SummaryWith the advent of modern era of pharmaceutical dosage forms, transdermal drug delivery system (TDDS) established itself as an integral part of novel drug delivery systems. Transdermal patches are polymeric formulations which when applied to skin deliver the drug at a predetermined rate across dermis to achieve systemic effects. Transdermal dosage forms, though a costly alternative to conventional formulations, are becoming popular because of their unique advantages. Controlled absorption, more uniform plasma levels, improved bioavailability, reduced side effects, painless and simple application and flexibility of terminating drug administration by simply removing the patch from the skin are some of the potential advantages of transdermal drug delivery. Development of controlled release transdermal dosage form is a complex process involving extensive efforts. This review article describes the methods of preparation of different types of transdermal patches viz., matrix patches, reservoir type, membrane matrix hybrid patches, drug-in-adhesive patches and micro reservoir patches. In addition, the various methods of evaluation of transdermal dosage form have also been reviewed.
Today’s fast and furious life style one of the major factors, which precipitate the diabetes mellitus. The treatment of diabetes mellitus, which includes the use of insulin and oral hypoglycemic agents sulfonylurea, biguanides. Diabetes mellitus one of the major disorder which is growing at faster rate second after cancer. Long-term use of these medications will create unwanted side effects, resulting uncontrolled increase in blood sugar as well as complications with heart diseases also diabetics are highly prone to different types of microorganism and it will affect immune system of body. To avoid such problems herbal medications has greater advantages. Instead of using these types of allopathic formulations, it is beneficial to use Ayurvedic formulations for better management of diabetes mellitus. In this review, around hundred of herbal plants were showing hypoglycemic activity and still they are using as home remedies for the effective treatment for diabetes mellitus
Microwave Assisted Synthesis is rapidly becoming the method of choice in modern synthesis and discovery chemistry laboratories. Microwave-assisted synthesis improves both throughput and turn-around time for chemists by offering the benefits of drastically reduced reaction times, increased yields, and purer products. In this type of synthesis we applying microwave irradiation to chemical reactions. The fundamental mechanism of microwave heating involves agitation of polar molecules or ions that oscillate under the effect of an oscillating electric or magnetic field. In the presence of an oscillating field, particles try to orient themselves or be in phase with the field. Only materials that absorb microwave radiation are relevant to microwave chemistry. These materials can be categorized according to the three main mechanisms of heating, namely. Dipolar polarization, Conduction mechanism, Interfacial polarization. Microwave chemistry apparatus are classified: Single-mode apparatus and Multi-mode apparatus. Although occasionally known by such acronyms as 'MEC' (Microwave-Enhanced Chemistry) or ‘MORE’ synthesis (Microwave-organic Reaction Enhancement), these acronyms have had little acceptance outside a small number of groups. The ability to combine microwave technology with in-situ reaction monitoring as an analytical tools will offer opportunities for chemists to optimize the reaction conditions. Different compounds convert microwave radiation to heat by different amounts. This selectivity allows some parts of the object being heated to heat more quickly or more slowly than others (particularly the reaction vessel).
A new simple, specific, precise and accurate reversed-phase liquid chromatography method has been developed for simultaneous estimation of Drotaverine HCl (DRO) and Nimesulide (NIM) in tablet formulation. The separation was achieved on a 5-micron C18 column (250 X 4.6 mm) using mobile phase consisting of a mixture of water: acetonitrile: methanol 30: 35: 35 % (pH 2.5, adjusted with orthophosphoric acid). The flow rate was maintained at 1.0 ml/min, with an average operating pressure of 2630 psi. The detection of the constituents was done using UV detector at 295 nm for DRO and NIM. The retention time of DRO and NIM were approximately 5.6 and 10.6 min respectively. Recovery study values of DRO and NIM is 100.06+0.40 and 100.13+0.34 respectively, relative standard deviation of less than 2% for the assay show that the method is precise, accurate and linear in the concentration given and demonstrate the method developed is rugged and robust. Linear response obtained for DRO was in the concentration range 50-250 µg/ml and NIM in the range 125-625 µg/ml.
