Your search keyword '"solid dispersion"' showing total 3,760 results

1. Enhanced antichemobrain activity of amino acid assisted ferulic acid solid dispersion in adult zebrafish (Danio rerio).

Author

Shukla, Deeksha, Kaur, Simranjit, Singh, Arti, Narang, Raj Kumar, and Singh, Charan

Abstract

Chemotherapy-induced cognitive impairment (CICI), also known as "chemobrain," is a common side effect of breast cancer therapy which causes oxidative stress and generation of reactive oxygen species (ROS). Ferulic acid (FA), a natural polyphenol, belongs to BCS class II is confirmed to have nootropic, neuroprotective and antioxidant effects. Here, we have developed FA solid dispersion (SD) in order to enhance its therapeutic potential against chemobrain. An amorphous ferulic acid loaded leucin solid dispersion (FA-Leu SD) was prepared by utilizing amino acid through spray-drying technique. The solid-state characterization was carried out via Fourier-transform infrared spectroscopy (FT-IR), differential scanning calorimetry (DSC), X-ray diffraction (XRD), and field emission scanning electron microscopy (FE-SEM). Additionally, in-vitro release studies and antioxidant assay were also performed along with in-vivo locomotor, biochemical and histopathological analysis. The physical properties showed that FA-Leu SD so formed exhibited spherical, irregular surface hollow cavity of along with broad melting endotherm as observed from FE-SEM and DSC results. The XRD spectra demonstrated absence of sharp and intense peaks in FA-Leu SD which evidenced for complete encapsulation of drug into carrier. Moreover, in-vitro drug release studies over a period of 5 h in PBS (pH 7.4) displayed a significant enhanced release in the first hr (68. 49 ± 5.39%) and in-vitro DPPH assay displayed greater antioxidant potential of FA in FA-Leu SD. Furthermore, the in-vivo behavioral findings of FA-Leu SD (equivalent to 150 mg/kg of free FA) exhibited positive results accompanied by in-vivo biochemical and molecular TNF-α showed a significant difference (p < 0.001) vis-à-vis DOX treated group upon DOX + FA-Leu SD. Additionally, histopathological analysis revealed neuroprotective effects of FA-Leu SD together with declined oxidative stress due to antioxidant potential of FA which was induced by anticancer drug doxorubicin (DOX). Overall, the above findings concluded that spray-dried FA-Leu SD could be useful for the treatment of chemotherapy induced cognitive impairment. [ABSTRACT FROM AUTHOR]

Published

2024

2. Spray-dried chitosan oligosaccharide microparticles with polyvinyl alcohol-based dispersions for improved gefitinib solubility.

Author

Ahir, Shubham B., Vallamkonda, Bhaskar, Reddy Challa, Ranadheer, Chopade, Nishant, Deshmukh, Prashant K., and More, Mahesh P.

Subjects

*DRUG delivery systems, *ZETA potential, *SCANNING electron microscopy, *NANOPARTICLES, *SOLUBILITY

Abstract

AbstractThe aim of research is to enhance the solubility of crystalline gefitinib (GF), a poorly water-soluble drug, by developing drug delivery systems using chitosan oligosaccharide (COS) particle engineering. Fabrication utilizes ionic gelation followed by spray drying. The preliminary evaluations such as Uv-Vis, FTIR, DSC followed by advanced techniques like SEM and invitro drug release characteristics was performed along with solubility study. The spray-dried particles measured a mean diameter of 3.18 ± 0.5 microns, %EE as well as load w/w improved from 63.25 ± 2.1% and 37.98 ± 1.5% w/w (COS nanoparticles) to 78.15 ± 2.6% and 45.34 ± 1.6% w/w (engineered microparticles), respectively. The zeta potential and in vitro studies demonstrated 41 ± 3.5 mV and 92 ± 2.1% (w/w) release suggest long-term stability and prolonged release. This novel engineering approach effectively enhances GF solubility and surface characteristics, offering promising potential for improving delivery characteristics. [ABSTRACT FROM AUTHOR]

Published

2024

3. Co-Amorphous Solid Dispersion System for Improvement in Dissolution Profile of N -(((1 r ,4 r)-4-((6-fluorobenzo[ d ]oxazol-2-yl)amino)cyclohexyl)methyl)-2-methylpropane-2-sulfonamide as a Neuropeptide Y5 Receptor Antagonist.

Author

Tanaka, Hironori and Ueda, Hiroshi

Subjects

*MELTING points, *TERNARY system, *THERMAL analysis, *INTERMOLECULAR interactions, *INFRARED spectra

Abstract

Background/Objectives: Brick dust molecules exhibit high melting points and ultralow solubility. Overcoming this solubility issue is challenging. Previously, we formulated a co-amorphous system for a neuropeptide Y5 receptor antagonist (NP) as a brick dust drug using sodium taurocholate (ST) to improve its dissolution profile. In this study, we have designed a ternary amorphous system involving polymer addition to further improve a co-amorphous system. Methods: The amorphous samples were prepared by the ball milling. The thermal and spectroscopic analyses were performed, and the isothermal crystallization and dissolution profiles were evaluated. Results: The ball milling of NPs, ST, and each of the three types of polymers successfully converted crystalline NPs to amorphous NPs. Thermal analysis confirmed the formation of a single amorphous phase. The infrared spectra revealed a specific interaction between an NP and ST in the co-amorphous system. Moreover, the intermolecular interactions of NP-ST were maintained in the ternary amorphous systems, suggesting the miscible dispersion of the co-amorphous system into the polymer via weak interactions as co-amorphous solid dispersions. The dissolution profile of co-amorphous NP-ST was 4.1- and 6.7-fold higher than that of crystalline NPs in pH 1.2 and 6.8 buffers, respectively. The drug concentration in the ternary amorphous system in pH 1.2 and 6.8 buffers became 1.1–1.2- and 1.4–2.7-fold higher than that seen in the co-amorphous system, respectively. Conclusions: Co-amorphous solid dispersion is a promising method for enhancing the solubility of brick dust molecules. [ABSTRACT FROM AUTHOR]

Published

2024

4. Development of Quercetin Solid Dispersion-Loaded Dissolving Microneedles and In Vitro Investigation of Their Anti-Melanoma Activities.

Author

Khuanekkaphan, Monsicha, Netsomboon, Kesinee, Fristiohady, Adryan, and Asasutjarit, Rathapon

Subjects

*BCL-2 genes, *TRANSDERMAL medication, *MOLDS (Casts & casting), *SKIN cancer, *DRUG administration, *QUERCETIN, *DACARBAZINE

Abstract

Background: Melanoma is a skin cancer that requires early treatment to prevent metastasis. In particular, the superficial spreading melanoma, excisional surgery with local administration of anti-cancer drugs via microneedles is currently considered a potential combination therapy. Quercetin is a natural flavonoid having activities against melanoma cells. Unfortunately, the therapeutic effect is limited by its poor water solubility. Objectives: This study aimed to develop formulations of solid dispersion-loaded dissolving microneedles (SD-DMNs) of quercetin and to investigate their in vitro activities against melanoma cells. Methods: Quercetin solid dispersions (Q-SDs) were prepared using polyvinylpyrrolidone K30 (PVP) via a solvent technique. The optimized Q-SD was selected for preparing Q-SD-loaded dissolving microneedles (Q-SD-DMNs) using a mold casting method. Results: Q-SDs had higher water solubility than that of quercetin by 5–10 times depending on the ratio of quercetin-to-PVP. The presence of quercetin in the Q-SD and Q-SD-DMN were in an amorphous form. The obtained Q-SD-DMNs had pyramid-shaped microneedles. Their strength depended on the compositions, i.e., ratios of hyaluronic acid-to-sodium carboxymethylcellulose and the content of Q-SD. An optimized Q-SD-DMN increased the in vitro skin permeation of quercetin compared to that of microneedles containing quercetin (without being processed). From the molecular investigations, the optimized Q-SD-DMN reduced the viability of the A375 cells (melanoma cells) through the induction of cell apoptosis. It suppressed Bcl-2 gene expression and led to a lower content of Bcl-2 in the cells. Conclusions: The optimized Q-SD-DMN has a potential for use in further in vivo studies as a synergistic method of melanoma treatment. [ABSTRACT FROM AUTHOR]

Published

2024

5. Polymers Enhance Chlortetracycline Hydrochloride Solubility.

Author

Zhang, Chao, Li, Bing, Bai, Yubin, Liu, Yangling, Zhang, Yong, and Zhang, Jiyu

Subjects

*X-ray powder diffraction, *DRUG delivery systems, *PARTICLE size distribution, *DIFFERENTIAL scanning calorimetry, *SCANNING electron microscopy, *DRUG solubility

Abstract

Chlortetracycline hydrochloride (CTC) is a broad-spectrum tetracycline antibiotic with a wide range of antibacterial activities. Due to low solubility, poor stability, and low bioavailability, clinical preparation development is limited. We sought to improve these solubility and dissolution rates by preparing solid dispersions. A hydrophilic polymer was selected as the carrier, and a solid dispersion was prepared using a medium grinding method, with samples characterized by scanning electron microscopy (SEM), differential scanning calorimetry (DSC), thermogravimetric analysis (TGA), powder X-ray diffraction (PXRD), Fourier-transform infrared spectroscopy (FT-IR), and particle size distribution (PSD). To maximize CTC solubility and stability, different polymer types and optimal drug-to-polymer ratios were screened. The solubility of optimized povidone K30 (PVPK30) (1/0.75, w/w)-, hydroxypropyl-β-cyclodextrin (HP-β-CD) (1/2, w/w)-, and gelatin (1/1, w/w)-based solid dispersions was 6.25-, 7.7-, and 3.75-fold higher than that of pure CTC powder, respectively. Additionally, in vitro dissolution studies showed that the gelatin-based solid dispersion had a higher initial dissolution rate. SEM and PS analyses confirmed that this dispersion had smaller and more uniform particles than PVPK30 and HP-β-CD dispersions. Therefore, successful solid polymer dispersion preparations improved the CTC solubility, dissolution rates, and stability, which may have potential as drug delivery systems. [ABSTRACT FROM AUTHOR]

Published

2024

6. Improving the release rate of lurasidone hydrochloride from fast disintegrating tablets using green solvent evaporation technique.

