Nutriose, a Dextrin-based Natural Polysaccharide Polymer with Beneficial Activities as a Candidate for Future Drug Delivery: A Review.

Nutriose is a dextrin-based soluble fiber prepared from starch. Cereals such as maize, wheat, and barley are the primary sources of nutrients for commercial production. Nutriose is resistant to digestion by human enzymes in the stomach and small intestine. It is mostly undamaged when it enters the colon after traveling through the digestive tract, where it generates shortchain fatty acids (SCFAs) as byproducts. These SCFAs, which include butyrate, propionate, and acetate, have a number of health advantages. They foster an environment in the colon that is advantageous for gut health-promoting bacteria like lactobacilli and bifidobacteria. Nutriose fermentation leads to a more balanced composition of the gut microbiota, which may have advantages for the immune system, better digestion, and increased nutrient absorption. As a result, nutriose is currently being utilized as a prebiotic. Several publications have previously demonstrated the impact of nutriose on stimulating gut mucosal immunity and boosting colonic fermentation and excretion in rats. Nanoformulations and nutrisomes have already been prepared and evaluated in recent years. A novel nutriose-based polymeric coating mix has already been tested as a potential colon-targeting material. As a natural polysaccharide, nutriose's possible uses in pharmaceuticals may increase in the near future. The purpose of this study is to critically analyze existing data to determine the potential of nutriose as a natural polymer for various drug delivery systems.

Recent Advances in Electrochemical Biosensors Targeting Stress Markers.

INTRODUCTION: When the body experiences a change in its internal environment due to factors such as mood (euphoria, stress) and illness, it releases biomarkers in large quantities. These biomarkers are used for detecting a disease at its early stages. This involves the detection of insufficient quantities of biocomponents, which can be done by using nanomaterials, conventional materials, and biotechnology; thus, scientists can increase the sensitivity of electrochemical sensors. According to studies conducted in this area, electrochemical sensors have shown promise as a diagnostic tool due to their ability to identify and pinpoint illness biomarkers. The present review article was compiled to gather the latest information on electrochemical biosensors targeting stress markers. MATERIALS AND METHODS: The authors searched scholarly databases like ScienceDirect, Pubmed, Medline, and Scopus for information on electrochemical biosensors targeting stress markers. RESULTS: In this article, we looked at the recent developments in electrochemical sensors for stress monitoring. Because of advances in nanomaterial and biomolecule processes, electrochemical biosensors have been developed with the sensitivity to detect several biomarkers in real-time in therapeutically relevant materials. CONCLUSION: This biomarker sensor strategy can analyze various biofluids (sweat, plasma, urine, and saliva).

Electrochemical Sensors for Detection of Phytomolecules: A Mechanistic Approach.

High demand and ongoing technological advancements have created a market for sensors that is both varied and rapidly evolving. Bioactive compounds are separated systematically to conduct an in-depth investigation, allowing for the profiling or fingerprinting of different Plantae kingdoms. The profiling field is significant in elucidating the complex interplay of plant traits, attributes, and environmental factors. Flexible technology advancements have enabled the creation of highly sensitive sensors for the non-destructive detection of molecules. Additionally, very specialized integrated systems that will allow multiplexed detection by integrating many hybrid approaches have been developed, but these systems are highly laborious and expensive. Electrochemical sensors, on the other hand, are a viable option because of their ability to accomplish exact compound detection via efficient signal transduction. However, this has not been investigated because of some obstacles to learning minimum metabolites' fundamentals and nonredox properties. This article reviews the electrochemical basis of plants, contrasting it with more conventional techniques and offering both positive and negative perspectives on the topic. Because few studies have been devoted to the concept of merging the domains, we've expanded the scope of this work by including pertinent non-phytochemical reports for better report comparison.

Molecular Targeting and Novel Therapeutic Approaches against Fungal Infections.

BACKGROUND: Fungal infections have become a worldwide problem due to their involvement in numerous diseases. The risk factors for fungal infections are multiple surgeries, transplant therapies, frequent administration of antibiotics, cancer treatments, and prosthetic devices. The problem of resistance in fungi against drug therapies is widespread, becoming a severe health-related problem. OBJECTIVE: The study's objective was to identify molecular targets that may open new paths for fungal treatment. METHODS: Several research and review articles were studied to gather information regarding the novel mechanism of antifungal drugs. However, identifying novel targets is challenging due to the similarities between host and fungal cells. Although, the plasma membrane and cell wall of fungus offer various drug targets that may target to fight against microbial infections. Unfortunately, biofilm formation and over-expression of protein are a few mechanisms through which fungi develop resistance. RESULTS: Despite these problems, several approaches have been working to prevent and treat fungal infections. Modifying the chemical structure of antifungal drugs may also improve their activity and pharmacokinetics. In this review article, we have discussed the molecular targets and novel techniques to be used for the development of antifungal drugs. In addition, different strategies to overcome resistance in fungi have also been described. CONCLUSION: This article may be helpful for the researchers working on the discovery and development of new antifungal works for resistance to fungal diseases.

