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Current Issue

Inventi Impact: NDDS

Current Issue : October-December
Volume : 2021
Issue Number : 4
Articles : 5 Articles

Articles

  • Inventi:pndds/43362/21
    A Cost-Effective Nano-Sized Curcumin Delivery System with High Drug Loading Capacity Prepared via Flash Nanoprecipitation
    Zhuo Chen, Zhinan Fu, Li Li, Enguang Ma, Xuhong Guo
    >Research  Download Full Text

    Flash nanoprecipitation (FNP) is an efficient technique for encapsulating drugs in particulate carriers assembled by amphiphilic polymers. In this study, a novel nanoparticular system of a model drug curcumin (CUR) based on FNP technique was developed by using cheap and commercially available amphiphilic poly(vinyl pyrrolidone) (PVP) as stabilizer and natural polymer chitosan (CS) as trapping agent. Using this strategy, high encapsulation efficiency (EE > 95%) and drug loading capacity (DLC > 40%) of CUR were achieved. The resulting CUR-loaded nanoparticles (NPs) showed a long-term stability (at least 2 months) and pH-responsive release behavior. This work offers a new strategy to prepare cost-effective drug-loaded NPs with high drug loading capacity and opens a unique opportunity for industrial scale-up....

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  • Inventi:pndds/43363/21
    Design and In Vitro Study of a Dual Drug-Loaded Delivery System Produced by Electrospinning for the Treatment of Acute Injuries of the Central Nervous System
    Luisa Stella Dolci, Rosaria Carmela Perone, Roberto Di Gesù, Mallesh Kurakula, Chiara Gualandi, Elisa Zironi, Teresa Gazzotti, Maria Teresa Tondo, Giampiero Pagliuca, Natalia Gostynska, Vito Antonio Baldassarro, Maura Cescatti, Luciana Giardino, Maria Letizia Focarete, Laura Calzà, Nadia Passerini, Maria Laura Bolognesi
    >Research  Download Full Text

    Vascular and traumatic injuries of the central nervous system are recognized as global health priorities. A polypharmacology approach that is able to simultaneously target several injury factors by the combination of agents having synergistic effects appears to be promising. Herein, we designed a polymeric delivery system loaded with two drugs, ibuprofen (Ibu) and thyroid hormone triiodothyronine (T3) to in vitro release the suitable amount of the anti-inflammation and the remyelination drug. As a production method, electrospinning technology was used. First, Ibuloaded micro (diameter circa 0.95–1.20 m) and nano (diameter circa 0.70 m) fibers were produced using poly(L-lactide) PLLA and PLGA with different lactide/glycolide ratios (50:50, 75:25, and 85:15) to select the most suitable polymer and fiber diameter. Based on the in vitro release results and in-house knowledge, PLLA nanofibers (mean diameter = 580  120 nm) loaded with both Ibu and T3 were then successfully produced by a co-axial electrospinning technique. The in vitro release studies demonstrated that the final Ibu/T3 PLLA system extended the release of both drugs for 14 days, providing the target sustained release. Finally, studies in cell cultures (RAW macrophages and neural stem cell-derived oligodendrocyte precursor cells—OPCs) demonstrated the anti-inflammatory and promyelinating efficacy of the dual drug-loaded delivery platform....

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  • Inventi:pndds/42474/21
    Development and Characterization of Lipospheres Containing Repaglinide
    Misbah Nikhath*, Vazir Ashfaq Ahmed
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    Lipospheres formulation is an aqueous micro dispersion of solid water insoluble spherical micro the lipospheres are prepared of solid hydrophobic triglycerides with a monolayer of phospholipids embedded on the shell of the particle. Repaglinide is a water insoluble ant diabetic drug which belongs to the class of medications known as meglitinides. An attempt was made to develop and characterized the lipospheres in order to enhance the bioavailability of a highly permeable and a poorly soluble anti-diabetic drug by using different concentrations of bees wax, stearic acid, cetyl alcohol, tween 80 and phospholipids coat such as soybean phosphotidylcholine. The lipospheres were prepared by solvent evaporation technique and characterized for particle size, scanning electron microscopy, % entrapment efficiency, % yield, % drug content, in-vitro drug release and stability study. All the formulation gave the satisfactory result in terms of particle size, entrapment efficiency and drug content. Lipospheres were substantially stable after 3 months storage at 2–8°C....

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  • Inventi:pndds/43360/21
    Development, Characterization, and Evaluation of SLN-Loaded Thermoresponsive Hydrogel System of Topotecan as Biological Macromolecule for Colorectal Delivery
    R Xing, O Mustapha, T Ali, M Rehman, S S Zaidi, A Baseer, S Batool, M Mukhtiar, S Shafique, M Malik, S Sohail, Z Ali, F Zahid, A Zeb, F Shah, A Yousaf, F Din
    >Research  Download Full Text

    Background. Chemotherapeutic drugs cause severe toxicities if administered unprotected, without proper targeting, and controlled release. In this study, we developed topotecan- (TPT-) loaded solid lipid nanoparticles (SLNs) for their chemotherapeutic effect against colorectal cancer. The TPT-SLNs were further incorporated into a thermoresponsive hydrogel system (TRHS) (TPTSLNs- TRHS) to ensure control release and reduce toxicity of the drug. Microemulsion technique and cold method were, respectively, used to develop TPT-SLNs and TPT-SLNs-TRHS. Particle size, polydispersive index (PDI), and incorporation efficiency (IE) of the TPT-SLNs were determined. Similarly, gelation time, gel strength, and bioadhesive force studies of the TPT-SLNs-TRHS were performed. Additionally, in vitro release and pharmacokinetic and antitumour evaluations of the formulation were done. Results. TPT-SLNs have uniformly distributed particles with mean size in nanorange (174 nm) and IE of ~90%. TPT-SLNs-TRHS demonstrated suitable gelation properties upon administration into the rat’s rectum. Moreover, drug release was exhibited in a control manner over an extended period of time for the incorporated TPT. Pharmacokinetic studies showed enhanced bioavailability of the TPT with improved plasma concentration and AUC. Further, it showed significantly enhanced antitumour effect in tumour-bearing mice as compared to the test formulations. Conclusion. It can be concluded that SLNs incorporated in TRHS could be a potential source of the antitumour drug delivery with better control of the drug release and no toxicity....

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  • Inventi:pndds/43361/21
    Fabrication of Multi-Layered Microspheres Based on Phase Separation for Drug Delivery
    He Xia, Ang Li, Jia Man, Jianyong Li, Jianfeng Li
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    In this work, we used a co-flow microfluidic device with an injection and a collection tube to generate droplets with different layers due to phase separation. The phase separation system consisted of poly(ethylene glycol) diacrylate 700 (PEGDA 700), PEGDA 250, and sodium alginate aqueous solution. When the mixture droplets formed in the outer phase, PEGDA 700 in the droplets would transfer into the outer aqueous solution, while PEGDA 250 still stayed in the initial droplet, breaking the miscibility equilibrium of the mixture and triggering the phase separation. As the phase separation proceeded, new cores emerged in the droplets, gradually forming the second and third layers. Emulsion droplets with different layers were polymerized under ultraviolet (UV) irradiation at different stages of phase separation to obtain microspheres. Microspheres with different layers showed various release behaviors in simulated gastric fluid (SGF) and simulated intestinal fluid (SIF). The release rate decreased with the increase in the number of layers, which showed a potential application in sustained drug release....

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