Author

Sokač, Katarina, Prebeg, Teodora, Barbarić, Joško, and Žižek, Krunoslav

Subjects

*POLYETHYLENE glycol, *DRUG laws, *ANTIPSYCHOTIC agents, *WATER use, *DISPERSION (Chemistry), *DRUG solubility

Abstract

Lurasidone hydrochloride (LRS HCl), an antipsychotic drug with low aqueous solubility, was dispersed in a matrix of polyethylene glycol (PEG) using the green solvent evaporation method. The green solvents used were water and ethanol. Solid dispersions and physical mixtures were prepared at various drug-to-polymer ratios, characterized by XRPD, FTIR, and DSC analyzes, and then used for the preparation of fast disintegrating tablets (FDTs). The tablets were analyzed for hardness, disintegration, and in vitro dissolution of LRS HCl. In vitro release profiles showed a significant improvement in the release rate of LRS HCl from tablets prepared with solid dispersions compared to those containing untreated LRS HCl or the physical mixture. The presented results confirm that the use of solid dispersions prepared by the green solvent evaporation method is a promising approach to enhance the in vitro dissolution of poorly soluble drugs such as LRS HCl. The applicability of mathematical models was tested to describe the release profiles of LRS HCl from FDTs. The diffusion process, following Fick's law for drug release, appears to be the predominant release mechanism for this specific drug in FDTs. [ABSTRACT FROM AUTHOR]

Published

2024

7. Enhancement of aqueous solubility of hesperidin and naringenin utilizing hydrotropic solubilization technique: characterization and in vitro evaluation.

Author

Arora, Bhawna, Lather, Viney, Pathalingappa, Mallikarjuna Bandrehalli, and Walia, Ramanpreet

Subjects

*IN vitro studies, *SALICYLATES, *FLAVONOIDS, *SOLUBILITY, *PHYSICAL & theoretical chemistry, *DRUG stability, *ORGANIC compounds

Abstract

The therapeutic potential of two important flavonoids, i.e. hesperidin and naringenin, remains unutilized due to pharmacokinetics issues, especially poor aqueous solubility. Hydrotropic solid dispersions with different agents like sodium salicylate, niacinamide, benzoic acid, and urea etc. can change the solubility profile of poorly soluble drugs. The current study investigated the potential of different hydrotropic agents in improving the solubility of both natural bioactives. The hydrotropic solid dispersion in 1:3 w/w drug: sodium salicylate ratio showed maximum solubility and dissolution amongst all the tested hydrotropes. This novel and economical approach could be explored for other poorly soluble pharmaceuticals. [ABSTRACT FROM AUTHOR]

Published

2024

8. Enhancement of Dissolution Rate of Piperine Using Solid Dispersion Approach and Evaluation of Its Antioxidant Activity.

Author

Dewi, Rizna Triana, Shiddiqi, Muhamad Fikri Ash, Hapsari, Vidia, Naulidia, Rifqah Azzahra, Yuliani, Tri, Angelina, Marissa, Okselni, Tia, and Septama, Abdi Wira

Subjects

*BLACK pepper (Plant), *FREE radicals, *OXIDANT status, *X-ray diffraction, *DRUG development, *DRUG solubility

Abstract

Piperine is a phenolic compound in black pepper (Piper nigrum Linn) and Piper longum. It has been used in traditional medicine and has many pharmacological properties. However, its poor solubility in water has hindered the development of drugs with piperine as the main ingredient. In this study, solid dispersions of piperine were formulated using hydrophilic polymer (PVP) and hydrophobic polymer (Eudragit) to improve its dissolution rate and antioxidant activity. The solid dispersions were prepared using solvent evaporation techniques with various ratios of pure piperine to polymer (2:1, 1:1 and 2:1, w/w). FESEM, DSC, XRD, and FT-IR characterized the resulting solid dispersions of piperine. The dissolution rates were measured in distilled water, and antioxidant activity was evaluated using DPPH and FRAP free radical scavenging assays. The physicochemical characterization results indicated that solid dispersions with PVP and Eudragit had properties different from those of pure piperine. The dissolution test results showed that the solid dispersions with PVP (2:1) and Eudragit (1:1) exhibited the best dissolution rates, at 40.32 and 38.02 %, respectively. Furthermore, PVP and Eudragit solid dispersions (2:1, 1:1) demonstrated a higher antioxidant capacity in scavenger DPPH and FRAP free radicals than other formulations. These findings suggest that both polymers can increase piperine solubility, leading to increased antioxidant activity. However, further studies are needed to understand the underlying mechanisms. [ABSTRACT FROM AUTHOR]

Published

2025

9. Optimization of solid dispersion technique and gliclazide to carrier (PVP K30) ratio for solubility enhancement

Author

Berivan Ajeel Ibrahim and Nozad Rashid Hussein

Subjects

dissolution enhancement, improving solubility, solid dispersion, polyvinyl pyrrolidone k30, gliclazide, Medicine

Abstract

Background and objective: Poorly water-soluble dugs provide less dissolution rate and bioavailability; hence, it minimizes the pharmacological effect of orally administered medications. Gliclazide is a sulfonylurea antidiabetic medication of the second generation, used to treat type II diabetes mellitus. It belongs to the class II drugs of biopharmaceutic classification system, indicating that it has high permeability and poor aqueous solubility. The aim of this study is to determine an optimum solid dispersion method and drug to carrier ratio to improve the solubility of gliclazide. Methods: Solid dispersions of gliclazide were formulated with polyvinyl pyrrolidone K30 using various drug to carrier ratios (1:1, 1:3, and 1:5) by utilizing kneading and solvent evaporation methods. Solubility and dissolution rate of solid dispersion formulas were compared with pure drug and co-ground mixtures. The formulations were further evaluated in terms of percentage of yield, drug content, FTIR, SEM, DSC, and XRD studies. Results: The highest solubility improvement of gliclazide was obtained at the ratio 1:5 of gliclazide and PVP K30 utilizing solvent evaporation method, solubility increased about 2.54 folds (98.299 ± 5.77 µg/ml) as compared to pure gliclazide (38.739 µg/ml). Meanwhile, the greatest improvement in gliclazide dissolution rate was observed in the same solid dispersion formula that was about 105.76 % after 30 minutes. FTIR demonstrated no unwanted interaction between the drug and carrier. While, SEM, DSC, and XRD showed crystallinity of the drug was minimized and converted to amorphous form in solid dispersion formula. Conclusion: Based on the investigations of this study, it can be concluded that the drug to carrier weight ratios and preparation methods had the influence on the drug solubility and the release rate. The obtained data revealed that the solvent evaporation is the best method of solid dispersion for enhancing gliclazide solubility using PVP K30 with the ratio 1:5 of the drug and carrier.

Published

2024

10. Preparation, optimization, and characterization of genistein-ginseng long-acting polymeric gel as a breast cancer treatment alternative

Author

Samaa Abdullah, Shadab Md, Abeer A. Altamimi, Hadil Alahdal, Raisuddin Ali, Huda Mohammed Alkreathy, and Shahid Karim

Subjects

Genistein, Ginseng, Solid dispersion, In-situ gelling, Penetration, Dissolution enhancement, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract To address the prevalent genistein (GST) metabolism and inadequate intestinal absorption, an oral long-acting and gastric in-situ gelling gel was designed to encapsulate and localize the intestinal release of the loaded genistein-ginseng (GST-GNS) solid dispersion. Because of the high breast perfusion of GST upon oral absorption, the GST-GNS solid dispersion was developed to enhance GST's dissolution and penetration while offering a synergistic impact against breast cancer (BC). Physiochemical analysis of the GST-GNS solid dispersion, release analysis, gel characterizations, storage stability, penetration, and in vitro cytotoxicity studies were carried out. GST-GNS solid dispersion showed improved dissolution and penetration as compared to raw GST. GST-GNS solid dispersion homogenous shape particles and hydrophilic contacts were revealed by scanning electron microscopy and Fourier Transform-Infrared analysis, respectively. GST-GNS solid dispersion’s diffractogram shows the amorphous character. A second modification involved creating a gastric in-situ gelling system loaded with GST-GNS solid dispersion. This system demonstrated improved GST penetration employing the solid dispersion, as well as the localizing of the GST release at the intestinal media and antitumor synergism against BC. For a better therapeutic approach for BC, the innovative oral GST long-acting gel encasing the GST-GNS solid dispersion would be recommended. Graphical Abstract

Published

2024

11. An Additive Manufacturing MicroFactory: Overcoming Brittle Material Failure and Improving Product Performance through Tablet Micro-Structure Control for an Immediate Release Dose Form.

Author

Prasad, Elke, Robertson, John, and Halbert, Gavin W.

Subjects

*SOLID dosage forms, *MELT spinning, *FOURIER transform infrared spectroscopy, *DRUG solubility, *X-ray powder diffraction

Abstract

Additive manufacturing of pharmaceutical formulations offers advanced micro-structure control of oral solid dose (OSD) forms targeting not only customised dosing of an active pharmaceutical ingredient (API) but also custom-made drug release profiles. Traditionally, material extrusion 3D printing manufacturing was performed in a two-step manufacturing process via an intermediate feedstock filament. This process was often limited in the material space due to unsuitable (brittle) material properties, which required additional time to develop complex formulations to overcome. The objective of this study was to develop an additive manufacturing MicroFactory process to produce an immediate release (IR) OSD form containing 250 mg of mefenamic acid (MFA) with consistent drug release. In this study, we present a single-step additive manufacturing process employing a novel, filament-free melt extrusion 3D printer, the MicroFactory, to successfully print a previously 'non-printable' brittle Soluplus®-based formulation of MFA, resulting in targeted IR dissolution profiles. The physico-chemical properties of 3D printed MFA-Soluplus®-D-sorbitol formulation was characterised by thermal analysis, Fourier Transform Infrared spectroscopy (FTIR), and X-ray Diffraction Powder (XRPD) analysis, confirming the crystalline state of mefenamic acid as polymorphic form I. Oscillatory temperature and frequency rheology sweeps were related to the processability of the formulation in the MicroFactory. 3D printed, micro-structure controlled, OSDs showed good uniformity of mass and content and exhibited an IR profile with good consistency. Fitting a mathematical model to the dissolution data correlated rate parameters and release exponents with tablet porosity. This study illustrates how additive manufacturing via melt extrusion using this MicroFactory not only streamlines the manufacturing process (one-step vs. two-step) but also enables the processing of (brittle) pharmaceutical immediate-release polymers/polymer formulations, improving and facilitating targeted in vitro drug dissolution profiles. [ABSTRACT FROM AUTHOR]

Published

2024

12. Solubility Enhancement Solid Dispersion Fenofibric Acid HPMC and Their Physicochemical Characterization.

Author

Anggraini, Deni, Fernando, Armon, and Annisa, Putri

Subjects

MEDICINAL plants, THERAPEUTICS, PLANT extracts, TRADITIONAL medicine, DIAGNOSTIC imaging

Abstract

Fenofibric acid is a water-soluble antihyperlipidemia drug, and the solubility of fenofibric acid is 162.5 µg/mL.1 Solid dispersion systems are aimed to improve the solubility of poorly soluble active pharmaceutical ingredients. This study aimed to formulate and characterization fenofibric acid-hydroxypropyl methylcellulose (HPMC) solid dispersion. The solid dispersion of fenofibric acid was prepared using the solvent evaporation method. The ratios of fenofibric acid and HPMC were F1 (1:1), F2 (1:3) and F3 (1:5). The formulated products were subjected to various physicochemical characterisation using X-ray diffractograms, DSC thermograms, SEM and FTIR, including particle size distribution and solubility test. The physicochemical characterisation showed the specific characteristics of the solid dispersions. X-ray diffractograms, DSC thermograms and SEM photographs indicated that fenofibric acid was amorphous and trapped in the HPMC matrix. FTIR test results show no new functional groups indicating no chemical interaction between the active pharmaceutical ingredients and the matrix. SEM results show that the solid dispersion system was morphologically different from pure fenofibric acid and the physical mixture. The solubility of fenofibrate acid was 42.33 µg/mL while the solubility of solid dispersion F3 ratio 1:3 was 113.25 µg/mL. The solubility of fenofibrate acid solid dispersion with HPMC 1:3 ratio is 2.68 times greater than that of pure fenofibrate acid. [ABSTRACT FROM AUTHOR]

Published

2024

13. An Investigational Study For Screening Of Different Polymers For The Solubility Enhancement Of Pazopanib Hydrochloride Via Formulation Of Third-Generation Solid Dispersion.