Evidence suggests that a diet high in fruits and vegetables may decrease the risk of chronic diseases, such as cardiovascular disease and cancer, and phytochemicals including phenolics, flavonoids and carotenoids from fruits and vegetables may play a key role in reducing chronic disease risk. Apples are a widely consumed, rich source of phytochemicals, and epidemiological studies have linked the consumption of apples with reduced risk of some cancers, cardiovascular disease, asthma, and diabetes. In the laboratory, apples have been found to have very strong antioxidant activity, inhibit cancer cell proliferation, decrease lipid oxidation, and lower cholesterol. Apples contain a variety of phytochemicals, including quercetin, catechin, phloridzin and chlorogenic acid, all of which are strong antioxidants. The phytochemical composition of apples varies greatly between different varieties of apples, and there are also small changes in phytochemicals during the maturation and ripening of the fruit. Storage has little to no effect on apple phytochemicals, but processing can greatly affect apple phytochemicals. While extensive research exists, a literature review of the health benefits of apples and their phytochemicals has not been compiled to summarize this work. The purpose of this paper is to review the most recent literature regarding the health benefits of apples and their phytochemicals, phytochemical bioavailability and antioxidant behavior, and the effects of variety, ripening, storage and processing on apple phytochemical
The primary cause of degenerative disease is not due to damaging free radicals, but rather it is due to the requirement of highly ordered cell biochemistry becoming disordered due to insufficient cellular energy to maintain the normal state of order. There is a complex defense system in the body, in which vitamins, minerals, amino acids and certain enzymes play a central role called the antioxidant system. Antioxidants are weapons for combating free radicals and mop up damaging chemicals in the body and guard against many chronic diseases. Heart disease, arthritis, cancer and many other common chronic diseases derive from the same source: fortuitous mutations caused largely by free radicals. Under optimum conditions, cells are protected against free radicals and lipid per oxidation. Antioxidants are substances, which react chemically with free radicals and render them harmless and at the same time break the vicious circle, which involves the decomposition of fatty acids & proteins, the creation of new free radicals and eventual cell death. Because free radical damage accumulates with age, people should start supplementing with antioxidants early to achieve long-term benefits. The scientific community has begun to unveil some of the mysteries surrounding this topic, and the media has begun whetting our thirst for knowledge
Background During coronavirus pandemic, an unpredictable pile of biomedical waste (BMW) gathers at the top. India produces 710 tonnes of biomedical waste daily. The contribution of COVID-19 related biomedical waste was 126 tonnes per day in first wave of the pandemic. BMW's rapid growth is putting a strain on current waste management facilities, especially in developing countries. A sudden boost in biomedical waste needs rapid and proper segregation and disposal methods to avoid future consequences. Main body of the abstract From literatures and statistical data available on Central Pollution Control Board (CPCB) it shows that India lags behind in large-scale sorting, collection, careful storage, transfer and disposal of bio waste. India has its own guidelines set by the CPCB to ensure the safe disposal of biomedical waste during diagnosis, treatment and quarantine of COVID-19 patients. Although there are strict guidelines for bio-waste management, many hospitals in the process of implementing them often dispose of waste in inappropriate, chaotic and indiscriminate ways due to negligence or laziness. Often, due to poor separation practices, hospital waste is mixed with general waste, resulting in harmful overall waste flow. Waste disposal handlers are not safe due to their exposure to various health risks and inadequate training in waste management. The present review sheds light on guidelines, measures, and challenges related to biomedical waste management. Short conclusion Improper waste separation leads to improper waste disposal. Waste generation and management issues are causing daily problems as they have a profound impact on the dramatically changing global environment, including air, water and soil pollution. In addition, BMW's daily production and its processing are inversely proportional. This situation suggests that India will soon be drowning in its own garbage. The focus of this review is on the generation and disposal of biomedical waste. Based on a review of the literature, this evaluation provides a comparative picture of the current status of waste generation, national waste management strategies, and some measures to contribute to waste management and avoid future disasters.
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