Browsing Category
Polylacticcoglycolic acid – PLGA
Performance comparison of PLA- and PLGA-coated porous bioceramic scaffolds: Mechanical,…
Bioceramics, particularly calcium phosphates, bioactive glasses, and crystalline silicates, are a principal group of biomaterials employed for the regeneration of damaged tissues and therapeutic delivery. The development of ceramic tissue engineering scaffolds with an appropriate combination of…
Read More...
Read More...
Recent advancements in polymeric nanofibers for ophthalmic drug delivery and ophthalmic tissue…
Nanofibers due to their unique properties such as high surface-to-volume ratio, porous structure, mechanical strength, flexibility and their resemblance to the extracellular matrix, have been researched extensively in the field of ocular drug delivery and tissue engineering. Further, different…
Read More...
Read More...
On a highway to the brain: A review on nose-to-brain drug delivery using nanoparticles
The administration of drugs to the central nervous system (CNS) is primarily controlled by the blood-brain barrier (BBB), a structure that prevents the passage of foreign compounds from the blood to the brain's extracellular fluid. Although currently available treatments for brain diseases that…
Read More...
Read More...
PLGA-based nanoparticles for the treatment of cancer: current strategies and perspectives
Research on cancer treatment is always of great importance because of the extensive and difficult treatment options and side effects of chemotherapeutic agents. Due to this, novel techniques for cancer treatment are the need of the day. Nowadays, nanotechnology is of great interest for its…
Read More...
Read More...
3D printing of bioactive materials for drug delivery applications
Introduction
Three-dimensional (3D) printing, also known as additive manufacturing (AM), is a modern technique/technology, which makes it possible to construct 3D objects from computer-aided design (CAD) digital models. This technology can be used in the progress of drug delivery systems, where…
Read More...
Read More...
Targeting mucus barrier in respiratory diseases by chemically modified advanced delivery systems
Mucus gel constitutes of heavily cross-linked mucin fibers forming a viscoelastic, dense porous network that coats all the exposed epithelia not covered with the skin. The layer provides protection to the underlying gastrointestinal, respiratory, and female reproductive tracts, in addition to the…
Read More...
Read More...
Inhalable Nano-Dimpled Microspheres Containing Budesonide-PLGA for Improved Aerodynamic Performance
Introduction: Dry powder inhalations are an attractive pharmaceutical dosage form. They are environmentally friendly, portable, and physicochemical stable compared to other inhalation forms like pressurized metered-dose inhalers and nebulizers. Sufficient drug deposition of DPIs into the deep lung…
Read More...
Read More...
Formulation and optimization of Paliperidone palmitate biodegradable injectable microspheres using…
The objective of study was to formulate and optimize poly lactic-co-glycolic acid based long-acting injectable microspheres of Paliperidone palmitate (PP) using Box- Behnken design for treatment of schizophrenia. The oral bioavailability of PP is 28%, it necessitates the formulation of PP in…
Read More...
Read More...
PLGA-modified Syloid®-based microparticles for the ocular delivery of terconazole: in-vitro and…
The eye is an invulnerable organ with intrinsic anatomical and physiological barriers, hindering the development of a pioneer ocular formulation. The aim of this work was to develop an efficient ocular delivery system that can augment the ocular bioavailability of the antifungal drug, terconazole.…
Read More...
Read More...
Based on functional materials and PLGA for the florfenicol controlled release system and its…
It is widely used PLGA in synthesizing active drug nanoparticles due to its high biocompatibility, biodegradability, and pelletization. In this study with PLGA as the carrier, the florfenicol nanoparticles (FF-PLGA NPs) were investigated to improve water solubility and controlled drug release for…
Read More...
Read More...