Author

Mishra, Ramendu, Devi, Anjana, and Suman, Swati

Subjects

DRUG solubility, SOLUBILITY, DISPERSION (Chemistry), DRUG efficacy, POLYMERS, SOLIDS, BIOAVAILABILITY, POLYMERSOMES

Abstract

In the conducted research study, solubility investigation was performed to elucidate the dissolution rate and behaviour of a drug incorporated within a solid dispersion matrix. The foremost objective was to appraise the impact of formulation parameters on the improvement of drug's solubility, the list of factors influencing the bioavailability. To this end, a systematic series of experiments were undertaken, wherein the drug was co-precipitated with a hydrophilic polymer carrier using various solvent systems and ratios. The resulting solid dispersions were meticulously characterized, employing state-ofthe-art analytical techniques. Subsequently, solubility profiles were generated through equilibrium solubility studies, encompassing a range of pH conditions and temperatures, to comprehensively evaluate the dissolution behaviour of the drug. Based on study, it was concluded that the solubility of Pazopanib Hydrochloride (Pazopanib base) is significantly increased from 0.001 mg/ml to ~8.000 mg/ml. the same was confirmed from the analytical tools. Analytical tools also confirm the conversion of crystalline form to amorphous form. The outcomes of these investigations provide essential insights into the potential utility of solid dispersion systems as a viable strategy for enhancing the solubility and, consequently, the therapeutic efficacy of the drug in question. [ABSTRACT FROM AUTHOR]

Published

2024

14. Solid Dispersions Obtained by Ball Milling as Delivery Platform of Etodolac, a Model Poorly Soluble Drug.

Author

Czajkowska-Kośnik, Anna, Misztalewska-Turkowicz, Iwona, Wilczewska, Agnieszka Zofia, Basa, Anna, and Winnicka, Katarzyna

Subjects

*DRUG solubility, *DRUG carriers, *THERMAL analysis, *BALL mills, *DISPERSION (Chemistry), *MECHANICAL alloying, *SPRAY drying

Abstract

Poor water solubility of drugs is a limiting factor for their bioavailability and pharmacological activity. Many approaches are known to improve drug solubility, and among them, the physical method, solid dispersions (SDs), is applied. SDs are physical mixtures of a drug and a carrier, sometimes with the addition of a surfactant, which can be obtained by milling, cryomilling, spray-drying, or lyophilization processes. In this study, solid dispersions with etodolac (ETD-SDs) were prepared by the milling method using different carriers, such as hypromellose, polyvinylpyrrolidone, copovidone, urea, and mannitol. Solubility studies, dissolution tests, morphological assessment, thermal analysis, and FTIR imaging were applied to evaluate the SD properties. It was shown that the ball-milling process can be applied to obtain SDs with ETD. All designed ETD-SDs were characterized by higher water solubility and a faster dissolution rate compared to unprocessed ETD. SDs with amorphous carriers (HPMC, PVP, and PVP/VA) provided greater ETD solubility than dispersions with crystalline features (urea and mannitol). FTIR spectra confirmed the compatibility of ETD with tested carriers. [ABSTRACT FROM AUTHOR]

Published

2024

15. Impact of Hot-Melt Extrusion on Glibenclamide's Physical and Chemical States and Dissolution Behavior: Case Studies with Three Polymer Blend Matrices.

Author

Zupan, Nina, Yous, Ines, Danede, Florence, Verin, Jeremy, Kouach, Mostafa, Foulon, Catherine, Dudognon, Emeline, and Florin Muschert, Susanne

Subjects

*DIFFERENTIAL scanning calorimetry, *DRUG stability, *SCANNING electron microscopy, *THERMOGRAVIMETRY, *GLIBENCLAMIDE, *POLYMER blends

Abstract

This research work dives into the complexity of hot-melt extrusion (HME) and its influence on drug stability, focusing on solid dispersions containing 30% of glibenclamide and three 50:50 polymer blends. The polymers used in the study are Ethocel Standard 10 Premium, Kollidon SR and Affinisol HPMC HME 4M. Glibenclamide solid dispersions are characterized using thermal analyses (thermogravimetric analysis (TGA) and differential scanning calorimetry), X-ray diffraction and scanning electron microscopy. This study reveals the transformation of glibenclamide into impurity A during the HME process using mass spectrometry and TGA. Thus, it enables the quantification of the extent of degradation. Furthermore, this work shows how polymer–polymer blend matrices exert an impact on process parameters, the active pharmaceutical ingredient's physical state, and drug release behavior. In vitro dissolution studies show that the polymeric matrices investigated provide extended drug release (over 24 h), mainly dictated by the polymer's chemical nature. This paper highlights how glibenclamide is degraded during HME and how polymer selection crucially affects the sustained release dynamics. [ABSTRACT FROM AUTHOR]

Published

2024

16. Utilization of the Drug–Polymer Solid Dispersion Obtained by Ball Milling as a Taste Masking Method in the Development of Orodispersible Minitablets with Hydrocortisone in Pediatric Doses.

Author

Trofimiuk, Monika, Olechno, Katarzyna, Trofimiuk, Emil, Czajkowska-Kośnik, Anna, Ciosek-Skibińska, Patrycja, Głowacz, Klaudia, Lenik, Joanna, Basa, Anna, Car, Halina, and Winnicka, Katarzyna

Subjects

*DOSAGE forms of drugs, *DRUG solubility, *ELECTRONIC tongues, *THERAPEUTIC equivalency in drugs, *CHILD patients

Abstract

The objective of the conducted research was to design 2 mm orodispersible minitablets of pediatric doses of hydrocortisone (0.5 mg; 1.0 mg) with desirable pharmaceutical properties and eliminate the sensation of a bitter taste using preparation of solid dispersion by ball mill. Hydrocortisone was selected as the model substance, as it is widely utilized in the pediatric population. ODMTs were prepared by compression (preceded by granulation) in a traditional single-punch tablet machine and evaluated using pharmacopoeial tests, DSC, and FTIR analysis. The methods used to evaluate the effectiveness of the taste-masking effect included in vivo participation of healthy volunteers, in vitro drug dissolution and utilization of an analytical device—"electronic tongue". The research employed a preclinical animal model to preliminary investigate the bioequivalence of the designed drug dosage form in comparison to reference products. The study confirmed the possibility of manufacturing good-quality hydrocortisone ODMTs with a taste-masking effect owing to the incorporation of a solid dispersion in the tablet mass. [ABSTRACT FROM AUTHOR]

Published

2024

17. Development, Characterization, and Cellular Toxicity Evaluation of Solid Dispersion-Loaded Hydrogel Based on Indomethacin.

Author

Dahma, Zaid, Ibáñez-Escribano, Alexandra, Fonseca-Berzal, Cristina, García-Rodríguez, Juan José, Álvarez-Álvarez, Covadonga, Torrado-Salmerón, Carlos, Torrado-Santiago, Santiago, and de la Torre-Iglesias, Paloma Marina

Subjects

*CYCLOOXYGENASE 2 inhibitors, *DRUG solubility, *X-ray powder diffraction, *DIFFERENTIAL scanning calorimetry, *TOPICAL drug administration, *HYDROGELS

Abstract

Indomethacin (IND) as a non-selective cyclooxygenase 1 and 2 inhibitor administered orally causes numerous adverse effects, mostly related to the gastrointestinal tract. Moreover, when applied exogenously in topical preparations, there are obstacles to its permeation through the stratum corneum due to its low water solubility and susceptibility to photodegradation. In this work, solid dispersions (SDs) of IND with low-substituted hydroxypropyl cellulose (LHPC) were developed. The IND—SDs were incorporated into a hydroxypropyl guar (HPG) hydrogel to enhance drug solubility on the skin. The hydrogels were characterized by scanning electron microscopy (SEM), differential scanning calorimetry (DSC), powder X-ray diffraction (XRPD), Fourier-transform infrared spectroscopy (FTIR), viscosity, drug release, and unspecific cytotoxicity in mammalian cells. SEM showed a highly porous structure for SD hydrogels. DSC and XRPD studies showed that amorphous IND species were formed; therefore, these hydrogels exhibited superior drug release in comparison with IND raw material hydrogels. FTIR evidenced the presence of the hydrogen bond in the SD hydrogel. The rheology parameter viscosity increased across gels formulated with SDs in comparison with hydrogels with pure IND. In addition, IND—SD hydrogels combine the advantages of a suitable viscosity for dermal use and no potentially hazardous skin irritation. This study suggests that the formulated IND—SD hydrogels represent a suitable candidate for topical administration. [ABSTRACT FROM AUTHOR]

Published

2024

18. Spectroscopic characterization and pharmacokinetic evaluation of amorphous solid dispersions of glibenclamide for bioavailability enhancement in Wistar rats.

