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Keywords = biphasic tablet

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26 pages, 10483 KB  
Article
Polymer-Gated Bilayer Buccoadhesive Tablets for Biphasic Release of Indomethacin: Balancing Dissolution and Mucoadhesion
by Linhan Li, Jie Wang, Jie Xu, Jiaxin Li and Gang Jin
Pharmaceuticals 2026, 19(6), 944; https://doi.org/10.3390/ph19060944 - 15 Jun 2026
Viewed by 385
Abstract
Objectives: To address the critical limitations of current formulations that fail to simultaneously resolve indomethacin’s poor water solubility, susceptibility to gastric acid hydrolysis, and difficulty in balancing rapid onset with long-term sustained release, this study prepared solid dispersions via anti-solvent freeze-drying to [...] Read more.
Objectives: To address the critical limitations of current formulations that fail to simultaneously resolve indomethacin’s poor water solubility, susceptibility to gastric acid hydrolysis, and difficulty in balancing rapid onset with long-term sustained release, this study prepared solid dispersions via anti-solvent freeze-drying to improve drug dissolution, constructed oral buccoadhesive bilayer controlled-release tablets using direct powder compression, and elucidated the intrinsic relationships among polymer gel properties, swelling-erosion behavior, tablet integrity maintenance, and drug release mechanisms. Methods: Solid dispersions (SDs) were prepared by anti-solvent freeze-drying. Bilayer tablets (25 mg IND/tablet, 12.5 mg/layer) were fabricated via direct powder compression after optimizing disintegrants and polymer matrices. In vitro dissolution, surface pH, adhesion time, and adhesion strength were evaluated. Results: SDs enhanced dissolution by at least 30-fold in water and 2.4-fold at pH 6.8 within 2 h versus pure drug. Optimized bilayer tablets achieved 45% drug release at 20 min and 80% sustained release over 8 h, with surface pH of 6.8 ± 0.1, adhesion time of 8.3 ± 0.1 h, and adhesion strength of 57 ± 0.13 g. Conclusions: The physicochemical properties of polymeric excipients are critical for balancing drug release and mucoadhesion in buccal tablets. To achieve ideal controlled-release effects, in addition to focusing on the swelling and erosion characteristics of matrix-based tablets, the ability to maintain tablet integrity during dynamic dissolution must be further investigated, which is an essential factor for ensuring precisely modulated drug release. Meanwhile, when employing solid dispersions as solubilizing intermediates to prepare controlled-release formulations, the gelling properties of polymers in each formulation component should be fully considered to avoid incomplete disintegration and insufficient release at the initial dissolution stage. Full article
(This article belongs to the Section Pharmaceutical Technology)
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26 pages, 3323 KB  
Article
Hot-Melt Processed Glibenclamide Glassy Solutions: A Novel Oral Delivery Platform for Enhanced Bioavailability in Diabetes
by Hany S. M. Ali, Ahmed F. Hanafy, Ahmed Almotairy, Marey Almaghrabi, Hamad Alrbyawi and Waleed A. Mohammed-Saeid
Pharmaceutics 2026, 18(4), 421; https://doi.org/10.3390/pharmaceutics18040421 - 30 Mar 2026
Viewed by 806
Abstract
Background/Objectives: Hot-melt injection molding (HMIM) was evaluated as a solvent-free process for the preparation of glibenclamide (GLB), a poorly soluble BCS Class II drug, glassy solutions with the objective of improving dissolution and bioavailability for diabetes. Methods: GLB was blended at [...] Read more.
