Influence of Solid Drug Delivery System Formulation on Poorly Water-Soluble Drug Dissolution and Permeability

Krstić, Marko; Popović, M.; Dobričić, Vladimir; Ibrić, Svetlana

doi:10.3390/molecules200814684

Cited by 41 publications

(24 citation statements)

References 23 publications

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“…Various methods, for example, salt formation, co-solvency, micellar solubilization, solid dispersions and complexation by cyclodextrins (CDs), nanosizing and particles engineering have been used successfully to increase the solubility of drugs [1,2,3,4]. Recently, lipid drug delivery systems or nano-emulsions have been investigated, especially for highly lipophilic drugs [5,6]. Although these conventional solubilization techniques have been well-described and used successfully for many drugs, each possesses limitations in terms of the solubilizing capacity, patient acceptability and safety [7,8].…”

Section: Introductionmentioning

confidence: 99%

Effect of Cyclodextrin Types and Co-Solvent on Solubility of a Poorly Water Soluble Drug

et al. 2016

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The aim of the study was to investigate the solubility of piroxicam (Prx) depending on the inclusion complexation with various cyclodextrins (CDs) and on ethanol as a co-solvent. The phase-solubility method was applied to determine drug solubility in binary and ternary systems. The results showed that in systems consisting of the drug dissolved in ethanol–water mixtures, the drug solubility increased exponentially with a rising concentration of ethanol. The phase solubility measurements of the drug in aqueous solutions of CDs, β-CD and γ-CD exhibited diagrams of AL-type, whereas 2,6-dimethyl-β-CD revealed AP-type. The destabilizing effect of ethanol as a co-solvent was observed for all complexes regardless of the CD type, as a consequence of it the lowering of the complex formation constants. In systems with a higher concentration of ethanol, the drug solubility was increased in opposition to the decreasing complex formation constants. According to this study, the type of CDs played a more important role on the solubility of Prx, and the use of ethanol as a co-solvent exhibited no synergistic effect on the improvement of Prx solubility. The Prx solubility was increased again due to the better solubility in ethanol.

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Section: Introductionmentioning

confidence: 99%

Effect of Cyclodextrin Types and Co-Solvent on Solubility of a Poorly Water Soluble Drug

et al. 2016

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“…Simulacija bioloških membrana postiže se odgovarajućim odabirom rastvarača i supstanci od kojih se formira veštačka membrana. Dugi niz godinа se PAMPA test koristio u proceni permeаbilnosti novosintetisаnih lekovitih susptаnci, а tek poslednjih godinа se koristi za ispitivаnje permeаbilnosti lekovite supstаnce iz rаzličitih fаrmаceutskih oblikа i sаvremenih nosаčа [8,9,12,13].…”

Section: Uvodunclassified

Solid dispersions with carbamazepine: Optimization of formulation, characterization and examination of long-term stability

Krstić¹,

Lukić

Bušatlić³

et al. 2018

Hem Ind

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Izvod U ovom radu je izvršena optimizacija formulacija čvrstih disperzija sa karbamazepinom, primenom metode D-optimalnog eksperimentalnog dizajna smeše, u cilju povećanja brzine rastvaranja navedene teško rastvorljive aktivne supstance. Primenom metode eksperimentalnog dizajna smeše, formulisane su čvrste disperzije variranjem udela karbamazepina (30-50 %), Gelucire® 44/14 (20-40 %) i polimera Soluplus® (30-50 %) (ulazni parametri). Izrađeno je 16 formulacija, iz kojih je ispitana in vitro brzina rastvaranja karbamazepina. Kao izlazni parametri praćeni su procenti rastvorenog karbamazepina, nakon 10, 20, 30, 45 i 60 minuta. Najveći udeo oslobođenog karbamazepina iz čvrstih disperzija (preko 80 % zа 30 minutа) se postiže pri udelima aktivne supstance od oko 40 %, Soluplus® oko 45 % i Gelucire® 44/14 oko 25%. Nakon obrade podataka i optimizacije, iz različitih delova optimizacione oblasti odabrane su 3 formulacije za dalja ispitivanja. Rezultati ispitivanja odabranih optimizovanih uzoraka čvrstih disperzija nakon izrade, kao i nakon skladištenja 24 meseca pod ambijentalnim uslovima (25 °C, 40 % RH), dobijeni primenom metoda diferencijalne skenirajuće kalorimetrije (DSC), infracrvene spektroskopije sa Furijeovom transformacijom (FT-IR) i Ramanske spektoskopije potvrdili su njihovu stabilnost i očuvanje karbamazepina u polimrfnom obliku III, jedinom farmakološki aktivnom obliku. Primenom PAMPA (eng. Parallel Artificial-Membrane Permeability Assay) testa pokazano je da je u dve, od tri ispitivane optimizovane čvrste disperzije očuvana, odnosno blago povećana permeabilnost karbamazepina.

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“…However, the PAMPA assay has found so far greater acceptance for gastrointestinal tract passive transport prediction, since a broader spectrum of nanomedicines has already been tested, such as polymeric micelles [128], [129,130], liposomes [131,132], solid lipid nanoparticles [133] and solid self-nanoemulsifying drug delivery systems [134,135]. Overall, results pointed out that inclusion in nanocarriers may significantly alter the passive diffusion pattern of the free drug.…”

Section: Model Configurationmentioning

confidence: 99%

In vitro screening of nanomedicines through the blood brain barrier: A critical review

2016

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Influence of Solid Drug Delivery System Formulation on Poorly Water-Soluble Drug Dissolution and Permeability

Cited by 41 publications

References 23 publications

Effect of Cyclodextrin Types and Co-Solvent on Solubility of a Poorly Water Soluble Drug

Effect of Cyclodextrin Types and Co-Solvent on Solubility of a Poorly Water Soluble Drug

Solid dispersions with carbamazepine: Optimization of formulation, characterization and examination of long-term stability

In vitro screening of nanomedicines through the blood brain barrier: A critical review

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