Author

Mir, Khalid Bashir, Abrol, Vidushi, Singh, Nasseb, Khan, Nisar A., Dar, Alamgir A., Alahmadi, Tahani Awad, and Ansari, Mohammad Javed

Abstract

Oral bioavailability of glibenclamide (Glb) was appreciably improved by the formation of an amorphous solid dispersion with Poloxamer‐188 (P‐188). Poloxamer‐188 substantially enhanced the solubility and thereby the dissolution rate of the biopharmaceutics classification system (BCS) class II drug Glb and simultaneously exhibited a better stabilizing effect of the amorphous solid dispersion prepared by the solvent evaporation method. The physical state of the dispersed Glb in the polymeric matrix was characterized by differential scanning calorimetry, X‐ray diffraction, scanning electron microscope and Fourier transform infrared studies. In vitro drug release in buffer (pH 7.2) revealed that the amorphous solid dispersion at a Glb–P‐188 ratio of 1:6 (SDE4) improved the dissolution of Glb by 90% within 3 h. A pharmacokinetic study of the solid dispersion formulation SDE4 in Wistar rats showed that the oral bioavailability of the drug was greatly increased as compared with the market tablet formulation, Daonil®. The formulation SDE4 resulted in an AUC0–24h ~2‐fold higher. The SDE4 formulation was found to be stable during the study period of 6 months. [ABSTRACT FROM AUTHOR]

Published

2024

19. Synthesis of Quarternized Chitosans and Their Potential Applications in the Solubility Enhancement of Indomethacin by Solid Dispersion.

Author

Sripetthong, Sasikarn, Nalinbenjapun, Sirinporn, Basit, Abdul, and Ovatlarnporn, Chitchamai

Abstract

This study was designed to synthesize quarternized chitosans (Q-CS) and explore their potential application in aqueous solubility enhancement of indomethacin (IND), a BCS class-II drug. Three different Q-CS; N,N,N-trimethyl chitosan chloride (TMC), N-(4-N‘-methylpyridinylmethyl) chitosan chloride (mPyCS), and N-(4-N’,N’,N’-trimethylaminobenzyl) chitosan chloride (TmBzCS) were synthesized and characterized through various spectroscopic analysis. Q-CS-based solid-dispersion (SD) composites of IND (Q-CS-IND) were prepared using the spray-drying method and characterized through Fourier transform infrared (FTIR), scanning electron microscopy (SEM), differential-scanning calorimetry (DSC), and powder X-ray diffraction (P-XRD). The solubility and dissolution profiles of SD-composites of IND were evaluated and compared with physical mixtures (PM). The IND contents were quantified and validated in the composites using UV-Vis spectrophotometer. FTIR and NMR analysis showed the successful preparation of Q-CS. TMC was found with the highest yield (55.13%) and mPyCS with the highest degree of quaternization (DQ) (63.37%). FT-IR analysis of IND-Q-CS composites demonstrated chemical interaction between carbonyl moieties of IND with functional groups of Q-CS. DSC and PXRD analyses demonstrated the transformation of IND in SD composites from crystalline to an amorphous form. All the IND-Q-CS composites were observed with a significant increase in the solubility and dissolution rate of the drug (1996.0 µg/min) compared to PM (1306.8 µg/min), which is higher than pure IND (791.6 µg/min). The contents of IND in TMC, mPyCS, and TmBzCS composites were 97.69–99.92%, 97.66-100.25%, and 97.18-100.11% respectively. Overall, the findings encourage the applications of Q-CS derivatives for increasing IND water solubility and warrant further in vivo biological profiling of IND composites. [ABSTRACT FROM AUTHOR]

Published

2024

20. Utilizing phospholipid as an amphiphilic carrier for solid dispersion of ambrisentan: formulation and evaluation.

Author

Deshmane, Subhash, Kendre, Kamlesh, Deshmane, Snehal, Jain, Shirish, Sawant, Atish, and Solanki, Himanshu

Subjects

*ENDOTHELIN receptors, *DRUG solubility, *DISPERSION (Chemistry), *ORAL drug administration, *DIFFERENTIAL scanning calorimetry, *DRUG bioavailability, *SCANNING electron microscopy

Abstract

ABSTRACT:The partial water solubility of ambrisentan poses a challenge to its oral administration despite being the second oral endothelin A-receptor antagonist approved in the United States. In this study, we aimed to improve ambrisentan’s solubility and bioavailability using an amphiphilic phospholipid carrier. Phospholipids, with their glycerol-bound, phosphorus-containing amphiphilic nature, are known to prolong drug lifespan by facilitating drug penetration across cell membranes through hydrogen bonds or van der Waals interactions. Moreover, phospholipid compounds have been shown to significantly enhance drug solubility, permeability, and bioavailability in various studies. We optimized the ratios of ambrisentan and phospholipid carriers (1:1, 1:3, and 1:5) based on saturation and phase solubility experiments. Solid dispersion was prepared using the solvent evaporation technique. Differential scanning calorimetry (DSC), X-ray diffraction (XRD), and scanning electron microscopy (SEM) analyses confirmed the conversion of ambrisentan from a crystalline to an amorphous form in the solid dispersion. The solubility of ambrisentan in the solid dispersion increased by 13-fold with a 1:5 ratio of ambrisentan to phospholipid carrier. The release profile indicated rapid release of the active substance within the first 15 min, corresponding to the peak phospholipid concentration. Pharmacokinetic studies demonstrated higher bioavailability of the medicine compared to the pure drug. This study suggests that phospholipids can effectively enhance drug solubility and bioavailability in solid dispersion systems. [ABSTRACT FROM AUTHOR]

Published

2024

21. Investigating the effect of polyvinylpyrrolidone matrix on surface characteristics and dissolution rate of anticancer drug dasatinib.

Author

Sokač, Katarina, Priselec, Paula, Barač, Jelena, Bafti, Arijeta, Taradi, Filip, and Žižek, Krunoslav

Subjects

POVIDONE, DASATINIB, MATRIX effect, ANTINEOPLASTIC agents, DRUG solubility, CHRONIC myeloid leukemia, PROTEIN-tyrosine kinase inhibitors, LYMPHOBLASTIC leukemia

Abstract

Dasatinib (DAS) is a second‐generation tyrosine kinase inhibitor used in the treatment of Philadelphia chromosome‐positive chronic myeloid leukemia and acute lymphoblastic leukemia. Nevertheless, this drug is hindered by poor gastrointestinal absorption and limited bioavailability, primarily attributable to its low aqueous solubility. To improve its properties, solid dispersions of DAS within a matrix of the hydrophilic polymer polyvinylpyrrolidone (PVP) are prepared by cogrinding in a vibrational ball mill at various drug‐to‐polymer ratios. The prepared solid dispersions are thoroughly characterized by several methods to verify the drug's amorphization and enhanced wettability as a result of successful mechanochemical activation. Fluidized bed melt granulation and traditional tableting are used to prepare tablets of 8 mm diameter with strictly defined aimed properties. Characterization of tablets includes testing their hardness, disintegration, and in vitro dissolution. The in vitro release profiles reveal a significant improvement in the release rate of DAS from tablets containing solid dispersion with the highest polymer ratio when compared with those containing untreated DAS or solid dispersions with a low polymer ratio. The results confirm the significant effect of the PVP ratio in solid dispersions on the surface characteristics and dissolution rate of DAS. [ABSTRACT FROM AUTHOR]

Published

2024

22. Investigation of Stabilized Amorphous Solid Dispersions to Improve Oral Olaparib Absorption.

Author

Yun, Taehan, Lee, Sumin, Yun, Seowan, Cho, Daeyeong, Bang, Kyuho, and Kim, Kyeongsoo

Subjects

*FOURIER transform infrared spectroscopy, *X-ray powder diffraction, *DIFFERENTIAL scanning calorimetry, *SPRAY drying, *SCANNING electron microscopy, *DRUG solubility

Abstract

In this study, we investigated the formulation of stable solid dispersions to enhance the bioavailability of olaparib (OLA), a therapeutic agent for ovarian cancer and breast cancer characterized as a BCS class IV drug with low solubility and low permeability. Various polymers were screened based on solubility tests, and OLA-loaded solid dispersions were prepared using spray drying. The physicochemical properties of these dispersions were investigated via scanning electron microscopy (SEM), differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD), and Fourier Transform Infrared Spectroscopy (FT-IR). Subsequent dissolution tests, along with assessments of morphological and crystallinity changes in aqueous solutions, led to the selection of a hypromellose (HPMC)-based OLA solid dispersion as the optimal formulation. HPMC was effective at maintaining the supersaturation of OLA in aqueous solutions and exhibited a stable amorphous state without recrystallization. In an in vivo study, this HPMC-based OLA solid dispersion significantly enhanced bioavailability, increasing AUC0–24 by 4.19-fold and Cmax by more than 10.68-fold compared to OLA drug powder (crystalline OLA). Our results highlight the effectiveness of HPMC-based solid dispersions in enhancing the oral bioavailability of OLA and suggest that they could be an effective tool for the development of oral drug formulations. [ABSTRACT FROM AUTHOR]

Published

2024

23. Formulation and Evaluation of pH-Modulated Amorphous Solid Dispersion-Based Orodispersible Tablets of Cefdinir.

Author

Alhamhoom, Yahya, Kumaraswamy, Thanusha, Kumar, Avichal, Nanjappa, Shivakumar Hagalavadi, Prakash, Sanjana S., Rahamathulla, Mohamed, Thajudeen, Kamal Y., Ahmed, Mohammed Muqtader, and Shivanandappa, Thippeswamy Boreddy

Subjects

*DIFFERENTIAL scanning calorimetry, *AMORPHOUS substances, *AMMONIUM bicarbonate, *X-ray diffraction, *FOURIER transforms, *DRUG solubility

Abstract

Cefdinir (CEF) is a semi-synthetic third-generation broad-spectrum oral cephalosporin that exhibits poor solubility at lower pH values. Considering this, pH-modulated CEF solid dispersions (ASDs) were produced by solvent evaporation method employing various hydrophilic carriers and alkalizers. Among different carriers, ASDs produced using PEG 6000 with meglumine as alkalizer were found to significantly increase (p < 0.005) the drug solubility (4.50 ± 0.32 mg/mL) in pH 1.2. Fourier transform infrared spectrophotometry confirmed chemical integrity of CEF while differential scanning calorimetry (DSC) and X-ray diffractometry (XRD) indicated CEF was reduced to an amorphous state in ASD8. Antimicrobial assay performed by well diffusion method against Staphylococcus aureus (MTCC96) and Escherichia coli (MTCC118) demonstrated significantly superior (p < 0.001) efficacy of CEFSD compared to CEF. The porous orodispersible tablets (ODTs) of ASD8 (batch F5) were developed by incorporating ammonium bicarbonate as a subliming agent by direct compression, followed by vacuum drying displayed quick disintegration (27.11 ± 1.96 s) that met compendial norms and near-complete dissolution (93.85 ± 1.27%) in 30 min. The ODTs of ASD8 appear to be a promising platform to mitigate the pH-dependent solubility and dissolution issues associated with CEF in challenging physiological pH conditions prevalent in stomach. Thus, ODTs of ASD8 are likely to effectively manage various infections and avoid development of drug-resistant strains, thereby improving the curing rates. [ABSTRACT FROM AUTHOR]

