In the current era, the Transdermal delivery of bioactive molecules has become an area of research interest. The transdermal route of administration enables direct entry of bioactive molecules into the systemic circulation with better and easy accessibility, bypassing the hepatic metabolism and improving patient compliance. Permeation through the skin has always been a barrier. To overcome this challenge, an efficient route by the vesicular system has been adopted so as to have better skin permeation of the bioactive molecules. A novel vesicular and non-invasive drug delivery system called Nanoethosomes was developed. Nanoethosomes are lipid-based vesicular carriers that are used for deeper permeation of the bioactive agents into the skin. The main components of Nanoethosomes are Phospholipids, water, and ethanol. High ethanol concentration in Nanoethosomes distinguishes them from other nano-formulation and results in deeper permeation and smaller vesicular size. This review article gives detailed information on the formulation techniques, and characterization parameters of nanoethosomes along with the research work done by various researchers in the same field. The compiled manuscript gives detailed elaboration about the various drugs used to treat different diseases which when incorporated in nanoethosomes resulted in better permeability and enhanced bioavailability.
Every day, new cases of cancer patients whose recovery is delayed by multidrug resistance and chemotherapy side effects are identified, which severely limit treatment options. One of the most recent advances in nanotechnology is the effective usage of nanotechnology as drug carriers for cancer therapy. As a consequence, heterocyclic nanocarriers were put into practice to see whether they could have a better cure with positive results. The potential of a therapeutic agent to meet its desired goal is vital to its success in treating any disease. Heterocyclic moieties are molecules that have a wide variety of chemically therapeutic functions as well as a significant biological activity profile. Heterocyclic nano formulations play an important role in cell physiology and as possible arbitrators for typical biological reactions, making them valuable in cancer research. As a result, experts are working with heterocyclic nanoformulations to discover alternative approaches to treat cancer. Due to their unique physicochemical properties, heterocyclic compounds are real cornerstones in medicinal chemistry and promising compounds for the future drug delivery system. This review briefly explores the therapeutic relevance of heterocyclic compounds in cancer treatment, the various nanoformulations, and actively describes heterocyclic magnetic nano catalysts and heterocyclic moiety, as well as their mode of action, which have favorable anti - cancer effects.
Nanourchins are multibranched nanoparticles with unique optical properties and surface spikes. Because of their unique properties, gold nanourchins have advantages over gold nanoparticles. The most used nanourchins are gold, tungsten, carbon, vanadium and sea urchins. The synthesis of various nanourchins and their clinical advancement are discussed in this review. ZFNs, TALENs and CRISPR/Cas9 are discussed to facilitate understanding of advancements in nanourchins. Nanourchins have been studied for Parkinson's disease, Alzheimer's disease and bioimaging. The synthesis of molybdenum diselenide nanourchins and their bioconjugations are also discussed. Nanourchins can be further explored to improve drug targeting and delivery. Researchers from several fields may contribute to the study of nanourchins as prospective nanocarriers with target specificity.
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