Engineering Platelet Membrane Imitating Nanoparticles for Targeted Therapeutic Delivery.

Platelet Membrane Imitating Nanoparticles (PMINs) is a novel drug delivery system that imitates the structure and functionality of platelet membranes. PMINs imitate surface markers of platelets to target specific cells and transport therapeutic cargo. PMINs are engineered by incorporating the drug into the platelet membrane and encapsulating it in a nanoparticle scaffold.

Engineered Bacteria: General Overview as Therapeutic Agent and a Novel Drug Delivery System.

Bacterial engineering modifies bacteria's genomic sequence using genetic engineering tools. These engineered bacteria can produce modified proteins, peptides, nucleic acids, and other biomolecules that can be used to treat various medical conditions. Engineered bacteria can target diseased tissues or organs, detect specific biomarkers in the diseased environment, and even induce specific conditions.

Microbubbles Contrast Agents: General Overview as Diagnostics and Therapeutic Agent.

Recent discoveries have unfolded many powerful emerging applications in the field of drug delivery science. For the past few years, ultrasound mediated microbubble contrast agents have been an emerging modality for diagnostic and drug delivery applications. Microbubbles are small spherical bubbles composed of a gas core encapsulated by a shell with different materials.

BCS class II drug loaded protein nanoparticles with enhanced oral bioavailability: evaluation and pharmacokinetic study in rats.

The aim of the study was to improve the bioavailability of atorvastatin calcium (ATC) by formulating polymeric nanoparticles (NPs) with an easy and cost-effective approach. ATC entrapped gelatin nanoparticles (AEGNPs) were prepared by using a simple one-step desolvation method. The formed NPs were characterized by scanning electron microscopy, Fourier transform infrared spectroscopy, and differential scanning calorimetry.

Graphene: A Comprehensive Review.

Graphene, a one-atom thick, two-dimensional sheets of sp2hybridized carbon atoms packed in a hexagonal lattice with a Caron-Carbon distance of about 0.142 nm. Its extended honeycomb network forms the basic building block of other important allotropes; it can be stacked to form 3-Dgraphite, rolled to form 1-D-nanotubes and wrapped to form 0-D-fullerenes.

Chitosan: a propitious biopolymer for drug delivery.

Scientists have always been interested in the use of natural polymers for drug delivery. Chitosan, being a natural cationic polysaccharide has received a great deal of attention in the past few years. It is obtained by deacetylation of chitin and is regarded as the second most ubiquitous polymer subsequent to cellulose on earth.

Cubosomes: Innovative Nanostructures for Drug Delivery.

Background: Some amphiphilic lipids can self-assemble to form bicontinuous cubic liquid crystalline materials in aqueous media. These cubic structures have gained considerable attention since they impart unique properties of practical interest. Cubosomes, being dispersions of an inverted type bicontinuous cubic phase, separate two continuous aqueous regions with a lipid bilayer having the propensity to incorporate drugs of varying polar characteristics.

Nanodiamonds as a new horizon for pharmaceutical and biomedical applications.

A palpable need for the optimization of therapeutic agents, due to challenges tackled by them such as poor pharmacokinetics and chemoresistance, has steered the journey towards novel interdisciplinary scientific field for emergence of nanostructure materials as a carrier for targeted delivery of therapeutic agents. Amongst various nanostructures, nanodiamonds are rapidly rising as promising nanostructures that are suited especially for various biomedical and imaging applications. Advantage of being biocompatible and ease of surface functionalization for targeting purpose, besides safety which are vacant by nanodiamonds made them a striking nanotool compared to other nonmaterials which seldom offer advantages of both functionality as well as safety.

Cyclodextrin-based nanosponges: a propitious platform for enhancing drug delivery.

Introduction: Recently, Nanotechnology is receiving considerable acknowledgment due to its potential to combine features that are difficult to achieve by making use of a drug alone. Cyclodextrin-based nanosponges are yet another contemporary approach for highlighting the advancements which could be brought about in a drug delivery system. Statistical analyses have shown that around 40% of currently marketed drugs and about 90% of drugs in their developmental phase encounter solubility-related problems.

Aptamer-dendrimer bioconjugate: a nanotool for therapeutics, diagnosis, and imaging.

Introduction: Aptamers hold great promise as molecular tool in biomedical applications due to the therapeutic utility exhibited by their target specificity and sensitivity. Although current development of aptamer is hindered by its probable in vivo degradation, inefficient immobilization on probe surface, and generation of low detection signal, bioconjugation with nanomaterials can feasibly solve these problems. Nanostructures such as dendrimers, with multivalency and nonimmunogenicity, bioconjugated with aptamers have opened newer vistas for better pharmaceutical applications of aptamers.

Antioxidant and hypolipidemic activity of Kumbhajatu in hypercholesterolemic rats.

Objective: To study the efficacy of Kumbhajatu in reducing the cholesterol levels and as an antioxidant in hypercholesterolemic rats.

Materials And Methods: Hypercholesterolemia was induced in normal rats by including 2% w/w cholesterol, 1% w/w sodium cholate and 2.5% w/w coconut oil in the normal diet.

Buccal drug delivery of pravastatin sodium.

The purpose of this study was to develop and optimize formulations of mucoadhesive bilayered buccal tablets of pravastatin sodium using carrageenan gum as the base matrix. The tablets were prepared by direct compression method. Polyvinyl pyrrolidone (PVP) K 30, Pluronic(R) F 127, and magnesium oxide were used to improve tablet properties.

Studies on the effect of water-soluble polymers on drug-cyclodextrin complex solubility.

The effect of complexation of irbesartan (IRB), a practically water-insoluble drug, with cyclodextrins in presence of different concentrations of water-soluble polymers (PEG 4000 and PVP K-90) on the dissolution rate of the drug has been investigated. Phase solubility studies were carried out to evaluate the solubilizing power of betaCD in association with water-soluble polymers towards IRB and to determine the apparent stability constant (K (S)) of the complexes. Improvement in K(S) value for ternary complexes (IRB-betaCD-polymers) clearly proved the benefit on the addition of water-soluble polymer to increase complexation efficiency.

Formulation and evaluation of lecithin organogel for topical delivery of fluconazole.

The purpose of the present study was to develop and investigate the suitability of microemulsion based lecithin organogel formulations for topical delivery of fluconazole in order to bypass its gastrointestinal adverse effects. The ternary phase diagrams were developed and various organogel formulations were prepared using pharmaceutically acceptable surfactant (lecithin) and ethyl oleate (EO). Solubility of fluconazole in EO and EO-lecithin reverse micellar system was determined.

Development and in vitro evaluation of an oral floating matrix tablet formulation of diltiazem hydrochloride.

The purpose of this research was to prepare a floating drug delivery system of diltiazem hydrochloride (DTZ). Floating matrix tablets of DTZ were developed to prolong gastric residence time and increase its bioavailability. Rapid gastrointestinal transit could result in incomplete drug release from the drug delivery system above the absorption zone leading to diminished efficacy of the administered dose.