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3,057 results on '"Oral Bioavailability"'

2. Factors Influencing the Central Nervous System (CNS) Distribution of the Ataxia Telangiectasia Mutated and Rad3-Related Inhibitor Elimusertib (BAY1895344): Implications for the Treatment of CNS Tumors

Author

Rathi, Sneha, Mladek, Ann C., Oh, Ju-Hee, Dragojevic, Sonja, Burgenske, Danielle M., Zhang, Wenjuan, Talele, Surabhi, Zhang, Wenqiu, Bakken, Katrina K., Carlson, Brett L., Connors, Margaret A., He, Lihong, Hu, Zeng, Sarkaria, Jann N., and Elmquist, William F.

Published
2024
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17. Pharmacokinetic Evaluation of Neutral Sphinghomyelinase2 (nSMase2) Inhibitor Prodrugs in Mice and Dogs.

Author

Ranjit, Arina, Lee, Chae Bin, Tenora, Lukáš, Mettu, Vijaya Saradhi, Pal, Arindom, Alt, Jesse, Slusher, Barbara S., and Rais, Rana

Abstract

Background: Extracellular vesicles (EVs) can carry pathological cargo, contributing to disease progression. The enzyme neutral sphingomyelinase 2 (nSMase2) plays a critical role in EV biogenesis, making it a promising therapeutic target. Our lab previously identified a potent and selective inhibitor of nSMase2, named DPTIP (IC50 = 30 nM). Although promising, DPTIP exhibits poor pharmacokinetics (PKs) with a low oral bioavailability (%F < 5), and a short half-life (t1/2 ≤ 0.5 h). To address these limitations, we previously developed DPTIP prodrugs by masking its phenolic hydroxyl group, demonstrating improved plasma exposure in mice. Recognizing that species-specific metabolic differences can influence prodrug PK, we expanded our studies to evaluate selected prodrugs in both mice and dogs. Methods: The scaleup of selected prodrugs was completed and two additional valine- ester based prodrugs were synthesized. Mice were dosed prodrugs via peroral route (10 mg/kg equivalent). For dog studies DPTIP was dosed via intravenous (1 mg/kg) or peroral route (2 mg/kg) and prodrugs were given peroral at a dose 2 mg/kg DPTIP equivalent. Plasma samples were collected at predetermined points and analyzed using developed LC/MS-MS methods. Results: In mice, several of the tested prodrugs showed similar or improved plasma exposures compared to DPTIP. However, in dog studies, the double valine ester prodrug 9, showed significant improvement with an almost two-fold increase in DPTIP plasma exposure (AUC0–t = 1352 vs. 701 pmol·h/mL), enhancing oral bioavailability from 8.9% to 17.3%. Conclusions: These findings identify prodrug 9 as a promising candidate for further evaluation and underscore the critical role of species-specific differences in prodrug PKs. [ABSTRACT FROM AUTHOR]

Published
2025
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18. Tea Saponins: a Novel Stabilizer for Enhancing the Oral Bioavailability of Albendazole Nanocrystals.

Author

Lan, Sumin, Chen, Kexi, Feng, Liqiang, Sima, Panle, Ji, Xiaoyao, Wu, Feihua, and Lin, Yining

Abstract

Albendazole serves as a broad-spectrum anthelmintic medication for treating hydatid cysts and neurocysticercosis. However, its therapeutic effectiveness is limited by poor solubility. Nanocrystals offer a promising technology to address this limitation by enhancing drug solubility. The objective of this study is to evaluate an effective stabilizer for creating an albendazole nanocrystal formulation to improve oral absorption. Among different surfactants and polymers examined, tea saponins were used as the stabilizer to develop a nanosuspension with the particle size of 180 nm through a wet grinding approach. The physical characteristics of the nanocrystals were assessed using SEM, DSC, and XRPD. The nanocrystals significantly enhanced solubility by 2.9–2602 fold in different media and showed significant enhancement in dissolution rate compared to albendazole crystals in both pH 1.0 and pH 6.8 medium. Everted gut sacs experiments demonstrated that the nanocrystals increased Papp by 3.60-fold in duodenum, 3.76-fold in jejunum, 3.71-fold in ileum, and 5.26-fold in colon, respectively. Furthermore, pharmacokinetic studies revealed that the nanocrystals significantly enhanced oral bioavailability, resulting in a 4.65-fold increase in plasma AUC0−t value of albendazole sulfoxide (the primary active metabolite of albendazole) compared to the albendazole group. The present data indicates that tea saponins are potential natural stabilizers for preparing nanocrystals with enhanced oral bioavailability for insoluble drugs. [ABSTRACT FROM AUTHOR]

Published
2025
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19. Multi-functional Chitosan Polymeric Micelles for improving the oral bioavailability of Paclitaxel based on synergistic effect.

Author

Zhang, Wei, Zhang, Qian, Yang, Yuhan, Chen, Yangyi, Wei, Jinbin, Lu, Fenglai, and Li, Dianpeng

Abstract

A novel multi-functional micelle delivery system was developed for enhancing the oral absorption of paclitaxel (PTX). The delivery carriers were constructed by modifying chitosan-stearic acid (CS-SA) micelles with L-carnitine (LC) and co-encapsulating quercetin (Que), and the PTX-loaded micelles were prepared by film-sonication dispersing technique. The as-prepared micelles showed homogeneous spherical shapes with a small particle size of 148.3 ± 1.7 nm, high drug loading of 7.05% and low critical micelle concentration (CMC) of 16.89 µg/ml. Compared to the in-house PTX formulation similar to the commercial injection Taxol™, the target PTX-loaded micelles had obvious sustained-release effects and exhibited an oral relative bioavailability of 168.08%. The cellular uptake studies of Caco-2 cells confirmed the micellar modification of LC and the co-loading of Que played important roles in promoting the absorption of drug loaded in micelles. The CYP3A4 enzyme test demonstrated the micelles had an inhibitory effect on the metabolic enzyme due to the presence of Que. These findings confirmed the potential of the multi-functional chitosan polymeric micelles based on synergistic effect as an effective oral delivery system. [ABSTRACT FROM AUTHOR]

Published
2025
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20. Advancing the Physicochemical Properties and Therapeutic Potential of Plant Extracts Through Amorphous Solid Dispersion Systems.

Author

Budiman, Arif, Hafidz, Nur Parida Mahdhani, Azzahra, Raden Siti Salma, Amaliah, Salma, Sitinjak, Feggy Yustika, Rusdin, Agus, Subra, Laila, and Aulifa, Diah Lia

Subjects
*PLANT extracts, *AMORPHOUS substances, *MEDICINAL plants, *BIOAVAILABILITY, *SOLUBILITY
Abstract

Plant extracts demonstrate significant potential as a rich source of active pharmaceutical ingredients, exhibiting diverse biological activities and minimal toxicity. However, the low aqueous solubility of extracts and their gastrointestinal permeability, as well as their poor oral bioavailability, limit clinical advancements due to drug delivery problems. An amorphous solid dispersion (ASD) delivers drugs by changing an active pharmaceutical ingredient (API) into an amorphous state to increase the solubility and availability of the API to the body. This research aimed to analyze and summarize the successful advancements of ASD systems derived from plant extracts, emphasizing characterization and the effects on dissolution and pharmacological activity. The results show that ASD systems improve phytoconstituent dissolution, bioavailability, and stability, in addition to reducing dose and toxicity. This research demonstrates the significance of ASD in therapeutic formulations to augment the pharmacological activities and efficacy of medicinal plant extracts. The prospects indicate promising potential for therapeutic applications utilizing ASD systems, alongside medicinal plant extracts for clinical therapy. [ABSTRACT FROM AUTHOR]

Published
2024
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21. In vitro and in vivo performance of amorphous solid dispersions of ursolic acid as a function of polymer type and excipient addition.

