Your search keyword '"Absorption enhancer"' showing total 454 results

1. Preparation, in vitro and in vivo evaluation and anti-renal injury effects of Niazimicin-loaded mixed polymeric micelles

Author

Jiang, Xia, Gong, Mingie, Jia, Yue, Adu-Frimpong, Michael, Wang, Xiaowen, Hua, Qinyang, Li, Tingyuan, Li, Jiaying, Pan, Pengfei, Toreniyazov, Elmurat, Yu, Jiangnan, Cao, Xia, Wang, Qilong, and Xu, Ximing

Published

2025

2. Research progress on the synthesis process, detection method, pharmacological effects and application of glycocholic acid.

Author

Li, Jiahui, Zhang, Chungang, Wang, Yang, Tian, Minyuan, Xie, Chao, and Hu, Heng

Subjects

CHINESE medicine, DRUG development, EXTRACTION techniques, MOLECULAR structure, SCIENCE databases

Abstract

Objective: This review aims to summarize the research progress of glycocholic acid to promote its broader development and application. Methods: This article collects relevant literature from databases such as Science Direct, PubMed, Web of Science, Google Scholar and CNKI from the establishment to 2024, systematically organizing and analyzing aspects of glycocholic acid including its physicochemical properties, synthesis and extraction techniques, detection methods, pharmacological effects, mechanisms of action, clinical research, and application as an excipient. Results: Glycocholic acid, as a key conjugated component in bile acids, exhibits various pharmacological effects such as anti-inflammatory and antioxidant activities. Nevertheless, current research on glycocholic acid is insufficient, with synthesis techniques requiring improvement, limited application of detection technologies, and a need for in-depth exploration of its pharmacological mechanisms. Due to its amphiphilic molecular structure, glycocholic acid is primarily used as a pharmaceutical excipient. Conclusion: This review summarizes the existing research on glycocholic acid, indicating that future research should strengthen work in this field, including improving synthesis processes and enhancing the sensitivity of detection technologies, to provide a scientific basis for the development of new formulations and drug combinations, thereby promoting the advancement of traditional Chinese medicine. [ABSTRACT FROM AUTHOR]

Published

2025

3. Research progress on the synthesis process, detection method, pharmacological effects and application of glycocholic acid

Author

Jiahui Li, Chungang Zhang, Yang Wang, Minyuan Tian, Chao Xie, and Heng Hu

Subjects

glycocholic acid, synthetic process, pharmacological effect, absorption enhancer, research progress, Therapeutics. Pharmacology, RM1-950

Abstract

ObjectiveThis review aims to summarize the research progress of glycocholic acid to promote its broader development and application.MethodsThis article collects relevant literature from databases such as Science Direct, PubMed, Web of Science, Google Scholar and CNKI from the establishment to 2024, systematically organizing and analyzing aspects of glycocholic acid including its physicochemical properties, synthesis and extraction techniques, detection methods, pharmacological effects, mechanisms of action, clinical research, and application as an excipient.ResultsGlycocholic acid, as a key conjugated component in bile acids, exhibits various pharmacological effects such as anti-inflammatory and antioxidant activities. Nevertheless, current research on glycocholic acid is insufficient, with synthesis techniques requiring improvement, limited application of detection technologies, and a need for in-depth exploration of its pharmacological mechanisms. Due to its amphiphilic molecular structure, glycocholic acid is primarily used as a pharmaceutical excipient.ConclusionThis review summarizes the existing research on glycocholic acid, indicating that future research should strengthen work in this field, including improving synthesis processes and enhancing the sensitivity of detection technologies, to provide a scientific basis for the development of new formulations and drug combinations, thereby promoting the advancement of traditional Chinese medicine.

Published

2025

4. Effect of Tight Junction-Modulating FCIGRL-Modified Peptides on the Intestinal Absorption of Doxorubicin in Rats.

Author

Song, Keon-Hyoung

Subjects

*INTESTINAL absorption, *DOXORUBICIN, *TIGHT junctions, *PEPTIDES, *AMINO group, *RATS

Abstract

Doxorubicin is a potent chemotherapy drug, but its oral bioavailability is limited due to its low membrane permeability. Thus, absorption enhancers such as zonula occludens toxin and its six-mer fragment, FCIGRL, have been studied to address this issue. This study aimed to evaluate the effectiveness of four peptides (Pep1, Pep2, Pep3, and Pep4) derived from FCIGRL and investigate the changes in the absorption of doxorubicin, to propose an absorption enhancer for doxorubicin. Pep1 is a modified version of FCIGRL in which the hydroxyl group at the C-terminus is replaced with an amino group. Pep2 is a modified Pep1 in which cysteine is replaced with N3-substituted dipropionic acid. Pep3 and Pep4 are Pep2-modified homodimers. Pharmacokinetic analysis was performed in rats after the intraduodenal administration of doxorubicin solutions containing each FCIGRL-modified peptide and the stabilizer levan or benzalkonium chloride (BC). The results showed that Pep3 and Pep4 administered with levan each significantly increased the intestinal absorption of doxorubicin, as did Pep2 administered with levan/BC. In particular, 10 mg·kg−1 of Pep4 with levan significantly increased the area under the curve (AUC)0–240min of doxorubicin by 2.38-fold (p < 0.01) and the peak concentration (Cmax) by 3.30-fold (p < 0.01) compared to the control solution. The study findings indicate that Pep2, Pep3, and primarily Pep4 are novel absorption enhancers that can open tight junctions for doxorubicin, and the effectiveness of the peptides was directly affected by the presence of levan or levan/BC. [ABSTRACT FROM AUTHOR]

Published

2024

5. Oral Absorption of Middle-to-Large Molecules and Its Improvement, with a Focus on New Modality Drugs.

Author

Asano, Daigo, Takakusa, Hideo, and Nakai, Daisuke

Subjects

*OLIGONUCLEOTIDES, *MOLECULAR size, *ORAL drug administration, *MOLECULES, *ABSORPTION, *ORAL medication, *HYPOGLYCEMIC agents

Abstract

To meet unmet medical needs, middle-to-large molecules, including peptides and oligonucleotides, have emerged as new therapeutic modalities. Owing to their middle-to-large molecular sizes, middle-to-large molecules are not suitable for oral absorption, but there are high expectations around orally bioavailable macromolecular drugs, since oral administration is the most convenient dosing route. Therefore, extensive efforts have been made to create bioavailable middle-to-large molecules or develop absorption enhancement technology, from which some successes have recently been reported. For example, Rybelsus® tablets and Mycapssa® capsules, both of which contain absorption enhancers, were approved as oral medications for type 2 diabetes and acromegaly, respectively. The oral administration of Rybelsus and Mycapssa exposes their pharmacologically active peptides with molecular weights greater than 1000, namely, semaglutide and octreotide, respectively, into systemic circulation. Although these two medications represent major achievements in the development of orally absorbable peptide formulations, the oral bioavailability of peptides after taking Rybelsus and Mycapssa is still only around 1%. In this article, we review the approaches and recent advances of orally bioavailable middle-to-large molecules and discuss challenges for improving their oral absorption. [ABSTRACT FROM AUTHOR]

Published

2024

6. Pharmacological and Clinical Problems with Special Focus on Nasal Drug Delivery

Author

Mathur, Misha, Pathak, Yashwant V., Pathak, Yashwant V., editor, and Yadav, Hemant K. S., editor

Published

2023

7. Absorption enhancer approach for protein delivery by various routes of administration: a rapid review.

Author

Salehi, Toktam, Raeisi Estabragh, Mohammad Amin, Salarpour, Soodeh, Ohadi, Mandana, and Dehghannoudeh, Gholamreza

Subjects

*BIOLOGICAL membranes, *ABSORPTION, *PROTEINS, *PEPTIDES, *SURFACE active agents, *CYCLODEXTRINS

Abstract

As bioactive molecules, peptides and proteins are essential in living organisms, including animals and humans. Defects in their function lead to various diseases in humans. Therefore, the use of proteins in treating multiple diseases, such as cancers and hepatitis, is increasing. There are different routes to administer proteins, which have limitations due to their large and hydrophilic structure. Another limitation is the presence of biological and lipophilic membranes that do not allow proteins to pass quickly. There are different strategies to increase the absorption of proteins from these biological membranes. One of these strategies is to use compounds as absorption enhancers. Absorption enhancers are compounds such as surfactants, phospholipids and cyclodextrins that increase protein passage through the biological membrane and their absorption by different mechanisms. This review focuses on using other absorption enhancers and their mechanism in protein administration routes. [ABSTRACT FROM AUTHOR]

Published

2023

8. Chitooligosaccharide reconstitutes intestinal mucus layer to improve oral absorption of water-soluble drugs.

Author

Qi, Yiming, Jin, Ming, Li, Qing, Wu, Qinghua, Liao, Zhiqian, Wei, Menghao, Fan, Xinyi, Yang, Qianzhan, Tian, Xiaohe, Giuseppe, Battaglia, and Luo, Lei

Subjects

*MUCUS, *DRUG absorption, *SOLVABLE groups, *INTESTINAL absorption, *INTESTINES, *DRUG dosage, *FLOUR

