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1.
Eur J Pharm Sci ; 163: 105860, 2021 Aug 01.
Article in English | MEDLINE | ID: mdl-33901683

ABSTRACT

The purpose of this study was to associate the poorly water-soluble antihypertensive drugs candesartan cilexetil (CC) and hydrochlorothiazide (HCTZ) as fixed-dose combination, in the form of ternary Amorphous Solid Dispersions (ASD), using hydroxypropylmethylcellulose acetate succinate (HPMCAS) type M as polymeric carrier. The potential of the system to generate and to maintain supersaturation of both drugs was also evaluated. The ASDs were prepared by ball milling technique and solid-state characterization was performed by differential scanning calorimetry (DSC), Fourier transformed infrared spectroscopy (FTIR) and X-ray powder diffraction (XRPD). Interaction between drugs and polymer in solid-state was evaluated by molecular metadynamics simulations. In vitro supersaturation profiles were determined in biorelevant medium. Physicochemical stability of ASDs was also evaluated under different storage conditions. Amorphization of both drugs was confirmed by solid-state characterization techniques. Molecular metadynamics simulations indicated that CC has stronger interaction with HMPCAS than HCTZ. In vitro supersaturation studies have shown that ternary ASDs could generate and maintain supersaturation of both drugs in biorelevant medium. The polymer reduced the desupersaturation of both drugs. Ternary ASDs also showed physicochemical stability over a period of 90 days, demonstrating the potential of the polymer in reducing the drugs recrystallization over the time. Ternary ASDs of CC, HCTZ and HPMCAS can be considered a promising system to associate the drugs as fixed-dose combinations. Also, these systems generate and maintain supersaturation of both drugs in biorelevant medium, with great storage stability. HPMCAS M was a good carrier for reducing the desupersaturation of associated HCTZ and CC.


Subject(s)
Antihypertensive Agents , Drug Carriers , Drug Compounding , Polymers , Solubility , X-Ray Diffraction
2.
Colloids Surf B Biointerfaces ; 187: 110673, 2020 Mar.
Article in English | MEDLINE | ID: mdl-31812452

ABSTRACT

Soluplus® (polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer) is a solubilizing copolymer commonly applied as carrier in solid dispersions of poorly soluble drugs. This polymer is used to increase the apparent solubility of drugs with low aqueous solubility and consequently enhance drug absorption by the human gastrointestinal tract. To select the appropriate carrier to compose solid dispersions, in vitro supersaturation studies were applied as a pre-formulation tool, using different dissolution media. During in vitro supersaturation studies performed for the poorly soluble drug candesartan cilexetil, it was found that Soluplus® may interact with components of the biorelevant medium Fasted State Simulated Intestinal Fluid, lowering the drug apparent solubility. Dynamic Light Scattering and Transmission Electron Microscopy analyses were performed, as well as fluorescence measurements, aiming to characterize the interaction behavior and determine the polarity of the microenvironment. It was evidenced that Soluplus® interacted preferentially with lecithin, forming mixed micelles with a more polar microenvironment, which lowered the candesartan cilexetil solubilization capacity and consequently reduced its apparent solubility in the biorelevant medium. These findings are important to emphasize the key role of the media selection for in vitro solubility-supersaturation studies, where media that could mimic the human gastrointestinal environment are recommended.


Subject(s)
Benzimidazoles/chemistry , Biphenyl Compounds/chemistry , Polyethylene Glycols/chemistry , Polyvinyls/chemistry , Tetrazoles/chemistry , Buffers , Culture Media/chemistry , Dynamic Light Scattering , Fluorescence , Gastrointestinal Tract/drug effects , Hydrogen-Ion Concentration , Lecithins/chemistry , Micelles , Microscopy, Electron, Transmission , Nanostructures/chemistry , Nanostructures/ultrastructure , Solubility
3.
Pharm Dev Technol ; 25(1): 89-99, 2020 Jan.
Article in English | MEDLINE | ID: mdl-31583925