Author

Zhao, Tingting, Gu, Chenming, Qi, Jianbo, Liu, Jingwen, Wang, Yajun, Chen, Xiaojing, Guo, Fujiang, and Li, Yiming

Subjects
*URSOLIC acid, *AMORPHOUS substances, *DRUG delivery systems, *POLYETHYLENE glycol, *RECRYSTALLIZATION (Metallurgy)
Abstract

Objectives The objective of this research was to enhance the bioavailability of ursolic acid (UA) by preparing multielement amorphous solid dispersion (ASD) systems comprising excipients. Methods The ASDs were prepared via the solvent evaporation method, characterized by a range of techniques, and investigated with respect to permeability of human colorectal adenocarcinoma cell line (Caco-2) cells monolayers and pharmacokinetics, with comparisons made to the physical mixture and the pure drug. Key findings The (UA-choline)-Polyethylcaprolactam—polyvinyl acetate—polyethylene glycol grafted copolymer (Soluplus)-Vitamin E polyethylene glycol succinate (TPGS) ASD demonstrated superior dissolution properties compared to the corresponding binary solid dispersions and ternary solid dispersions (P <.05). The permeability studies of Caco-2 cell monolayers revealed that the ASD exhibited moderate permeability, with an efflux rate that was significantly lower than that of the UA raw material (P <.05). Pharmacokinetic studies in rats demonstrated that the oral bioavailability of the ASD was 19.0 times higher than that of UA (P <.01). Conclusions The research indicated that the multielement ASD could be employed as an efficacious drug delivery system for UA. Furthermore, the Soluplus/TPGS/choline combination represents a promising candidate for the fabrication of ASDs that can load weakly acidic and poorly soluble drugs. [ABSTRACT FROM AUTHOR]

Published
2024
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22. 多孔材料 ZIF-8 的制备及其对布洛芬的载药性能.

Author

孙瑞华, 杨卓凡, 张芮博, 江奇, 卢晓英, and 廖海

Subjects
PORE size distribution, METAL-organic frameworks, SURFACE area, BUFFER solutions, SURVIVAL rate
Abstract

Copyright of Acta Materiae Compositae Sinica is the property of Acta Materiea Compositae Sinica Editorial Department and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published
2024
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23. Preparation and Characterization of Tiamulin-Loaded Niosomes for Oral Bioavailability Enhancement in Mycoplasma -Infected Broilers.

Author

Abonashey, Shimaa G., Fouad, Amr Gamal, Hassan, Hatem A. F. M., El-Banna, Ahmed H., Shalaby, Mostafa A., Mobarez, Elham, Fahmy, Sherif Ashraf, and El-Banna, Hossny A.

Subjects
ORAL drug administration, MYCOPLASMA gallisepticum, DRUG stability, DRUG delivery systems, TRANSMISSION electron microscopy
Abstract

Mycoplasma infections pose significant challenges in the poultry industry, necessitating effective therapeutic interventions. Tiamulin, a veterinary antibiotic, has demonstrated efficacy against Mycoplasma species. However, the emergence of resistant Mycoplasma species could dramatically reduce the therapeutic potential, contributing to economic losses. Optimizing the tiamulin's pharmacokinetic profile via nanocarrier incorporation could enhance its therapeutic potential and reduce the administration frequency, ultimately reducing the resistant strain emergence. Niosomes, a type of self-assembled non-ionic surfactant-based nanocarrier, have emerged as a promising drug delivery system, offering improved drug stability, sustained release, and enhanced bioavailability. In this study, niosomal nanocarriers encapsulating tiamulin were prepared, characterized and assessed in Mycoplasma-inoculated broilers following oral administration. Differential scanning colorimetry (DSC) confirmed the alterations in the crystalline state following components integration into the self-assembled structures formed during the formulation procedure. Transmission electron microscopy (TEM) showed the spherical nanostructure of the formed niosomes. The formulated nanocarriers exhibited a zeta potential and average hydrodynamic diameter of −10.65 ± 1.37 mV and 339.67 ± 30.88 nm, respectively. Assessment of the pharmacokinetic parameters following oral administration to Mycoplasma gallisepticum-infected broilers revealed the ability of the niosomal nanocarriers to increase the tiamulin's bioavailability and systemic exposure, marked by significantly higher area under the curve (AUC) (p < 0.01) and prolonged elimination half-life (T1/2) (p < 0.05). Enhanced bioavailability and prolonged residence time are crucial factors in maintaining therapeutic concentrations at reduced doses and administration frequencies. This approach provides a viable strategy to decrease the risk of subtherapeutic levels, thereby mitigating the development of antibiotic resistance. The findings presented herein offer a sustainable approach for the efficient use of antibiotics in veterinary medicine. [ABSTRACT FROM AUTHOR]

Published
2024
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24. Effects of Melissa officinalis Phytosome on Sleep Quality: Results of a Prospective, Double-Blind, Placebo-Controlled, and Cross-Over Study.

Author

Di Pierro, Francesco, Sisti, Davide, Rocchi, Marco, Belli, Annalisa, Bertuccioli, Alexander, Cazzaniga, Massimiliano, Palazzi, Chiara Maria, Tanda, Maria Laura, and Zerbinati, Nicola

Abstract

Background: Melissa officinalis standardised extracts, characterised by the presence of hydroxycinnamic acids, have been experimentally demonstrated to be endowed with anti-anxiety and anti-insomnia pharmacological actions. These effects, probably attributable, at least in part, to the role played by rosmarinic acid on GABA-T, have not always been observed in a reproducible manner in humans, perhaps due to the poor bioavailability of these compounds. Methods: as nutraceuticals and botanicals could be an alternative option to prescription medications for alleviating symptoms of mild anxiety and insomnia, we have verified in a prospective, double-blind, placebo-controlled, and cross-over study the supporting role on sleep quality played by a Melissa officinalis highly standardised extract, formulated as Phytosome™ (MOP) to improve the oral bioavailability of its active polyphenolic components. Results: results showed a significant reduction in the ISI score in the treated group, with an average of 6.8 ± 4.1 compared to 9.7 ± 3.7 in the placebo group, indicating a significant reduction of 2.9 points (p = 0.003). The SWS phase duration increased by an average of 15%, while the REM phase decreased by 10%. Additionally, 87% of participants in the treated group reported improved sleep quality, compared to 30% in the placebo group, with significant differences measured by chi-square test (χ2(4) = 21.01, p = 0.0003), highlighting the effects due to Melissa officinalis L. No significant changes in physical activity or anxiety levels were observed. Conclusions: these findings suggest that MOP may represent a natural and safe alternative to traditional pharmacological treatments for insomnia. [ABSTRACT FROM AUTHOR]

Published
2024
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25. Simple preparation and greatly improved oral bioavailability: The supersaturated drug delivery system of quercetin based on PVP K30.

Author

Li, Manzhen, Li, Haowen, Lu, Likang, Fu, Jingxin, Ao, Hui, Han, Meihua, Guo, Yifei, Zhang, Hongda, Wang, Zhenzhong, and Wang, Xiangtao

Abstract

Quercetin, as a representative flavonoid, is widely present in daily diet and has been developed as a dietary supplement due to its beneficial physiological activities. However, the application of quercetin is limited due to its poor water solubility and extensive metabolism. So far, the nano-drug delivery systems designed to improve its bioavailability generally have the shortcomings of low drug loading content and difficulty in industrial production. In order to tackle these problems, quercetin supersaturated drug delivery system (QSDDS) was successfully prepared using solvent method, for which PVP K30 was employed as a crystallization and precipitation inhibitor to maintain the supersaturated state of quercetin in aqueous system. The obtained QSDDS, with a relative high drug loading content of 13%, could quickly disperse in water and form colloidal system with the mean particle size of about 200 nm, meanwhile induce the generation of supersaturated quercetin solution more than 12 h. In vivo pharmacokinetic study proved that QSDDS achieved a high absolute bioavailability of 36.05%, 10 times as that of physical quercetin suspension, which was dose-dependent with higher bioavailability at higher dose. Considering the simple preparation method, QSDDS provided a feasible strategy and a simple way to improve oral absorption of insoluble flavonoids. Quercetin supersaturated drug delivery system (QSDDS) using PVP K30 as precipitation inhibitor can maintain supersaturation and increase the oral bioavailability of free quercetin in plasma(by Figdraw) [ABSTRACT FROM AUTHOR]