Abstract

Intestinal mucus is a complex natural hydrogel barrier with unique physical properties that impede the absorption of various oral drugs. Both washout from the upper water layer and the physical resistance of the mucus layer particularly affect bioavailability of, especially, highly water-soluble molecules. One potential strategy for designing pharmaceutical formulations is to add absorption enhancers (AEs). However, there are few reports of AEs that work on mucus and their underlying mechanisms, leading to imprecise application. In this study, we investigated chitooligosaccharide (COS) as a safe, low-cost, and effective oral drug AE. We revealed the hydrodynamic law of interaction between COS and the intestinal mucus layer, which was associated with absorption benefiting mucus structural reconstruction. Based on this, we designed a translational strategy to improve the bioavailability of a group of soluble oral drugs by drinking COS solution before administration. Moreover, this research is expected to expand its application scenario by reducing drug dosage such as avoiding gastro-intestinal irritation and slowing veterinary antibiotic resistance. Schematic illustration of COS pro-absorptive action mechanisms and its rational use. Firstly, the oral COS solution interacts with the intestinal mucus. Over time, COS can reconstruct the physical properties of the mucus layer. In addition, COS's intrinsic amino cation interacts electrostatically with MUC-2, changing the local viscosity of the mucus. This mode creates a favorable environment for hydrophilic drug molecules to pass through the mucus barrier when oral high water-soluble drugs can be better absorbed and oral bioavailability is improved. [Display omitted] • Chitooligosaccharide (COS) can reconstitute the drug absorption relevant intestinal mucus structure, including thickness, pore space, viscosity, etc. • The hydrodynamic model reveals the pro-absorption mechanism of COS and simulates the process of drug absorption. • This pro-absorption strategy can especially enhance the oral absorption of water-soluble drugs, potentially reduce toxicity and increase efficacy. [ABSTRACT FROM AUTHOR]

Published

2023

9. Evaluation of Membrane Permeability of Copper-Based Drugs.

Author

Umba-Tsumbu, Evariste, Hammouda, Ahmed N., and Jackson, Graham Ellis

Subjects

*MEMBRANE permeability (Biology), *ARTIFICIAL membranes, *MOLECULAR weights, *COPPER compounds, *COPPER, *SOIL permeability, *PARTITION coefficient (Chemistry), *PERMEABILITY

Abstract

Membrane permeability of copper complexes with potential anti-inflammatory activity were measured using an artificial membrane in a modified Franz cell. Using CuCl2 as the control, all the ligands tested enhanced the diffusion of copper, with enhancement factors ranging from 2 to 7. Octanol/water partition coefficients (log Ko/w) were measured and correlated with the permeability coefficients (Kp). In addition, chemical speciation was used to determine the predominant complex in solution at physiological pH. No correlation was found between the measured permeability coefficients and either molecular weight (MW) or log Ko/w. [ABSTRACT FROM AUTHOR]

Published

2023

10. Pharmacologic Comparison of High-Dose Hesperetin and Quercetin on MDCK II Cell Viability, Tight Junction Integrity, and Cell Shape.

Author

Nakashima, Mio, Goda, Natsuko, Tenno, Takeshi, Kotake, Ayaka, Inotsume, Yuko, Amaya, Minako, and Hiroaki, Hidekazu

Subjects

CELL morphology, CELL survival, QUERCETIN, SMALL molecules, CLAUDINS, TIGHT junctions

Abstract

The modulation of tight junction (TJ) integrity with small molecules is important for drug delivery. High-dose baicalin (BLI), baicalein (BLE), quercetin (QUE), and hesperetin (HST) have been shown to open TJs in Madin-Darby canine kidney (MDCK) II cells, but the mechanisms for HST and QUE remain unclear. In this study, we compared the effects of HST and QUE on cell proliferation, morphological changes, and TJ integrity. HST and QUE were found to have opposing effects on the MDCK II cell viability, promotion, and suppression, respectively. Only QUE, but not HST, induced a morphological change in MDCK II into a slenderer cell shape. Both HST and QUE downregulated the subcellular localization of claudin (CLD)-2. However, only QUE, but not HST, downregulated CLD-2 expression. Conversely, only HST was shown to directly bind to the first PDZ domain of ZO-1, a key molecule to promote TJ biogenesis. The TGFβ pathway partially contributed to the HST-induced cell proliferation, since SB431541 ameliorated the effect. In contrast, the MEK pathway was not involved by both the flavonoids, since U0126 did not revert their TJ-opening effect. The results offer insight for using HST or QUE as naturally occurring absorption enhancers through the paracellular route. [ABSTRACT FROM AUTHOR]

Published

2023

11. Spatiotemporal dynamics of microscopic biological barrier visualized by electric-double-layer modulation imaging.

Author

Kurosu, Jun, Sakamaki, Takato, Kanai, Kaname, Morishita, Kana, Sumaru, Kimio, and Tsutsumi, Jun'ya

Subjects

*TIGHT junctions, *INTESTINAL absorption, *EPITHELIAL cells, *QUANTITATIVE research

Abstract

Live-cell label-free imaging of a microscopic biological barrier, generally referred to as 'tight junction', was realized by a recently developed electric-double-layer modulation imaging (EDLMI). The method allowed quantitative imaging of barrier integrity in real time, thus being an upper compatible of transepithelial electrical resistance (TEER) which is a conventional standard technique to evaluate spatially averaged barrier integrity. We demonstrate that the quantitative and real-time imaging capability of EDLMI unveils fundamental dynamics of biological barrier, some of which are totally different from conventional understandings. [ABSTRACT FROM AUTHOR]

Published

2024

12. Absorption enhancement of peach kernel oil on hydroxysafflor yellow A in safflower extracts and its mechanisms.

Author

Ye, Taiwei, Tang, Dongyun, Tao, Chunxiao, Chen, Xiuping, Wang, Xinhong, and Xie, Yan

Subjects

*INTESTINAL barrier function, *TRANSCYTOSIS, *TIGHT junctions, *SAFFLOWER, *SAFFLOWER oil, *CLAUDINS

Abstract

Carthamus tinctorius L. (Safflower) is extensively used as a functional food and herbal medicine, with its application closely associated with hydroxysafflor yellow A (HSYA). However, the low oral bioavailability of HSYA in safflower extract (SFE) limits its health benefits and application. Our study found that co-administration of 250, 330, and 400 mg/kg peach kernel oil (PKO) increased the oral bioavailability of HSYA in SFE by 1.99-, 2.11-, and 2.49-fold, respectively. The enhanced bioavailability is attributed to improved lipid solubility and intestinal permeability of HSYA in SFE due to PKO. PKO is believed to modify membrane fluidity and tight junctions, increase paracellular penetration, and inhibit the expression and function of P-glycoprotein, enhancing the transcellular transport of substrates. These mechanisms suggest that PKO is an effective absorption enhancer. Our findings provide valuable insights for developing functional foods with improved bioavailability. [Display omitted] • Peach kernel oil (PKO) enhance the oral bioavailability of hydroxysafflor yellow A in safflower • PKO increase the lipid solubility and membrane fluidity • PKO can temporarily and reversibly open tight junctions • PKO can inhibit the expression and function of P-gp [ABSTRACT FROM AUTHOR]

Published

2024

13. Effect of Different Absorption Enhancers on the Nasal Absorption of Nalmefene Hydrochloride.

Author

Zhang, Ting, Li, Meng, Han, Xiaolu, Nie, Guangjun, and Zheng, Aiping

Abstract

The purpose of this work is to explore the effects of novel absorption enhancers on the nasal absorption of nalmefene hydrochloride (NMF). First, the influence of absorption enhancers with different concentrations and types and drug concentrations on the nasal absorption of NMF was investigated in vivo in rats. The absorption enhancers studied include n-dodecyl-β-d-maltoside (DDM), hydroxypropyl-β-cyclodextrin (HP-β-CD), and polyethylene glycol (15)-hydroxy Stearate (Solutol®HS15). At the same time, the in situ toad palate model and rat nasal mucosa model were used to assess the cilia toxicity. The results showed that all the absorption enhancers investigated significantly promote the nasal absorption of NMF, but with different degrees and trends. Among them, the 0.5% (w/v) DDM had the strongest enhancement effect, followed by 0.5% (w/v) Solutol®HS15, 0.25% (w/v) DDM, 0.25% (w/v) Solutol®HS15, 0.1% (w/v) Solutol®HS15, 0.1% (w/v) DDM, and 0.25% (w/v) HP-β-CD, with absolute bioavailability of 76.49%, 72.14%, 71.00%, 69.46%, 60.41%, 59.42%, and 55.18%, respectively. All absorption enhancers exhibited good safety profiles in nasal ciliary toxicity tests. From the perspective of enhancing effect and safety, we considered DDM to be a promising nasal absorption enhancer. And in addition to DDM, Solutol®HS15 can also promote intranasal absorption of NMF, which will provide another option for the development of nalmefene hydrochloride nasal spray. [ABSTRACT FROM AUTHOR]