Published

2024

24. INNOVATIVE APPROACHES IN DESIGNING A PREGABALIN ORODISPERSIBLE FILM FOR EPILEPSY TREATMENT.

Author

Patel, Priyanka, Prajapati, Bhupendra, and Patel, Dhiren

Subjects

*FACTORIAL experiment designs, *DRUG analysis, *THIN films, *PEDIATRIC therapy, *TENSILE strength, *DRUG solubility, *SOLID dosage forms

Abstract

The study aimed to develop a fast-disintegrating Pregabalin film, targeting API bitterness suppression, reduced disintegration time, and improved drug release. With Pregabalin bioavailability range affected by first-pass metabolism, a mouth dissolving film was chosen to circumvent this issue, particularly beneficial for pediatric epilepsy treatment. The buccal route was preferred due to enhanced absorption resulting from drug ionization at gastric pH. The process involved preparing a solid dispersion using the kneading method, followed by solvent casting, and evaluating it for API bitterness, solubility, drug content, and release rate. In vitro drug release analysis demonstrated that the solid dispersion effectively suppressed API bitterness, increased solubility, and achieved faster drug release compared to the pure drug. Various parameters such as physical appearance, surface pH, thickness uniformity, disintegration duration, drug content uniformity, folding durability, and tensile strength were assessed. A 32 full factorial design, utilizing Design-Expert® software Version 13, optimized the mouth dissolving film (MDF). The optimized MDF underwent evaluation for palatability, in vitro dissolution, ex vivo permeation, and stability. It exhibited a disintegration time of 25 seconds and released 90% of the drug within 6 minutes for Pregabalin, confirming its efficacy. Rapid stability studies indicated stability across all formulations under extreme conditions. [ABSTRACT FROM AUTHOR]

Published

2024

25. Design and Development of Rebamipide Solid Dispersion-Loaded Floating Beads for Ameliorated Therapeutics.

Author

Sharma, Poonam, Kaundal, Chitra, and Agarwal, Shweta

Subjects

STOMACH ulcers, PEPTIC ulcer, OLIVE oil, SODIUM alginate, GELATION, DRUG solubility

Abstract

Objectives: Rebamipide, a gastroprotective drug, is used for preventing and treating ulcers but it has low aqueous solubility leading to poor bioavailability (10%). It acts both locally and systemically to provide gastroprotection and ulcer healing effects. The therapeutics of Rebamipide can be improved by enhancing its aqueous solubility and by sustaining its release in the stomach. Materials and Methods: The above objective was fulfilled by preparing solid dispersion of Rebamipide by solvent evaporation method for aqueous solubility enhancement which was incorporated in floating beads by emulsion gelation method using different concentrations of sodium alginate and olive oil for prolonged gastroretention. The beads were characterized for size, swelling, entrapment efficiency, floating lag time, floating time and in-vitro drug release. Results and Discussion: The solubility of rebamipide in solid dispersion was found to be 18.66 mg/mL which was much greater than its normal value (1.3 µg/mL). The size of beads varied between 2.03 mm-2.52 mm. The swelling index was found to be 12-28%. Entrapment efficiency was 90.1-96.9% proving excellent entrapment of drug by the method chosen. Floating lag time of optimized formulation (F6) was 3 sec with 90.2% drug release at 12 hr showing adequate sustenance of drug release. Conclusion: The solid dispersion loaded floating beads would prove effective in preventing and treating stomach ulcers because of enhanced aqueous solubility of drug in solid dispersion form resulting in higher drug concentration in gastric fluid, sustained release of drug and greater gastroretention time, giving improved therapeutics both locally and systemically. [ABSTRACT FROM AUTHOR]

Published

2024

26. Preparation, optimization, and characterization of genistein-ginseng long-acting polymeric gel as a breast cancer treatment alternative.

Author

Abdullah, Samaa, Md, Shadab, Altamimi, Abeer A., Alahdal, Hadil, Ali, Raisuddin, Alkreathy, Huda Mohammed, and Karim, Shahid

Subjects

ALTERNATIVE treatment for cancer, BREAST cancer, INTESTINAL absorption, SCANNING electron microscopy, FOURIER analysis

Abstract

To address the prevalent genistein (GST) metabolism and inadequate intestinal absorption, an oral long-acting and gastric in-situ gelling gel was designed to encapsulate and localize the intestinal release of the loaded genistein-ginseng (GST-GNS) solid dispersion. Because of the high breast perfusion of GST upon oral absorption, the GST-GNS solid dispersion was developed to enhance GST's dissolution and penetration while offering a synergistic impact against breast cancer (BC). Physiochemical analysis of the GST-GNS solid dispersion, release analysis, gel characterizations, storage stability, penetration, and in vitro cytotoxicity studies were carried out. GST-GNS solid dispersion showed improved dissolution and penetration as compared to raw GST. GST-GNS solid dispersion homogenous shape particles and hydrophilic contacts were revealed by scanning electron microscopy and Fourier Transform-Infrared analysis, respectively. GST-GNS solid dispersion's diffractogram shows the amorphous character. A second modification involved creating a gastric in-situ gelling system loaded with GST-GNS solid dispersion. This system demonstrated improved GST penetration employing the solid dispersion, as well as the localizing of the GST release at the intestinal media and antitumor synergism against BC. For a better therapeutic approach for BC, the innovative oral GST long-acting gel encasing the GST-GNS solid dispersion would be recommended. [ABSTRACT FROM AUTHOR]

Published

2024

27. Advanced Formulation Strategies For Enhancing Solubility And Permeability Of Ritonavir: A Comprehensive Review.

Author

N. S., Mhaske and P. B., Raskar

Subjects

DRUG solubility, SOLUBILITY, RITONAVIR, PERMEABILITY, PHARMACEUTICAL chemistry, REGULATORY approval, ITRACONAZOLE

Abstract

This review comprehensively examines advanced formulation strategies aimed at enhancing the solubility and permeability of ritonavir, an essential antiretroviral medication used in the treatment of HIV/AIDS. Ritonavir's therapeutic efficacy is hindered by its poor aqueous solubility and low oral bioavailability, necessitating innovative approaches to improve its dissolution properties and gastrointestinal absorption. Through an exploration of various techniques, including solid dispersions, nanosuspensions, complexation, lipid-based formulations, micronization, and salt formation, this review highlights the diverse methodologies employed to address these challenges. Each technique is scrutinized for its efficacy in enhancing ritonavir's solubility and permeability, along with considerations regarding feasibility, scalability, and regulatory approval. Furthermore, the review discusses the potential impact of these formulation strategies on the clinical efficacy and patient outcomes of ritonavir therapy, emphasizing the importance of continued research and development in this crucial area of pharmaceutical science. [ABSTRACT FROM AUTHOR]

Published

2024

28. Solid Dispersion for Enhancing Bioactive Effectiveness of Resveratrol: A Mini Review

Author

Le, Quyen Phuoc, Le, Vy Nguyen-Thao, Van Nguyen, Tru, Nguyen, Van Hong, Magjarević, Ratko, Series Editor, Ładyżyński, Piotr, Associate Editor, Ibrahim, Fatimah, Associate Editor, Lackovic, Igor, Associate Editor, Rock, Emilio Sacristan, Associate Editor, Vo, Van Toi, editor, Nguyen, Thi-Hiep, editor, Vong, Binh Long, editor, Le, Ngoc Bich, editor, and Nguyen, Thanh Qua, editor

Published

2024

29. Ternary solid dispersions employing vitamin E TPGS for enhancing dissolution - A comparative study of surfactant combinations and preparation methods

Author

Ramesh, K.V.R.N.S., Rabbani, Syed Arman, Talat, Sirajunisa, Bhuiyan, Mohammed Kamaruzzaman, El Marsafawy, Tamer, and Islam, Quamrul

Published

2024

30. The development of ternary and quaternary solid dispersion based hydrotropic blends of atorvastatin calcium

Author

Suren Azad Ramadhan and Huner K. Omer

Subjects

atorvastatin calcium, solid dispersion, hydrotropic blends, dissolution rate, physical mixture, Medicine

Abstract

Background and objective: Atorvastatin calcium (ATV) has a solubility in aqueous solutions of greater than 0.1 mg/ml to less than 1 mg/ml, which is very slightly soluble. When developing dosage forms for these medications, formulation scientists still face challenges. This study's goal was to use various hydrotropic agents in the formation of solid dispersion-based hydrotropic blends to improve the solubility properties of atorvastatin calcium. Methods: In this study, twenty-two distinct binary, ternary, and quaternary formulations of ATV were prepared by employing five different hydrotropic agents and combining at least two hydrotropic agents in concentrations of 10% and 20% (w/v). Moreover, solid dispersion by the solvent evaporation method and physical mixture-based hydrotropic blends in the ratio of (1:2) have been formulated. The produced formulations were characterized using an FTIR analysis. Results: According to the findings, binary formulations containing 20% (w/v) concentrations of sodium benzoate (SB), sodium salicylate (SS), and resorcinol (R) enhanced the solubility ratio of ATV by 439.31, 689.57, and 106.21 folds, respectively. Furthermore, ternary formulations (FT14) and quaternary formulations (FQ18) resulted in the enhancement of ATV solubility by 938.45 and 995.12 folds, respectively. Ternary solid dispersion demonstrated the highest enhancement in solubility ratio by 87.68 folds and resulted in a higher dissolution rate of ATV than pure samples of the drug. Finally, FTIR analyses excluded any interactions between medications and excipients by showing no noticeable shift in the peaks. Conclusion: Solid dispersion based hydrotropic blends can provide the production of the dosage forms of practically insoluble drugs with a favorable enhancement ratio in solubility.

Published

2024

31. QbD-Based Development and Evaluation of Pazopanib Hydrochloride Extrudates Prepared by Hot-Melt Extrusion Technique: In Vitro and In Vivo Evaluation.