Published
2024
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26. Solid Self-Microemulsifying Drug Delivery System for Improved Oral Bioavailability of Relugolix: Preparation and Evaluation

Author

Li ZL, Deng GX, Fang CZ, Zhao YQ, Yuan J, Chen L, Zhong HJ, and Guo F

Subjects
solid self-microemulsifying drug delivery system, s-smedds, relugolix, microemulsion, oral bioavailability, p-glycoprotein, Medicine (General), R5-920
Abstract

Zi-Lin Li,1,&ast; Guo-Xing Deng,1,&ast; Chuan-Zhou Fang,1,&ast; Yue-Qi Zhao,1 Jing Yuan,2 Liang Chen,3 Hai-Jun Zhong,1 Feng Guo1 1School of Pharmacy, Jiangxi Medical College, Nanchang University, Nanchang, 330006, People’s Republic of China; 2College of Basic Medicine and Forensic Medicine, Henan University of Science and Technology, Luoyang, 471000, People’s Republic of China; 3Jiangxi Prozin Pharmaceutical Co., LTD, Jian, 343100, People’s Republic of China&ast;These authors contributed equally to this workCorrespondence: Feng Guo; Hai-JunZhong, School of Pharmacy, Jiangxi Medical College, Nanchang University, Nanchang, 330006, People’s Republic of China, Tel +86 0791 86361839, Email fengguo@ncu.edu.cn; zhonghj@ncu.edu.cnPurpose: To improve the oral absorption of relugolix (RLGL), which has low oral bioavailability due to its low solubility and being a substrate of P-glycoprotein (P-gp). A solid self-microemulsifying drug delivery system of relugolix (RLGL-S-SMEDDS) was prepared and evaluated in vitro and in vivo.Methods: The composition of the solid self-microemulsifying drug delivery system (S-SMEDDS) was selected by solubility study and pseudo-ternary phase diagram, and further optimized by Design-Expert optimization design. The optimized RLGL-S-SMEDDS were evaluated in terms of particle size, zeta potential, morphology analysis, thermodynamic stability, drug release, flow properties, transporter pathways in Caco-2 cells, the influence of excipients on the intestinal transporters, transport within Caco-2 cell monolayers and transport in lymphocyte. In vivo pharmacokinetic study and toxicological study were also conducted.Results: The optimum formulation for self-microemulsifying drug delivery system (SMEDDS) consists of Ethyl Oleate (26% of the weight), Solutol HS15 (49% of the weight), Transcutol HP (25% of the weight) and loaded relugolix (4.8 mg/g). The S-SMEDDS was then formed by adsorbing 2.4 g of SMEDDS onto 1 g of hydrophilic-200 silica. In phosphate buffered saline (PBS) (pH 6.8) release medium containing 1% tween 80, the vitro release studies showed 86% cumulative drug release for RLGL-S-SMEDDS and 3.6% cumulative drug release for RLGL suspensions. In vitro cellular uptake experiments revealed that the uptake of RLGL-S-SMEDDS by Caco-2 cells was three times higher than that of free RLGL, and that S-SMEDDS can enhance the drug absorption through lymphatic absorption and inhibition of intestinal transporter. In vivo pharmacokinetic evaluation demonstrated that the oral bioavailability of RLGL-S-SMEDDS was 1.9 times higher than that of RLGL-suspensions. There was no apparent cardiac, hepatic, splenic, pulmonary or renal toxicity on the surface discovered by pathological analysis after oral administration.Conclusion: It is evident that S-SMEDDS may be a safe and effective method to improve oral absorption of drugs with low oral bioavailability. Keywords: solid self-microemulsifying drug delivery system (S-SMEDDS), relugolix, microemulsion, oral bioavailability, P-glycoprotein

Published
2025

27. Comparison of Solid Self-Nanoemulsifying Systems and Surface-Coated Microspheres: Improving Oral Bioavailability of Niclosamide

Author

Baek K, Woo MR, ud Din F, Choi YS, Kang MJ, Kim JO, Choi HG, and Jin SG

Subjects
niclosamide, microsphere, solid snedds, dissolution, crystallinity, oral bioavailability, Medicine (General), R5-920
Abstract

Kyungho Baek,1 Mi Ran Woo,2 Fakhar ud Din,3 Yong Seok Choi,4 Myung Joo Kang,4 Jong Oh Kim,5 Han-Gon Choi,2 Sung Giu Jin1 1Department of Pharmaceutical Engineering, Dankook University, Cheonan, South Korea; 2College of Pharmacy, Hanyang University, Ansan, South Korea; 3Department of Pharmacy, Quaid-I-Azam University, Islamabad, Pakistan; 4College of Pharmacy, Dankook University, Cheonan, South Korea; 5College of Pharmacy, Yeungnam University, Gyeongsan, South KoreaCorrespondence: Sung Giu Jin; Han-Gon Choi, College of Pharmacy, Hanyang University, 55 hanyangdaehak-ro, Sangnok-gu, Ansan, 15588, South Korea, Tel +82 41 550-3558 ; +82 31 400-5802, Fax +82 41 559 7945 ; +82 31 400 5958, Email sklover777@dankook.ac.kr; hangon@hanyang.ac.krPurpose: This study aimed to develop a solid self-nanoemulsifying drug delivery system (SNEDDS) and surface-coated microspheres to improve the oral bioavailability of niclosamide.Methods: A solubility screening study showed that liquid SNEDDS, prepared using an optimized volume ratio of corn oil, Cremophor RH40, and Tween 80 (20:24:56), formed nanoemulsions with the smallest droplet size. Niclosamide was incorporated into this liquid SNEDDS and spray-dried with calcium silicate to produce solid SNEDDS. Surface-coated microspheres were prepared using sodium alginate and poloxamer 407 and optimized through solubility and dissolution tests. Scanning electron microscopy, differential scanning calorimetry, and X-ray diffraction were used to evaluate the physicochemical properties of the prepared solid SNEDDS, surface-coated microspheres, and the drug alone. The solubility, dissolution, and oral bioavailability were also assessed.Results: Physicochemical evaluation demonstrated that niclosamide was converted to an amorphous state in the Solid SNEDDS formulation, with enhanced solubility and oral bioavailability. In comparison to niclosamide alone, solid SNEDDS exhibited an increase in drug solubility (approximately 2500-fold vs 158-fold) and oral bioavailability (approximately 10-fold vs 1.65-fold), significantly outperforming surface-coated microspheres.Conclusion: This solid SNEDDS formulation may be an excellent candidate for niclosamide with improved oral bioavailability for repurposing. Keywords: niclosamide, microsphere, solid SNEDDS, dissolution, crystallinity, oral bioavailability

Published
2024

28. Preparation and Characterization of Tiamulin-Loaded Niosomes for Oral Bioavailability Enhancement in Mycoplasma-Infected Broilers

Author

Shimaa G. Abonashey, Amr Gamal Fouad, Hatem A. F. M. Hassan, Ahmed H. El-Banna, Mostafa A. Shalaby, Elham Mobarez, Sherif Ashraf Fahmy, and Hossny A. El-Banna

Subjects
tiamulin, niosomes, Mycoplasma gallisepticum, oral administration, oral bioavailability, Physics, QC1-999, Microscopy, QH201-278.5, Microbiology, QR1-502, Chemistry, QD1-999
Abstract