Published

2022

14. Studying the interactions between therapeutic peptides and absorption enhancers

Author

Howegård, Linus and Howegård, Linus

Abstract

Therapeutic peptides can often not be formulated as tablets by themselves as they’re prone to enzyme degradation the oral route - they also do not present good enough passage through epithelial cells to be viable for this dosage form. But if formulated together with surfactants, e.g., sodium caprate (C10), the absorption through epithelial cells can be increased. When peptides and absorption enhancers are mixed, their interactions can be important to be aware of. This is because unwanted aggregation of peptide could render the therapeutic useless or even dangerous to the patient. Knowing how the peptide affect the aggregation of the absorption enhancer can also be of importance, since different types of aggregates can increase absorption differently, and if the peptides can favour the aggregation of a certain type of structure, this can be useful to be aware of. This work has demonstrated at which different concentrations and environments C10 and salcaprozate (SNAC) forms different types of aggregates. This work has also indicated that a certain peptide, MEDI7219, might reduce the concentration at which micelles are formed by the formation of mixed micelles. Conformational changes for peptides when interacting with C10 was observed to be correlated with the peptide’s degree of lipidation. Further, this thesis has provided information that a ternary phase diagram for C10, capric acid and water largely contains capric acid crystals at room temperature and indicated that some changes in structure occur when heated to 37˚C. The equilibrium time for this system was also observed to be long, which could be useful knowledge in drug formulation. All results together indicate that there are hydrophobic interactions between MEDI7219 and C10, but more research is needed to determine at what extent their interplay affect both formulation stability and the therapeutic use of the peptides., Peptidläkemedel måste ofta tas som injektioner eftesom peptider är för stora för att kunna absorberas genom celler den orala rutten. Men genom att inkludera absorbtionsförbättrare (surfaktanter) så kan denna absorbtionen för bättras, vilket skulle kunna möjliggöra skapandet av peptidläkemedel i tablettform! Genom att studera interaktionerna mellan peptider och absorbtionsförbättrare så kan man få insikt i hur dessa kan påverka absorbtionen och säkerheten av peptiden, vilket är vad detta mastersarbete har försökt att undersöka. En surfaktant är samma klass av molekyler som tvål består av – dessa har både en polär och en opolär del i samma molekyl och detta ger upphov till en mängd olika egenskaper. Bland annat kan dom forma olika strukturer (aggregat), där exempel på dessa är miceller och vesiklar. Miceller kan enkelt beskrivas som sfärer som består av många surfaktantmolekyler, där deras opolära del är riktad innåt sfären och den polära delen är riktad utåt. Vesiklar kan beskrivas som större sfärer med bilager av surfaktantmolekyler – liknande struktur som cellmembranen i människans celler har. Vilken typ av struktur som bildas är viktigt att veta eftersom absorbtionen av peptidläkemedel tillsammans med surfaktanter är annorlunda beroende på vilken struktur dom har. Tre olika peptider som är mycket lika varadra, förutom att dom har olika mycket fettkedjor på sig, har undersökts tillsammans med surfaktanten natriumkaprat (C10). En mängd olika tekniker har använts för att studera detta, bland annat NMR och cirkulär dikroism. I NMR använder man starka magnetfält för att kolla på strukturen av molekyler och med cirkulär dikroism skiner man en viss typ av ljus på prover – då kan man få viktig information om strukturen av t.ex. peptider. Det visar sig att peptider som har tydligare och mer fettkedjor på sig interagerar mer med C10, och detta leder också till att strukturen på peptiden ändras lite. Resultaten tyder också på att denna interkationen skulle kunna hjälpa till

Published

2024

15. Pharmaceutical applications of citric acid

Author

Sopan Nangare, Yogini Vispute, Rahul Tade, Shailesh Dugam, and Pravin Patil

Subjects

Citric acid, Pharmaceutical applications, green crosslinkers, Fluorescent materials, Absorption enhancer, Therapeutics. Pharmacology, RM1-950, Pharmacy and materia medica, RS1-441

Abstract

Abstract Background Citric acid (CA) is a universal plant and animal-metabolism intermediate. It is a commodity chemical processed and widely used around the world as an excellent pharmaceutical excipient. Notably, CA is offering assorted significant properties viz. biodegradability, biocompatibility, hydrophilicity, safety, etc. Therefore, CA is broadly employed in many sectors including foodstuffs, beverages, pharmaceuticals, nutraceuticals, and cosmetics as a flavoring agent, sequestering agent, buffering agent, etc. From the beginning, CA is a regular ingredient for cosmetic pH-adjustment and as a metallic ion chelator in antioxidant systems. In addition, it is used to improve the taste of pharmaceuticals such as syrups, solutions, elixirs, etc. Furthermore, free CA is also employed as an acidulant in mild astringent preparations. Main text In essence, it is estimated that the functionality present in CA provides excellent assets in pharmaceutical applications such as cross-linking, release-modifying capacity, interaction with molecules, capping and coating agent, branched polymer nanoconjugates, gas generating agent, etc. Mainly, the center of attention of the review is to deliver an impression of the CA-based pharmaceutical applications. Conclusion In conclusion, CA is reconnoitered for multiple novels pharmaceutical and biomedical/applications including as a green crosslinker, release modifier, monomer/branched polymer, capping and coating agent, novel disintegrant, absorption enhancer, etc. In the future, CA can be utilized as an excellent substitute for pharmaceutical and biomedical applications. Graphical abstract

Published

2021

16. Oral delivery of exenatide-loaded hybrid zein nanoparticles for stable blood glucose control and β-cell repair of type 2 diabetes mice

Author

Xiaoyan Bao, Kang Qian, and Ping Yao

Subjects

Diabetes, Exenatide, Nanoparticle, Absorption enhancer, Oral delivery, Zein, Biotechnology, TP248.13-248.65, Medical technology, R855-855.5

Abstract

Abstract Background Exenatide is an insulinotropic peptide drug for type 2 diabetes treatment with low risk of hypoglycemia, and is administrated by subcutaneous injection. Oral administration is the most preferred route for lifelong treatment of diabetes, but oral delivery of peptide drug remains a significant challenge due to the absorption obstacles in gastrointestinal tract. We aimed to produce exenatide-loaded nanoparticles containing absorption enhancer, protectant and stabilizer using FDA approved inactive ingredients and easy to scale-up method, and to evaluate their long-term oral therapeutic effect in type 2 diabetes db/db mice. Results Two types of nanoparticles, named COM NPs and DIS NPs, were fabricated using anti-solvent precipitation method. In COM NPs, the exenatide was complexed with cholic acid and phosphatidylcholine to increase the exenatide loading efficiency. In both nanoparticles, zein acted as the cement and the other ingredients were embedded in zein nanoparticles by hydrophobic interaction. Casein acted as the stabilizer. The nanoparticles had excellent lyophilization, storage and re-dispersion stability. Hypromellose phthalate protected the loaded exenatide from degradation in simulated gastric fluid. Cholic acid promoted the intestinal absorption of the loaded exenatide via bile acid transporters. The exenatide loading efficiencies of COM NPs and DIS NPs were 79.7% and 53.6%, respectively. The exenatide oral pharmacological availability of COM NPs was 18.6% and DIS NPs was 13.1%. COM NPs controlled the blood glucose level of the db/db mice well and the HbA1c concentration significantly decreased to 6.8% during and after 7 weeks of once daily oral administration consecutively. Both DIS NPs and COM NPs oral groups substantially increased the insulin secretion by more than 60% and promoted the β-cell proliferation by more than 120% after the 7-week administration. Conclusions Both COM NPs and DIS NPs are promising systems for oral delivery of exenatide, and COM NPs are better in blood glucose level control than DIS NPs. Using prolamin to produce multifunctional nanoparticles for oral delivery of peptide drug by hydrophobic interaction is a simple and effective strategy.

Published

2020

17. Pharmacologic Comparison of High-Dose Hesperetin and Quercetin on MDCK II Cell Viability, Tight Junction Integrity, and Cell Shape

Author

Mio Nakashima, Natsuko Goda, Takeshi Tenno, Ayaka Kotake, Yuko Inotsume, Minako Amaya, and Hidekazu Hiroaki

Subjects

tight junction integrity, absorption enhancer, dynamic equilibrium of tight junction, claudin-ZO-1 interaction, TGFβ pathway, MEK pathway, Therapeutics. Pharmacology, RM1-950

Abstract

The modulation of tight junction (TJ) integrity with small molecules is important for drug delivery. High-dose baicalin (BLI), baicalein (BLE), quercetin (QUE), and hesperetin (HST) have been shown to open TJs in Madin-Darby canine kidney (MDCK) II cells, but the mechanisms for HST and QUE remain unclear. In this study, we compared the effects of HST and QUE on cell proliferation, morphological changes, and TJ integrity. HST and QUE were found to have opposing effects on the MDCK II cell viability, promotion, and suppression, respectively. Only QUE, but not HST, induced a morphological change in MDCK II into a slenderer cell shape. Both HST and QUE downregulated the subcellular localization of claudin (CLD)-2. However, only QUE, but not HST, downregulated CLD-2 expression. Conversely, only HST was shown to directly bind to the first PDZ domain of ZO-1, a key molecule to promote TJ biogenesis. The TGFβ pathway partially contributed to the HST-induced cell proliferation, since SB431541 ameliorated the effect. In contrast, the MEK pathway was not involved by both the flavonoids, since U0126 did not revert their TJ-opening effect. The results offer insight for using HST or QUE as naturally occurring absorption enhancers through the paracellular route.

Published

2023

18. Spermine with Sodium Taurocholate Enhances Pulmonary Absorption of Macromolecules in Rats.

Author

Miyake, Masateru, Minami, Takanori, Maruyama, Masato, Mukai, Tadashi, and Higaki, Kazutaka

Subjects

*ORAL drug administration, *SPERMINE, *MACROMOLECULES, *ABSORPTION, *DEXTRAN, *DRUG absorption, *POLYAMINES

Abstract

The improvement effect of the combined use of spermine (SPM), a polyamine, with sodium taurocholate (STC) on the pulmonary drug absorption was investigated utilizing poorly absorbable drugs with various molecular sizes in rats. The pulmonary absorption of rebamipide, a low molecular but poorly absorbable drug after oral administration, was significantly improved by the combined use of SPM with STC (SPM-STC formulation), while poly- L-lysine did not show a significant change in rebamipide absorption from the lungs. Furthermore, the safety of the SPM-STC formulation for the lungs was assessed in rats by the histopathological study and any local toxicity was not observed while poly-L-lysine, a typical chemical causing the toxicity for the epithelial cells, provided several histopathological changes. In addition, the SPM-STC formulation significantly improved the pulmonary absorption of fluorescein isothiocyanate dextran 4 (FD-4, Mw ca 4000) and interferon-α (IFN-α, Mw ca 25,000) as well. Our present results clearly indicated that the SPM-STC formulation significantly improved the pulmonary absorption of poorly absorbable small and large molecular drugs without any harmful effects on the lungs. Therefore, the SPM-STC formulation would be a useful one for the pulmonary absorption of drugs, specifically macromolecular ones, which are very difficult to be absorbed after oral administration. [ABSTRACT FROM AUTHOR]

Published

2021

19. The efficiency and mechanism of a new absorption enhancer, malic acid, for enhancing the oral bioavailability of docetaxel.