Background/Objectives: Hot-melt injection molding (HMIM) was evaluated as a solvent-free process for the preparation of glibenclamide (GLB), a poorly soluble BCS Class II drug, glassy solutions with the objective of improving dissolution and bioavailability for diabetes. Methods: GLB was blended at a concentration of 10% w/w with PVP K25, PVP VA64, and Soluplus® (SOL) matrices. The miscibility of the GLB–polymer systems (matrices) was calculated based on the Hansen solubility parameters and validated using differential scanning calorimetry (DSC) analysis. The HMIM extrudates were milled into granules and analysed for their solid-state properties (DSC, XRPD, FTIR, and SEM studies), and flow properties. The produced granules were compressed into immediate release tablets and assessed for in vitro performance, stability, and in vivo bioavailability using 20 healthy male Sprague Dawley rats. Results: Findings revealed the formation of single-phase glassy solutions, specifically for PVP VA64 and SOL, which also exhibited advantageous manufacturing and extrudate clarity. The glassy solution formulations showed considerably improved dissolution characteristics compared with the crystalline GLB and the commercial product. The glassy solution formulations displayed fast drug release for PVP K25 and PVP VA64, and biphasic drug release for SOL. Stability testing confirmed the capability of PVP VA64 and SOL to maintain GLB in a molecularly dispersed, amorphous state for 12 months. The in vivo assessment revealed an increase in relative bioavailability to 246.3% and 124.5% for the SOL and PVP VA64 formulations when compared to the commercial formulation. Conclusions: Overall, the findings demonstrate the potential of HMIM-processed glassy solutions, especially those prepared using SOL, as promising platforms for promoting oral delivery of the poorly soluble antidiabetic GLB. Full article
(This article belongs to the Section Biopharmaceutics)
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12 pages, 2591 KB  
Article
Developing In Vitro–In Vivo Correlation for Bicalutamide Immediate-Release Dosage Forms with the Biphasic In Vitro Dissolution Test
by Nihal Tugce Ozaksun and Tuba Incecayir
Pharmaceutics 2025, 17(9), 1126; https://doi.org/10.3390/pharmaceutics17091126 - 28 Aug 2025
Cited by 1 | Viewed by 2019
Abstract
Background/Objectives: Reflecting the interaction between dissolution and absorption, the biphasic dissolution system is an appealing approach for estimating the intestinal absorption of drugs in humans. The study aims to characterize the suitability of the biphasic in vitro dissolution testing to set up [...] Read more.
Background/Objectives: Reflecting the interaction between dissolution and absorption, the biphasic dissolution system is an appealing approach for estimating the intestinal absorption of drugs in humans. The study aims to characterize the suitability of the biphasic in vitro dissolution testing to set up an in vitro–in vivo correlation (IVIVC) for the original and generic immediate-release (IR) tablets of a Biopharmaceutics Classification System (BCS) Class II drug, bicalutamide (BIC). Methods: USP apparatus II paddle was used to conduct dissolution testing. A level A IVIVC was obtained between in vitro partitioning and in vivo absorption data of the original drug. The single-compartmental modeling was used for pharmacokinetic (PK) analysis. The generic product’s plasma concentrations were estimated. Results: There was a good correlation between in vitro and in vivo data (r2 = 0.98). The area under the concentration–time curve (AUC) and maximum plasma concentration (Cmax) ratios for generic/original were 1.04 ± 0.01 and 0.951 ± 0.026 (mean ± SD), respectively. Conclusions: The biphasic dissolution testing may present an in vivo predictive tool for developing generic products of poorly soluble and highly permeable drugs such as BIC, which are characterized by pH-independent poor solubility. Full article
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12 pages, 1512 KB  
Article
Efficacy and Safety of a Fixed-Dose Combination of Etoricoxib–Tramadol Biphasic Tablet in Moderate-to-Severe Acute Pain: A Randomized, Double-Blind, Parallel-Group, Active-Controlled Trial
by Tania A. Sibaja, Guadalupe A. Espinoza, Yazmin I. Dávila, Erick M. Salinas, Juan J. Venegas, Dany Batista and Livan Delgado-Roche
J. Clin. Med. 2025, 14(12), 4327; https://doi.org/10.3390/jcm14124327 - 17 Jun 2025
Cited by 2 | Viewed by 5402
Abstract
Objectives: The aim of the present study was to evaluate the efficacy and safety of etoricoxib–tramadol 120 mg/100 mg (Eto-Tr) in acute moderate-to-severe pain. Methods: Eto-Tr once a day (n = 29) or naproxen 220 mg + tramadol 50 mg (Nap-Tr) every [...] Read more.