Mycoplasma infections pose significant challenges in the poultry industry, necessitating effective therapeutic interventions. Tiamulin, a veterinary antibiotic, has demonstrated efficacy against Mycoplasma species. However, the emergence of resistant Mycoplasma species could dramatically reduce the therapeutic potential, contributing to economic losses. Optimizing the tiamulin’s pharmacokinetic profile via nanocarrier incorporation could enhance its therapeutic potential and reduce the administration frequency, ultimately reducing the resistant strain emergence. Niosomes, a type of self-assembled non-ionic surfactant-based nanocarrier, have emerged as a promising drug delivery system, offering improved drug stability, sustained release, and enhanced bioavailability. In this study, niosomal nanocarriers encapsulating tiamulin were prepared, characterized and assessed in Mycoplasma-inoculated broilers following oral administration. Differential scanning colorimetry (DSC) confirmed the alterations in the crystalline state following components integration into the self-assembled structures formed during the formulation procedure. Transmission electron microscopy (TEM) showed the spherical nanostructure of the formed niosomes. The formulated nanocarriers exhibited a zeta potential and average hydrodynamic diameter of −10.65 ± 1.37 mV and 339.67 ± 30.88 nm, respectively. Assessment of the pharmacokinetic parameters following oral administration to Mycoplasma gallisepticum-infected broilers revealed the ability of the niosomal nanocarriers to increase the tiamulin’s bioavailability and systemic exposure, marked by significantly higher area under the curve (AUC) (p < 0.01) and prolonged elimination half-life (T1/2) (p < 0.05). Enhanced bioavailability and prolonged residence time are crucial factors in maintaining therapeutic concentrations at reduced doses and administration frequencies. This approach provides a viable strategy to decrease the risk of subtherapeutic levels, thereby mitigating the development of antibiotic resistance. The findings presented herein offer a sustainable approach for the efficient use of antibiotics in veterinary medicine.

Published
2024
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29. Ezetimibe Loaded Nanostructured Lipid Carriers Tablets: Response Surface Methodology, In-vitro Characterization, and Pharmacokinetics Study in Rats.

Author

Elkhayat, Dalia, Abdelmalak, Nevine S., Amer, Reham, and Awad, Heba H.

Abstract

Purpose: The present study aims to overcome the poor oral bioavailability of ezetimibe (EZ), a selective Biopharmaceutics Classification System (BCS) Class II cholesterol absorption inhibitor drug. EZ-loaded nanostructured lipid carriers (EZ-NLCs) were dried by lyophilization and incorporated in a convenient oral solid dosage form to enhance its dissolution, and absorption and increase patient compliance. Response surface methodology (RSM) was employed to systematically optimize formulation variables, improving the efficiency of disintegration and drug release characteristics. Methods: RSM was adopted to study the effects of (A) increasing the amount of the super-disintegrant, crosscarmelose sodium, (CCS), and (B) varying the ratio between the used drying excipients Avicel and mannitol (A: M) on the disintegration time (R1), and the percentage drug released after 24 h (R2). Thirteen EZ-NLCs tablets were prepared and subjected to pre-compression and post-compression evaluation. Furthermore, a bioequivalence study was conducted by administering EZ-NLCs and ezetrol® tablets to Sprague Dawley male rats. Results: The optimized EZ-NLCs tablet (prepared with the ratio of Avicel: mannitol (7.5:0) using 30 mg CCS), revealed a disintegration time of 3.85 ± 0.03 min, and 98 ± 3.09% of the drug were released at the end of the 24 h. EZ-NLCs tablet displayed a maximum concentration (Cmax) of 3.57 ± 0.27 ng/mL and an area under the curve (AUC0− 24) of 22.44 ± 2.68 ng.hr/mL, while those of ezetrol® were 2.79 ± 0.15 ng/mL and 15.36 ± 0.86 ng.hr/mL, respectively. Conclusion: The assessed relative bioavailability demonstrated the superiority of EZ-NLCs tablet over ezetrol® with 1.5 fold improvement which proves that EZ-NLCs tablet could be a good candidate to enhance the oral bioavailability of EZ. [ABSTRACT FROM AUTHOR]

Published
2025
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30. Self-Nanoemulsifying Drug Delivery System of Morin: A New Approach for Combating Acute Alcohol Intoxication

Author

Mao J, Liu X, Zhang L, Chen Y, Zhou S, Liu Y, Ye J, Xu X, and Zhang Q

Subjects
morin, self-nanoemulsifying drug delivery system, acute alcohol intoxication, oral bioavailability, alcohol-induced tissue injury, Medicine (General), R5-920
Abstract

Jiamin Mao,1,2 Xiaoyuan Liu,2 Lie Zhang,1 Yu Chen,2 Shiyu Zhou,2 Yujiao Liu,2 Jing Ye,2 Xiaohong Xu,2 Quan Zhang1– 4 1Department of Neurosurgery, The First Affiliated Hospital of Chengdu Medical College, Chengdu, 610500, People’s Republic of China; 2Sichuan Higher Education Institute Key Laboratory of Structure-Specific Small Molecule Drugs, Institute of Materia Medica, School of Pharmacy, Chengdu Medical College, Chengdu, 610500, People’s Republic of China; 3Development and Regeneration Key Laboratory of Sichuan Province, Department of Anatomy and Histoembryology, Chengdu Medical College, Chengdu, 610500, People’s Republic of China; 4Chengdu Nature’s Grace Biological Technology Co., Ltd., Chengdu, 610213, People’s Republic of ChinaCorrespondence: Quan Zhang, Email zhangquancdmc@126.comPurpose: Acute alcohol intoxication (AAI) is a life-threatening medical condition resulting from excessive alcohol consumption. Our research revealed the potential of morin (MOR) in treating AAI. However, MOR’s effectiveness against AAI was hindered by its poor solubility in water and low bioavailability. In this study, our aim was to develop a self-nanoemulsifying drug delivery system (SNEDDS) to enhance MOR’s solubility and bioavailability, evaluate its anti-AAI effects, and investigate the underlying mechanism.Methods: The composition of MOR-loaded self-nanoemulsifying drug delivery system (MOR-SNEDDS) was determined by constructing pseudo-ternary phase diagrams, and its formulation proportion was optimized using the Box-Behnken design. Following characterization of MOR-SNEDDS, we investigated its pharmacokinetics and biodistribution in healthy animals. Additionally, we assessed the anti-AAI effects and gastric mucosal protection of MOR-SNEDDS in an AAI mice model, exploring potential mechanisms.Results: After breaking down into tiny droplets, the optimized mixture of MOR-SNEDDS showed small droplet size on average, even distribution, strong stability, and permeability. Pharmacokinetic studies indicated that MOR-SNEDDS, compared to a MOR suspension, increased the area under the plasma concentration-time curve (AUC0-t) by 10.43 times. Additionally, studies on how drugs move and are distributed in the body showed that MOR-SNEDDS had an advantage in passively targeting the liver. Moreover, in a mouse model for alcohol addiction, MOR not only decreased alcohol levels by boosting the activity of alcohol dehydrogenase (ADH) and aldehyde dehydrogenase (ALDH) in the stomach and liver, which counteracted the loss of righting reflex (LORR), but also reduced alcohol-induced damage to the stomach lining by lowering malondialdehyde (MDA) levels and increasing superoxide dismutase (SOD) levels. Furthermore, MOR-SNEDDS notably amplified these effects.Conclusion: MOR exhibits significant potential as a new medication for treating AAI, and utilizing MOR-SNEDDS with high oral bioavailability represents a promising new strategy in combating AAI.Keywords: Morin, self-nanoemulsifying drug delivery system, acute alcohol intoxication, oral bioavailability, alcohol-induced tissue injury

Published
2024

31. FORMULATION AND IN VITRO EVALUATION OF METFORMIN-LOADED NANOPARTICLES FOR ENHANCED ORAL BIOAVAILABILITY.

Author

Agarwal, Piyush, Bharath, K. S., Jain, Sanmati Kumar, Kumar, Anil, Pandey, Ekta, Ghosh, Tanmay, Kujur, Adeep, Bajaj, Richa, and Rani, Meenu

Subjects
SCANNING electron microscopy, LIGHT scattering, ULTRAVIOLET-visible spectroscopy, NANOPARTICLES, BIOAVAILABILITY, ZETA potential
Abstract

Metformin-loaded nanoparticles were prepared using the solvent evaporation technique, with optimization of parameters such as polymer concentration, drug-to-polymer ratio and stirring speed. Characterization involved dynamic light scattering (DLS) for particle size and polydispersity index, scanning electron microscopy (SEM) for morphology and UV-Vis spectroscopy for drug encapsulation efficiency. In vitro drug release studies were conducted using dialysis membranes to assess the release profile and kinetics. Stability studies under accelerated conditions evaluated changes in particle size, zeta potential, and drug content. The optimized nanoparticles exhibited a particle size of 150 ± 5 nm, polydispersity index of 0.12 ± 0.01, encapsulation efficiency of 82.4 ± 2.5% and zeta potential of -25 ± 3 mV. In vitro drug release demonstrated a sustained release profile, with 92 ± 4% of metformin released over 12 hours, following the Korsmeyer-Peppas kinetic model. Stability studies confirmed the formulation’s robustness, showing minimal changes in critical parameters over three months of accelerated storage. [ABSTRACT FROM AUTHOR]

Published
2024
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32. Electrostatic spraying for fine-tuning particle dimensions to enhance oral bioavailability of poorly water-soluble drugs.

