The compound 4-hydroxy-3-methoxycinnamic acid, named as ferulic acid (FA), is a ubiquitous phenolic compound which is distributed extensively in the plant kingdom. Ferulic acid is a boon as it shows immense potential therapeutic effects which are useful in the treatment of diabetes, cancer, pulmonary and CVS diseases majorly due to its anti-oxidant and anti-inflammatory action. Ferulic acid exhibits other wide variety of biological activities such as, anticarcinogenic, antiallergic, antimicrobial, antiviral, hepatoprotective, metal chelation, activation of transcriptional factors, modulation of enzyme activity, gene expression as well as signal transduction. The structural characteristics of this active ingredient make it an optimal substrate to form or synthesize various derivates and its formulations. The present review addresses structure of ferulic acid, its pharmacodynamic parameters, applications and its various derivatives. In addition, the review also aims to cover the main aspects related to use of ferulic acid in the food and health industry and have listed various published patents on Ferulic acid.
Background: Benzimidazole is a category of heterocyclic aromatic compounds formed from the fusion of six membered benzene with five membered imidazolering. The moiety possesses diverse biological and clinical applications. A number of studies have shown that a varied substituent around the benzimidazole nucleus results in pharmacologically active compounds of therapeutic interest. Purpose: Owing to its number of pharmacological properties, this moiety is of choice of interest in designing and synthesis of new therapeutic compounds. The existence of the benzimidazole core in numerous groups of biological agents like antimicrobial, antiviral, antiparasitic, antihypertensive, anticancer, CNS stimulant as well as depressants has made important scaffold for development of many newer therapeutic agents. There is utmost need to understand the synthesis and associated role of benzimidazole derived compounds in different diseases. Therefore, in the present review, we attempt to discuss various derivatives of benzimidazole nucleus with different pharmacological activities. Conclusion: Benzimidazoles have played a great role in discovery of drug and development. Huge attempt has been made towards benzimidazole heterocyclic-based organic compounds with great excellence that resulted in drugs with enormous biological activity. Therapeutic drugs containing benzimidazole nucleus are used in building drugs that serve to be an active area of research. This article becomes a source that will lead to discovery of new opportunities for all researchers interested in benzimidazole-based heterocyclic medicinal chemistry.
The conventional oral drug delivery systems face a lot of difficulties in the gastrointestinal tract, such as inappropriate drug release and reduction in the efficacy of the doses, which makes this system less susceptible to the delivery of drug formulation. For the enhancement of therapeutic efficacy and bioavailability of the drug, many efforts have been made. The drug candidates which are not stable at alkaline pH and soluble in acidic medium were selected to increase their therapeutic effectiveness through gastro retentive drug delivery systems (GRDDS). This article discusses various factors which alter the gastro retention time (GRT) of the gastro retentive drug delivery system in the stomach and intestine (duodenum). It emphasizes on the novel approaches made for the delivery and release of drugs with the use of magnetic systems, floating (low-density) systems, super porous hydrogels, raft systems, mucoadhesive systems, high-density systems and expandable systems. Along with the applications, the key aspects of in vivo, in vitro & clinical studies in different approaches to GRDDS have been ad- dressed. In addition, future perspectives have been summarized to reduce gastric transit time in fasting and fed conditions
With a 30-fold increase in incidence over the previous 50 years, dengue fever is now the most widespread viral disease transmitted by mosquitoes in the world. The intricate interaction of the human defense system, hereditary predisposition, and specific bitterness elements is more likely to be the pathogenesis of dengue. There are presently no viable treatments for dengue. Synthetic drugs which are used against this ailment also show major side effects. There must be a deeper understanding of the underlying mechanism generating severe symptoms to develop auguring markers, cutting-edge diagnostics, and treatments and finally a well-rounded and secure antiserum. Hence, the aim is to search for safer and more potent drugs derived from plants. Plants or herbs are mainly targeting replication or its enzyme or specific stereotypes, though an exact mechanism of phytoconstituents interfering with the viral replication is still undiscovered. The present attempt provided the update with the objective to bringing up forward pathophysiological eventualities involved in dengue virus along with the naturally derived treatment relevant to provide the impregnable therapy by evading the noxious symptoms for dengue fever. Governor’s plum, Cryptocarya chartacea, magnolia berry, and Chinese ginger are such plants exhibiting many effective phytoconstituents against DENV and can be further explored for novel drug discovery by medicinal scientists.
Ongoing development in cosmetics is increasingly making use of probiotics, which are defined as “live microorganisms with health-enhancing properties mediated through ingestion or topical application to the host”. The observation that several bacterial strains augment normal processes of healthy tissue maintenance, particularly for the skin, has opened up new avenues for the use of bacterial strains in cosmetics. A principal feature of such “cosmeceuticals” is an application of increasing insight into the biochemical nature of the skin’s normal microbial flora, also called its microbiome. The opportunity of manipulating the skin microbiome to address various skin disorders has revealed novel routes for treatment. The skin microbiome manipulation approaches to address various skin disorders include skin microbiome transplantation, skin bacteriotherapy, and prebiotic stimulation. Research in this field has revealed that medical outcome-targeted manipulation of skin microbiome bacterial strain makeup may significantly increase skin health and appearance. Commercial availability of probiotic skincare products is rapidly expanding worldwide due to satisfactory laboratory results and public perception of probiotics as being intrinsically more wholesome than other bioactive substances, such as synthetics. Major outcomes of probiotic use include a significant reduction in skin wrinkling, acne and other conditions adversely affecting skin appearance and healthy function. Moreover, probiotics may additionally promote normal skin hydration, resulting in a vibrant and lustrous appearance. Nevertheless, significant technical challenges remain for the full optimization of probiotics in cosmetic products. This article summarizes the evolving nature of this field and explores current probiotic research initiatives, along with regulatory aspects and significant challenges in the manufacturing of cosmetics in the context of market expansion for these products.
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