Nanostructured cochleates: a multi-layered platform for cellular transportation of therapeutics.

Among lipid-based nanocarriers, multi-layered cochleates emerge as a novel delivery system because of prevention of oxidation of hydrophobic and hydrophilic drugs, enhancement in permeability, and reduction in dose of drugs. It also improves oral bioavailability and increases the safety of a drug by targeting at a specific site with less side effects. Nanostructured cochleates are used as a carrier for the delivery of water-insoluble or hydrophobic drugs of anticancer, antiviral and anti-inflammatory action. This review article focuses on different methods for preparation of cochleates, mechanism of formation of cochleates, mechanism of action like cochleate undergoes macrophagic endocytosis and release the drug into the systemic circulation by acting on membrane proteins, phospholipids, and receptors. Advanced methods such as calcium-substituted and ß-cyclodextrin-based cochleates, novel techniques include microfluidic and modified trapping method. Cochleates showed enhancement in oral bioavailability of amphotericin B, delivery of factor VII, oral mucosal vaccine adjuvant-delivery system, and delivery of volatile oil. In near future, cochleate will be one of the interesting delivery systems to overcome the stability and encapsulation efficiency issues associated with liposomes. The current limiting factors for commercial preparation of cochleates involve high cost of manufacturing, lack of standardization, and specialized equipments.

Hyaluronan-based dissolving microneedles with high antigen content for intradermal vaccination: Formulation, physicochemical characterization and immunogenicity assessment.

The purpose of this study was to optimize the manufacturing of dissolving microneedles (dMNs) and to increase the antigen loading in dMNs to investigate the effect on their physicochemical properties. To achieve this, a novel single-array wells polydimethylsiloxane mold was designed, minimizing antigen wastage during fabrication and achieving homogeneous antigen distribution among the dMN arrays. Using this mold, hyaluronan (HA)-based dMNs were fabricated and tested for maximal ovalbumin (OVA) content. dMNs could be fabricated with an OVA:HA ratio as high as 1:1 (w/w), without compromising their properties such as shape and penetration into the ex vivo human skin, even after storage at high humidity and temperature. High antigen loading did not induce protein aggregation during dMN fabrication as demonstrated by complementary analytical methods. However, the dissolution rate in ex vivo human skin decreased with increasing antigen loading. About 2.7 µg OVA could be delivered in mice by using a single array with an OVA:HA ratio of 1:3 (w/w). Intradermal vaccination with dMNs induced an immune response similar as subcutaneous injection and faster than after hollow microneedle injection. In conclusion, results suggest that (i) the polydimethylsiloxane mold design has an impact on the manufacturing of dMNs, (ii) the increase in antigen loading in dMNs affects the microneedle dissolution and (iii) dMNs are a valid alternative for vaccine administration over conventional injection.

Toxicological and pharmacological assessment of AGEN1884, a novel human IgG1 anti-CTLA-4 antibody.

CTLA-4 and CD28 exemplify a co-inhibitory and co-stimulatory signaling axis that dynamically sculpts the interaction of antigen-specific T cells with antigen-presenting cells. Anti-CTLA-4 antibodies enhance tumor-specific immunity through a variety of mechanisms including: blockade of CD80 or CD86 binding to CTLA-4, repressing regulatory T cell function and selective elimination of intratumoral regulatory T cells via an Fcγ receptor-dependent mechanism. AGEN1884 is a novel IgG1 antibody targeting CTLA-4. It potently enhanced antigen-specific T cell responsiveness that could be potentiated in combination with other immunomodulatory antibodies. AGEN1884 was well-tolerated in non-human primates and enhanced vaccine-mediated antigen-specific immunity. AGEN1884 combined effectively with PD-1 blockade to elicit a T cell proliferative response in the periphery. Interestingly, an IgG2 variant of AGEN1884 revealed distinct functional differences that may have implications for optimal dosing regimens in patients. Taken together, the pharmacological properties of AGEN1884 support its clinical investigation as a single therapeutic and combination agent.

Pharmacokinetics of intravenous lithium chloride and assessment of agreement between two methods of lithium concentration measurement in the horse.

BACKGROUND: Pharmacokinetics of lithium chloride (LiCl) administered as a bolus, once i.v. have not been determined in horses. There is no point-of-care test to measure lithium (Li+ ) concentrations in horses in order to monitor therapeutic levels and avoid toxicity. OBJECTIVES: To determine the pharmacokinetics of LiCl in healthy adult horses and to compare agreement between two methods of plasma Li+ concentration measurement: spectrophotometric enzymatic assay (SEA) and inductively coupled plasma mass spectrometry (ICP-MS). STUDY DESIGN: Nonrandomised, single exposure with repeated measures over time. METHODS: Lithium chloride was administered (0.15 mmol/kg bwt) as an i.v. bolus to eight healthy adult horses. Blood samples were collected pre-administration and at multiple times until 48 h post-administration. Samples were analysed by two methods (SEA and ICP-MS) to determine plasma Li+ concentrations. Pharmacokinetics were determined based on the reference ICP-MS data. RESULTS: Adverse side effects were not observed. The SEA showed linearity, R2 = 0.9752; intraday coefficient of variation, 2.5%; and recovery, 96.3%. Both noncompartmental and compartmental analyses (traditional two-stage and nonlinear mixed-effects [NLME] modelling) were performed. Geometric mean values of noncompartmental parameters were plasma Li+ concentration at time zero, 2.19 mmol/L; terminal elimination half-life, 25.68 h; area under the plasma concentration-time curve from time zero to the limit of quantification, 550 mmol/L min; clearance, 0.273 mL/min/kg; mean residence time, 31.22 h; and volume of distribution at steady state, 511 mL/kg. Results of the traditional two-stage analysis showed good agreement with the NLME modelling approach. Bland-Altman analyses demonstrated poor agreement between the SEA and ICP-MS methods (95% limits of agreement = 0.14 ± 0.13 mmol/L). MAIN LIMITATIONS: Clinical effects of LiCl have not been investigated. CONCLUSIONS: The LiCl i.v. bolus displayed pharmacokinetics similar to those reported in other species. The SEA displayed acceptable precision but did not agree well with the reference method (ICP-MS). The Summary is available in Spanish - see Supporting Information.