Author

Jung Suk Kim, Seunghyun Cheon, Mi Ran Woo, Sanghyun Woo, Jee-Eun Chung, Yu Seok Youn, Kyung Taek Oh, Soo-Jeong Lim, Sae Kwang Ku, Bao Loc Nguyen, Jong Oh Kim, Sung Giu Jin, and Han-Gon Choi

Subjects
*ELECTROSTATIC atomization, *PARTICLE size distribution, *SODIUM dodecyl sulfate, *DRUG delivery systems, *SPRAY drying
Abstract

While spray-drying has been widely utilized to improve the bioavailability of poorly water-soluble drugs, the outcomes often exhibit suboptimal particle size distribution and large particle sizes, limiting their effectiveness. In this study, we introduce electrostatic spraying as an advanced technology tailored for poorly water-soluble drugs, enabling the fabrication of nanoparticles with fine and uniform particle size distribution. Regorafenib (1 g), as a model drug, copovidone (5 g), and sodium dodecyl sulfate (0.1 g) were dissolved in 200 ml ethanol and subjected to conventional-spray-dryer and electrostatic spray dryer. The electrostatic spray-dried nanoparticles (ESDN) showed smaller particle sizes with better uniformity compared to conventional spray-dried nanoparticles (CSDN). ESDN demonstrated significantly enhanced solubility and rapid release in water. In vitro studies revealed that ESDN induced apoptosis in HCT-116 cells to a greater extent, exhibiting superior cytotoxicity compared to CSDN. Furthermore, ESDN substantially improved oral bioavailability and antitumor efficacy compared to CSDN. These findings suggest that ESD shows potential in developing enhanced drug delivery systems for poorly water-soluble drugs, effectively addressing the limitations associated with CSD methods. [ABSTRACT FROM AUTHOR]

Published
2024
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33. Oral linalool-based nanoemulsion of acalabrutinib for ameliorating its oral bioavailability and in vitro anticancer potential in T lymphoblast cell lines.

Author

Shettiwar, Arti, Gupta, Ujala, Chatterjee, Essha, Patra, Bhagyashree, Aalhate, Mayur, Mahajan, Srushti, Maji, Indrani, Mehra, Neelesh Kumar, Guru, Santosh Kumar, and Singh, Pankaj Kumar

Subjects
*TERNARY phase diagrams, *MANTLE cell lymphoma, *CHRONIC lymphocytic leukemia, *PHASE diagrams, *CYTOTOXINS
Abstract

Acalabrutinib (ACL) was approved in the United States in the year of 2017 and 2019 for the treatment of chronic lymphocytic leukemia (CLL) and relapsed mantle cell lymphoma (MCL). Low-energy method was employed to curate nanoemulsion (NE) for which various components were screened through solubility study and optimization was done through a pseudo-ternary phase diagram. The NE was evaluated for its droplet size, polydispersity index (PDI), transmittance, morphology, rheology, robustness to dilution, the effect of pH, storage stability, and ex vivo permeation study. The optimized ACL-NE demonstrated an appropriate droplet size (94.35 ± 0.3 nm), PDI (0.27 ± 0.03), and an entrapment efficiency of 67.38 ± 2.69%. It showed non-Newtonian (shear thinning behavior) due to reduced viscosity with an increasing shear rate. The apparent permeability was 3.09-fold higher for ACL-NE than ACL suspension. An in vitro drug release study depicted a higher release of ACL (71.10 ± 10.99%) from the optimized NE in a sustained fashion than the suspension (49.01 ± 1.65%). A dose-dependent cytotoxicity was observed in MOLT-4 and HH-cell lines where the IC50 values of ACL were 5.62- and 16.49-fold reduced when encapsulated in oil globules for the respective cell lines. Blank-NE did cause a reduction in cellular toxicity at higher doses. A 7.31- and 5.1-fold increase in Cmax and bioavailability was noted between ACL suspension and ACL-NE. [ABSTRACT FROM AUTHOR]

Published
2024
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34. Isolation, Purification of Phenolic Glycoside 1 from Moringa oleifera Seeds and Formulation of Its Liposome Delivery System.

Author

Shi, Feng, Gong, Mingjie, Adu-Frimpong, Michael, Jiang, Xia, Wang, Xiaowen, Hua, Qinyang, Li, Tingyuan, Li, Jiaying, Yu, Jiangnan, Toreniyazov, Elmurat, Cao, Xia, Wang, Qilong, and Xu, Ximing

Abstract

In this study, N, N '-bis {4- [(α-L- rhamnosyloxy) benzyl]} thiourea (PG-1), a phenolic glycoside compound was purified from Moringa seed. The PG-1 has attracted extensive attention due to its anti-cancer, antioxidant, anti-inflammatory and hypoglycemic properties. However, some of its physicochemical properties such as oral bioavailability has not been studied. Herein, a highly purified PG-1 was extracted and incorporated in multiple layered liposomes (PG-1-L) to avoid its burst release and enhance oral bioavailability. After appropriate characterization, it was discovered that the obtained PG-1-L was stable, homogeneous and well dispersed with the average particle size being 89.26 ± 0.23 nm. Importantly, the in vitro release and in vivo oral bioavailability of PG-1-L were significantly improved compared with PG-1. In addition, MTT results showed that compared with the free PG-1, PG-1-L displayed obvious inhibitory effect on the HepG2 cells, while the inhibitory effect on healthy non-malignant 3T6 and LO-2 cells was not significant, indicating that PG-1-L had high safety. In conclusion, PG-1-L can be used as a promising delivery system and an ideal novel approach to improve the oral bioavailability and anticancer activity of PG-1. [ABSTRACT FROM AUTHOR]

Published
2024
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35. Improved preclinical drug metabolism and pharmacokinetics of pibothiadine (HEC121210), a novel hepatitis B virus capsid assembly modulator.

Author

Li, Ming, Yan, Xingguo, Zhang, Li, Liu, Xinchang, Liu, Yayi, Wang, Qian, and Li, Jing

Subjects
*HEPATITIS B virus, *DRUG metabolism, *LIVER microsomes, *CELL permeability, *RATS
Abstract

Pibothiadine (PBD; HEC121120) is a novel hepatitis B virus capsid assembly modulator based on GLS4 (morphothiadine) and has inhibitory activities against resistant strains. To assess the overall preclinical drug metabolism and pharmacokinetics (DMPK) properties of PBD, in vivo pharmacokinetics studies in rats and dogs have been performed along with a series of in vitro metabolism assays. The oral bioavailability of PBD in rats and dogs might be related to its medium permeability in Caco-2 cells and largely be impacted by the pH-dependent solubility. PBD was highly distributed to the liver where the local exposure was 16.4 fold of the system exposure. PBD showed relatively low metabolic rate in recombinant human cytochrome P450 enzymes, whereas low to moderate in vitro clearance in liver microsomes and low (dog) to moderate (rat) in vivo clearance. Furthermore, β-oxidation and dehydrogenation were proposed as the primary metabolic pathways of PBD in rats. Compared to GLS4, the higher systemic exposure of PBD might be attributed to its improved oral absorption and metabolic stability. In addition, the enhanced liver/plasma exposure ratio could further increase the local exposure around the target. These improved DMPK properties might indicate better development of PBD in the clinical phase. [ABSTRACT FROM AUTHOR]

Published
2024
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36. Formulation development, in-vitro and ex-vivo evaluation of dry adsorbed solid lipid nanoparticles: an approach of overcoming olanzapine drawbacks.