Author

Guo, Xin Hong, Ding, Fang, Lian, Xinjie, Cui, Weiwei, Li, Zhi, and Xing, Yabing

Subjects

MALIC acid, DOCETAXEL, ABSORPTION, BIOAVAILABILITY, TIGHT junctions, RF values (Chromatography)

Abstract

This study investigated the efficiency and the related mechanisms of a new absorption enhancer, DL-malic acid (MA), on the oral bioavailability of docetaxel (DTX). Polyethylene glycol polycarbonate (PEG-PCL) modified liposomes (PLip) were prepared for DTX, and incorporated into the pH-sensitive microspheres (MS) with sustained release. MA decreased the transepithelial electrical resistance (TEER) across a Caco-2 cell monolayer by 20% and 57% after 2 and 3 h of co-incubation with DTX-PLip and the cells, respectively, indicating that MA could open tight junctions but not instantaneously. After long enough exposure (4 h) of MA to the small intestine of rats, only the absorption rate constant (ka) of DTX-PLip, but not Duopafei®, was increased, which could be related to the intestinal mucosal permeability of DTX. After co-administration in rats, MA significantly enhanced the oral bioavailability of DTX in DTX-PLip-MS from 44.67% to 81.27%, rather than DTX-PLip and Duopafei®, which could be related to the prolonged intestinal retention time of DTX-PLip via the MS and the promoted drug intercellular transport by MA. The absorption-enhancing effects of MA on DTX-PLip-MS were further confirmed by in vivo imaging. The above findings suggest that MA served as a new and efficient absorption enhancer for DTX-PLip-MS. In this study, malic acid as a new absorption enhancer for DTX in polymer-liposome (PLip) embedded in pH-sensitive microspheres (MS) was found for the first time. The malic acid could significantly enhance oral bioavailability of DTX in DTX-PLip-MS (from 44.67 % to 81.27%) rather than Duopafei® and DTX-PLip after co-administration. The absorption enhancement may be closely related to the intestinal retention time and mucosal permeability. These findings will provide an important reference for the study of absorption enhancers for promoting intercellular insoluble drug transport. [ABSTRACT FROM AUTHOR]

Published

2021

20. Validation of the Absorption-Enhancing Ability of Oligoarginines Grafted onto a Backbone of Hyaluronic Acid through Animal Studies from Rodents to Primates.

Author

Yagi H, Tomono T, Abe K, Tsutsumi Y, Makabe M, Mitsuhashi H, Kimura T, Kobayashi H, Miyata K, Shigeno K, and Sakuma S

Subjects

Animals, Mice, Male, Administration, Intranasal, Nasal Mucosa metabolism, Nasal Mucosa drug effects, Macaca fascicularis, Nasal Absorption drug effects, Arginine chemistry, Hyaluronic Acid chemistry

Abstract

The purpose of our research is to develop functional additives that enhance mucosal absorption of biologics, such as peptide/protein and antibody drugs, to provide their non-to-poor invasive dosage forms self-managed by patients. Our previous in vivo and in vitro studies demonstrated that the intranasal absorption of biologics in mice was significantly improved when coadministered with oligoarginines anchored chemically to hyaluronic acid via a glycine spacer, presumably through syndecan-4-mediated macropinocytosis under activation by oligoarginines. The present mouse experiments first revealed that diglycine-L-tetraarginine-linked hyaluronic acid significantly enhanced the intranasal absorption of sulpiride, which is a poor-absorptive organic compound with a low molecular weight. However, similar enhancement was not observed for levofloxacin, which has a similarly low molecular weight but is a well-absorptive organic compound, probably because its absorption was mostly dominated by passive diffusion. The subsequent monkey experiments revealed that there was no species difference in the absorption-enhancing ability of diglycine-L-tetraarginine-linked hyaluronic acid for not only organic compounds but also biologics. This was presumably because the expression levels of endocytosis-associated membrane proteins on the nasal mucosa in monkeys were almost equivalent to those in mice, and poorly membrane-permeable/membrane-impermeable drugs were mainly absorbed via syndecan-4-mediated macropinocytosis, regardless of animal species. Drug concentrations in the brain assessed in mice and monkeys and those in the cerebral spinal fluids (CSFs) assessed in monkeys indicated that drugs would be delivered from the systemic circulation to the central nervous system by crossing the blood-brain and the blood-CSF barriers under coadministration with the hyaluronic acid derivative. In line with our original hypothesis, this new set of data supported that our oligoarginine-linked hyaluronic acid would locally perform on the mucosal surface and enhance the membrane permeation of drugs under its colocalization.

Published

2024

21. Absorption-Enhancing Mechanisms of Capryol 90, a Novel Absorption Enhancer, for Improving the Intestinal Absorption of Poorly Absorbed Drugs: Contributions to Trans- or Para-Cellular Pathways.

Author

Ukai, Hiroki, Imanishi, Ayako, Kaneda, Ayaka, Kimura, Erika, Koyama, Miku, Morishita, Masaki, Katsumi, Hidemasa, and Yamamoto, Akira

Subjects

*INTESTINAL absorption, *BRUSH border membrane, *OCCLUDINS, *CLAUDINS, *DRUG absorption, *TRANSCYTOSIS, *ALENDRONATE, *BILAYER lipid membranes

Abstract

Purpose: We have previously reported that Capryol 90 improves the intestinal absorption of insulin, a peptide drug, without causing serious damage to the intestinal epithelium. However, the effects of Capryol 90 and its related formulations on the intestinal absorption of other drugs, and their absorption-enhancing mechanisms are still unclear. The aim of this study is to evaluate the effects of Capryol 90 and its related formulations on the intestinal absorption of drugs and elucidate their absorption-enhancing mechanisms. Methods: The intestinal absorption of 5(6)-carboxyfluorescein, fluorescein isothiocyanate-dextrans, and alendronate was evaluated using an in situ closed loop method. Brush border membrane vesicles (BBMVs) were labeled with fluorescent probes, and the fluidity of membrane was evaluated by a fluorescence depolarization method. The expression levels of tight junction (TJ) proteins were measured using a Western blot method and immunofluorescence staining. Results: Among the tested excipients, Capryol 90 significantly improved the small and large intestinal absorption of drugs. In mechanistic studies, Capryol 90 increased the membrane fluidity of lipid bilayers in BBMVs. Additionally, Capryol 90 decreased the expression levels of TJ-associated proteins, namely claudin-4, occludin, and ZO-1. Conclusions: Capryol 90 is an effective absorption enhancer for improving the intestinal absorption of poorly absorbed drugs via both transcellular and paracellular pathways. [ABSTRACT FROM AUTHOR]

Published

2020

22. Evaluation of Cell-Penetrating Peptides as Versatile, Effective Absorption Enhancers: Relation to Molecular Weight and Inherent Epithelial Drug Permeability.

Author

Kamei, Noriyasu, Yamanaka, Jumpei, Oda, Yutaro, Kaneoka, Shohei, Koide, Yumeko, Haruna, Yuta, Takahashi, Yuta, Tamiwa, Hideyuki, and Takeda-Morishita, Mariko

Subjects

*CELL-penetrating peptides, *MOLECULAR weights, *INTESTINAL absorption, *ABSORPTION, *MONOMOLECULAR films, *PERMEABILITY

Abstract

Purpose: The poor permeability of new drug candidates across intestinal epithelial membranes complicates their development in oral form. This study investigated the potential of cell-penetrating peptides (CPPs) to improve the intestinal permeation and absorption of low-permeable low-molecular-weight (low-MW) drugs. Methods: The in vitro epithelial permeation of six different drugs (metformin, risedronate, zanamivir, methotrexate [MTX], tacrolimus, and vincristine [VCR]) across Caco-2 cell monolayers was examined in the presence and absence of L- or D-penetratin, and the correlation between permeation enhancement efficiency and the properties of tested drugs was analyzed. In addition, a rat closed ileal loop absorption study was conducted to determine the in vivo effects of penetratin. Results: MTX and VCR efficiently permeated Caco-2 monolayers in the presence of L- and D-penetratin, suggesting that CPPs enhanced the epithelial permeation of drugs with relatively high molecular weight and resultant limited intrinsic permeability. The in vivo rat closed ileal loop absorption study revealed the stimulatory effect of L- and D-penetratin on the intestinal absorption of MTX and VCR. Conclusions: CPPs are useful as oral absorption enhancers for low-permeable drugs. [ABSTRACT FROM AUTHOR]

Published

2020

23. Nasal absorption enhancement of protein drugs independent to their chemical properties in the presence of hyaluronic acid modified with tetraglycine-L-octaarginine.