Objectives: The aim of the present study was to evaluate the efficacy and safety of etoricoxib–tramadol 120 mg/100 mg (Eto-Tr) in acute moderate-to-severe pain. Methods: Eto-Tr once a day (n = 29) or naproxen 220 mg + tramadol 50 mg (Nap-Tr) every 12 h (n = 28) were administered after a third molar extraction for three days. Pain intensity difference at 4 h (PID4) was determined as the primary outcome. In addition, total pain relief (TOTPAR), trismus control, and adverse events were addressed. Results: The population PID4 score was 0 mm (Nap-Tr IQR 13 mm; Eto-Tr IQR 35 mm; p = 0.182). No differences for PID scores were observed (1 h to 72 h). TOTPAR increased gradually from 35.71% (Nap-Tr) and 39.39% (Eto-Tr) at 4 h to 67.86% (Nap-Tr) and 58.62% (Eto-Tr) at 72 h. Sustained pain relief over time and clinically meaningful trismus reduction was also observed (Nap-Tr: 4 mm [IQR 28.10] vs. Eto-Tr: 9.8 mm [IQR 12.3], p = 0.175). Common adverse events were notified [Nap-Tr (n = 5, 19%); Eto-Tr (n = 8, 27%)]. Conclusions: The once-daily administration of Eto-Tr 120 mg/100 mg showed similar efficacy and safety to conventional treatment in moderate-to-severe acute pain. The once-daily regimen together with a multimodal analgesia represents a suitable patient-centered alternative for pain management. Full article
(This article belongs to the Section Dentistry, Oral Surgery and Oral Medicine)
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28 pages, 4709 KB  
Article
Dual-Mechanism Gastroretentive Tablets with Encapsulated Gentian Root Extract
by Jelena Mudrić, Ljiljana Đekić, Nemanja Krgović, Đorđe Medarević, Katarina Šavikin, Milica Radan, Nada Ćujić Nikolić, Tijana Ilić, Bojana Vidović and Jelena Đuriš
Pharmaceutics 2025, 17(1), 71; https://doi.org/10.3390/pharmaceutics17010071 - 7 Jan 2025
Cited by 2 | Viewed by 3350
Abstract
Background/Objectives: This study aimed to develop gastroretentive tablets based on mucoadhesive–floating systems with encapsulated gentian (Gentiana lutea, Gentianaceae) root extract to overcome the low bioavailability and short elimination half-life of gentiopicroside, a dominant bioactive compound with systemic effect. The formulation also [...] Read more.
Background/Objectives: This study aimed to develop gastroretentive tablets based on mucoadhesive–floating systems with encapsulated gentian (Gentiana lutea, Gentianaceae) root extract to overcome the low bioavailability and short elimination half-life of gentiopicroside, a dominant bioactive compound with systemic effect. The formulation also aimed to promote the local action of the extract in the stomach. Methods: Tablets were obtained by direct compression of sodium bicarbonate (7.5%) and solid lipid microparticles (92.5%), which were obtained with lyophilizing double emulsions. A quality by design (QbD) was employed to evaluate the impact of formulation factors and processing parameters on emulsion viscosity, powder characteristics (moisture content, encapsulation efficiency, flowability), and tablet characteristics (floating lag time, gentiopicroside release, and assessment of dispersibility during in vitro dissolution). Results: The trehalose content and high-shear-homogenization (HSH) time of primary emulsion were critical factors. Trehalose content positively influenced emulsion viscosity, moisture content, floating lag time, encapsulation efficiency, and the release rate of gentiopicroside. HSH time positively affected powder stability and negatively gentiopicroside release. The selected powder had a high gentiopicroside encapsulation efficiency (95.13%), optimal stability, and good flowability. The developed tablets exhibited adequate floating lag time (275 s), mucoadhesive properties, and gentiopicroside biphasic release (29.04% in 45 min; 67.95% in 6 h). Furthermore, the optimal tablet formulation remained stable for 18 months and was primarily digested by duodenal enzymes. Conclusions: Dual-mechanism gastroretentive tablets with encapsulated gentian root extract were successfully developed. The in vitro digestion study demonstrated that the optimal formulation effectively resisted gastric enzymes, ensuring the release of its contents in the small intestine, even in the case of premature gastric evacuation. Full article
(This article belongs to the Special Issue Drug Delivery for Natural Extract Applications)
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15 pages, 2181 KB  
Article
In Vivo Relevance of a Biphasic In Vitro Dissolution Test for the Immediate Release Tablet Formulations of Lamotrigine
by Tuba Incecayir and Muhammed Enes Demir
Pharmaceutics 2023, 15(10), 2474; https://doi.org/10.3390/pharmaceutics15102474 - 17 Oct 2023
Cited by 7 | Viewed by 4529
Abstract
Biphasic in vitro dissolution testing is an attractive approach to reflect on the interplay between drug dissolution and absorption for predicting the bioperformance of drug products. The purpose of this study was to investigate the in vivo relevance of a biphasic dissolution test [...] Read more.