Author

Hirlekar, Rajashree, Momin, Alfiha, and Bhairy, Srinivas

Subjects
*SURFACE active agent analysis, *ADSORPTION (Chemistry), *IN vitro studies, *OLANZAPINE, *LIPIDS, *PHARMACEUTICAL chemistry, *ULTRASONICS, *POULTRY, *IN vivo studies, *PARTICLES, *DRUG delivery systems, *ORAL drug administration, *PERMEABILITY, *INTESTINAL absorption, *DRUG efficacy, *ANIMAL experimentation, *X-rays, *DOSAGE forms of drugs, *NANOTECHNOLOGY, *SCANNING electron microscopy, *DRUG development, *BIOAVAILABILITY, *LIVER, *GENETIC techniques, *CALORIMETRY, *NANOPARTICLES, *SPECTROPHOTOMETRY, *PHARMACODYNAMICS
Abstract

The present study was aimed at preparing stable dry adsorbed nanoparticles (DANs) of olanzapine (OLZ) loaded solid lipid nanoparticles (SLNs) for sustained release. OLZ SLNs were prepared by hot melt emulsification and ultrasonication using Precirol ATO 5 (PRE) as a solid lipid, combination of Kolliphor ELP (KELP) and Tween 80 (T80) as surfactants, after optimising formulation and process variables. The SLN system was subjected to evaluation of particle size, zeta potential, entrapment efficiency (EE), in-vitro drug release and ex-vivo intestinal permeability studies using the chicken intestinal segments (jejunum). Further, these SLNs were converted into stable DANs by adsorbing onto a Neusilin US2 (NUS2) and Avicel CL 611 (ACL) carriers using the granulation-evaporative drying method. The DANs were characterised for redispersion properties, in-vitro drug release, thermal behaviour, crystallinity, and morphology. The SLN and DAN had a particle size of 238.0 nm [0.274 polydispersity index (PdI)] and 302.4 [0.494 PdI] respectively. The zeta potentials of SLN and DAN were found to be −29.3 mV and −26.3 mV, respectively. The SLN had 67% EE, and showed a sustained drug release in various media. The highest permeability of SLNs was observed in ex-vivo permeation model compared to the OLZ suspension, indicating that SLNs have the potential to bypass hepatic metabolism. The adsorption of SLNs onto carriers was confirmed by surface morphology. The DAN had good flow properties and sustained drug release similar to that of SLNs. The X-ray diffraction (XRD) patterns and endothermic peaks confirmed the complete encapsulation of actives in lipid matrices. The encapsulating of OLZ in SLNs and converting it into DAN showed a sustained release and adsorption technique that can be used for improving the stability of NLC dispersion. The DANs can be offered in dosage forms such as filling into sachets, capsules and compressed into tablets. [ABSTRACT FROM AUTHOR]

Published
2024
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37. Unlocking the Potential of Camel Milk-Derived Exosomes as Novel Delivery Systems: Enhanced Bioavailability of ARV-825 PROTAC for Cancer Therapy.

Author

Nathani, Aakash, Aare, Mounika, Sun, Li, Bagde, Arvind, Li, Yan, Rishi, Arun, and Singh, Mandip

Subjects
*BROMODOMAIN-containing proteins, *DRUG stability, *PHARMACOKINETICS, *SPRAGUE Dawley rats, *ZETA potential
Abstract

This study investigates the use of camel milk-derived exosomes (CMEs) as carriers for ARV-825, an anticancer agent targeting bromodomain-containing protein 4 (BRD4), in oral chemotherapy. CMEs were isolated and characterized, and ARV-825-loaded CME formulations were prepared and evaluated through various in vitro and in vivo tests. The ARV-825-CME formulation exhibited an entrapment efficiency of 42.75 ± 5.05%, a particle size of 136.8 ± 1.94 nm, and a zeta potential of −32.75 ± 0.70 mV, ensuring stability and sustained drug release. In vitro studies showed a 5.4-fold enhancement in drug release kinetics compared to the free ARV-825 solution. Permeability studies indicated a 3.2-fold increase in apparent permeability, suggesting improved cellular uptake. Cytotoxicity assays demonstrated potent anticancer activity, with IC50 values decreasing by 1.5 to 2-fold in cancer cell lines SF8628 DIPG and H1975R (resistant to Osimertinib). In vivo pharmacokinetic studies in Sprague-Dawley rats revealed superior systemic absorption and bioavailability of ARV-825 from CMEs, with a 2.55-fold increase in plasma concentration and a 5.56-fold increase in AUC. Distribution studies confirmed absorption through the ileum. This research highlights the potential of CMEs as a promising delivery platform for ARV-825, enhancing its therapeutic efficacy and offering a novel approach to cancer treatment. [ABSTRACT FROM AUTHOR]

Published
2024
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38. Nanocrystal Formulation to Enhance Oral Absorption of Silybin: Preparation, In Vitro Evaluations, and Pharmacokinetic Evaluations in Rats and Healthy Human Subjects.

Author

Seo, SeungRee, Kim, Gwan-Young, Kim, Min-Hwan, Lee, Kyung Won, Kim, Min-Jae, Chaudhary, Mansingh, Bikram, Khadka, Kim, Taeheon, Choi, Seungmok, Yang, Heejin, Park, Joo Won, Kim, Dae-Duk, and Kim, Ki-Taek

Subjects
*MILK thistle, *SURFACE morphology, *IN vivo studies, *BIOAVAILABILITY, *RAW materials
Abstract

Despite the various therapeutic benefits and high tolerance of orally administered silybin, poor water-solubility can be the main restrictive physicochemical feature, which results in low oral bioavailability in the absorption. A milk thistle nanocrystal formulation (HM40) was prepared using a modified wet-milling method. Comprehensive characterization was performed to determine the physical morphology, crystallinity, and physicochemical properties. The long-term stability was evaluated over 24 months. In vitro silybin release was assessed at pH 1.2 for 2 h, followed by pH 6.8 for 4 h. Finally, in vivo pharmacokinetic studies were conducted in rats and healthy human volunteers. HM40 exhibited a nanocrystal structure maintaining crystallinity and enhanced the solubility and dissolution of silybin compared to that of the raw material. The stability over 24 months revealed consistent surface morphology, particle size, silybin content, and solubility. In vitro release profiles indicated a significant increase in the silybin release from HM40. In vivo pharmacokinetic studies demonstrated that HM40 showed 2.61- and 1.51-fold higher oral bioavailability in rats and humans, respectively, than that of the reference capsule. HM40 formulation presents a stable and promising approach for the oral delivery of poorly water-soluble silybin, with the potential for use in pharmaceutical formulations containing milk thistle. [ABSTRACT FROM AUTHOR]

Published
2024
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39. Improving the Solubility, Stability, and Bioavailability of Albendazole through Synthetic Salts.

