Arthrospira platensis F&M-C265 reduces cardiometabolic risk factors in rats fed a high fat diet

Clinical studies indicate that Arthrospira platensis (A. platensis) mitigates cardiometabolic risk factors, but the underlying mechanisms are very elusive. To fill this gap, Sprague-Dowley rats were fed either AIN-76 normal diet (5 % corn oil) or high-fat (HF; 30 % lard + 3 % corn oil) or HF + 5 % A. platensis F&M-C256 diet for 3 months. A. platensis F&M-C256 decreased blood triglycerides and total cholesterol, systolic and diastolic pressure and enhanced the expression of thermogenesis-related genes Prdm16, Dio2, PPARγ, Ucp1 and Lpl in visceral adipose tissue, compared to HF-diet. A. platensis reduced ANGPTL3 plasma levels and hepatic steatosis, prevented periaortic adipose tissue hypertrophy and increased aortic eNOS expression. These data provide some mechanistic evidence about the beneficial effects of A. platensis observed in human studies. Further controlled trials are needed to verify the clinical usefulness of A. platensis supplementation against metabolic disorders, to select the dosing regimens and the subgroup of patients with likelihood of benefit

Evaluation and Comparison of Solid Lipid Nanoparticles (SLNs) and Nanostructured Lipid Carriers (NLCs) as Vectors to Develop Hydrochlorothiazide Effective and Safe Pediatric Oral Liquid Formulations

The aim of this study was the optimization of solid lipid nanoparticles (SLN) and nanostructured lipid carriers (NLC) in terms of physicochemical and biopharmaceutical properties, to develop effective and stable aqueous liquid formulations of hydrochlorothiazide, suitable for paediatric therapy, overcoming its low-solubility and poor-stability problems. Based on solubility studies, Precirol® ATO5 and Transcutol® HP were used as solid and liquid lipids, respectively. The effect of different surfactants, also in different combinations and at different amounts, on particle size, homogeneity and surface-charge of nanoparticles was carefully investigated. The best formulations were selected for drug loading, and evaluated also for entrapment efficiency and release behaviour. For both SLN and NLC series, the use of Gelucire® 44/14 as surfactant rather than PluronicF68 or Tween® 80 yielded a marked particle size reduction (95–75 nm compared to around 600–400 nm), and an improvement in entrapment efficiency and drug release rate. NLC showed a better performance than SLN, reaching about 90% entrapped drug (vs. 80%) and more than 90% drug released after 300 min (vs. about 65%). All selected formulations showed good physical stability during 6-month storage at 4 °C, but a higher loss of encapsulated drug was found for SLNs (15%) than for NLCs (<5%). Moreover, all selected formulations revealed the absence of any cytotoxic effect, as assessed by a cell-viability test on Caco-2 cells and are able to pass the intestinal epithelium as suggested by Caco-2 uptake experiments

New NO- and H2S-releasing doxorubicins as targeted therapy against chemoresistance in castration-resistant prostate cancer: in vitro and in vivo evaluations

Summary: Chemotherapy for castration-resistant prostate cancer (CRPC) is only temporarily effective due to the onset of chemoresistance. We investigated the efficacy of NO- and H2S-releasing doxorubicins (NitDox and H2SDox) in overcoming drug resistance and evaluated their safety. New and innovative NO- and H2S-releasing doxorubicins (NitDox and H2SDox) showed a good intracellular accumulation and high cytotoxic activity in vitro in an androgen-independent and doxorubicin-resistant DU-145 prostate cancer cell line. Nude mice were subcutaneously injected with 4*106DU-145 cells and treated once a week for 3 weeks with 5 mg/kg doxorubicin, NitDox, H2SDox or vehicle, i.p. Animal weight, tumor volume, intra-tumoral drug accumulation, apoptosis and the presence of nitrotyrosine and sulfhydryl (SH) groups within the tumor, were evaluated. Cardiotoxicity was assessed by measuring troponin plasma levels and the left ventricular wall thickness. In vivo, NitDox and H2SDox accumulated inside the tumors, significantly reduced tumor volumes by 60%, increased the percentage of apoptotic cells in both the inner and the outer parts of the tumors and the presence of nitrotyrosine and SH groups. Doxorubicin treatment was associated with reduced body weight and cardiotoxicity. On the contrary, NitDox and H2SDox were well tolerated and had a better safety profile. Combining efficacy with reduced cardiovascular side effects, NitDox and H2SDox are promising novel therapeutic agents for reversing chemoresistance in CRCP

Analytical Evaluation of a Vancomycin Immunoassay in Synovial Fluid

In clinical laboratories performing routine activities, the need to answer the burning clinical question in emerging field may be limited by lack of technology support or assays accessibility. Commercially available methods, although originally validated for specific biological matrices, may be employed for other matrices, following appropriate guidelines such as Clinical and Laboratory Standards Institute (CLSI) EP 19. We investigated the use of a vancomycin assay with synovial fluid samples, in view of a possible employment in vancomycin release study. The standard of care of periprosthetic joint infection is a two- stage revision surgery with antibiotic-loaded bone cement implantation. Vancomycin, for its activity against gram-positive bacteria even multidrug-resistant staphylococci, is the most widely used antibiotic. Despite the widespread use of such devices, little is known about the in vivo elution in the joint space. Clinical laboratories equipped with a validated, affordable method to quantify vancomycin in synovial fluid, may support clinical research, and give an important contribution to the study of the pharmacokinetics of antibiotic release from bone cement matrix

Chitosan coated niosomes for nose-to-brain delivery of clonazepam: Formulation, stability and permeability studies.

Crossing the Blood Brain Barrier constitutes a challenge in drug administration to the brain. In this context, nose-to-brain delivery is explored as an alternative route in the treatment of central nervous system disorders, and nanotechnology constitutes a promising tool for drug delivery to the brain. In this work, we explored niosomes and chitosan-coated niosomes (chitosomes) as possible tools for nose-to-brain delivery of clonazepam. The formulations have been optimised using different chitosan concentrations and different preparation methods as Thin Layer Evaporation-paddle (TLE-P), Evaporation (E), and Solvent Displacement Technique (SDT). The most suitable formulations were loaded with clonazepam (CLZ) and a full physicochemical characterization was performed. Chitosomes presented a size of around 200 nm, PDI < 0.3, a positive surface charge, spherical shape and a CLZ encapsulation above 60%. Chitosomes were stable for 12 weeks under storage conditions at 4ºC, in simulated nasal fluid for 24 h as well as after a lyophilization-sonication process. A CLZ release of 50% was also achieved after 4 h in this media. The mucoadhesive properties of chitosomes were also confirmed, with a 1.5-fold reduction of CLZ toxicity after encapsulation and a 10-fold increase of its permeability