Author

Tomono, Takumi, Yagi, Haruya, Ukawa, Masami, Ishizaki, Seiya, Miwa, Takahiro, Nonomura, Mao, Igi, Ryoji, Kumagai, Hironori, Miyata, Kohei, Tobita, Etsuo, Kobayashi, Hideo, and Sakuma, Shinji

Subjects

*HYALURONIC acid, *PROTEIN drugs, *CHEMICAL properties, *RESPIRATORY mucosa, *ABSORPTION

Abstract

Our previous mouse studies demonstrated that mean bioavailability of exendin-4, which is an injectable glucagon-like peptide-1 (GLP-1) analogue whose molecular weight (Mw) and isoelectric point (pI) are ca. 4.2 kDa and 4.5, respectively, administered nasally with poly(N-vinylacetamide-co-acrylic acid) (PNVA-co-AA) bearing D-octaarginine, which is a typical cell-penetrating peptide, was 20% relative to subcutaneous administration even though it was less than 1% when exendin-4 alone was given nasally. The studies also revealed that the absorption-enhancing ability of D-octaarginine-linked PNVA-co-AA for exendin-4 was statistically equivalent to that of sodium salcaprozate (SNAC), which is an absorption enhancer formulated in tablets of semaglutide approved recently as an orally available GLP-1 analogue. From a perspective of clinical application of our technology, we have separately developed hyaluronic acid modified with L-octaarginine via a tetraglycine spacer which would be degraded in biological conditions. The present study revealed that tetraglycine-L-octaarginine-linked hyaluronic acid enhanced nasal absorption of exendin-4 in mice, as did D-octaarginine-linked PNVA-co-AA. There was no significant difference in absorption-enhancing abilities between the hyaluronic acid derivative and SNAC when octreotide (Mw: ca. 1.0 kDa, pI: 8.3) and lixisenatide (Mw: ca. 4.9 kDa, pI: 9.5) were used as a model protein drug. On the other hand, SNAC did not significantly enhance nasal absorption of somatropin (Mw: ca. 22.1 kDa, pI: 5.3) when compared with absorption enhancer-free conditions. Substitution of SNAC with tetraglycine-L-octaarginine-linked hyaluronic acid resulted in a 5-fold increase in absolute bioavailability of somatropin with statistical significance. It appeared that pI hardly ever influenced absorption-enhancing abilities of both enhancers. Results indicated that our polysaccharide derivative would be a promising absorption enhancer which delivers biologics applied on the nasal mucosa into systemic circulation and was of greater advantage than SNAC for enhancing nasal absorption of protein drugs with a larger Mw. [ABSTRACT FROM AUTHOR]

Published

2020

24. Oral delivery of exenatide-loaded hybrid zein nanoparticles for stable blood glucose control and β-cell repair of type 2 diabetes mice.

Author

Bao, Xiaoyan, Qian, Kang, and Yao, Ping

Subjects

TYPE 2 diabetes, BLOOD sugar, NANOPARTICLES, CHOLIC acid, TREATMENT effectiveness, GLUCOSE analysis

Abstract

Background: Exenatide is an insulinotropic peptide drug for type 2 diabetes treatment with low risk of hypoglycemia, and is administrated by subcutaneous injection. Oral administration is the most preferred route for lifelong treatment of diabetes, but oral delivery of peptide drug remains a significant challenge due to the absorption obstacles in gastrointestinal tract. We aimed to produce exenatide-loaded nanoparticles containing absorption enhancer, protectant and stabilizer using FDA approved inactive ingredients and easy to scale-up method, and to evaluate their long-term oral therapeutic effect in type 2 diabetes db/db mice. Results: Two types of nanoparticles, named COM NPs and DIS NPs, were fabricated using anti-solvent precipitation method. In COM NPs, the exenatide was complexed with cholic acid and phosphatidylcholine to increase the exenatide loading efficiency. In both nanoparticles, zein acted as the cement and the other ingredients were embedded in zein nanoparticles by hydrophobic interaction. Casein acted as the stabilizer. The nanoparticles had excellent lyophilization, storage and re-dispersion stability. Hypromellose phthalate protected the loaded exenatide from degradation in simulated gastric fluid. Cholic acid promoted the intestinal absorption of the loaded exenatide via bile acid transporters. The exenatide loading efficiencies of COM NPs and DIS NPs were 79.7% and 53.6%, respectively. The exenatide oral pharmacological availability of COM NPs was 18.6% and DIS NPs was 13.1%. COM NPs controlled the blood glucose level of the db/db mice well and the HbA1c concentration significantly decreased to 6.8% during and after 7 weeks of once daily oral administration consecutively. Both DIS NPs and COM NPs oral groups substantially increased the insulin secretion by more than 60% and promoted the β-cell proliferation by more than 120% after the 7-week administration. Conclusions: Both COM NPs and DIS NPs are promising systems for oral delivery of exenatide, and COM NPs are better in blood glucose level control than DIS NPs. Using prolamin to produce multifunctional nanoparticles for oral delivery of peptide drug by hydrophobic interaction is a simple and effective strategy. [ABSTRACT FROM AUTHOR]

Published

2020

25. Propylene Glycol Caprylate as a Novel Potential Absorption Enhancer for Improving the Intestinal Absorption of Insulin: Efficacy, Safety, and Absorption-Enhancing Mechanisms.

Author

Ukai, Hiroki, Kawagoe, Arisa, Sato, Erika, Morishita, Masaki, Katsumi, Hidemasa, and Yamamoto, Akira

Subjects

*INTESTINAL absorption, *INSULIN, *LACTATE dehydrogenase, *TIGHT junctions, *ABSORPTION, *PROPYLENE glycols

Abstract

Sodium caprate (C10) acts as an absorption enhancer. However, the absorption-enhancing effects of compounds with structures similar to C10 have not been characterized. In the present study, insulin was used as a model drug. We examined the effects of C10 and its related compounds on intestinal absorption of insulin using an in situ closed loop in rats. Insulin absorption was significantly enhanced by propylene glycol caprylate (Sefsol-218), a C10-related compound, after large intestinal administration. In addition, activity of lactate dehydrogenase did not increase in the intestinal epithelium in the presence of Sefsol-218 at concentrations equivalent to or lower than 1% (v/v). However, a significant increase in lactate dehydrogenase activity was observed in response to C10. These findings suggested that Sefsol-218 was safer than C10. Furthermore, mechanistic studies showed that increased membrane fluidity and loosening of tight junctions (TJs) might be underlying mechanisms by which this compound improved intestinal absorption of insulin. Furthermore, Sefsol-218 opened TJs by reducing the expression of claudin-4, which is a major TJ protein. These findings suggested that Sefsol-218 effectively enhanced intestinal insulin absorption without causing serious damage to the intestinal epithelium. [ABSTRACT FROM AUTHOR]

Published

2020

26. Enhanced brain distribution of Ginsenoside F1 via intranasal administration in combination with absorption enhancers.

Author

Mao, Ying, Yuan, Weihua, Gai, Jiayi, Zhang, Yixuan, Wu, Shiwen, Xu, En-Yu, Wang, Luyao, Zhang, Xin, Guan, Jian, and Mao, Shirui

Subjects

*INTRANASAL administration, *GINSENOSIDES, *NASAL mucosa, *INTRAVENOUS therapy, *ABSORPTION, *ALZHEIMER'S disease

Abstract

[Display omitted] Ginsenoside F1 (GF1) is a potential drug candidate for the treatment of Alzheimer's disease. Nevertheless, its low oral bioavailability and poor solubility limit clinical application. By utilizing either a direct or indirect approach, intranasal administration is a non-invasive drug delivery method that can deliver drugs to the brain rapidly. But large molecule drug delivered to the brain through intranasal administration may be insufficient to reach required concentration for therapeutic effect. In this study, using GF1 as a model drug, the feasibility of intranasal administration in combination with absorption enhancers to increase brain distribution of GF1 was explored. First of all, the appropriate absorption enhancers were screened by in situ nasal perfusion study. GF1-HP-β-CD inclusion complex was prepared and characterized. Thereafter, in vivo absorption of GF1 after intranasal or intravenous administration of its inclusion complex with/without absorption enhancers was investigated, and safety of the formulations was evaluated. The results showed that 2% Solutol HS 15 was a superior absorption enhancer. HP-β-CD inclusion complex improved GF1 solubility by 150 fold. Following intranasal delivery, the absolute bioavailability of inclusion complex was 46%, with drug brain targeting index (DTI) 247% and nose-to-brain direct transport percentage (DTP) 58%. Upon further addition of 2% Solutol HS 15, the absolute bioavailability was increased to 75%, with DTI 315% and DTP 66%. Both nasal cilia movement and biochemical substances (total protein and lactate dehydrogenase) leaching studies demonstrated 2% Solutol HS 15 was safe to the nasal mucosa. In conclusion, intranasal administration combining with safe absorption enhancers is an effective strategy to enhance drug distribution in the brain, showing promise for treating disorders related to the central nervous system. [ABSTRACT FROM AUTHOR]

Published

2024

27. Utilization of Sodium Nitroprusside as an Intestinal Permeation Enhancer for Lipophilic Drug Absorption Improvement in the Rat Proximal Intestine

Author

Hisanao Kishimoto, Kaori Miyazaki, Hiroshi Tedzuka, Ryosuke Ozawa, Hanai Kobayashi, Yoshiyuki Shirasaka, and Katsuhisa Inoue

Subjects

sodium nitroprusside, absorption enhancer, mucus layer, passive diffusion, lipophilic drug, Organic chemistry, QD241-441

Abstract

As advanced synthetic technology has enabled drug candidate development with complex structure, resulting in low solubility and membrane permeability, the strategies to improve poorly absorbed drug bioavailability have attracted the attention of pharmaceutical companies. It has been demonstrated that nitric oxide (NO), a vital signaling molecule that plays an important role in various physiological systems, affects intestinal drug absorption. However, NO and its oxidants are directly toxic to the gastrointestinal tract, thereby limiting their potential clinical application as absorption enhancers. In this study, we show that sodium nitroprusside (SNP), an FDA-approved vasodilator, enhances the intestinal absorption of lipophilic drugs in the proximal parts of the small intestine in rats. The SNP pretreatment of the rat gastrointestinal sacs significantly increased griseofulvin and flurbiprofen permeation in the duodenum and jejunum but not in the ileum and colon. These SNP-related enhancement effects were attenuated by the co-pretreatment with dithiothreitol or c-PTIO, an NO scavenger. The permeation-enhancing effects were not observed in the case of antipyrine, theophylline, and propranolol in the duodenum and jejunum. Furthermore, the SNP treatment significantly increased acidic glycoprotein release from the mucosal layers specifically in the duodenum and jejunum but not in the ileum and colon. These results suggest that SNP increases lipophilic drug membrane permeability specifically in the proximal region of the small intestine through disruption of the mucosal layer.

