Development and in vivo evaluation of therapeutic phytosomes for alleviation of rheumatoid arthritis.

Rheumatoid arthritis (RA) is a chronic inflammatory autoimmune disease associated with progressive articular damage, functional loss and comorbidity. Conventional RA therapy requires frequent dosing and prolonged use, and usually results in poor efficacy and severe toxicity. In the current study, for the first time, we describe a combination strategy using phytosomes co-loaded with curcumin (CUR) and leflunomide (LEF) to improve the clinical outcomes of RA therapy. Exploiting 23 factorial design, various compositions of CUR and LEF co-loaded phytosomes (CUR/LEF-phytosomes) were successfully prepared and were extensively characterized (e.g., particle size, zeta potential, drugs encapsulation efficiency, morphology, DSC, FTIR and release kinetics). The optimal CUR/LEF-loaded phytosomes (F2) demonstrated high stability and spherical morphology with a particle size of ca. 760 nm and negative zeta potential value of - 55.7, high entrapment for both drugs, and sustained release profile of the entrapped medications. In vivo, oral administration of the CUR/LEF-phytosomes (F2) in arthritic rats resulted in significant reduction of paw swelling and inflammatory markers, compared to the free drugs and their physical mixture. Histopathological examination revealed significant improvement in phytosomes-treated animal group with no signs of arthritis. CUR/LEF-loaded phytosomes provide an auspicious strategy for alleviation of RA.

Development and in vivo evaluation of chitosan nanoparticles for the oral delivery of albumin.

Albumin is used as a plasma expander in critically ill patients and for several other clinical applications mainly via intravenous infusion. Oral administration of albumin can improve patient compliance although limited oral bioavailability of proteins is still a major challenge. Although nanomaterials have been extensively utilized for improving oral delivery of proteins, albumin has been utilized only as either a model drug or as a carrier for drug delivery. In the current study, for the first time, chitosan nanoparticles have been developed and extensively optimized to improve oral bioavailability of albumin as a therapeutic protein. Several characterizations have been performed for the albumin-loaded nanoparticles (e.g. drug encapsulation efficiency, DSC, FTIR, particle size, zeta potential, morphology, release kinetics, and enzymatic stability). Nanosized spherical particles were prepared and demonstrated high stability over three months either in a powdered form or as suspensions. Sustained release of albumin over time and high enzymatic stability as compared to the free albumin were observed. In vivo, higher serum concentrations of albumin in normal rabbits and cirrhotic rats were attained following oral and intraperitoneal administrations of the albumin-loaded nanoparticles as compared to the free albumin. The nanoparticles developed in the current study might provide efficient nanovehicles for oral administration of therapeutic albumin.