Author

Gupta, Amit, Dahima, Rashmi, Panda, Sunil K., Gupta, Annie, Singh, Gaurav Deep, Wani, Tanveer A., Hussain, Afzal, and Rathore, Devashish

Subjects

*DRUG solubility, *POLYMER blends, *RENAL cell carcinoma, *POLYMERS, *PROTEIN kinase inhibitors, *DRUG absorption, *RECRYSTALLIZATION (Metallurgy)

Abstract

Background: Pazopanib hydrochloride (PZB) is a protein kinase inhibitor approved by the United States Food and Drug Administration and European agencies for the treatment of renal cell carcinoma and other renal malignancies. However, it exhibits poor aqueous solubility and inconsistent oral drug absorption. In this regard, the current research work entails the development and evaluation of the extrudates of pazopanib hydrochloride by the hot-melt extrusion (HME) technique for solubility enhancement and augmenting oral bioavailability. Results: Solid dispersion of the drug was prepared using polymers such as Kollidon VA64, hydroxypropylmethylcellulose (HPMC), Eudragit EPO, and Affinisol 15LV in a 1:2 ratio by the HME process through a lab-scale 18 mm extruder. Systematic optimization of the formulation variables was carried out with the help of custom screening design (JMP Software by SAS, Version 14.0) to study the impact of polymer type and plasticizer level on the quality of extrudate processability by measuring the torque value, appearance, and disintegration time as the responses. The polymer blends containing Kollidon VA64 and Affinisol 15LV resulted in respective clear transparent extrudates, while Eudragit EPO and HPMC extrudates were found to be opaque white and brownish, respectively. Furthermore, evaluation of the impact of process parameters such as screw rpm and barrel temperature was measured using a definitive screening design on the extrude appearance, torque, disintegration time, and dissolution profile. Based on the statistical outcomes, it can be concluded that barrel temperature has a significant impact on torque, disintegration time, and dissolution at 30 min, while screw speed has an insignificant impact on the response variables. Affinisol extrudates showed less moisture uptake and faster dissolution in comparison to Kollidon VA64 extrudates. Affinisol extrudates were evaluated for polymorphic stability up to a 3-month accelerated condition and found no recrystallization. PZB–Extrudates using the Affinisol polymer (Test formulation A) revealed significantly higher bioavailability (AUC) in comparison to the free Pazopanib drug and marketed formulation. [ABSTRACT FROM AUTHOR]

Published

2024

32. The feasibility of Raman spectroscopy for accurate assessment of essential criteria in pharmaceutical industry by investigation of Metformin hydrochloride tableting process.

Author

Karimi, Somayeh and Tavassoli, Seyed Hassan

Subjects

*RAMAN spectroscopy, *TABLETING, *METFORMIN, *PHARMACEUTICAL industry, *PHARMACEUTICAL technology, *RACTOPAMINE

Abstract

Analytical and real‐time technology in pharmaceutical manufacturing process is an important need to ensure that manufactured drugs are safe and effective. Raman spectroscopy is an emerging technique that is able to perform quantitative analysis nondestructively due to the molecular structure of many drugs. Monitoring the content uniformity and quantification of active pharmaceutical ingredient (API) in the tablet preparation process, without the assistance of solvent, is one of the key concerns in the formulation design in order to provide stable, pure, and homogenous finished products. In this study, we investigated the possibility of using Raman data as an analytical method to quantify API, the intra‐ and inter‐sample uniformity of content in the tableting process of Metformin hydrochloride tablets (C4H11N5.HCl). Analysis of all standard samples for prediction of API uniformity represents an acceptable accuracy and precision with a relative standard deviation of 2.55%. Further investigation of tablets regarding to relative Raman intensity of some characteristic peaks demonstrates the amount of API content with an accuracy of ≥96%. These values have a good adaption with pharmacopeia monograph. Findings reveal that the Raman method can be routinely utilized for quantifying API, controlling the content uniformity and the stability of drugs in different stages of manufacturing. [ABSTRACT FROM AUTHOR]

Published

2024

33. A comparative study on the preparation and evaluation of solubilizing systems for silymarin.

Author

Chen, Zhenzhen, Gao, Wenhao, Feng, Xianquan, Zhou, Guizhi, Zhang, Minxin, Zeng, Lingjun, Hu, Xiaomu, Liu, Zhihong, and Song, Hongtao

Abstract

Silymarin (SM) exhibits clinical efficacy in treating liver injuries, cirrhosis, and chronic hepatitis. However, its limited water solubility and low bioavailability hinder its therapeutic potential. The primary objective of this study was to compare the in vitro and in vivo characteristics of the four distinct SM solubilization systems, namely SM solid dispersion (SM-SD), SM phospholipid complex (SM-PC), SM sulfobutyl ether-β-cyclodextrin inclusion complex (SM-SBE-β-CDIC) and SM self-microemulsifying drug delivery system (SM-SMEDDS) to provide further insights into their potential for enhancing the solubility and bioavailability of SM. The formation of SM-SD, SM-PC, and SM-SBE-β-CDIC was thoroughly characterized using scanning electron microscopy (SEM), Fourier transform infrared spectroscopy (FTIR), and powder X-ray diffractometry (PXRD) techniques to analyze the changes in their microscopic structure, molecular structure, and crystalline state. The particle size and polydispersity index (PDI) of SM-SMEDDS were 71.6 ± 1.57 nm, and 0.13 ± 0.03, respectively. The self-emulsifying time of SM-SMEDDS was 3.0 ± 0.3 min. SM-SMEDDS exhibited an improved in vitro dissolution rate and demonstrated the highest relative bioavailability compared to pure SM, SM-SD, SM-PC, SM-SBE-β-CDIC, and Legalon®. Consequently, SMEDDS shows promise as a drug delivery system for orally administered SM, offering enhanced solubility and bioavailability. [ABSTRACT FROM AUTHOR]

Published

2024

34. Evaluation of novel carriers for enhanced dissolution of lycopene.

Author

Mirahmadi, Mahdi, Kamali, Hossein, Azimi-Hashemi, Shayan, Lavaee, Parirokh, Gharaei, Sama, Sherkatsadi, Kiana, Pourhossein, Tahereh, Baharara, Hamed, Nejabat, Mojgan, Ghafourian, Taravat, Hadizadeh, Farzin, and Nokhodchi, Ali

Subjects

LYCOPENE, SURFACE charges, DRUG bioavailability, MOLECULAR docking

Abstract

Despite the antioxidant properties of lycopene, its poor water solubility reduces its efficiency and bioavailability. The study aimed to enhance the solubility of lycopene to improve its efficiency. To make lycopene more soluble, different carriers were added using physical mixing and solid-dispersion techniques. Then, the mechanisms of this solubility improvement were studied using solid-state characterization and docking studies. Out of 56 polymers and their combinations, isolated protein-whey (IWP) and polyvinylpyrrolidone-K30 (PVP-K30) showed the highest solubility for lycopene. These particles exhibited a more negative surface charge and a lower polydispersity index. Dissolution kinetics revealed that using IPW resulted in the highest release rate of lycopene. It was found that lycopene and β-lactoglobulin, an IPW component, have a hydrophobic bond. This makes a hydrophilic coating around the lycopene molecule. DSC results showed that lycopene could be in an amorphous state in IPW-lycopene formulations. The results of this study show how some food ingredients can improve the bioavailability of drugs that don't dissolve well in water. This will help with future efforts to deliver drugs. [ABSTRACT FROM AUTHOR]

Published

2024

35. Polymer Matrix and Manufacturing Methods in Solid Dispersion System for Enhancing Andrographolide Solubility and Absorption: A Systematic Review.

Author

Tipduangta, Pratchaya, Chansakaow, Sunee, Tansakul, Pimpimon, Meungjai, Rungarun, and Dilokthornsakul, Piyameth

Subjects

*SOLUBILITY, *SPRAY drying, *DISPERSION (Chemistry), *DRUG solubility, *POLYMERS, *ABSORPTION, *ANDROGRAPHIS paniculata, *DATABASE searching

Abstract

Background: Andrographolide (ADG) has poor aqueous solubility and low bioavailability. This study systematically reviews the use of solid dispersion (SD) techniques to enhance the solubility and absorption of ADG, with a focus on the methods and polymers utilized. Methodology: We searched electronic databases including PubMed, Web of Science, Scopus®, Embase and ScienceDirect Elsevier® up to November 2023 for studies on the solubility or absorption of ADG in SD formulations. Two reviewers independently reviewed the retrieved articles and extracted data using a standardized form and synthesized the data qualitatively. Results: SD significantly improved ADG solubility with up to a 4.7-fold increase and resulted in a decrease in 50% release time (T1/2) to less than 5 min. SD could also improve ADG absorption, as evidenced by higher Cmax and AUC and reduced Tmax. Notably, Soluplus-based SDs showed marked solubility and absorption enhancements. Among the five SD techniques (rotary evaporation, spray drying, hot-melt extrusion, freeze drying and vacuum drying) examined, spray drying emerged as the most effective, enabling a one-step process without the need for post-milling. Conclusions: SD techniques, particularly using Soluplus and spray drying, effectively enhance the solubility and absorption of ADG. This insight is vital for the future development of ADG-SD matrices. [ABSTRACT FROM AUTHOR]

Published

2024

36. Simultaneous Delivery of Curcumin and Resveratrol via In Situ Gelling, Raft-Forming, Gastroretentive Formulations.

Author

Siripruekpong, Worrawee, Praparatana, Rachanida, Issarachot, Ousanee, and Wiwattanapatapee, Ruedeekorn

Subjects

*RESVERATROL, *ALGINATES, *PECTINS, *CURCUMIN, *GELATION, *GELLAN gum, *CALCIUM ions, *GASTRIC diseases

Abstract

Curcumin and resveratrol are polyphenolic compounds that have been shown to exhibit synergistic therapeutic properties including anti-inflammatory, anticancer, and antiulcer activities, which may be exploited for the treatment of gastric diseases. However, both compounds have poor aqueous solubility and rapid metabolism, resulting in a low oral bioavailability. In situ gelling, liquid formulations were developed to produce a gastroretentive, raft-forming delivery vehicle to improve bioavailability. Solid dispersions containing a mixture of curcumin and resveratrol with Eudragit® EPO (Cur/Res-SD) were first prepared using solvent evaporation, to improve the solubility and dissolution of the compounds. Solid dispersions of a weight ratio of 1:10 curcumin/resveratrol to Eudragit® EPO were subsequently incorporated into in situ gelling, liquid formulations based on the gelling polymers, sodium alginate (low viscosity and medium viscosity), pectin, and gellan gum, respectively. Calcium carbonate and sodium bicarbonate were included to produce carbon dioxide bubbles in the gel matrix, on exposure to gastric fluid, and to achieve flotation. Moreover, the calcium ions acted as a crosslinking agent for the hydrogels. Optimized formulations floated rapidly (<60 s) in simulated gastric fluid (pH = 1.2) and remained buoyant, resulting in the gradual release of more than 80% of the curcumin and resveratrol content within 8 h. The optimized formulation based on medium-viscosity sodium alginate exhibited enhanced cytotoxic activity toward human gastric adenocarcinoma cell lines (AGS), compared with unformulated curcumin and resveratrol compounds, and increased anti-inflammatory activity against RAW 264.7 macrophage cells compared with the NSAID, indomethacin. These findings demonstrate that in situ gelling, liquid formulations, loaded with a combination of curcumin and resveratrol in the form of solid dispersions, show potential as gastroretentive delivery systems for local and systemic effects. [ABSTRACT FROM AUTHOR]

Published

2024

37. Physical Stability of Ibuprofen Upon Co-Milling with Caffeine and Polyvinylpyrrolidone at Room Temperature.

Author

Bejaoui, M., Djemi, R., Kouass, S., and Galai, H.