ABSTRACT

Candesartan cilexetil (CC) is a poorly soluble antihypertensive drug with in vivo absorption limited by its low aqueous solubility. Aiming to generate CC supersaturation as strategy to improve its absorption and bioavailability, amorphous solid dispersions (ASDs) of CC with hydroxypropylmethylcellulose acetate succinate type M (HPMCAS M) were developed and evaluated by in vitro and in vivo techniques. The ASDs were characterized by several solid-state techniques and evaluated regarding the supersaturation generation and maintenance under non-sink conditions in biorelevant medium. Stability studies at different storage conditions and in vivo pharmacodynamics studies were performed for the best formulation. The ASD developed presented appropriate drug amorphization, confirmed by solid state characterization, and CC apparent solubility increases around 85 times when compared to the pure crystalline drug. Supersaturation was maintained for up to 24 h in biorelevant medium. The in vivo pharmacodynamics studies revealed that ASD of CC with the polymer HPMCAS M presented an onset of action about four times faster when compared to the pure crystalline drug. The CC-HPMCAS ASD were successfully developed and demonstrated good physical stability under different storage conditions as well as promising results that indicated the ASD potential for improvement of CC biopharmaceutical properties.


Subject(s)
Benzimidazoles/chemistry , Biphenyl Compounds/chemistry , Tetrazoles/chemistry , Animals , Antihypertensive Agents/chemistry , Antihypertensive Agents/pharmacokinetics , Benzimidazoles/pharmacokinetics , Biological Availability , Biphenyl Compounds/pharmacokinetics , Chemistry, Pharmaceutical/methods , Drug Carriers/chemistry , Drug Delivery Systems/methods , Male , Methylcellulose/analogs & derivatives , Methylcellulose/chemistry , Polymers/chemistry , Rats , Rats, Wistar , Solubility/drug effects , Tetrazoles/pharmacokinetics
4.
AAPS PharmSciTech ; 19(7): 2866-2874, 2018 Oct.
Article in English | MEDLINE | ID: mdl-29934804

ABSTRACT

The USP Apparatus 3 is a compendial dissolution Apparatus that has been mainly used to assess the performance of modified-release drug products. However, this Apparatus can be applied to dissolution testing of immediate-release tablets as well, with several advantages such as lower consumption of dissolution media, reduced setup time in quality control routine, and minimized hydrodynamic issues. In this work, three immediate-release (IR) tablets containing antihypertensive drugs of different Biopharmaceutic Classification System (BCS) classes were evaluated in order to assess the possible interchangeability between the official dissolution method using typical USP Apparatus 1 or 2 and the proposed methods using USP Apparatus 3. Depending on the selection of the appropriate operational conditions, such as dip rate and sieve mesh size, it was observed that USP Apparatus 3 could provide similar dissolution profiles compared to USP Apparatus 1 or 2 to the drug products tested. In addition, USP Apparatus 3 avoided conning issues related to USP Apparatus 2. The successful application of USP Apparatus 3 in dissolution tests for IR drug products depends on the definition of specific test conditions for each product, considering all the equipment variables, as well as drug and formulation characteristics.


Subject(s)
Antihypertensive Agents/chemistry , Antihypertensive Agents/pharmacokinetics , Drug Liberation , Quality Control , Solubility , Tablets
5.
Carbohydr Polym ; 184: 199-206, 2018 Mar 15.
Article in English | MEDLINE | ID: mdl-29352911

ABSTRACT

Among the strategies to improve the biopharmaceutic properties of poorly soluble drugs, Supersaturating Drug Delivery Systems like polymer-based amorphous solid dispersions (SD) have been successfully applied. The screening of appropriate polymeric carriers to compose SD is a crucial point on their development. In this study, hydroxypropylmethylcellulose (HPMC), hydroxypropylmethylcellulose acetate succinate (HPMCAS) types L, M and H and polyvinyl caprolactam-polyvinyl acetate-polyethylene glycol graft copolymer (SOL) were evaluated by in vitro supersaturation studies regarding their anti-precipitant ability on the poorly soluble drug candesartan cilexetil (CC) under two different media, including biorelevant conditions. According to the results, HPMCAS M was considered the best carrier to develop SD containing CC among all the polymers tested, due to its good anti-precipitant performance in both media. In addition, the medium used in the in vitro supersaturation studies played an important role on the results, and its selection should be carefully done.


Subject(s)
Drug Carriers/chemistry , Methylcellulose/analogs & derivatives , Benzimidazoles/chemistry , Biphenyl Compounds/chemistry , Drug Delivery Systems/methods , Methylcellulose/chemistry , Polymers/chemistry , Solubility , Tetrazoles/chemistry
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