Application of Dendrimers for the Treatment of Infectious Diseases (original) (raw)
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Developments in Treatment Methodologies Using Dendrimers for Infectious Diseases
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DENDRIMER RECENT DRUG DELIVERY SYSTEM
Dendrimers are a new class of polymeric materials. They are highly branched, monodisperse macromolecules (meaning of a consistent size & form). The structure of these materials has a great impact on their physical and chemical properties. As a result of their unique behavior dendrimers are suitable for a wide range of biomedical and industrial applications. They possess empty internal cavities & many functional end groups which are responsible for high solubility & reactivity. They are produced in an interactive sequence of reaction steps, in which each additional interaction leads to a higher generation dendrimer.
Dendrimers: a potential carrier for targeted drug delivery system
Novel drug delivery system aims to deliver the drug at a rate directed by the needs of the body during the period of treatment, and target the active entity to the site of action. A number of novel drug delivery systems have emerged encompassing various routes of administration, to achieve controlled and targeted drug delivery, dendrimer carriers being one of them. Dendrimers are highly branched, star-shaped macromolecules with nanometer-scale dimensions. It is a novel three dimensional structure and these three components are: a central core, an interior dendritic structure (the branches), and an exterior surface with functional surface groups. It is also improve the physical, chemical properties due to their structure. Its other properties like very small size, polyvalenc, monodispersit, stability make it an appropriate carrier for delivering drugs with precision and selectivity. The terminal groups are modified to attach biologically active substances for targeting purpose. Dendrimers are suitable for a wide range of targeted drug delivery, controlled drug delivery, gene delivery and industrial applications. Cationic surfaces of dendrimers show cytotoxicity, derivatization with fatty acid or PEG chains, reducing the overall charge density and minimizing contact between cell surfaces and dendrimers can reduce toxic effects. Different types of products are formulated by using dendrimers for treatment of many diseases. The present review has focused on the different strategies of their synthesis, different methods of drug entraptment, drug delivery and targeting, its applications, interactions involved in formation of drug-dendrimer complex along with characterization techniques employed for their evaluation, toxicity problems.
Dendrimers--revolutionary drugs for infectious diseases
Wiley interdisciplinary reviews. Nanomedicine and nanobiotechnology
Over recent years innovative nanomolecules in a form of dendrimers have been gaining increasing interest. These compounds can be designed and modified in many ways giving a molecule which meets required expectations. For this reason dendrimers are the object of intensive studies in many fields of nanoscience including one of the most thriving--biomedicine. Numerous studies provide evidence that some dendrimers exhibit activities against many species/strains of viruses, bacteria, fungi, and prions. These types of dendritic nanostructures which are distinguished by antipathogenic properties and low cytotoxicity to eukaryotic cells may be potentially applied in medicine as novel drugs for various infectious diseases, especially those which are persistent, marked by high mortality rate, or untreatable. Dendrimers can exert their effect via different mechanisms of action, which are, in most cases, related to multivalency of the nanomolecule. The application of dendrimers is likely to be ...
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The development of novel particulate systems with defined shapes and sizes is of prominent interest in certain therapeutic applications such as drug delivery, gene transfection, diagnostic and imaging. On controlling and designing optimized architectural design of dendrimers; their shape, size, branching pattern length/density, and their surface functionality, clearly discriminate these structures as inimitable and optimal hauler in those applications. Moderately modified dendrimers have been shown to act as nano-drugs adjacent to tumors, viruses and bacteria. Recent triumph in simplifying and optimizing the production of dendrimers make available a large variety of structures while simultaneously reducing the cost of their production. The reflections on biomedical applications of dendrimers given in this review clearly make obvious the impending of this new fourth major class of polymer structural design and undeniably prove the high expectation for the future of dendrimers.
Dendrimer: A Novel Approach for Drug Delivery
Journal of Pharmaceutical & Scientific Innovation, 2016
Dendrimers are unique class of polymers which play an important role in emerging nanotechnology. Novel drug delivery is one of the most attractive potential applications of dendrimers. Dendrimers are macromolecules having highly branched, 3D structure, nanoscale architecture with monodispersity and high functionality. Dendrimers are dominated by the functional groups on the molecular surface for example; a dendrimer can be water soluble when its end groups like a carboxylic group. These features make it attractive candidates as drug carrier for controlled release or targeted delivery. Dendrimer is a smart polymer having various applicability in pharmaceutics, industry and diagnosis.
Dendrimers as versatile platform in drug delivery applications
European Journal of Pharmaceutics and Biopharmaceutics, 2009
About forty percent of newly developed drugs are rejected by the pharmaceutical industry and will never benefit a patient because of poor bioavailability due to low water solubility and/or cell membrane permeability. New delivery technologies could help to overcome this challenge. Nanostructures with uniform and well-defined particle size and shape are of eminent interest in biomedical applications because of their ability to cross cell membranes and to reduce the risk of premature clearance from the body. The high level of control over the dendritic architecture (size, branching density, surface functionality) makes dendrimers ideal carriers in these applications. Many commercial small molecule drugs with anticancer, anti-inflammatory, and antimicrobial activity have been successfully associated with dendrimers such as poly(amidoamine) (PAMAM), poly(propylene imine) (PPI or DAB) and poly(etherhydroxylamine) (PEHAM) dendrimers, either via physical interactions or through chemical bonding ('prodrug approach'). Targeted delivery is possible via targeting ligands conjugated to the dendrimer surface or via the enhanced permeability and retention (EPR) effect. The biocompatibility of dendrimers follows patterns known from other small particles. Cationic surfaces show cytotoxicity; however, derivatization with fatty acid or PEG chains, reducing the overall charge density and minimizing contact between cell surfaces and dendrimers, can reduce toxic effects.
Dendrimers and their Applications as Novel Drug Delivery Carriers
Journal of Applied Pharmaceutical Science
Dendrimers are novel synthetic polymeric systems having improved physical and chemical properties due to their unique three dimensional architecture. Dendrimers have a well defined size, shape, molecular weight and monodispersity. These are compatible with drug moieties as well as bioactive molecules like DNA, heparin and other polyanions. The nanoscopic size and recognition abilities make dendrimers as ideal building blocks for self-assembly and self-organization systems. The cavities inside the dendritic structure can be modified to incorporate hydrophobic and hydrophilic drugs. The terminal groups are modified to attach antibodies and bioactive substances for targeting purpose along with providing miscibility, reactivity and solubility. Currently, dendrimers are of great interest for delivering drug molecules via different routes as a nanocarrier. Toxicity problems associated with cationic dendrimers are overcome by PEGylation, which neutralizes the charge on them. Dendrimers possess suitable properties to establish itself as a potential carrier for delivery of therapeutic agents irrespective of certain synthetic and regulatory constraints. This review contains various structural aspects and properties of dendrimers along with their pharmaceutical application as a potential novel drug delivery carrier.
Dendrimers: Potential Drug Carrier For Novel Drug Delivery System
Asian Journal of Pharmaceutical Research and Development
Dendrimers are new effectiveness of polymeric substances. They are relatively branched, monodisperse macromolecules. Structural Advantages permit dendrimers to play a critical function inside the fields of nanotechnology, pharmaceutical, and medicinal chemistry. As a result in their precise behavior dendrimers are suitable for a wide variety of biomedical and commercial packages. The paper gives a quick evaluation of dendrimers’ physicochemical properties and their possible use in various regions of research, generation, and treatment.