Analysis of vitamin D level among asymptomatic and critically ill COVID-19 patients and its correlation with inflammatory markers.

COVID-19 is characterized by marked variability in clinical severity. Vitamin D had recently been reviewed as one of the factors that may affect the severity in COVID-19. The objective of current study is to analyze the vitamin D level in COVID-19 patients and its impact on the disease severity.

Gastrokinetic activity of Amorphophallus paeoniifolius tuber in rats.

Aim: The tuber of Amorphophallus paeoniifolius (Family-Araceae), commonly called suran or jimikand, has medicinal and food value. It is used in ethnomedicinal practices for correction of gastrointestinal disturbances such as constipation and hemorrhoids. The present study evaluated the effect of A.

Mannosylated polyethyleneimine-hyaluronan nanohybrids for targeted gene delivery to macrophage-like cell lines.

Nonviral gene delivery systems have a number of limitations including low transfection efficiency, specificity, and cytotoxicity, especially when the target cells are macrophages. To address these issues, the hypothesis tested in this study was that mannose functionalized nanohybrids composed of synthetic and natural polymers will improve transfection efficiency, cell viability, and cell specificity in macrophages. Robust nanohybrids were designed from hyaluronic acid (HA) and branched polyethyleneimine (bPEI) using carbodiimide chemistry.

Controlled release of plasmid DNA from hyaluronan nanoparticles.

Encapsulation of plasmid DNA (pDNA) in nanoparticulate gene delivery systems offers the possibility of control in dosing, enhanced pDNA uptake, increased resistance to nuclease degradation and sustained release of functionally active pDNA over time. Extracellular matrix based biomaterial i.e.

Targeted intracellular delivery of therapeutics: an overview.

During the last decade, intracellular drug delivery has become an emerging area of research in the medical and pharmaceutical field. Many therapeutic agents such as drugs and DNA/oligonucleotides can be delivered not just to the cell but also to a particular compartment of that cell to achieve better activity e.g.

Estrogen(s) and analogs as a non-immunogenic endogenous ligand in targeted drug/DNA delivery.

The maximum therapeutic potentials of pharmacologically active molecules are generally not attained due to their non specific delivery. Ligands associated with drug or delivery system through which it is delivered provide navigation and direction to the carrier system(s) so as to reach and release bioactive(s) at the desired site of action in a optimum therapeutic concentration vis a vis minimizing the undesired side effects associated with non specific delivery. Many ligands employed and implicated in targeted drug delivery have been reportedly found to be mild to strong immunogenic.

Cell-selective mitochondrial targeting: progress in mitochondrial medicine.

Mitochondrion, the energy generating organelle of the cell, is a subject of interest for selective targeting of therapeutic molecules, both Drugs and DNA, since it is found to be involved in numerous disorders like diabetes, neurodegenerative disease and cancer etc. Mitochondrial therapy can be made possible if the bioactive molecule is selectively delivered to the mitochondria of correct cell type, using cell specific ligands and mitochondriotropic molecules in designing of cell selective mitochondria specific carrier system. In this present review we will elaborate the role of mitochondria in human disease, cell specific ligands, mitochondriotropic molecules and their utilization in construction of such cell selective and mitochondria specific delivery systems that will make mitochondrial medicine practically possible.

Cationic transfersomes based topical genetic vaccine against hepatitis B.

DNA vaccines have been shown to elicit both cellular and humoral immune responses and to be effective in a variety of preclinical bacterial, viral, and parasitic animal models. We have recently described a needle-free method of vaccination, transcutaneous immunization, based on topical application of vaccine antigens on intact skin using a novel carrier system, namely transfersomes. In the present study, a novel modified version of transfersomes, i.

Liposomes as adjuvant for combination vaccines.

In the present study tetanus toxoid (TT) loaded liposomes and diphtheria toxoid (DT) loaded liposomes were prepared by reverse phase evaporation method and after combining these two vaccines the potential advantages were investigated. Prepared systems were characterized for the size, shape and entrapment efficiency. SDS-PAGE analysis of TT and DT was also performed.

Pegylated protein encapsulated multivesicular liposomes: a novel approach for sustained release of interferon alpha.