Nutraceuticals and phytotherapeutics for holistic management of amyotrophic lateral sclerosis.

Amyotrophic lateral sclerosis" (ALS) is a progressive neuronal disorder that affects sensory neurons in the brain and spinal cord, causing loss of muscle control. Moreover, additional neuronal subgroups as well as glial cells such as microglia, astrocytes, and oligodendrocytes are also thought to play a role in the aetiology. The disease affects upper motor neurons and lowers motor neurons and leads to that either lead to muscle weakness and wasting in the arms, legs, trunk and periventricular area. Oxidative stress, excitotoxicity, programmed cell death, altered neurofilament activity, anomalies in neurotransmission, abnormal protein processing and deterioration, increased inflammation, and mitochondrial dysfunction may all play a role in the progression of ALS. There are presently hardly FDA-approved drugs used to treat ALS, and they are only beneficial in slowing the progression of the disease and enhancing functions in certain individuals with ALS, not really in curing or preventing the illness. These days, researchers focus on understanding the pathogenesis of the disease by targeting several mechanisms aiming to develop successful treatments for ALS. This review discusses the epidemiology, risk factors, diagnosis, clinical features, pathophysiology, and disease management. The compilation focuses on alternative methods for the management of symptoms of ALS with nutraceuticals and phytotherapeutics.

Appraising the Phytochemical and Therapeutic Perspectives of Bryonia laciniosa: A Literature Metasynthesis.

BACKGROUND: Nature has bestowed mother Earth with an array of herbals utilized as therapeutics for various human ailments since the origin of life. Bryonia laciniosa (family: Cucurbitaceae) is one such herb, which finds its mention in various traditional systems of medicine and has attracted current researchers due to its significant therapeutic value. OBJECTIVE: The current article aims to present a literature metasynthesis on Bryonia laciniosa. METHODS: The authors performed scholarly searches for peer-reviewed findings on Bryonia laciniosa and incorporated all the data related to the phytochemical and therapeutic profile of the drug. RESULTS: This compilation comprises of Phytochemical and Pharmacological profile of Bryonia laciniosa elaborating its traditional significance and recent researches related to its biological activities. The plant exhibits its potential as an antimicrobial, anti-inflammatory, analgesic, antipyretic, anticonvulsant, anti-asthmatic, anticancer, antioxidant, antidiabetic, and aphrodisiac agent. It also displays its benefits in wound healing and ulcerative colitis. CONCLUSION: The presence of flavonoids, saponins, terpenoids, anthocyanins, coumarins, alkaloids, polyphenols, tannins and emodins in this plant is responsible for its various pharmacological activities. The retrospective study provides direction for existing research as well as future studies to support the domain of pharmaceutical and medical sciences.

Mechanistic elucidations of sesquiterpenes ameliorating viral infections: A review.

Sesquiterpenes are important in human health because they can treat viral infection, cardiovascular disease, and cancer. Sesquiterpenes have also been shown to increase the sensitivity of tumor cells to conventional pharmacological therapies, in addition to their antiviral effects. The present review article was drafted with an intention to gather information regarding sesquiterpenes and its medicinal importance. The role of sesquiterpenes in the endogenous production of sesquiterpenes by plants and fungi, as well as the mechanisms by which they are effective against viral infection, are discussed in this review. Different online libraries such as PUBMED, Sciencedirect, MEDLINE were assessed to gather information, additionally, books, magzagines, journals, and scientific newspapaers were also studied to make this article more informative. This review examines novel synthesis mechanisms, their cyclization, purification techniques, and the diverse ecological roles sesquiterpenes play in the plant producer, which varies according to the plant and the chemical under consideration. In this article, we have discussed the consequences of sesquiterpenes and their properties for future crop productivity. We have addressed the many forms of sesquiterpenes that have been shown to have antiviral activity in various diseases. The consequences of sesquiterpenes and their properties are very useful for future crop productivity. We have addressed the many forms of sesquiterpenes that have been shown to have antiviral activity in the treatment of various diseases. PRACTICAL APPLICATIONS: Novel synthesis mechanisms, their cyclization, purification techniques, and the diverse ecological roles of sesquiterpenes will be very helfpul in drug development process. Sesquiterpene lactones are shown in this review to have qualities that warrant further scientific investigation in order to stimulate preclinical and clinical trials leading to the creation of novel medications. For antiviral drug development, the sesquiterpenes are a good prospective lead molecule because they can suppress viral replication by disrupting vRNA production and viral protein production.