Calorimetric Evaluation of Glycyrrhetic Acid (GA)- and Stearyl Glycyrrhetinate (SG)-Loaded Solid Lipid Nanoparticle Interactions with a Model Biomembrane

Sabry S, Mansour SMG, El-Nahas HM, Ayoub MM. Experimental Investigation into the Design, Optimization, Toxicity, and Anti-Viral Efficacy of Proliposomes Loaded with Ivermectin Against Infectious Bronchitis Virus Using an Embryonated Chicken Egg Model

Background: Infectious bronchitis virus (IBV) causes a significant illness in birds, making it a leading source of financial loss in the poultry business. The objective of this study was to assess the effectiveness of proliposomes (PLs) containing ivermectin (IVM) against IBV using embryonated chicken eggs (ECEs). Methods: A three-factor, two-level (23) full factorial design was employed; carrier/lipid phase ratio (A), stearyl glycyrrhetinate amount (B), and phospholipid type (C) were studied as independent variables, while product yield (PY), entrapment efficiency (EE), particle size (PS), polydispersity index (PDI), zeta potential (ZP), and cumulative percentage of drug released after 6 h (Q6h) were characterized. The selected formulations (PL2 and PL6) were subjected to further characterizations, including IVM toxicity and anti-viral activity. Results: The PY% ranged from 88.6 ± 2.19% to 98.8 ± 0.45%, EE% was from 71.8 ± 2.01% to 96.1 ± 0.51%, PS was from 330.1 ± 55.65 nm to 1801.6 ± 45.61 nm, PDI was from 0.205 ± 0.06 to 0.603 ± 0.03, ZP was from -18.2 ± 0.60 mV to -50.1 ± 1.80 mV, and Q6h was from 80.95 ± 1.36% to 88.79 ± 2.03%. IVM-loaded PLs had lower toxicity in ECEs than pure IVM; the mortality rate was substantially reduced in IBV-infected ECEs injected with PL2 rather than pure IVM. As further evidence of IVM's anti-viral action against IBV, quantitative real-time polymerase chain reaction (qRT-PCR) revealed that the PL2-treated group exhibited further reduction in IBV's copies in comparison with the pure IVM-treated group. Conclusions: PLs loaded with IVM are an innovative and potentially effective way to inhibit IBV.

Design of Nanotechnological Carriers for Ocular Delivery of Mangiferin: Preformulation Study

(1) Background: Mangiferin (MGN) is a natural compound, showing anti-inflammatory and antioxidant activities for the potential treatment of eye diseases. The poor physicochemical features of MGN (low solubility and high instability) justify its nanoencapsulation into nanostructured lipid carriers (NLC) to improve its ocular bioavailability. (2) Methods: Firstly, MGN-NLC were prepared by the high shear homogenization coupled with the ultrasound (HSH−US) method. Finally, unloaded and MGN-loaded NLC were analyzed in terms of ocular tolerance. (3) Results: MGN-NLC showed good technological parameters suitable for ocular administration (particle size below 200 nm). The ORAC assay was performed to quantify the antioxidant activity of MGN, showing that the antioxidant activity of MGN-NLC (6494 ± 186 μM TE/g) was higher than that of the free compound (3521 ± 271 μM TE/g). This confirmed that the encapsulation of the drug was able to preserve and increase its activity. In ovo studies (HET-CAM) revealed that the formulation can be considered nonirritant. (4) Conclusions: Therefore, NLC systems are a promising approach for the ocular delivery of MGN.