Author

Yan, Haiying, Zhong, Xueping, and Liu, Yao

Subjects
*FOURIER transform infrared spectroscopy, *X-ray powder diffraction, *FUMARATES, *DIFFERENTIAL scanning calorimetry, *SCANNING electron microscopy, *NUCLEAR magnetic resonance spectroscopy
Abstract

Albendazole (ABZ) is a highly effective yet poorly water-soluble antiparasitic drug known to form salts (ABZ-FMA, ABZ-DTA, and ABZ-HCl) with fumaric acid (FMA), D-tartaric acid (DTA), and hydrochloric acid (HCl). This research utilized a range of analytical techniques, including Fourier transform infrared spectroscopy (FT-IR), nuclear magnetic resonance hydrogen spectroscopy (1H NMR), powder X-ray diffraction (PXRD), dynamic vapor sorption (DVS), thermogravimetric analysis (TGA), differential scanning calorimetry (DSC), and scanning electron microscopy (SEM), to validate and characterize the solid-state properties of these drug salts. This study also assessed the solubility and intrinsic dissolution rate (IDR) of these salts under different pH conditions compared to the active pharmaceutical ingredient (API) and conducted stability studies. Moreover, the in vivo pharmacokinetic performance of ABZ salt was evaluated. The results of this study reveal that the new solid form of ABZ is primarily associated with amino acid esters and benzimidazole groups, forming intermolecular interactions. All three ABZ salts significantly improved the solubility and dissolution rate of ABZ, with ABZ-HCl demonstrating the optimal performance. Importantly, the drug salt exhibited robust physical stability when exposed to adverse conditions, including strong light irradiation (4500 ± 500 lux), high humidity (92.5 ± 5% relative humidity), elevated temperatures (50 ± 2 °C), and accelerated test conditions (40 °C/75 ± 5% relative humidity). Lastly, the in vivo pharmacokinetic analysis demonstrated that ABZ salt led to a substantial increase in AUC(0–24) and Cmax compared to ABZ. This elevation in solubility in aqueous solvents signifies that ABZ salt exhibits characteristics that can enhance oral bioavailability and pharmacokinetics. These findings provide potential solutions for the development of more effective and innovative drug formulations. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Preparation, Characterization and Evaluation of Nintedanib Amorphous Solid Dispersions with Enhanced Oral Bioavailability.

Author

Liu, Shuyin, Chen, Hui, Zhou, Feng, Tiwari, Sandip, Zhuang, Kai, Shan, Yudong, and Zhang, Jiantao

Abstract

The dissolution and bioavailability challenges posed by poorly water-soluble drugs continue to drive innovation in pharmaceutical formulation design. Nintedanib (NDNB) is a typical BCS class II drug that has been utilized to treat idiopathic pulmonary fibrosis (IPF). Due to the low solubility, its oral bioavailability is relatively low, limiting its therapeutical effectiveness. It is crucial to enhance the dissolution and the oral bioavailability of NDNB. In this study, we focused on the preparation of amorphous solid dispersions (ASD) using hot melt extrusion (HME). The formulation employed Kollidon® VA64 (VA64) as the polymer matrix, blended with the NDNB at a ratio of 9:1. HME was conducted at temperatures ranging from 80 °C to 220 °C. The successful preparation of ASD was confirmed through various tests including polarized light microscopy (PLM), X-ray powder diffraction (XRPD), differential scanning calorimetry (DSC), Fourier-transform infrared spectroscopy (FT-IR), and thermogravimetric analysis (TGA). The in-vitro cumulative release of NDNB-ASD in 2 h in a pH 6.8 medium was 8.3-fold higher than that of NDNB (p < 0.0001). In a pH 7.4 medium, it was 10 times higher (p < 0.0001). In the in-vivo pharmacokinetic experiments, the area under curve (AUC) of NDNB-ASD was 5.3-fold higher than that of NDNB and 2.2 times higher than that of commercially available soft capsules (Ofev®) (p < 0.0001). There was no recrystallization after 6 months under accelarated storage test. Our study indicated that NDNB-ASD can enhance the absorption of NDNB, thus providing a promising method to improve NDNB bioavailability in oral dosages. [ABSTRACT FROM AUTHOR]

Published
2024
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41. Gut microbiota-mediated C-sulfonate metabolism impairs the bioavailability and anti-cholestatic efficacy of andrographolide

Author

Dafu Tang, Wanyu Hu, Bingxuan Fu, Xiaojie Zhao, Guoquan You, Cong Xie, Hong Yu Wang, Xueni Guo, Qianbing Zhang, Zhongqiu Liu, and Ling Ye

Subjects
Andrographolide, C-sulfonate metabolism, gut microbiota, oral bioavailability, anti-cholestatic effect, APS reductase, Diseases of the digestive system. Gastroenterology, RC799-869
Abstract

Cholestatic liver injury results from the accumulation of toxic bile acids in the liver, presenting a therapeutic challenge with no effective treatment available to date. Andrographolide (AP) has exhibited potential as a treatment for cholestatic liver disease. However, its limited oral bioavailability poses a significant obstacle to harnessing its potent therapeutic properties and restricts its clinical utility. This limitation is potentially attributed to the involvement of gut microbiota in AP metabolism. In our study, employing pseudo-germ-free, germ-free and strain colonization animal models, along with 16S rRNA and shotgun metagenomic sequencing analysis, we elucidate the pivotal role played by gut microbiota in the C-sulfonate metabolism of AP, a process profoundly affecting its bioavailability and anti-cholestatic efficacy. Subsequent investigations pinpoint a specific enzyme, adenosine-5’-phosphosulfate (APS) reductase, predominantly produced by Desulfovibrio piger, which catalyzes the reduction of SO42- to HSO3−. HSO3− subsequently interacts with AP, targeting its C=C unsaturated double bond, resulting in the formation of the C-sulfonate metabolite, 14-deoxy-12(R)-sulfo andrographolide (APM). Inhibition of APS reductase leads to a notable enhancement in AP bioavailability and anti-cholestatic efficacy. Furthermore, employing RNA sequencing analysis and farnesoid X receptor (FXR) knockout mice, our findings suggest that AP may exert its anti-cholestatic effects by activating the FXR pathway to promote bile acid efflux. In summary, our study unveils the significant involvement of gut microbiota in the C-sulfonate metabolism of AP and highlights the potential benefits of inhibiting APS reductase to enhance its therapeutic effects. These discoveries provide valuable insights into enhancing the clinical applicability of AP as a promising treatment for cholestatic liver injury.

Published
2024
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42. Fortifying casein phosphopeptides and Ca in wheat reduces the As, Cd, and Pb bioavailability based on a mouse model: Calcium and phosphate transporters and gut microbiota

Author

Sheng-Zhi Chen, Xin-Ying Lin, Rong-Yue Xue, Xu Duan, Dong-Mei Zhou, Lena Q. Ma, and Hong-Bo Li

Subjects
Oral bioavailability, Bioavailability endpoint, Kidneys and liver, Gene expression, Dietary intake, Gastrointestinal, Environmental sciences, GE1-350, Public aspects of medicine, RA1-1270
Abstract

Reducing the oral bioavailability of metal contaminants including As, Cd, and Pb in foods can protect human health. Studies showed reduced metal bioavailability with elevated Ca and Fe intake; however, the effectiveness of enhancing food Ca and Fe bioavailability remains unknown. Based on a mouse bioassay and using metal accumulation in mouse tissues (kidneys and liver) as the bioavailability endpoint, this study investigated the roles of casein phosphopeptides (CPP, food nutrition fortifier) in lowering the As, Cd, and Pb bioavailability from consuming a metal-contaminated wheat. The CPP amendment at 0.10–0.50% in wheat promoted its Ca bioavailability, causing 33–62% and 59–80% decreases in the gene expression encoding for duodenal Ca and phosphate transporters in mice. This limited transcellular transport of Cd2+ and inorganic arsenate via Ca and phosphate transporters respectively, thus leading to 27% and 34% decreases in Cd and As contents in mouse kidneys fed with wheat at 0.50% CPP amendment. In addition, CPP promoted the colonization of Feacalibaculum and Bifidobacterium in mouse gut, likely promoting As excretion in feces by 81–112%. In contrast to As and Cd, CPP failed to reduce Pb contents in mouse tissue after consuming CPP-amended wheat, probably by elevating wheat-Pb solubility in the intestinal fluid by 48–136%. However, co-amendment of 0.30% CPP and 500 ​μg ​g−1 Ca as Ca gluconate lowered the As, Cd, and Pb contents in mouse kidneys by 38–71%. The data indicate that fortifying Ca together with CPP in wheat can reduce human exposure to multi-metals via dietary intake.

