Ramya Krishna Nakkala scite author profile

Numerous nanotech arenas in therapeutic biology have recently provided a scientific platform to manufacture a considerable swath of unique chemical entities focusing on drugs. Recently, nanoparticulate drug delivery systems have emerged to deliver a specific drug to a specified site. Among all other carriers, lipids possess features exclusive to nanostructured dosage forms. The bioavailability of orally administered drugs is typically negatively affected by their poor water solubility, resulting from the unique chemical moieties introduced. Because of their unique advantages, lipid nanoparticles must become increasingly predictable as a robust delivery mechanism. The enhanced biopharmaceutical properties and significance of lipid‐based targeting technologies such as liposomes, niosomes, solid lipid nanoparticles and micelles are highlighted in this review. Pharmaceutical implications of lipid nanocarriers for the transport and distribution of various therapeutic agents, such as biotechnological products and small pharmaceutical molecules, is a booming topic. Lipid nanoparticles as drug delivery systems have many appealing properties, including high biocompatibility, ease of preparation, tissue specificity, avoidance of reticuloendothelial systems, delayed drug release, scale‐up feasibility, nontoxicity and targeted delivery. The use of lipid nanoparticles to enhance the transport of biopharmaceuticals is currently considered state‐of‐the‐art. Similarly, we critically examine the upcoming guidelines that therapeutic scientists should handle.

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Design expert assisted formulation, characterization and optimization of microemulsion based solid lipid nanoparticles of repaglinide

Maddiboyina¹,

Jhawat

Nakkala³

et al. 2021

Prog Biomater

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Ramya Krishna Nakkala

Nanotechnology-based approaches applied to nutraceuticals

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Perspectives on cutting‐edge nanoparticulate drug delivery technologies based on lipids and their applications

Design expert assisted formulation, characterization and optimization of microemulsion based solid lipid nanoparticles of repaglinide

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