Objective:To enhance the dissolution rate and oral bioavailability of Terminalia arjuna bark extract by formulating its nanosuspension.Methods:Nanoprecipitation approach was used for the formulation of nanosuspension ...Objective:To enhance the dissolution rate and oral bioavailability of Terminalia arjuna bark extract by formulating its nanosuspension.Methods:Nanoprecipitation approach was used for the formulation of nanosuspension using polysorbate-80 as a stabilizer.The formulated nanosuspension was assessed for particle size,polydispersity index,zeta potential value and for in vitro dissolution study.Oral bioavailability studies were carried out in Wistar male albino rats by administering a single dose(50 mg/kg.b.wt)of the formulated nanosuspension and coarse suspension.The storage stability of the formulated nanosuspension was determined after three months of storage at room temperature and under the refrigerated condition.Mutagenicity assay was carried out to evaluate the toxicity of the formulated nanosuspension using two mutant strains(Salmonella typhimurium TA100 and Salmonella typhimurium TA98).Results:The mean particle size of the formulated nanosuspension was 90.53 nm with polydispersity index and zeta potential values of 0.175 and-15.7 m V,respectively.Terminalia arjuna nanosuspension showed improved dissolution rate and 1.33-fold higher oral bioavailability than its coarse suspension.The formulated nanosuspension also showed better stability under the refrigerated condition and was non-mutagenic against both strains.Conclusions:Our study demonstrates that nanosuspension technology can effectively enhance the dissolution rate and oral bioavailability of Terminalia arjuna bark extract.展开更多
Objective:To enhance the pharmaceutical potential and oral bioavailability of quercetin contents of Allium cepa peel extract by novel nanosuspension technology.Methods:Nanoprecipitation approach was successfully used ...Objective:To enhance the pharmaceutical potential and oral bioavailability of quercetin contents of Allium cepa peel extract by novel nanosuspension technology.Methods:Nanoprecipitation approach was successfully used for the formulation of nanosuspension.To obtain pharmaceutical-grade nanosuspension with minimum particle size and polydispersity index,sodium lauryl sulphate was selected as a stabilizer.Important formulation parameters were statistically optimized by the response surface methodology approach.The optimized nanosuspension was subjected to stability and in vitro dissolution testing and characterized by scanning electron microscopy,atomic force microscopy,Fourier transform infrared spectroscopy,and zeta sizer.To evaluate the preeminence of nanosuspension over coarse suspension,comparative bioavailability studies were carried out in male albino rats.The pharmaceutical potential of developed nanosuspension was evaluated by antioxidant,antimicrobial,and toxicity studies.Results:The optimized nanosuspension showed an average particle size of 275.5 nm with a polydispersity index and zeta potential value of 0.415 and−48.8 mV,respectively.Atomic force microscopy revealed that the average particle size of nanosuspension was below 100 nm.The formulated nanosuspension showed better stability under refrigerated conditions.Nanosuspension showed an improved dissolution rate and a 2.14-fold greater plasma concentration of quercetin than coarse suspension.Moreover,the formulated nanosuspension exhibited enhanced antioxidant and antimicrobial potential and was non-toxic.Conclusions:Optimization of nanosuspension effectively improves the pharmaceutical potential and oral bioavailability of Allium cepa extract.展开更多
文摘Objective:To enhance the dissolution rate and oral bioavailability of Terminalia arjuna bark extract by formulating its nanosuspension.Methods:Nanoprecipitation approach was used for the formulation of nanosuspension using polysorbate-80 as a stabilizer.The formulated nanosuspension was assessed for particle size,polydispersity index,zeta potential value and for in vitro dissolution study.Oral bioavailability studies were carried out in Wistar male albino rats by administering a single dose(50 mg/kg.b.wt)of the formulated nanosuspension and coarse suspension.The storage stability of the formulated nanosuspension was determined after three months of storage at room temperature and under the refrigerated condition.Mutagenicity assay was carried out to evaluate the toxicity of the formulated nanosuspension using two mutant strains(Salmonella typhimurium TA100 and Salmonella typhimurium TA98).Results:The mean particle size of the formulated nanosuspension was 90.53 nm with polydispersity index and zeta potential values of 0.175 and-15.7 m V,respectively.Terminalia arjuna nanosuspension showed improved dissolution rate and 1.33-fold higher oral bioavailability than its coarse suspension.The formulated nanosuspension also showed better stability under the refrigerated condition and was non-mutagenic against both strains.Conclusions:Our study demonstrates that nanosuspension technology can effectively enhance the dissolution rate and oral bioavailability of Terminalia arjuna bark extract.
基金support was received from Higher Education Commission of Pakistan under grant agreement number[20-2(3)/NIBGE,Fbd/ASIP/R&D/HEC/2016/697].
文摘Objective:To enhance the pharmaceutical potential and oral bioavailability of quercetin contents of Allium cepa peel extract by novel nanosuspension technology.Methods:Nanoprecipitation approach was successfully used for the formulation of nanosuspension.To obtain pharmaceutical-grade nanosuspension with minimum particle size and polydispersity index,sodium lauryl sulphate was selected as a stabilizer.Important formulation parameters were statistically optimized by the response surface methodology approach.The optimized nanosuspension was subjected to stability and in vitro dissolution testing and characterized by scanning electron microscopy,atomic force microscopy,Fourier transform infrared spectroscopy,and zeta sizer.To evaluate the preeminence of nanosuspension over coarse suspension,comparative bioavailability studies were carried out in male albino rats.The pharmaceutical potential of developed nanosuspension was evaluated by antioxidant,antimicrobial,and toxicity studies.Results:The optimized nanosuspension showed an average particle size of 275.5 nm with a polydispersity index and zeta potential value of 0.415 and−48.8 mV,respectively.Atomic force microscopy revealed that the average particle size of nanosuspension was below 100 nm.The formulated nanosuspension showed better stability under refrigerated conditions.Nanosuspension showed an improved dissolution rate and a 2.14-fold greater plasma concentration of quercetin than coarse suspension.Moreover,the formulated nanosuspension exhibited enhanced antioxidant and antimicrobial potential and was non-toxic.Conclusions:Optimization of nanosuspension effectively improves the pharmaceutical potential and oral bioavailability of Allium cepa extract.