Subjects

*IBUPROFEN, *POVIDONE, *CAFFEINE, *DIFFERENTIAL scanning calorimetry, *TERNARY system, *X-ray diffraction, *INFRARED spectroscopy

Abstract

The purpose of this work is to investigate the physical stability of a ternary amorphous system (Ibuprofen, Caffeine, Polyvinylpyrrolidone (PVP K30)) generated by co-milling technique at room temperature, as well as the intermolecular interactions that could contribute to physical stabilization of amorphous ibuprofen (a poorly water-soluble drug). The milled mixtures were characterized by x-ray diffraction (XRD), infrared spectroscopy (FTIR), differential scanning calorimetry (DSC) and scanning electronic microscopy (SEM). As shown by XRD results, amorphous Ibuprofen maintains its physical stability even after exposure to high humidity levels (RH = 75%, T = 40°C) for 6 months. FTIR results highlighted the establishment of hydrogen bonds in the binary and ternary systems involving the carboxylic group of Ibuprofen. At higher amounts (more than 75%), the polyvinylpyrrolidone has totally amorphized drug/caffeine mixtures and inhibited polymorphic transition of Caffeine (Form II ≥ Form I) which occurred at higher temperatures. Thus, this polymer has shown an ability to stabilize amorphous solid dispersion (Ibuprofen: Caffeine) and preserve the chemical structure of each molecule. [ABSTRACT FROM AUTHOR]

Published

2024

38. PREPARATION AND CHARACTERIZATION OF SOLID DISPERSION USEFUL IN MAKING SUBLINGUAL TABLETS OF PIROXICAM.

Author

Goyani, Manish, Suryawanshi, Meghraj, and Gandhi, Nikunjkumar

Subjects

*TABLETING, *DRUG solubility, *PIROXICAM, *DISPERSION (Chemistry), *FOURIER transform infrared spectroscopy, *DRUG interactions

Abstract

This study aimed to investigate the usage of solid dispersion (SD) to enhance the dissolution rate of the poorly soluble drug piroxicam for sublingual formulation. Poloxamer grade 407 (Kolliphor® P-407), a commercially available polymer, was chosen, and various solid dispersions with different weight ratios of piroxicam and Poloxamer were prepared using the hot melt method. Compatibility tests using FTIR spectroscopy, DSC, and XRD were conducted to assess any chemical or physical interactions between the drug and polymer. In vitro dissolution tests were performed on the solid dispersions. The results of the FTIR spectroscopy study indicated no chemical interaction between the drug and the polymer. Similarly, the DSC and XRD analyses showed no physical interaction between the drug and the polymer. The maximum cumulative percentage release of the pure drug and the solid dispersion at 15 minutes were 40.90±1.83% and 99.56±3.25%, respectively. Based on these findings, it was concluded that the solid dispersion with a ratio of 2:1 (Drug: Poloxamer-407) showed a noteworthy upsurge in the dissolution rate in comparison to the pure drug. [ABSTRACT FROM AUTHOR]

Published

2024

39. Formulation, Optimization and Evaluation of Solid Dispersion of Deferasirox Using Factorial Design.

Author

Talla Shruti, Wadher Kamlesh, Umekar Milind, and Lohiya R. T.

Subjects

FACTORIAL experiment designs, DISPERSION (Chemistry), DEFERASIROX, X-ray powder diffraction, DRUG solubility

Abstract

Deferasirox, an oral iron-chelating agent, is a poorly soluble drug (Biopharmaceutical Classification System class II) having insufficient solubility in physiological fluids resulting in low bioavailability of the drug. The idea behind the present study was to explore the prospects of solid dispersion as a prolific method to enhance the dissolution rate of drug using a water soluble polymer. The solid dispersion was prepared by the solvent evaporation technique using Polyvinyl pyrrolidone with different drug to carrier and solvent ratio. Formulations were characterized through attenuated total reflectance-Fourier transform infrared spectroscopy (ATR-FTIR), differential scanning calorimetry (DSC), Powder X-ray diffraction (XRD), and in vitro release studies. A 32 factorial design was implemented to obtain optimum solubility, % yield, and optimization of solid dispersion (SD) also quantitates the influence of PVP on the solubility and dissolution profile. Thedrug-to-carrier and solvent ratio was chosen as independent variable, while %yield, drug content, and saturation solubility were chosen as dependent variables. The results showed that the optimized formulation of SD-DFX was able to significantly enhance its solubility. The SD containing a dispersion of Deferasirox with PVP show an exceptional rise in the solubility. This study describes the development of solid dispersion that significantly improved the solubility and bioavailability of DFX. The FTIR studies indicate the interaction between the drug and polymer. The DSC and XRD analysis indicated that the drug was in an amorphous state when dispersed in the polymer. It is resolved that the SD method significantly improves the solubility and dissolution rate, which could also be exploit for other poorly water soluble drug candidates. [ABSTRACT FROM AUTHOR]

Published

2024

40. Development and Characterization of Thermosensitive and Bioadhesive Ophthalmic Formulations Containing Flurbiprofen Solid Dispersions.

Author

Adısanoğlu, Pınar and Özgüney, Işık

Subjects

FLURBIPROFEN, CARBOXYMETHYLCELLULOSE, POLOXAMERS, GELATION, DRUG delivery systems, OPHTHALMIC drugs

Abstract

In this study, we aimed to develop thermosensitive and bioadhesive in situ gelling systems containing solid dispersions of flurbiprofen (FB-SDs) using poloxamer 407 (P407) and 188 (P188) for ophthalmic delivery. FB-SDs were prepared with the melt method using P407, characterized by solubility, stability, SEM, DSC, TGA, and XRD analyses. Various formulations of poloxamer mixtures and FB-SDs were prepared using the cold method and P407/P188 (15/26.5%), which gels between 32 and 35 °C, was selected to develop an ophthalmic in situ gelling system. Bioadhesive polymers Carbopol 934P (CP) or carboxymethyl cellulose (CMC) were added in three concentrations (0.2, 0.4, and 0.6% (w/w)). Gelation temperature and time, mechanical properties, flow properties, and viscosity values were determined. The in vitro release rate, release kinetics, and the release mechanism of flurbiprofen (FB) from the ophthalmic formulations were analyzed. The results showed that FB-SDs' solubility in water increased 332-fold compared with FB. The oscillation study results indicated that increasing bioadhesive polymer concentrations decreased gelation temperature and time, and formulations containing CP gel at lower temperatures and in a shorter time. All formulations except F3 and F4 showed Newtonion flow under non-physiological conditions, while all formulations exhibited non-Newtonion pseudoplastic flow under physiological conditions. Viscosity values increased with an increase in bioadhesive polymer concertation at physiological conditions. Texture profile analysis (TPA) showed that CP-containing formulations had higher hardness, compressibility, and adhesiveness, and the gel structure of formulation F4, containing 0.6% CP, exhibited the greatest hardness, compressibility, and adhesiveness. In vitro drug release studies indicated that CP and CMC had no effect below 0.6% concentration. Kinetic evaluation favored first-order and Hixson–Crowell kinetic models. Release mechanism analysis showed that the n values of the formulations were greater than 1 except for formulation F5, suggesting that FB might be released from the ophthalmic formulations by super case II type diffusion. When all the results of this study are evaluated, the in situ gelling formulations prepared with FB-SDs that contained P407/P188 (15/26.5%) and 0.2% CP or 0.2% CMC or 0.4 CMC% (F2, F5, and F6, respectively) could be promising formulations to prolong precorneal residence time and improve ocular bioavailability of FB. [ABSTRACT FROM AUTHOR]

Published

2024

41. Enhanced dissolution rates of glibenclamide through solid dispersions on microcrystalline cellulose and mannitol, combined with phosphatidylcholine.

Author

Weecharangsan, Wanlop and Lee, Robert J.

Subjects

MANNITOL, DOSAGE forms of drugs, SOLID dosage forms, LECITHIN, GLIBENCLAMIDE, CELLULOSE

Abstract

This study aimed to investigate the impact of physical solid dispersions of spray-dried glibenclamide (SG) on the surface of microcrystalline cellulose (MC) and mannitol (M) surfaces, as well as their combination with phosphatidylcholine (P), on enhancing the dissolution rate of glibenclamide (G). Solid dispersions were prepared using varying proportions of 1:1, 1:4, and 1:10 for SG on the surface of MC (SGA) and M (SGM), and then combined with P, in a proportion of 1:4:0.02 using spray drying. The particle size, specific surface area, scanning electron microscopy (SEM), X-ray diffraction (XRD), and dissolution rate of SGA and SGM were characterized. SEM analysis revealed successful adhesion of SG onto the surface of the carrier surfaces. XRD showed reduced crystalline characteristic peaks for SGA, while SGM exhibited a sharp peaks pattern. Both SGA and SGM demonstrated higher dissolution rates compared to SG and G alone. Furthermore, the dissolution rates of the solid dispersions of SG, MC and P (SGAP), and SG, M, and P (SGMP) were sequentially higher than that of SGA and SGM. The study suggests that physical solid dispersions of SG on MC and M, along with their combination with P, can effectively enhance the dissolution rate of G. These findings may be valuable in developing of oral solid drug dosage forms utilizing SGA, SGM, SGAP, and SGMP. [ABSTRACT FROM AUTHOR]

Published

2024

42. Preparation of solid dispersion systems for natural chitosan from mangrove crab (Scylla serrata) shell: Physical characterization and In vitro cholesterol-binding evaluation

Author

Imtihani, Hilya N., Prasetya, Rahmad A., and Permatasari, Silfiana N.