Hepatitis C viral chemotherapy suffers from a relatively short half-life of the interferon alpha-2a (IFN alpha). To address this issue, we investigated the effects of polyethylene glycol modification and their subsequent encapsulation in multivesicular liposomes (MVLs), on the release properties of IFN alpha. In the present study, interferon-alpha was conjugated with methoxy-polyethylene glycol (mPEG, MW 5000).

Development of novel fusogenic vesosomes for transcutaneous immunization.

Transcutaneous immunization (TCI) is a novel vaccination strategy based on the application of antigen together with an adjuvant onto hydrated bare skin. This simple and non-invasive immunization procedure elicits systemic and cell mediated immune responses and therefore, it provides a viable and cost-effective strategy for disease prevention. In the present study, novel fusogenic vesicular carrier constructs, i.

Lectin anchored stabilized biodegradable nanoparticles for oral immunization 1. Development and in vitro evaluation.

The investigation comprises development of a stable and targeted formulation of HBsAg for the oral immunization against Hepatitis B. PLGA nanoparticles bearing HBsAg was prepared by double emulsion method. The antigen was protected from organic/aqueous interface by using protein stabilizer, trehalose.

Targeted brain delivery of AZT via transferrin anchored pegylated albumin nanoparticles.

Hydrophilic drugs/peptides have poor cross Blood-brain permeability. Various drug delivery systems with diverse surfacial characteristics have been reported for effective translocation of drugs across Blood-brain barrier. In present investigation, the potential of engineered albumin nanoparticles was evaluated for brain specific delivery after intravenous administration.

Nanodecoy system: a novel approach to design hepatitis B vaccine for immunopotentiation.

The progress toward subunit vaccines has been limited by their poor immunogenicity and limited stability. To enhance the immune response, subunit vaccines universally require improved adjuvants and delivery vehicles. In the present study, we propose the use of ceramic core based nanodecoy systems for effective immunization, which seems to exhibit a broad range of surface properties.

Hepatitis B surface protein docked vesicular carrier for site specific delivery to liver.

The intrinsic liver tropism of liposomes can be augmented by the addition of targeting features such as the incorporation of hepatotropic elements of the hepatitis viruses. Hepatitis B virus is known to infect hepatocytes after viremia by asialoglycoprotein receptor mediated uptake. However, the specificity of hepatitis B virus surface protein (HBsAg) towards hepatocytes has confronting reports.

Non-ionic surfactant based vesicles (niosomes) for non-invasive topical genetic immunization against hepatitis B.

DNA vaccines are capable of eliciting both humoral as well as cellular immune responses. Liposomes have been widely employed for DNA delivery through topical route; however, they suffer from certain drawbacks like higher cost and instability. In present study, non-ionic surfactant based vesicles (niosomes) for topical DNA delivery have been developed.

Tetanus toxoid-loaded transfersomes for topical immunization.

Topical immunization is a novel immunization strategy by which antigens and adjuvants are applied topically to intact skin to induce potent antibody and cell-mediated responses. Among various approaches for topical immunization, the vesicular approach is gaining wide attention. Proteineous antigen alone or in combination with conventional bioactive carriers could not penetrate through the intact skin.

Non-invasive vaccine delivery in transfersomes, niosomes and liposomes: a comparative study.

Non-invasive vaccine delivery is a top priority for public health agencies because conventional immunization practices are unsafe and associated with numerous limitations. Recently, the skin has emerged as a potential alternative route for non-invasive delivery of vaccine. Topical immunization (TI), introduction of antigen through topical application onto the intact skin, has many practical merits compared to injectable routes of administration.

Liposomes modified with cyclic RGD peptide for tumor targeting.

Cyclic RGD peptide anchored sterically stabilized liposomes (RGD-SL) were investigated for selective and preferential presentation of carrier contents at angiogenic endothelial cells overexpressing alphavbeta3 integrins on and around tumor tissue and thus for assessing their targetabilty. Liposomes were prepared using distearoylphosphatidylcholine (DSPC), cholesterol and distearoylphosphatidylethanolamine-polyethyleneglycol-RGD peptide conjugate (DSPE-PEG-RGD) in a molar ratio 56:39:5. The control RAD peptide anchored sterically stabilized liposomes (RAD-SL) and liposome with 5 mol% PEG (SL) without peptide conjugate which had similar lipid composition were used for comparison.