Published
2024
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47. Combined Hydroxyethyl Starch Luteolin Nanocrystals for Effective Anti-Hyperuricemia Effect in Mice Model

Author

Luo H, Wang X, Fang M, Yu H, Gui L, Wu Z, Sheng J, and Li F

Subjects
hydroxyethyl starch, nanocrystals, stabilizer, luteolin, oral bioavailability, anti-hyperuricemia, Medicine (General), R5-920
Abstract

Han Luo,1,&ast; Xiaofei Wang,1,&ast; Mengqi Fang,1 Huifan Yu,1 Lili Gui,1 Zhengkun Wu,1 Jianyong Sheng,2 Fei Li1 1Hubei Key Laboratory of Wudang Local Chinese Medicine Research, School of Pharmaceutical Sciences, Hubei University of Medicine, Shiyan, Hubei, People’s Republic of China; 2Key Laboratory of Smart Drug Delivery, Ministry of Education, Department of Pharmaceutics, School of Pharmacy, Fudan University, Shanghai, People’s Republic of China&ast;These authors contributed equally to this workCorrespondence: Fei Li, Hubei University of Medicine, 30 Renmin South Road, Shiyan, Hubei, 442000, People’s Republic of China, Email piaopodexinlifei@163.comIntroduction: Although flavonoid compounds exhibit various pharmacological activities, their clinical applications are restricted by low oral bioavailability owing to their poor solubility. Nanocrystals (NCs) represent an excellent strategy for enhancing the oral bioavailability of flavonoids. Hydroxyethyl starch (HES), a biomaterial compound used as a plasma expander, could be an ideal stabilizer material for preparing flavonoid NCs.Methods: HES was used to stabilize flavonoid nanocrystals (NCs), using luteolin (LUT) as a model drug. After full characterization, the freeze-drying and storage stability, solubility, intestinal absorption, pharmacokinetics, and in vivo anti-hyperuricemic effect of the optimized HES-stabilized LUT NCs (LUT-HES NCs) were investigated.Results: Uniformed LUT-HES NCs were prepared with mean particle size of 191.1± 16.8 nm, zeta potential of about − 23 mV, drug encapsulation efficiency of 98.52 ± 1.01%, and drug loading of 49.26 ± 0.50%. The freeze-dried LUT-HES NCs powder showed good re-dispersibility and storage stability for 9 months. Notably, compared with the coarse drug, LUT-HES NCs exhibited improved saturation solubility (7.49 times), increased drug dissolution rate, enhanced Caco-2 cellular uptake (2.78 times) and oral bioavailability (Fr=355.7%). Pharmacodynamic studies showed that LUT-HES NCs remarkably lowered serum uric acid levels by 69.93% and ameliorated renal damage in hyperuricemic mice.Conclusion: HES is a potential stabilizer for poorly soluble flavonoid NCs and provides a promising strategy for the clinical application of these compounds. LUT-HES NCs may be an alternative or complementary strategy for hyperuricemia treatment.Keywords: Hydroxyethyl starch, nanocrystals, stabilizer, luteolin, oral bioavailability, anti-hyperuricemia

Published
2024

48. Conquering the beyond Rule of Five Space with an Optimized High-Throughput Caco-2 Assay to Close Gaps in Absorption Prediction.

Author

Muschong, Patricia, Awwad, Khader, Price, Edward, Mezler, Mario, and Weinheimer, Manuel

Subjects
*DRUG development, *PERMEABILITY, *ABSORPTION, *PROTEOLYSIS, *BIOAVAILABILITY
Abstract

Current drug development tends towards complex chemical molecules, referred to as "beyond rule of five" (bRo5) compounds, which often exhibit challenging physicochemical properties. Measuring Caco-2 permeability of those compounds is difficult due to technical limitations, including poor recovery and detection sensitivity. We implemented a novel assay, with optimized incubation and analytics, to measure permeability close to equilibrium. In this setup an appropriate characterization of permeability for bRo5 compounds is achievable. This equilibrated Caco-2 assay was verified with respect to data validity, compound recovery, and in vitro to in vivo correlation for human absorption. Compared to a standard assay, it demonstrated comparable performance in predicting the human fraction absorbed (fa) for reference compounds. The equilibrated assay also successfully characterized the permeability of more than 90% of the compounds analyzed, the majority of which were bRo5 (68%). These compounds could not be measured using the standard assay. Permeability and efflux ratio (ER) were highly predictive for in vivo absorption for a large set of internal bRo5 compounds. Reference cut-offs enabled the correct classification of high, moderate, and low absorption. This optimized equilibrated Caco-2 assay closes the gap for a high-throughput cellular permeability method in the bRo5 chemical space. [ABSTRACT FROM AUTHOR]

Published
2024
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49. Febuxostat ternary inclusion complex using SBE7-βCD in presence of a water-soluble polymer: physicochemical characterization, in vitro dissolution, and in vivo evaluation.

Author

Sakran, Wedad, Abdel-Hakim, Mai, Teiama, Mohammed S., and Abdel-Rashid, Rania S.

Abstract

Febuxostat (FBX), a potent xanthine oxidase inhibitor, is widely used as a blood uric acid-reducing agent and has recently shown a promising repurposing outcome as an anti-cancer. FBX is known for its poor water solubility, which is the main cause of its weak oral bioavailability. In a previous study, we developed a binary system complex between FBX and sulfobutylether-β-cyclodextrin (SBE7-βCD) with improved dissolution behavior. The aim of the current study was to investigate the effect of incorporating a water-soluble polymer with a binary system forming a ternary one, on further enhancement of FBX solubility and dissolution rate. In vivo oral bioavailability was also studied using LC–MS/MS chromatography. The polymer screening study revealed a marked increment in the solubility of FBX with SBE7-βCD in the presence of 5% w/v polyethylene glycol (PEG 6000). In vitro release profile showed a significant increase in the dissolution rate of FBX from FBX ternary complex (FTC). Oral in vivo bioavailability of prepared FTC showed more than threefold enhancement in Cmax value (17.05 ± 2.6 µg/mL) compared to pure FBX Cmax value (5.013 ± 0.417 µg/mL) with 257% rise in bioavailability. In conclusion, the association of water-soluble polymers with FBX and SBE7-βCD system could significantly improve therapeutic applications of the drug. [ABSTRACT FROM AUTHOR]

Published
2024
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50. Data-driven development of an oral lipid-based nanoparticle formulation of a hydrophobic drug.

Author

Bao, Zeqing, Yung, Fion, Hickman, Riley J., Aspuru-Guzik, Alán, Bannigan, Pauric, and Allen, Christine

Abstract

Due to its cost-effectiveness, convenience, and high patient adherence, oral drug administration normally remains the preferred approach. Yet, the effective delivery of hydrophobic drugs via the oral route is often hindered by their limited water solubility and first-pass metabolism. To mitigate these challenges, advanced delivery systems such as solid lipid nanoparticles (SLNs) and nanostructured lipid carriers (NLCs) have been developed to encapsulate hydrophobic drugs and enhance their bioavailability. However, traditional design methodologies for these complex formulations often present intricate challenges because they are restricted to a relatively narrow design space. Here, we present a data-driven approach for the accelerated design of SLNs/NLCs encapsulating a model hydrophobic drug, cannabidiol, that combines experimental automation and machine learning. A small subset of formulations, comprising 10% of all formulations in the design space, was prepared in-house, leveraging miniaturized experimental automation to improve throughput and decrease the quantity of drug and materials required. Machine learning models were then trained on the data generated from these formulations and used to predict properties of all SLNs/NLCs within this design space (i.e., 1215 formulations). Notably, formulations predicted to be high-performers via this approach were confirmed to significantly enhance the solubility of the drug by up to 3000-fold and prevented degradation of drug. Moreover, the high-performance formulations significantly enhanced the oral bioavailability of the drug compared to both its free form and an over-the-counter version. Furthermore, this bioavailability matched that of a formulation equivalent in composition to the FDA-approved product, Epidiolex®. [ABSTRACT FROM AUTHOR]

Published
2024
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