Published

2024

43. Enhanced Drug Dissolution of Nitrofurantoin Using a Solid Dispersion Technique

Author

D. S. Bhosale and M. S. Kalshetti

Subjects

bioavailability, dissolution, nitrofurantoin, poloxamer 188, solid dispersion, solubility, Medicine

Abstract

Background: Nitrofurantoin is a BCS II drug with a low solubility and dissolution rate. Therefore, the pharmaceutical applications of nitrofurantoin are limited. The purpose of the current study was to enhance the solubility, dissolution, and bioavailability of nitrofurantoin by formulating a solid dispersion (SD). Methods: The SD was developed using 32 factorial designs considering poloxamer 188 and the trituration time as independent variables, and solubility and drug release as dependent variables. The developed SD was characterized for solubility, FTIR, DSC, XRD, in vitro dissolution, and pharmacokinetic studies in rats. Results: Nitrofurantoin:poloxamer 188 at a 1:1 ratio had higher solubility than nitrofurantoin. The solubility of nitrofurantoin was directly related to the amount of poloxamer 188 and trituration time. In addition, poloxamer 188 concentration was directly related to the DR45 (%), while the rate of stirring was inversely related to the DR45 (%). An FTIR study revealed excellent drug excipient compatibility. The crystallinity of the drug was decreased, which indicated a more amorphous nature of the drug in XRD and DSC studies. Compared to pure drug dispersion, the optimized formulation exhibited a 3.88-fold improvement in the bioavailability of nitrofurantoin, whereas compared to the marketed formulation, a 1.77-fold enhancement in bioavailability was noted. Conclusion: This study indicated that SD could be a potential carrier system to enhance the solubility, dissolution, and bioavailability of nitrofurantoin.

Published

2024

44. Physical characterization, solubility test, and dissolution test of the solid dispersion system of the andrographolide-chitosan system for effective treatment against colon cancer

Author

Archana and Deshmukh, Rohitas

Published

2024

45. Design of colon-targeted drug delivery of dexamethasone: Formulation and in vitro characterization of solid dispersions

Author

Ahlam Zaid Alkilani, Sara Omar, Jehad Nasereddin, Rania Hamed, and Rana Obeidat

Subjects

Dexamethasone, Solid dispersion, HPMC, Polymer, Eudragit S 100, Colon drug delivery, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

Colon-targeted drug delivery continues to generate increasing attention for its prospects in treating inflammatory bowel disease (IBD). This study aimed to develop and evaluate colon-targeted solid dispersions of dexamethasone (DEX-SDs) in vitro to reduce its systemic exposure. This would ultimately improve the therapeutic efficacy of DEX while minimizing its adverse effects. Different DEX-SDs formulations were prepared utilizing Eudragit S100 (EU S100) and a combination of hydroxypropyl methyl cellulose (HPMC) and EU S100 to tune its drug release profile suitable for colonic delivery. The fabricated formulations were extensively characterized via Attenuated Total Reflectance – Fourier Transform Infrared Spectroscopy (ATR-FTIR), differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD), and polarized light microscopy (PLM). The different characterization techniques strongly suggest preparing solid solution-type solid dispersions of DEX with the other polymers (DEX-SDs). In addition, the in vitro dissolution of DEX-SDs was evaluated using two dissolution media (pH 1.2 and 7.4). The in vitro release of DEX-SDs was low in the acidic media and higher and sustained in the basic medium, leading to the conclusion that the developed DEX-SDs may represent an effective technology can overcome challenges related to poor drug solubility and bioavailability.

Published

2024

46. Preparation and characterization of a solid dispersion formulation of coenzyme Q10 loaded with protamine: an efficient and novel strategy to enhance bioavailability and stability

Author

Yingying Liao, Li Sun, Wenhao Xu, pei Qiao, and Duncong Fan

Subjects

coenzyme q10, bioavailability, solid dispersion, protamine, Pharmacy and materia medica, RS1-441

Abstract

Coenzyme Q10 (CoQ10) is an endogenous, lipophilic quinone compound that functions as an electron carrier in the mitochondrial respiratory chain and plays a pivotal role in cell metabolism. Despite its numerous important physiological functions, the practical application of CoQ10 is limited due to its high molecular weight, poor water solubility, photolability, chemical instability, and low bioavailability. To overcome these challenges, we developed a solid dispersion formulation of protamine loaded CoQ10 (CoQ10/Pr) using an efficient mechanochemical technology without solvents. Protamine was used as carrier and poloxamer 188 as solubilizer, while butylated hydroxytoluene (BHT) and micro powder silica gel were utilized as stabilizers and lubricants. The optimal ball milling condition to prepare CoQ10/Pr was at 100 r/min for 4 hours. The treated CoQ10/Pr has exhibited rapid-release properties, with significantly enhanced water solubility by 392,000 times, and bioavailability by 0.68 times. Furthermore, the treated CoQ10/Pr became resistant to moisture, high temperature and strong light, which makes it suitable for long-term storage. The molecular docking suggested that the solubilization mechanism of CoQ10 was closely associated with the encapsulation and complexation of protamine, as well as the formation of an intermolecular complex through hydrogen bond between CoQ10 and arginine residues on protamine. In summary, the CoQ10 solid dispersion formulation enjoys advantages such as excellent water solubility, stability, bioavailability, and low cost. This formulation also meets the stringent quality requirements of products in the food, cosmetic, and health industries. It offers dual benefits in both theoretical research and industrial development.

Published

2024

47. Enhancing the solubility and dissolution rate of piperine via preparation of piperine–hydroxypropyl methylcellulose 2910 solid dispersion system using freeze-drying method

Author

Lili Fitriani, Swari Tirtania, Salman Umar, and Erizal Zaini

Subjects

dissolution, freeze drying, hpmc 2910, piperine, solid dispersion, solubility, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Context: Piperine is the main secondary metabolite isolated from the family Piperaceae. This biologically active ingredient has many pharmacological effects, though its low water solubility limits its absorption in gastrointestinal fluid. Aims: To improve piperine’s solubility and dissolution rate by incorporating it into a solid dispersion system with the hydrophilic polymer hydroxypropyl methylcellulose (HPMC) 2910 via the freeze-drying method. Methods: Three different piperine:polymer ratios – 1:1, 1:2, and 2:1 (w/w) – were prepared. A physical mixture was also prepared in a 1:1 (w/w) ratio for comparison. The physicochemical properties of the samples were characterized by differential scanning calorimetry (DSC), powder X-ray diffraction (PXRD) analysis, Fourier transform infrared (FTIR) spectroscopy, and scanning electron microscopy (SEM). The solubility and dissolution tests were conducted in distilled water. Results: The solid dispersion characterization indicated a decrease in the melting points and endothermic peaks in the DSC analysis, a decrease in peak intensity in the PXRD patterns, no chemical interactions between active substances and polymers in the FTIR analysis, and significant morphological changes in the SEM analysis. The solubility test revealed the highest increase in piperine solubility (7.88-fold increase) for the 1:2 solid dispersion. Moreover, the 1:2 solid dispersion in the dissolution test led to the greatest amount of dissolved piperine (56.445 ± 1.13%). Conclusions: The piperine–HPMC solid dispersion system improved the solubility and dissolution rate of piperine.

Published

2024

48. Co-Amorphous Solid Dispersion System for Improvement in Dissolution Profile of N-(((1r,4r)-4-((6-fluorobenzo[d]oxazol-2-yl)amino)cyclohexyl)methyl)-2-methylpropane-2-sulfonamide as a Neuropeptide Y5 Receptor Antagonist

Author

Hironori Tanaka and Hiroshi Ueda

Subjects

amorphous, co-amorphous, co-amorphous solid dispersion, solid dispersion, Pharmacy and materia medica, RS1-441

Abstract

Background/Objectives: Brick dust molecules exhibit high melting points and ultralow solubility. Overcoming this solubility issue is challenging. Previously, we formulated a co-amorphous system for a neuropeptide Y5 receptor antagonist (NP) as a brick dust drug using sodium taurocholate (ST) to improve its dissolution profile. In this study, we have designed a ternary amorphous system involving polymer addition to further improve a co-amorphous system. Methods: The amorphous samples were prepared by the ball milling. The thermal and spectroscopic analyses were performed, and the isothermal crystallization and dissolution profiles were evaluated. Results: The ball milling of NPs, ST, and each of the three types of polymers successfully converted crystalline NPs to amorphous NPs. Thermal analysis confirmed the formation of a single amorphous phase. The infrared spectra revealed a specific interaction between an NP and ST in the co-amorphous system. Moreover, the intermolecular interactions of NP-ST were maintained in the ternary amorphous systems, suggesting the miscible dispersion of the co-amorphous system into the polymer via weak interactions as co-amorphous solid dispersions. The dissolution profile of co-amorphous NP-ST was 4.1- and 6.7-fold higher than that of crystalline NPs in pH 1.2 and 6.8 buffers, respectively. The drug concentration in the ternary amorphous system in pH 1.2 and 6.8 buffers became 1.1–1.2- and 1.4–2.7-fold higher than that seen in the co-amorphous system, respectively. Conclusions: Co-amorphous solid dispersion is a promising method for enhancing the solubility of brick dust molecules.

Published

2024

49. Preparation and evaluation of aceclofenac solid dispersion by fusion technique and effervescent assisted fusion technique: Comparative study

Author

Ahmad, Alezzy A. E. and Al-Khedairy, Eman B.H.

Published

2023

50. Solid Dispersions of Genistein via Solvent Rotary Evaporation for Improving Solubility, Bioavailability, and Amelioration Effect in HFD-Induced Obesity Mice.

Author

Qiu, Chenxu, Zhang, Yancui, Fan, Yingsai, Li, Shupeng, Gao, Jianting, He, Xin, and Zhao, Xinghua

Subjects

*GENISTEIN, *ORAL drug administration, *BIOAVAILABILITY, *DISPERSION (Chemistry), *OBESITY, *DRUG solubility

Abstract

Genistein (GEN) is an active pharmaceutical ingredient that presents the challenges of poor water solubility and low oral bioavailability. To tackle these challenges, a GEN solid dispersion was prepared by solvent rotary evaporation using polyvinylpyrrolidone K30 (PVP K30) as a carrier. The optimal formulation was determined by drug loading efficiency and in vitro release. The physical state of the solid dispersion was characterized by DSC, XRD, SEM and FT-IR. And the results of the in vitro release study indicate that the drug release of SD (1:7) increased 482-fold that of pure GEN at 60 min. Following oral administration to rats, the Cmax and AUC0–24 of SD (1:7) was increased 6.86- and 2.06-fold to that of pure GEN. The adipose fat index and body weight of the SD (1:7) group were significantly lower than those of the GEN group (p < 0.05). Meanwhile, the levels of TC and TG in the serum were significantly decreased in the SD (1:7) group compared with the GEN group (p < 0.05). All experiments revealed that solid dispersion could be a promising formulation approach to improve the dissolution rate, oral bioavailability, and effect on the reduction of lipid accumulation in high-fat diet-induced obesity mice. [ABSTRACT FROM AUTHOR]

Published

2024