Evaluation of Dissolution Enhancement of Aprepitant Drug in Ternary Pharmaceutical Solid Dispersions with Soluplus® and Poloxamer 188 Prepared by Melt Mixing

Nanaki, Stavroula; Eleftheriou, Rodanthi Maria; Barmpalexis, Panagiotis; Kostoglou, Margaritis; Karavas, Evangelos; Bikiaris, Dimitrios N.

doi:10.3390/sci1020048

Cited by 15 publications

(9 citation statements)

References 59 publications

(35 reference statements)

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“…Thermogravimetric analysis revealed that the MNP contents in the dry electrospun products of formulations F e 4 and F w 2 were (50.5 ± 0.3) % (w/w) and (50.9 ± 0.5) % (w/w), respectively. The MNP content in the dry electrospun product was determined based on the fact that both polymers, namely PEO and P188, undergo complete thermal decomposition in the temperature range from 400 to 500 • C (Gordon Cameron et al, 1989;Nanaki et al, 2019), whereas the MNPs are not susceptible to thermal decomposition in this temperature range. As the theoretical content of MNPs in the dry product was 50 % (w/w), the thermogravimetric analysis confirmed that MNPs were incorporated in the dry product without any loss.…”

Section: Throughout Evaluation Of the Final Formulationsmentioning

confidence: 99%

Electrospinning as a method for preparation of redispersible dry product with high content of magnetic nanoparticles

Dragar

Ileršič

Potrč

et al. 2022

International Journal of Pharmaceutics

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Section: Throughout Evaluation Of the Final Formulationsmentioning

confidence: 99%

Electrospinning as a method for preparation of redispersible dry product with high content of magnetic nanoparticles

Dragar

Ileršič

Potrč

et al. 2022

International Journal of Pharmaceutics

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“…The initiation of xylitol thermal decomposition was observed at 200 °C and total weight loss recorded at 300 °C ( Figure 3 A) [ 75 ]. Both methylcellulose and Kolliphor ® showed their final thermal decomposition at temperatures greater than 400 °C with an onset of thermal events only displayed at higher heat levels (i.e., 300 °C and 330 °C, respectively) ( Figure 3 D,E)) [ 76 , 77 ]. The onset of thermal decomposition for Primellose ® , polyvinylpyrrolidone, magnesium stearate, potassium chloride and sodium chloride were noted at 258 °C, 360 °C, 87 °C, 340 °C, and 400 °C, respectively while their final decomposition were recorded at temperatures of 600 °C and above ( Figure 3 B,C,F–H) showing their high resistance to thermal deformation as separate entities.…”

Section: Resultsmentioning

confidence: 99%

A Micro-Configured Multiparticulate Reconstitutable Suspension Powder of Fixed Dose Rifampicin and Pyrazinamide: Optimal Fabrication and In Vitro Quality Evaluation

et al. 2022

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The scarcity of age-appropriate pharmaceutical formulations is one of the major challenges impeding successful management of tuberculosis (TB) prevalence in minors. To this end, we designed and assessed the quality of a multiparticulate reconstitutable suspension powder containing fixed dose rifampicin and pyrazinamide (150 mg/300 mg per 5 mL) which was prepared employing solid–liquid direct dispersion coupled with timed dehydration, and mechanical pulverization. The optimized formulation had a high production yield (96.000 ± 3.270%), displayed noteworthy powder flow quality (9.670 ± 1.150°), upon reconstitution the suspension flow property was non-Newtonian and was easily redispersible with gentle manual agitation (1.720 ± 0.011 strokes/second). Effective drug loading was attained for both pyrazinamide (97.230 ± 2.570%w/w) and rifampicin (97.610 ± 0.020%w/w) and drug release followed a zero-order kinetic model (R2 = 0.990) for both drugs. Microscopic examinations confirmed drug encapsulation efficiency and showed that the particulates were micro-dimensional in nature (n < 700.000 µm). The formulation was physicochemically stable with no chemically irreversible drug-excipient interactions based on the results of characterization experiments performed. Findings from organoleptic evaluations generated an overall rating of 4.000 ± 0.000 for its attractive appearance and colour 5.000 ± 0.000 confirming its excellent taste and extremely pleasant smell. Preliminary cytotoxicity studies showed a cell viability above 70.000% which indicates that the FDC formulation was biocompatible. The optimized formulation was environmentally stable either as a dry powder or reconstituted suspension. Accordingly, a stable and palatable FDC antimycobacterial reconstitutable oral suspension powder, intended for flexible dosing in children and adolescents, was optimally fabricated.

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“…In TGA analysis, it was observed that the solid dispersions prepared with MLBG polymer showed minor fluctuations in mass loss, indicating increased thermal stability of dispersion at higher temperature when the percentage of mass loss were compared among both optimized dispersions, which might be due to interactions. TGA thermograms of BEX-polymer systems, indicated that the presence of BEX has minimal effect on the thermal profile of the polymeric carriers, a characteristic that strongly implies a favorable interface between drug and polymers [59][60][61].…”

Section: Discussionmentioning

confidence: 99%

Determination of Alteration in Micromeritic Properties of a Solid Dispersion: Brunauer-Emmett-Teller Based Adsorption and Other Structured Approaches

et al. 2022

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The present study is focused on the use of solid dispersion technology to triumph over the solubility-related problems of bexarotene which is currently used for treating various types of cancer and has shown potential inhibitory action on COVID-19 main protease and human ACE2 receptors. It is based on comparison of green locust bean gum and synthetic poloxamer as polymers using extensive mechanistic methods to explore the mechanism behind solubility enhancement and to find suitable concentration of drug to polymer ratio to prepare porous 3 rd generation solid dispersion. The prepared solid dispersions were characterized using different studies like X-ray diffraction (XRD), thermal gravimetric analysis (TGA), scanning electron microscopy (SEM), Brunauer-Emmett-Teller (BET), differential scanning calorimetry (DSC), and particle size analysis in order to determine the exact changes occurred in the product which are responsible for enhancing solubility profiles of an insoluble drug. The results showed different profiles for particle size, solubility, dissolution rate, porosity, BET, and Langmuir specific surface area of prepared solid dispersions by using different polymers. In addition to the comparison of polymers, the BET analysis deeply explored the changes occurred in all dispersions when the concentration of polymer was increased. The optimized solid dispersion prepared with MLBG using lyophilization technique showed reduced particle size of 745.7±4.4 nm, utmost solubility of 63.97%, pore size of 211.597 Å, BET and Langmuir specific surface area of 5.6413 m 2 /g and 8.2757 m 2 /g, respectively.

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Evaluation of Dissolution Enhancement of Aprepitant Drug in Ternary Pharmaceutical Solid Dispersions with Soluplus® and Poloxamer 188 Prepared by Melt Mixing

Cited by 15 publications

References 59 publications

Electrospinning as a method for preparation of redispersible dry product with high content of magnetic nanoparticles

Electrospinning as a method for preparation of redispersible dry product with high content of magnetic nanoparticles

A Micro-Configured Multiparticulate Reconstitutable Suspension Powder of Fixed Dose Rifampicin and Pyrazinamide: Optimal Fabrication and In Vitro Quality Evaluation

Determination of Alteration in Micromeritic Properties of a Solid Dispersion: Brunauer-Emmett-Teller Based Adsorption and Other Structured Approaches

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