Published

2021

28. High‐Density Lipoprotein Engineering for Eye‐Drop Treatment of Age‐Related Macular Degeneration

Author

70779157, 40402846, Fukuda, Ryosuke, Mahmuda, Nargis, Kasirawat, Sawangrat, Kawakami, Ryo, Shima, Rumina, Mizukami, Yu, Shibukawa, Shiori, Tada, Yuki, Kawanishi, Fumitake, Ogura, Masatsune, Matsuki, Kota, Nagai, Yoshinori, Nakano, Eri, Suda, Kenji, Tsujikawa, Akitaka, Murakami, Tatsuya, 70779157, 40402846, Fukuda, Ryosuke, Mahmuda, Nargis, Kasirawat, Sawangrat, Kawakami, Ryo, Shima, Rumina, Mizukami, Yu, Shibukawa, Shiori, Tada, Yuki, Kawanishi, Fumitake, Ogura, Masatsune, Matsuki, Kota, Nagai, Yoshinori, Nakano, Eri, Suda, Kenji, Tsujikawa, Akitaka, and Murakami, Tatsuya

Abstract

Eye-drop treatments of age-related macular degeneration (AMD) are desirable; however, no clinically approved eye drop has been reported to date. This study aim to evaluate the therapeutic activity of eye-drop instillation of a high-density lipoprotein (HDL) variant bearing a cell-penetrating peptide and neovasculature-targeted peptide (AsnGlyArg [NGR] peptide) in a mouse model at a dose of 0.6–0.85 µg protein/eye drop. The results reveal that the activity of the abovementioned variant was >10-fold higher than that of the previous variant lacking an NGR peptide. In addition, the anti-inflammatory activity, cholesterol-efflux capacity, and antiangiogenic activity of reconstituted HDL are significantly augmented by the attachment of these two peptides. The mechanism underlying this dramatic improvement is likely the expression of CD13, an NGR peptide receptor, on the cornea and conjunctiva in mice. CD13 mRNA/protein expression is also detected in cultured human corneal and conjunctival cells. These results demonstrate that NGR peptide is an unprecedented class of an absorption enhancer on the eye surface. Thus, HDL engineering is a potential strategy for developing eye drops to treat neovascular AMD by enhancing the ocular surface absorption and HDL functionalities.

Published

2023

29. In-Situ Nasal Gel-A Review

Author

Saudagar, R. B. and Khandbahale, Sarika V.

Published

2017

30. Drug Delivery Applications of Chitosan and its Derivatives

Author

Zhang, Xin, Li, Liang, Mao, Shirui, Narang, Ajit S, editor, and Boddu, Sai H S., editor

Published

2015

31. Feasibility Study for the Rectal Route of Administration for Gentamicin Evaluated in the Neonatal Minipig Model.

Author

McAdams, David H., Lal, Manjari, Lai, Manshun, and Quintanar-Solares, Manjari

Subjects

*GENTAMICIN, *MEDICAL personnel, *DRUG administration, *COCOA butter, *FEASIBILITY studies, *RECTAL administration

Abstract

Neonatal infections are a major cause of newborn mortality in low- and middle-income countries, particularly in areas without access to inpatient care. To address this, the World Health Organization developed guidelines for delivering simplified antibiotic regimens (oral amoxicillin and intramuscular gentamicin) in outpatient settings to young infants with suspected serious bacterial infection when referral is not feasible. However, there are still limitations to access, as the regimen requires a health care provider trained in giving intramuscular injections to infants. To provide a needle-free, simplified alternate to intramuscular delivery, PATH investigated the feasibility of the rectal administration of gentamicin. Potential formulations were screened by in vitro testing, and 2 liquid enema formulations and a cocoa butter suppository were developed and evaluated in a preclinical study of the rectal uptake of gentamicin in a neonatal minipig model. Sera samples from the control group, dosed by intramuscular injection, resulted in expected sera concentrations of gentamicin, but no gentamicin was detected in the sera of groups rectally dosed with the test formulations. The results of this study did not provide evidence to support the therapeutic feasibility of rectally absorbed gentamicin. [ABSTRACT FROM AUTHOR]

Published

2020

32. Effect of Glyceryl Monocaprylate–Modified Chitosan on the Intranasal Absorption of Insulin in Rats.

Author

Gao, Mingyue, Sun, Ying, Kou, Yongqiang, Shen, Xin, Huo, Yingnan, Liu, Chang, Sun, Zheng, Zhang, Xin, and Mao, Shirui

Subjects

*CHITOSAN, *POLYELECTROLYTES, *ALZHEIMER'S patients, *ABSORPTION, *MILD cognitive impairment, *PATIENT compliance, *INSULIN

Abstract

Nasal administration of insulin showed the attractive potential to improve the compliance of diabetic patients and alleviate mild cognitive impairment of Alzheimer's patients. However, the nasal absorption of insulin was not ideal, limiting its therapeutic effect in clinic. This study was to explore the potential of glyceryl monocaprylate–modified chitosan (CS-GMC) on the intranasal absorption of insulin via in vivo pharmacodynamic experiment in conscious rats. It was demonstrated that the absorption-enhancing effect of CS-GMC depended on the existing state of insulin in the formulation, substitution degree of GMC on chitosan and concentration of CS-GMC. Better insulin absorption was achieved when insulin existed in molecular form compared with that in polyelectrolyte complexes. CS-GMC with substitution degree 12% (CS-GMC 12%) was a preferred absorption enhancer, and its absorption enhancing effect increased linearly with the increment of its concentration in the range investigated. Compared with chitosan of the same concentration, CS-GMC12% showed remarkably enhanced and prolonged therapeutic effect up to at least 5 h under the concentration of 0.6% (w/v). CS-GMC12% showed almost no ciliotoxicity to the nasal cilia up to concentration 1.0% (w/v). In conclusion, CS-GMC was a promising absorption enhancer to improve the intranasal absorption of insulin. [ABSTRACT FROM AUTHOR]

Published

2019

33. Current Challenges in Non-Invasive Insulin Drug Delivery System: A Review.

Author

Harak, Komal V., Patil, P. B., and Saudhagar, R. B.

Subjects

DRUG delivery systems, INSULIN, ROUTE choice, MOLECULAR structure, DRUG administration

Abstract

The Frederick Banting and Charles Best extracted insulin from bovine pancreas in 1922, who received the Nobel prize for their contribution in the medical field with Johan McLeod, The gastrointestinal tract (GIT) is the route of choice for the administration of most drugs, regardless of their molecular structure or weight and administration of insulin exogenously via subcutaneous route which mimic the pancreat ic insulin secretion, for In todays era, insulin delivery by noninvasive route is an area of current interest in diabetes mellitus treatment by parenteral route for type-I and type-II diabetes mellitus, while noninvasive therapy through oral delivery is greatly desired, there are challenges that include the low bioavailability due to the rapid enzymatic degradation in the stomach. This review article patent that provides the novel approaches for noninvasive insulin drug delivery system to the bloodstream through the go tract. [ABSTRACT FROM AUTHOR]

Published

2019

34. Enhanced Intestinal Absorption of Insulin by Capryol 90, a Novel Absorption Enhancer in Rats: Implications in Oral Insulin Delivery

Author

Hiroki Ukai, Kazuki Iwasa, Takamasa Deguchi, Masaki Morishita, Hidemasa Katsumi, and Akira Yamamoto

Subjects

drug absorption, absorption enhancer, insulin, intestinal absorption, peptide absorption, Caco-2 cells, Pharmacy and materia medica, RS1-441

Abstract

Labrasol® is a self-emulsifying excipient that contains saturated polyglycolysed C6–C14 glycerides and this additive is known to improve the intestinal absorption of poorly absorbed drugs after oral administration. However, the effects of formulations similar to Labrasol® on the intestinal absorption of poorly absorbed drugs have not been characterized. In this study, we used insulin as a model peptide drug and examined the absorption-enhancing effects of Labrasol® and its related formulations for insulin absorption in rats. The co-administration of Labrasol-related formulations with insulin reduced the blood glucose levels. Among these formulations, Capryol 90 was the most effective additive. Notably, the effect of Capryol 90 was greater at pH 3.0 than at pH 7.0. Additionally, almost no mucosal damage was observed in the presence of these formulations, as these formulations did not affect the activity of lactate dehydrogenase (LDH) and the amount of protein released from the small intestine. In mechanistic studies, Capryol 90 improved the stability of insulin and suppressed the association with insulin under acidic conditions. The loosening of the tight junctions (TJs) could be the underlying mechanism by which Capryol 90 improved intestinal insulin absorption via a paracellular route. These findings suggest that Capryol 90 is an effective absorption enhancer for improving the intestinal absorption of insulin, without inducing serious damage to the intestinal epithelium.

Published

2020

35. Improving Oral Delivery

Author

Gabor, Franz, Fillafer, Christian, Neutsch, Lukas, Ratzinger, Gerda, Wirth, Michael, and Schäfer-Korting, Monika, editor

Published

2010

36. Adaptation of Quality by Design-Based Development of Isradipine Nanostructured–Lipid Carrier and Its Evaluation for In Vitro Gut Permeation and In Vivo Solubilization Fate.