Biphasic in vitro dissolution testing is an attractive approach to reflect on the interplay between drug dissolution and absorption for predicting the bioperformance of drug products. The purpose of this study was to investigate the in vivo relevance of a biphasic dissolution test for the immediate release (IR) formulations of a Biopharmaceutics Classification System (BCS) Class II drug, lamotrigine (LTG). The biphasic dissolution test was performed using USP apparatus II with the dual paddle modification. A level A in vitro-in vivo correlation (IVIVC) was constructed between the in vitro partition into the octanol and absorption data of the reference product. A good relation between in vitro data and absorption was obtained (r2 = 0.881). The one-compartment open model was introduced to predict the human plasma profiles of the test product. The generic product was found to be bioequivalent to the original product in terms of 80–125% bioequivalence (BE) criteria (85.9–107% for the area under the plasma concentration curve (AUC) and 82.7–97.6% for the peak plasma concentration (Cmax) with a 90% confidence interval (CI)). Overall, it was revealed that the biphasic dissolution test offers a promising ability to estimate the in vivo performance of IR formulations of LTG, providing considerable time and cost savings in the development of generic drug products. Full article
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17 pages, 2223 KB  
Article
Development of a Swellable and Floating Gastroretentive Drug Delivery System (sfGRDDS) of Ciprofloxacin Hydrochloride
by Yu-Kai Liang, Wen-Ting Cheng, Ling-Chun Chen, Ming-Thau Sheu and Hong-Liang Lin
Pharmaceutics 2023, 15(5), 1428; https://doi.org/10.3390/pharmaceutics15051428 - 7 May 2023
Cited by 15 | Viewed by 7777
Abstract
Sangelose® (SGL) is a novel hydroxypropyl methylcellulose (HPMC) derivative that has been hydrophobically modified. Due to its high viscosity, SGL has the potential as a gel-forming and release-rate-controlled material for application in swellable and floating gastroretentive drug delivery systems (sfGRDDS). [...] Read more.
Sangelose® (SGL) is a novel hydroxypropyl methylcellulose (HPMC) derivative that has been hydrophobically modified. Due to its high viscosity, SGL has the potential as a gel-forming and release-rate-controlled material for application in swellable and floating gastroretentive drug delivery systems (sfGRDDS). The aim of this study was to develop ciprofloxacin (CIP)-loaded sfGRDDS tablets comprised of SGL and HPMC in order to extend CIP exposure in the body and achieve optimal antibiotic treatment regimes. Results illustrated that SGL-HPMC-based sfGRDDS could swell to a diameter above 11 mm and showed a short floating lag time (<4 s) and long total floating time (>24 h) to prevent gastric emptying. In dissolution studies, CIP-loaded SGL-HPMC sfGRDDS demonstrated a specific biphasic release effect. Among the formulations, the SGL/type-K HPMC 15,000 cps (HPMC 15K) (50:50) group exhibited typical biphasic release profiles, with F4-CIP and F10-CIP individually releasing 72.36% and 64.14% CIP within 2 h dissolution, and sustaining release to 12 h. In pharmacokinetic studies, the SGL-HPMC-based sfGRDDS demonstrated higher Cmax (1.56–1.73 fold) and shorter Tmax (0.67 fold) than HPMC-based sfGRDDS. Furthermore, SGL 90L in GRDDS indicated an excellent biphasic release effect and a maximum elevation of relative bioavailability (3.87 fold). This study successfully combined SGL and HPMC to manufacture sfGRDDS that retain CIP in the stomach for an optimal duration while improving its pharmacokinetic characteristics. It was concluded that the SGL-HPMC-based sfGRDDS is a promising biphasic antibiotic delivery system that can both rapidly achieve the therapeutic antibiotic concentration and maintain the plasma antibiotic concentration for an extended period to maximize antibiotic exposure in the body. Full article
(This article belongs to the Special Issue Dissolution and Disintegration of Oral Solid Dosage Forms)
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18 pages, 2657 KB  
Article
Clarithromycin and Pantoprazole Gastro-Retentive Floating Bilayer Tablet for the Treatment of Helicobacter Pylori: Formulation and Characterization
by Ghufran Ullah, Asif Nawaz, Muhammad Shahid Latif, Kifayat Ullah Shah, Saeed Ahmad, Fatima Javed, Mulham Alfatama, Siti Aisyah Abd Ghafar and Vuanghao Lim
Gels 2023, 9(1), 43; https://doi.org/10.3390/gels9010043 - 4 Jan 2023
Cited by 16 | Viewed by 7208
Abstract
Bilayer/multilayer tablets have been introduced to formulate incompatible components for compound preparations, but they are now more commonly used to tailor drug release. This research aimed to formulate a novel gastro-retentive tablet to deliver a combination of a fixed dose of two drugs [...] Read more.
