Liposomes are the spherical vesicles containing one or more phospholipid bilayer, which was first described in the middle of 60s by Bangham. The bilayer vesicles are considered as an efficient carrier for drug delivery, diagnostic agents, and also an effective tool for vaccine delivery. Liposome has been used as a potential carrier for several diseases from cardiovascular disease to bacterial infection and also it has the ability to reducing the toxicity of highly potent drugs and simultaneously utilized to improve pharmacokinetics and therapeutic efficacy. A liposome is a formulation which has the capacity to overcome with the limitation of conventional therapies. For the delivery of liposome ocular and inhalation route are some advanced technology. In poorly water soluble substance pulmonary delivery is very much useful. However liposome based vaccines have been demonstrated in clinical trials and further progress in human trails. This review discusses the mechanism of action, Method of preparation, evaluation, application of liposomal drug delivery system along with the recent developments some of the commercially available products.
Objectives In recent decades, the trend for treating diabetes mellitus (DM) has shifted toward alternative medicines that are obtained from plant sources. Existing literature suggests that phenolic compounds derived from plants possess promising health-promoting properties. This study aimed to discuss the role of plant-derived phenolic compounds in the effective treatment and management of diabetes. Methods Information about plant secondary metabolites, phenolic compounds, and their role in the treatment and management of diabetes was collected from different databases, such as Pubmed, ScienceDirect, Scopus, and Google Scholar. Keywords like secondary metabolites, phenolic compounds, simple phenol, flavonoids, lignans, stilbenes, and diabetes were searched. Research and review articles with relevant information were included in the study. Results Anti-diabetic studies of the four major classes of phenolic compounds were included in this review. The plant-derived phenolic compounds were reported to have potent anti-diabetic activities. However, each class of phenolic compounds was found to behave differently according to various mechanisms. Conclusion The obtained results suggest that phenolic compounds derived from natural sources display promising anti-diabetic activities. Based on the available information, it can be concluded that phenolic compounds obtained from various natural sources play key roles in the treatment and management of diabetes.
Objective: Shortages of medicinal products are complex global problems. Drug shortages remain a significant public health issue. Global shortages of medical products have a potential effect on patient health and total healthcare costs. Countries worldwide, especially those affected by Coronavirus disease 2019 (COVID-19), is experiencing a rapid increase in drug shortage, which causes several complications for physicians, health care provider, patients, health institutes and health regulatory bodies. Methods: To carry out the study of shortages, several efforts have been taken by the regulators and industries. Prominent amongst these include FDA's research the needs and the reforms made in the regulations about shortages. We also searched for electronic databases (PubMed, Science direct, Web of Science) using the terms (COVID-19 and shortage) or (medicine and COVID-19) for articles in periods of 2019 to 2021. Results: On assessment based on the report, the number of shortage drugs in 2020 is 835; Anesthesia drugs are highest during the COVID-19 outbreak data indicate the number of shortages is 143 in USA. It was found that generic products were mostly in short supply, with antimicrobial agents (63%) topping the list of therapeutic categories of medicines with interrupted supply, followed by oncology medicines (47%) and then anesthetic agents (38%) during COVID-19 pandemic. Conclusion: Many steps have been taken to reduce the impact of a shortage of health care. Agencies like the United States Food and Drug Administration (US FDA) and European Medicines Agency (EMA) has established guidelines and works with manufacturers and other partners to help prevent shortages. This article aims to the analysis the root cause of medicinal product shortages, their effects on the patient outcome, medication error, which occurs due to the substitution safe and effective therapies with alternative treatments, identify possible solutions and policies established to manage medicinal product shortages.
Objectives: Extensive literature survey revealed that chronic obstructive pulmonary disease (COPD) is one of the primary burdens for low-income countries like India. Out of around 30 million COPD patients in India, a considerable number of patients are uneducated about the basics of their disease prevention and medication. Patient information leaflets (PILs) are well accepted materials to educate patients/users about medications, disease and lifestyle modifications. Thus PILs printed in regional languages will certainly act as a valuable tool to disseminate and retain patient's information. Methods: PILs are developed in the English language by referring to various model leaflets that are available from different sources such as "Patient UK" , MICROMEDEX Database, GOLD guidelines. The content of the leaflet was validated by physicians. Cloze test was identified as a possible test for assessing the readability of leaflets in English, Kannada, Malayalam and in Hindi. A user-based Cloze test was performed on twenty COPD patients of in each language. Results: The FRE score achieved after the 5 th stage of modification was 77.3, and the FK-GL score achieved was 4.7, which is considered to be good readability of leaflets. User testing scores show significant improvement of knowledge after reading PILs. Conclusion: Present study strongly suggest that the development of patient information leaflet in regional language is likely to have a standard readability score and useful layout design. The prepared leaflet is easily readable and comes out to be user friendly for COPD patients.
Food, drugs, dyes, extracts, and minerals are all made up of complex elements, and utilizing unidimensional chromatography to separate them is inefficient and insensitive. This has sparked the invention of several linked chromatography methods, each of them with distinct separation principles and affinity for the analyte of interest. Multidimensional chromatography consists of the combination of multiple chromatography techniques, with great benefits at the level of efficiency, peak capacity, precision, and accuracy of the analysis, while reducing the time required for the analysis. Various coupled chromatography techniques have recently emerged, including liquid chromatography–gas chromatography (LC–GC), gas chromatography–gas chromatography (GC–GC), liquid chromatography–liquid chromatography (LC–LC), GCMS–MS, LCMS–MS, supercritical fluid techniques with chromatography techniques, and electro-driven multidimensional separation techniques. In this paper, the different coupled chromatography techniques will be discussed, along with their wide spectrum of applications for food, flavor, and environmental analysis, as well as their usefulness for the pharmaceutical, color, and dyes industries.
Melatonin (N-acetyl-5-methoxytryptamine), a well-known pineal gland hormone, was discovered in plants in 1995 but till then very little research into it has been carried out in this arena. It is present in different parts of all the plant species studied, including leaves, stems, roots, fruits and seeds. Based on the ubiquitous distribution of melatonin in all kingdoms, melatonin was even suggested as the nature's most versatile biological signal molecule. Since the identification of melatonin in plants by Hattori. Several reports have published and opened up a new area in the field of plant derived melatonin i.e. phytomelatonin. Phytomelatonin is biosynthesized in plants from tryptophan precursor. Majority of the herbs containing high levels of melatonin have been used traditionally to treat neurological disorders associated with the generation of free radicals which might be associated with its potent antioxidant activity. This concise survey will endeavor to provide an overview phytomelatonin along with its distribution, biosynthesis and probable role in plant growth and regulation.
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