Author

Alam, Tausif, Khan, Saba, Gaba, Bharti, Haider, Md. Faheem, Baboota, Sanjula, and Ali, Javed

Subjects

*ISRADIPINE, *NANOSTRUCTURED materials, *LIPIDS, *BIOAVAILABILITY, *SOLUBILIZATION

Abstract

Abstract The present study demonstrated the systematic adaptation of quality by design-integrated approach for the development of novel nanostructured lipid carrier (NLC) of an anti-hypertensive drug isradipine (ISD) to address the inherent challenges such as low solubility and low oral bioavailability. Plackett-Burman design was used for preliminary screening of significant process and formulation variables (p <0.05), which were further processed using Box-Behnken design for the attainment of optimization goal that is, mean particle size (85.7 ± 7.3 nm), drug entrapment efficiency (87.4 ± 3.29%), and in vitro drug release characteristics (92.89 ± 5.47%). The optimized ISD-NLC formulation also demonstrated well-dispersed uniform-shaped particles (polydispersity index 0.207 ± 0.029), high gastrointestinal fluid stability (zeta potential −10.17 ± 0.59 mV), and higher in vitro gut permeation (21.69 ± 2.38 μg/cm2 of ISD-NLC as compared to 11.23 ± 1.74 μg/cm2 in ISD suspension). Furthermore, lipolysis studies were performed for the purpose of in vivo fate, and significantly higher drug content of ISD from ISD-NLC in aqueous phase was found (72.34 ± 4.62%) as compared to drug suspension (3.01 ± 0.91%). Relative bioavailability of ISD-NLC and ISD suspension was increased by 4.2-fold and 1.78-fold in the absence and presence of cycloheximide which is a lymphatic uptake inhibitor revealing lymphatic uptake of ISD-NLC in bioavailability improvement. Hence, systematic adaptation of quality by design integrated approach improved gut permeation and potential solubilizaton fate (dynamic lipolysis) of ISD-NLC, which further improved the lymphatic uptake and biodistribution of drug thereby promisingits in vivo prospect and clinical efficacy. [ABSTRACT FROM AUTHOR]

Published

2018

37. Polymeric Permeation Enhancers

Author

Junginger, Hans E. and Bernkop-Schnürch, Andreas, editor

Published

2009

38. In Vitro Cellular Models for Nasal Drug Absorption Studies

Author

Kim, Dae-Duk, Ehrhardt, Carsten, editor, and Kim, Kwang-Jin, editor

Published

2008

39. Excipients as Absorption Enhancers

Author

Junginger, Hans E., Krishna, Rajesh, editor, and Yu, Lawrence, editor

Published

2008

40. Mechanistic Studies on the Absorption-Enhancing Effects of Gemini Surfactant on the Intestinal Absorption of Poorly Absorbed Hydrophilic Drugs in Rats

Author

Tammam Alama, Kosuke Kusamori, Masaki Morishita, Hidemasa Katsumi, Toshiyasu Sakane, and Akira Yamamoto

Subjects

absorption enhancer, gemini surfactant, intestinal absorption, poorly absorbed drug, Caco-2 cells, Pharmacy and materia medica, RS1-441

Abstract

Generally, the use of absorption enhancers might be the most effective approaches to ameliorate the enteric absorption of poorly absorbed substances. Among numerous absorption enhancers, we already reported that a gemini surfactant, sodium dilauramidoglutamide lysine (SLG-30) with two hydrophobic and two hydrophilic moieties, is a novel and promising adjuvant with a high potency in improving the absorption safely. Here, we examined and elucidated the absorption-improving mechanisms of SLG-30 in the enteric absorption of substances. SLG-30 increased the intestinal absorption of 5(6)-carboxyfluorescein (CF) to a greater level than the typical absorption enhancers, including sodium glycocholate and sodium laurate, as evaluated by an in situ closed-loop method. Furthermore, SLG-30 significantly lowered the fluorescence anisotropy of dansyl chloride (DNS-Cl), suggesting that it might increase the fluidity of protein sections in the intestinal cell membranes. Moreover, SLG-30 significantly lowered the transepithelial-electrical resistance (TEER) values of Caco-2 cells, suggesting that it might open the tight junctions (TJs) between the enteric epithelial cells. Additionally, the levels of claudin-1 and claudin-4 expression decreased in the presence of SLG-30. These outcomes propose that SLG-30 might improve the enteric transport of poorly absorbed substances through both transcellular and paracellular routes.

Published

2019

41. Intestinal Cell Culture Models : Applications in Toxicology and Pharmacology

Author

Sambruy, Yula, Ferruzza, S., Ranaldi, G., De Angelis, I., Stacey, Glyn N., editor, Doyle, Alan, editor, and Ferro, Margherita, editor

Published

2001

42. Improved Intranasal Retentivity and Transnasal Absorption Enhancement by PEGylated Poly-L-ornithine.

Author

Kamiya, Yusuke, Yamaki, Tsutomu, Omori, Shigehiro, Uchida, Masaki, Ohtake, Kazuo, Kimura, Mitsutoshi, Yamazaki, Hiroshi, and Natsume, Hideshi

Subjects

*INTRANASAL medication, *POLYETHYLENE glycol, *AMINO acids, *FLUORESCEIN, *ISOTHIOCYANATES

Abstract

We reported that the introduction of polyethylene glycol (PEG) to poly-L-ornithine (PLO), which is an homopolymeric basic amino acid having absorption-enhancement ability, prolonged retention time in an in vitro inclined plate test, probably due to an increase in viscosity caused by PEGylation. The aim of the present study is to investigate whether the introduction of PEG chains to PLO improves intranasal retention and transnasal absorption in vivo. We performed intranasal administration experiments using PLO and PEG-PLO with a model drug, fluorescein isothiocyanate dextran (FD-4), in rats under closed and open systems. In the open system, transition of plasma FD-4 concentration after co-administration with unmodified PLO was low, and the area under the plasma concentration-time curve (AUC) decreased to about 60% of that in the closed system. In contrast, the AUC after co-administration with PEG-PLO in the open system was about 90% of that in the closed system, and the transition of plasma FD-4 concentration and FD-4 absorption profile were similar to those of the closed system. These findings indicate that introducing PEG chains to homopolymeric basic amino acids (HPBAAs) is a very useful method for developing a functional absorption enhancer that can exhibit an efficient in vivo absorption-enhancing effect. [ABSTRACT FROM AUTHOR]

Published

2018

43. Improvement of intestinal absorption of curcumin by cyclodextrins and the mechanisms underlying absorption enhancement.

Author

Li, Xinpeng, Uehara, Sachiyo, Sawangrat, Kasirawat, Morishita, Masaki, Kusamori, Kosuke, Katsumi, Hidemasa, Sakane, Toshiyasu, and Yamamoto, Akira

Subjects

*CURCUMIN, *CYCLODEXTRINS, *ABSORPTION, *BIOAVAILABILITY, *WESTERN immunoblotting, *FLUIDITY of biological membranes

Abstract

Curcumin is known to possess a wide range of pharmacological activities for the treatment of chronic or inflammatory diseases, Alzheimer’s disease, and various cancers. However, the therapeutic efficacy of curcumin is restricted by its poor bioavailability after oral administration. In this study, the effects of various cyclodextrins on the intestinal absorption of curcumin were evaluated in rat intestine by an in situ closed-loop method. Among the tested cyclodextrins, 50 mM α-cyclodextrin significantly enhanced the absorption of curcumin without inducing any intestinal toxicity. The analysis of cellular transport across Caco-2 cell monolayers showed that 50 mM α-cyclodextrin reduced the transepithelial electrical resistance value of cell monolayers and improved the permeability of 5(6)-carboxyfluorescein, a poorly absorbable drug, which is mainly transported via a paracellular pathway. Furthermore, the western blotting analysis showed that α-cyclodextrin decreased the expression of claudin-4, a tight junction-associated protein, in brush border membrane vesicles. Additionally, α-cyclodextrin increased the membrane fluidity of lipid bilayers in brush border membrane vesicles and may also have promoted the permeation of drug molecules via a transcellular pathway. These results suggested that α-cyclodextrin might enhance the intestinal absorption of curcumin via both paracellular and transcellular pathways. [ABSTRACT FROM AUTHOR]

Published

2018

44. The Solubility-Permeability Trade-Off of Progesterone With Cyclodextrins Under Physiological Conditions: Experimental Observations and Computer Simulations.

Author

Sun, Le, Zhang, Bing, and Sun, Jin

Subjects

*DRUG solubility, *DRUG lipophilicity, *CYCLODEXTRINS, *PROGESTERONE, *SOLUBILITY

Abstract

This study intended to evaluate the effect of cyclodextrins on the apparent solubility and permeability of lipophilic drugs under physiological conditions and establish in silico model to choose the optimal amount of cyclodextrins for cyclodextrin-containing oral formulations. In order to study the effect of cyclodextrins under physiological conditions, bile salts and lecithin were added into the rat intestinal perfusion solution to simulate the fasted intestinal fluid. In addition, the in vivo oral absorption performances of cyclodextrin-containing formulations were simulated by gastrointestinal simulation technology based on the advanced compartmental absorption and transit model. The permeability of progesterone was not significantly different between 0.1 mM and 1 mM of 2-hydroxypropyl-β-cyclodextrins (HP-β-CD) under physiological conditions. When the concentration of HP-β-CD was 1 mM, the permeability of progesterone under physiological conditions was significantly higher than that in vitro . The in silico model established in this study was validated by in vivo studies of 4 formulations containing different dosage of cyclodextrin, proving that it was accurate and reliable. In conclusion, this work that demonstrates the permeability of lipophilic drugs could not decrease quickly among a certain range of dosage of HP-β-CD in vivo . Studying the solubility-permeability interplay under physiological conditions would be more meaningful. [ABSTRACT FROM AUTHOR]

Published

2018

45. Absorption Properties of Luteolin and Apigenin in Genkwa Flos Using In Situ Single-Pass Intestinal Perfusion System in the Rat.