Bilayer/multilayer tablets have been introduced to formulate incompatible components for compound preparations, but they are now more commonly used to tailor drug release. This research aimed to formulate a novel gastro-retentive tablet to deliver a combination of a fixed dose of two drugs to eliminate Helicobacter pylori (H. pylori) in the gastrointestinal tract. The bilayer tablets were prepared by means of the direct compression technique. The controlled-release bilayer tablets were prepared using various hydrophilic swellable polymers (sodium alginate, chitosan, and HPMC-K15M) alone and in combination to investigate the percent of swelling behavior and average drug release. The weight of the controlled-release floating layer was 500 mg, whereas the weight of the floating tablets of pantoprazole was 100 mg. To develop the most-effective formulation, the effects of the experimental components on the floating lag time, the total floating time, T 50%, and the amount of drug release were investigated. The drugs’ and excipients’ compatibilities were evaluated using ATR-FTIR and DSC. Pre-compression and post-compression testing were carried out for the prepared tablets, and they were subjected to in vitro characterization studies. The pantoprazole layer of the prepared tablet demonstrated drug release (95%) in 2 h, whereas clarithromycin demonstrated sustained drug release (83%) for up to 24 h (F7). The present study concluded that the combination of sodium alginate, chitosan, and HPMC polymers (1:1:1) resulted in a gastro-retentive and controlled-release drug delivery system of the drug combination. Thus, the formulation of the floating bilayer tablets successfully resulted in a biphasic drug release. Moreover, the formulation (F7) offered the combination of two drugs in a single-tablet formulation containing various polymers (sodium alginate, chitosan, and HPMC polymers) as the best treatment option for local infections such as gastric ulcers. Full article
(This article belongs to the Special Issue Engineering Hydrogel for Biomedical Applications)
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20 pages, 4816 KB  
Article
Development of Lipid-Based Gastroretentive Delivery System for Gentian Extract by Double Emulsion–Melt Dispersion Technique
by Jelena Mudrić, Katarina Šavikin, Ljiljana Đekić, Stefan Pavlović, Ivana Kurćubić, Svetlana Ibrić and Jelena Đuriš
Pharmaceutics 2021, 13(12), 2095; https://doi.org/10.3390/pharmaceutics13122095 - 6 Dec 2021
Cited by 8 | Viewed by 4375
Abstract
Gentian (Gentiana lutea L., Gentianaceae) root extract (GRE) is used for the treatment of gastrointestinal disorders. However, its bioactive potential is limited in conventional forms due to the low bioavailability and short elimination half-life of the dominant bioactive compound, gentiopicroside. The aim [...] Read more.
Gentian (Gentiana lutea L., Gentianaceae) root extract (GRE) is used for the treatment of gastrointestinal disorders. However, its bioactive potential is limited in conventional forms due to the low bioavailability and short elimination half-life of the dominant bioactive compound, gentiopicroside. The aim of study was to encapsulate GRE in the lipid-based gastroretentive delivery system that could provide high yield and encapsulation efficiency, as well as the biphasic release of gentiopicroside from the tablets obtained by direct compression. Solid lipid microparticles (SLM) loaded with GRE were prepared by freeze-drying double (W/O/W) emulsions, which were obtained by a multiple emulsion–melt dispersion technique, with GRE as the inner water phase, Gelucire® 39/01 or 43/01, as lipid components, with or without the addition of porous silica (Sylysia® 350) in the outer water phase. Formulated SLM powders were examined by SEM and mercury intrusion porosimetry, as well as by determination of yield, encapsulation efficiency, and flow properties. Furthermore, in vitro dissolution of gentiopicroside, the size of the dispersed systems, mechanical properties, and mucoadhesion of tablets obtained by direct compression were investigated. The results have revealed that SLM with the macroporous structure were formulated, and, consequently, the powders floated immediately in the acidic medium. Formulation with porous silica (Sylysia® 350) and Gelucire® 43/01 as a solid lipid was characterized with the high yield end encapsulation efficiency. Furthermore, the mucoadhesive properties of tablets obtained by direct compression of that formulation, as well as the biphasic release of gentiopicroside, presence of nanoassociates in dissolution medium, and optimal mechanical properties indicated that a promising lipid-based gastroretentive system for GRE was developed. Full article
(This article belongs to the Section Drug Delivery and Controlled Release)
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