In the past few years gene delivery system has gained a huge attention owing to its proved efficacy in several diseases especially in those caused by genetic and/oroncological malfunctioning. The effective gene delivery mainly depends on the carrier molecules that can ensure the safe and specific delivery of the nucleic acidmolecules. Viral vectors have been used for a longer period as the gene transfer vehicle. However, these viral vectors have potential immunological disadvantages that made them less preferred. Recently, non-viral vectors such as polyplexes have emerged as a promising alternative for viral vectors. Polyplexes are formed by conjugating a polymer with DNA and in maximum cases the cationic polymers are preferred over others. The structure and stability of the polyplexes depends on various factors. The ability of the polymer to condense the DNA mainly dictates the efficiency of the polyplex mediated transfection. In this review we are going to provide a framework for the synthesis and design of the polyplexes along with the structure and stability of the complexes pertaining to mechanism of action, characterization and therapeutic application, including polyethyleneimine mediated cytotoxicity as well as newer strategies for the generation of better polyplexes.
Background: Buccal delivery is an alluring course of organization for fundamental medication conveyance and it leads direct access to the systemic flow through the interior jugular vein sidesteps drugs from the hepatic first-pass digestion gives high bioavailability. Objective: This article aims at buccal medication conveyance by discussing the structure and condition of the oral mucosa and the novel strategies utilized in evaluating buccal medication ingestion. Methods: This review highlights the various pharmaceutical approaches for buccal delivery such as buccal tablets, buccal lozenges, buccal micro/nanoparticle, wafer and semisolid dosage forms like chewing gums, buccal patch, buccal gel or ointment and some buccal liquid dosage forms like buccal solutions and buccal sprays and recent patents filed or granted for these approaches. Results: Recently, some patents are also reported where a combination of various approaches is being employed to achieve very effective mucosal delivery. The various patent search sites were used to collect and analyze the information on buccal drug delivery systems. Conclusion: The present study provides valuable information, advantages, limitations and future outlook of various buccal drug delivery systems.
Abstract:: Psoriasis is an autoimmune disease of the skin that is chronic, inflammatory, recurring, and affects about 2-5 percent of the population of the world. For treating psoriasis, ample drugs and molecules are available. However, none are safe and efficient for treating the disease without sacrificing the compliance of the patient. Also, existing medications are intended to mitigate the signs and symptoms and 100% cure is not achieved. They do, however, concentrate on treating the illness and relieving the symptoms. Therefore, finding a delivery mechanism that can treat psoriasis safely and efficiently without sacrificing patient enforcement remains a critical task. Nano based formulations present a high prospect of overcoming the weakness of traditional formulations by providing dose reductions, reduced side effects, and dosage frequency with improved efficacy while herbal medicinal products can also be used as potential drugs against psoriasis as they are easily available and are safe. This review focuses primarily on the traditional strategies and recent discoveries of a range of anti-psoriatic drugs in metallic, polymer, and herbal-based formulations. Nanocarriers such as nanoparticles, dendrimers, micelles, nano-capsules, solid lipid nanoparticles (SLN), ethosome, liposomes have been elaborated. Also, studies relating to the use of phyto based plants in psoriasis has been discussed. Nano and herbal based formulations, in a nutshell, remain known as a promising approach for treating psoriasis.
<p>Today millions of patients depend on medical device based treatment for the management and diagnose of several diseases. Quality and safety of device is depends upon the regulatory guidelines. Medical device manufacturing in India should be taken seriously due to large population and the potential severity of the consequences of introducing inferior and unsafe products to the market-place. Therefore a law containing adequate guidelines of rules and regulations are required for monitoring the entry of such devices into the use in public health. The regulations define requirements of medical device design, development and manufacture to ensure that products reaching market are safe and effective. Presently in India regulatory body CDSCO is governing regulation for regulation of devices which with time, amendment introducing in the law will provide safety assurance to public health. This review provides a study on different regulatory aspects of medical device implemented in India. The present review discuss about the classification of medical devices and regulations aspects in India.</p>
Aim: Due to the various drawbacks associated with current treatment therapy of onychomycosis, the main aim was to develop thermosensitive hydrogels and thermosensitive polypseudorotaxanes hydrogels-based nail lacquer for transungual delivery of Efinaconazole for management of onychomycosis. The objective is to enhance the permeation and retention of the drug in the nails and improve patient compliance. Method: Poloxamer 407 and Hydroxy Propyl -β- cyclodextrin was used to prepare the nail lacquers. 2-mercaptoethanol was added as a penetration enhancer to improve the penetration of the drug across the nail plate. The formulations were optimized by varying the concentration of poloxamer and water:ethanol ratio and evaluated based on basis of drying time, sol-gel transition temperature, ex vivo drug release and viscosity. The optimized formulation was further evaluated for pH, water resistance, non-volatile content, drug content, blush test, spreadability, and stability studies. Results: The increase in ethanol concentration, reduction in poloxamer proportion lead to reduction in lacquer stickiness thus, improving the lacquer drying time and penetration. The polypseudorotaxanes improved the permeation profile of the drug in comparison to the marketed nail lacquer. The presence of 2-mercaptoethanol also contributed in transungual delivery of Efinaconazole. Conclusion:: The polypseudorotaxanes based nail lacquer with the incorporation of penetration enhancer was able to achieve a high rate of drug penetration and retention, thus supporting the potential use of aqueous based-nail lacquer in transungual drug delivery for the onychomycosis treatment.
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