Author

He, Xin, Song, Zi-Jing, Jiang, Cui-Ping, and Zhang, Chun-Feng

Subjects

*CHINESE medicine, *ANIMAL experimentation, *HERBAL medicine, *INTESTINAL absorption, *ISOLATION perfusion, *RATS, *RESEARCH funding, *FLAVONES

Abstract

The flower bud of Daphne genkwa ( Genkwa Flos) is a commonly used herbal medicine in Asian countries. Luteolin and apigenin are two recognized active flavonoids in Genkwa Flos. The aim of this study was to investigate the intestinal absorption mechanisms of Genkwa Flos flavonoids using in situ single-pass intestinal perfusion rat model. Using HPLC, we determined its major effective flavonoids luteolin, apigenin, as well as, hydroxygenkwanin and genkwanin in biological samples. The intestinal absorption mechanisms of the total flavonoids in Genkwa Flos (TFG) were investigated using in situ single-pass intestinal perfusion rat model. Comparing the TFG absorption rate in different intestinal segments, data showed that the small intestine absorption was significantly higher than that of the colon (). Compared with duodenum and ileum, the jejunum was the best small intestinal site for TFG absorption. The high TFG concentration (61.48g/ml) yielded the highest permeability (). Subsequently, three membrane protein inhibitors (verapamil, pantoprazole and probenecid) were used to explore the TFG absorption pathways. Data showed probenecid, a multidrug resistance protein (or MRP) inhibitor, effectively enhanced the TFG absorption (). Furthermore, by comparing commonly used natural absorption enhancers on TFG, it was observed that camphor was the most effective. In Situ single-pass intestinal perfusion experiment shows that TFG absorption is much higher in the small intestine than in the colon, and the TFG is absorbed mainly via an active transport pathway with MRP-mediated efflux mechanism. Camphor obviously enhanced the TFG absorption, and this could be an effective TFG formulation preparation method to increase clinical effectiveness after Genkwa Flos administration. Our study elucidated the TFG absorption mechanisms, and provided new information for its formulation preparation. [ABSTRACT FROM AUTHOR]

Published

2017

46. Glycyrrhizic acid: A promising carrier material for anticancer therapy.

Author

Su, Xitong, Wu, Lei, Hu, Mingming, Dong, Wenxiang, Xu, Meng, and Zhang, Peng

Subjects

*DRUG delivery systems, *ANTINEOPLASTIC agents, *DRUG absorption, *LICORICE (Plant), *TISSUES

Abstract

Drug delivery systems have become an integral part of anticancer drugs today. Design of novel drug carriers may lead to significant enhancement in antineoplastic therapy. Glycyrrhizic acid (GL), which is the most important active ingredient extracted from the licorice root shows great potential as a carrier material in this field. Recent studies have indicated that the combination of GL and first-line drugs had better therapeutic effects on cancers. GL showed a series of anti-cancer-related pharmacological activities, such as broad-spectrum anti-cancer ability, resistance to the tissue toxicity caused by chemotherapy and radiation, drug absorption enhancing effects and anti-multidrug resistance (MDR) mechanisms, as a carrier material in drug delivery systems. This review introduced the current research progress on pharmacological mechanisms of GL and development of GL-based drug carriers in anti-cancer field to provide basis for the application prospects of GL. The design of novel GL-based drug delivery systems will bring new opportunities and challenges to anti-cancer therapy. [ABSTRACT FROM AUTHOR]

Published

2017

47. Discerning the composition of penetratin for safe penetration from cornea to retina.

Author

Jiang, Kuan, Gao, Xin, Shen, Qing, Zhan, Changyou, Zhang, Yanyu, Xie, Cao, Wei, Gang, and Lu, Weiyue

Subjects

BIOMACROMOLECULES, CIRCULAR dichroism, AMINO compounds, CORNEA, RETINA

Abstract

Delivery of biomacromolecules into the eye is greatly hindered by several protective barriers. The cell-penetrating peptide, penetratin, has been found to be an effective absorption enhancer for noninvasive intraocular gene delivery. To discern the composition of penetratin for safe penetration from cornea to retina, we designed a series of penetratin derivatives by varying the hydrophobicity and evaluated their potency for retina-targeted delivery. The hydrophilic amino acids of penetratin, excluding the conserved basic amino acid residues, were respectively replaced with tryptophan. Secondary structure of the resultant derivatives was analyzed by computer simulation and circular dichroism, exhibiting that the hydrophobic derivatives had a propensity to form high content of helix and entered corneal and conjunctival cells more easily than did penetratin. As expected, the hydrophobic derivatives showed improved permeability in excised rabbit cornea and sclera, and kept intact after penetration. When instilled topically in the conjunctival sac of mice eyes, the hydrophobic derivatives distributed safely and rapidly into both cornea and retina, with increased amount and prolonged retention time in comparison to penetratin. In conclusion, we demonstrated that the ocular permeability of penetratin derivatives closely correlated with their hydrophobicity, and introducing hydrophobic amino acids in penetratin was a feasible approach to develop more powerful ocular absorption enhancers. Statement of Significance Due to the defensive barriers of the eye, efficient and safe absorption enhancers are indispensable for noninvasive delivery of exogenous biomacromolecules to the posterior segment. In this manuscript, we designed a series of penetratin derivatives and validated they had significantly improved penetration ability from cornea to retina than wild-type penetratin, without increasing toxicity. More importantly, we provided a sequence of solid evidences that the ocular permeability of penetratin derivatives closely correlated with their hydrophobicity, and introducing hydrophobic amino acids in penetratin was a feasible approach to develop more powerful ocular absorption enhancers. We also demonstrated that the penetratin derivatives permeated through cornea and sclera with intact structure, and might enter the eye by non-corneal pathway. [ABSTRACT FROM AUTHOR]

Published

2017

48. Angubindin-1, a novel paracellular absorption enhancer acting at the tricellular tight junction.

Author

Krug, Susanne M., Hayaishi, Tomohiro, Iguchi, Daisuke, Watari, Akihiro, Takahashi, Azusa, Fromm, Michael, Nagahama, Masahiro, Takeda, Hiroyuki, Okada, Yoshiaki, Sawasaki, Tatsuya, Doi, Takefumi, Yagi, Kiyohito, and Kondoh, Masuo

Subjects

*INTESTINAL absorption, *CLOSTRIDIUM perfringens, *ABSORPTION (Physiology), *CELL receptors, *LABORATORY rats, *LABORATORY mice

Abstract

A limiting barrier for mucosal absorption of drugs is the tight junction (TJ). TJs exist between two adjacent cells (bicellular TJ, bTJ) and at the sites where three cells meet (tricellular TJ, tTJ). We present a novel approach which employs a physiologically regulated pathway for the passage of large molecules through the tTJ. Main barrier-relevant tTJ proteins are tricellulin and angulin-1 to -3. We developed an angulin binder from Clostridium perfringens iota-toxin (Ib) whose receptor is angulin-1. An Ib fragment corresponding to amino acids 421–664 (Ib421-664) of iota-toxin proved to bind in cells expressing angulin-1 and -3, but not angulin-2. This binding led to removal of angulin-1 and tricellulin from the tTJ which enhanced the permeation of macromolecular solutes. Ib421-664 enhanced intestinal absorption in rats and mice. Our findings indicate that Ib421-664, which we designate angubindin-1, is a modulator of the tTJ barrier and that modulation of that barrier qualifies for a new strategy of developing a mucosal absorption enhancer. [ABSTRACT FROM AUTHOR]

Published

2017

49. Formulation by design based risperidone nano soft lipid vesicle as a new strategy for enhanced transdermal drug delivery: In-vitro characterization, and in-vivo appraisal.

Author

Imam, Syed Sarim, Ahad, Abdul, Aqil, Mohammed, Akhtar, Mohd., Sultana, Yasmin, and Ali, Asgar

Subjects

*RISPERIDONE, *VESICLES (Cytology), *TRANSDERMAL medication, *MUSCULOSKELETAL system, *HISTOPATHOLOGY, *THERAPEUTICS

Abstract

The present study was designed to formulate and optimize transdermal risperidone soft lipid vesicles. The formulation optimized with phospholipid, safranal and ethanol were incorporated as permeation and absorption enhancers. The optimized risperidone soft lipid vesicle was further evaluated for skin irritation study, in-vivo pharmacokinetic study and locomotor activity. Three factor three level Box–Behnken design (BBD) was used to statistically optimize soft lipid vesicle using safranal (A), ethanol (B)and phospholipid (C) as independent variable, while their effect was observed for vesicle size (Y 1 ), entrapment efficiency (Y 2 ) and flux (Y 3 ). The optimized risperidone soft lipid vesicle (Ris-opt) showed nanometric vesicle size, high entrapment efficiency and marked enhancement in transdermal flux. The extent of absorption from Ris-opt was greater when compared to oral suspension with relative bioavailability of 177%. The histopathological evaluation revealed developed formulation did not showed skin irritation compared to standard irritant. The significant findings presented here encourage further studies with risperidone soft lipid vesicles for treatment of schizophrenia. [ABSTRACT FROM AUTHOR]

Published

2017

50. PIPERINE: A NATURAL BIOENHANCER.

Author

Sarangi, B., Jana, U., Mohanta, G. P., and Manna, P. K.

Subjects

*PIPERIDINE derivatives, *INDIAN long pepper, *BLACK pepper (Plant), *DRUG metabolism, *P-glycoprotein, *BIOAVAILABILITY

Abstract

Herbal sources have been explored recently at very high frequency owing to their lower risk benefit ratio as compared to the modern allopathic medicine systems. Herbal bioenhancer is an agent of herbal origin or any phytomolecule, which is capable of enhancing bioavailability and bioefficacy of a particular drug or nutrient with which it is combined, without any typical pharmacological activity of its own at the dose used. The active compound of both Long pepper (Piper longum) and Black pepper (Piper nigrum) is piperine (1-piperoyl piperidine), which is responsible for bioenhancing effect. Piperine enhances absorption from gastrointestinal tract by various mechanisms and reduces gut metabolism of drugs. Piperine modulates membrane dynamics and lipid environment and increases permeability at site of absorption. Thus, piperine acts as absorption enhancer and is a potent inhibitor of drug metabolism as it inhibits various metabolizing enzymes like human p-glycoproteins, CYP3A4, UDP-glucose dehydrogenase (UDP-GDH), aryl hydrocarbon hydroxylase (AAH) and UDP-glucuronyl transferase. The current review also describes the mechanism of action of piperine and bioavailability action of piperine on drugs and nutrients. [ABSTRACT FROM AUTHOR]

Published

2017