Interferon beta assessment in non-Chinese and Chinese subjects: pharmacokinetics and pharmacodynamic activity of an endogenous cytokine are not race dependent.

Interferon beta-1a (IFNß-1a) is a first-line therapy for relapsing multiple sclerosis when administered as 30 mcg intramuscularly (IM) once weekly. This endogenous cytokine displays pharmacokinetic (PK) attributes consistent with a glycoprotein of 20-kDa molecular weight that is administered IM. In this study, 24 healthy Chinese subjects (11 male, 13 female) each received 4 once-weekly 60-mcg IM doses of IFNß-1a. Serial blood samples were drawn for PK and pharmacodynamic (PD) assessments following the first and last dose of drug. Results were compared with historical data from a recent PK/PD assessment conducted in non-Chinese subjects. Noncompartmental analysis revealed that no meaningful differences in either IFNß-1a exposure or response were apparent between the Chinese and non-Chinese populations. Thus, it was concluded that no adjustment in dose regimen is warranted for future assessments of safety and efficacy in multiple sclerosis patients of Chinese origin.

GSK's novel split-virus adjuvanted vaccines for the prevention of the H5N1 strain of avian influenza infection.

Although influenza pandemics occur infrequently, they are unpredictable. Given that humans had not been previously exposed to the novel H5N1 strain, few (if any) individuals have any degree of immunity to the strain. GlaxoSmithKline plc (GSK) has developed two inactivated split H5N1 vaccines adjuvanted with GSK's proprietary oil-in-water emulsion AS03: GSK-1562902A (produced in Dresden, Germany) and GSK-1557484A (produced in Québec, Canada). The vaccines principally use an A/Vietnam strain virus; following the vaccination of influenza-naïve ferrets, potent neutralizing titers against the homologous A/Vietnam strain virus and against a heterologous A/Indonesia strain virus were elicited. In phase I, II and III clinical trials, two administrations of low doses (3.8 microg) of the vaccines induced protective immunity in more than 90% of vaccinees. The vaccines were generally well tolerated; the most frequently reported local adverse event was pain at the injection site. The vaccines, which can be administered in the pre-pandemic and pandemic setting, were approved in Europe in May 2008 as Prepandrix and Pandemrix, respectively. Phase II/III trials were also ongoing at the time of publication for both GSK-1562902A and GSK-1557484A. With the enormous demand for an effective vaccine in the event of an H5N1 pandemic, GSK's inactivated split H5N1 virus vaccine likely will be a highly valued product.

Preclinical safety assessment of a DNA vaccine using particle-mediated epidermal delivery in domestic pig, minipig and mouse.

DNA vaccination involves the direct injection of genes coding for specific antigenic proteins. One technique known as particle-mediated epidermal delivery (PMED) is a practical approach for epidermal delivery and provides a strong immune response. An important aspect of the preclinical safety assessment of DNA vaccines is the selection of a pharmacologically relevant animal model for the assessment of antigen expression, optimization of delivery and formulation of the plasmid. This paper describes a comparative study of domestic pig, minipig and mouse in regard to local tolerance and antigen expression of HIV immunotherapeutic using PMED. Pig/minipig is considered a good model for the safety assessment of DNA vaccines due to the similarity to human skin. Local reactions were evaluated at 10 min, 4, 24 and 48 h. Histology of administration sites revealed epidermal necrosis with associated dermal inflammation at 10 min and 4h, and subsequent regeneration with repair at 24 and 48 h. The degree and extent of these changes varied according to species. Domestic pig and minipig showed superficial epidermal necrosis and complete repair, while the mouse showed full-thickness epidermal necrosis and partial repair. Expression of HIV antigen was confirmed using immunohistochemistry in all three species at 4, 24 and 48 h. The results showed that PMED is an effective system for DNA vaccine delivery as demonstrated by the antigen expression seen as early as 4 h.

Ancillary therapy of bovine respiratory disease.

Ancillary therapy for bovine respiratory disease is covered with an emphasis on anti-inflammatories. Theoretic rationale and any available clinical data are reviewed for glucocorticosteroids as well as nonsteroidal anti-inflammatory drugs such as phenylbutazone, flunixin meglumine, and aspirin. Antihistamines, immunomodulators, diuretics, and bronchodilators are also discussed.