly called Purslane, having remarkable nutritional, medicinal, and pharmacological, and phytoremediation properties show significance. It is highly nutritious and has all essential minerals, vitamins, and proteins. About 93% of water, 3% of carbohydrates, and 2% of protein are present in raw Purslane. It contains dietary minerals like potassium, magnesium, calcium, phosphorus, iron, etc. Potassium is the most abundant electrolyte present in Purslane. It contains the highest content of vitamin among green leafy vegetables. There are four different types of omega-3 fatty acids found in Purslane. This is required for typical wellbeing, improvement and anticipation of various cardiovascular illnesses, and upkeep of a sound resistant framework. Purslane (Portulaca oleracea L.) species is highly nutritious and can be easily grown with high production efficiency in tropical, subtropical, and underdeveloped districts of the world. The species can be easily cultivated and act as an ideal substitute for resource-poor farmers in the developing region. Considering immense nourishing benefits, this species has great potential for its utilization in the future under changing climate. Further, the species has a huge scope that can be advantageous for accomplishing the food and health benefits at the local and regional levels and may preserve agro-biodiversity for sustainable development.

Essential oils from Dysphania genus: Traditional uses, chemical composition, toxicology, and health benefits.

The genus Dysphania belongs to the Amaranthaceae family and is known for its many health benefits. Therefore, it is commonly available worldwide and includes more than 47 species, five species have been mainly reported, and D. ambrosioides has been one of the most widely used plants for thousands of years as a remedy for a wide range of ailments. In recent investigations, the essential oils of the genus Dysphania have been examined for their antibacterial, antioxidant, and antiviral properties related to specific components such as terpenoid compounds that exhibit pharmacological activity. Moreover, some of Dysphania's compounds show a toxicological effect. Therefore, the objective of the study was to provide EO chemical composition and pharmacological data of the genus Dysphania.

Chemical constituents and medical benefits of Plantago major.

The medicinal benefits of Plantago major have been acknowledged around the world for hundreds of years. This plant contains a number of effective chemical constituents including flavonoids, alkaloids, terpenoids, phenolic acid derivatives, iridoid glycosides, fatty acids, polysaccharides and vitamins which contribute to its exerting specific therapeutic effects. Correspondingly, studies have found that Plantago major is effective as a wound healer, as well as an antiulcerative, antidiabetic, antidiarrhoeal, anti-inflammatory, antinociceptive, antibacterial, and antiviral agent. It also combats fatigue and cancer, is an antioxidant and a free radical scavenger. This paper provides a review of the medicinal benefits and chemical constituents of Plantago major published in journals from year 1937 to 2015 which are available from PubMed, ScienceDirect and Google Scholar.

An Overview of Compounds Derived from the Shikimate and Phenylpropanoid Pathways and Their Medicinal Importance.

OBJECTIVE: There has been a massive increase in the number of reports about the medicinal benefits of the consumption of phenylpropanoids derived from the plastidic shikimate pathway. These benefits include anti-retroviral, anti-hypertensive, anti-inflammatory, anti-aging and insulin-sensitizing activities, the reduction of the risk of a range of chronic diseases including cardiovascular disease, cancer and osteoporosis as well as inhibition of LDL (low-density lipoprotein) oxidation. In addition, chorismate-derived salicylate which was originally isolated from plants, albeit now under chemical production, is massively used for pain relief in the form of acetylsalycilic acid, namely aspirin. Chorismate also acts as precursor in the biosynthesis of folate and phylloquinone, i.e., vitamins B9 and K1, respectively. RESULTS: Cumulative evidence suggests that deficiencies of either of these vitamins in the diet can result in a wide range of diseases. In parallel to our enhanced comprehension of the dietary importance of shikimate-derived compounds, the advent of metabolomics and the development of next-generation sequencing technologies have dramatically accelerated advances in our understanding of the biosynthetic, decorative and degradation pathways underlying their metabolism. Furthermore, forward and reverse genetic approaches have begun to facilitate the metabolic engineering of plants for biofortification of these compounds. CONCLUSION: Here we review data about the bioactivities of these compounds and provide an overview of our current understanding of biosynthesis, molecular function and their in planta occurrence. Finally we discuss the future perspectives and the importance of further development of cross-disciplinary research efforts in this rapidly expanding research field.