Your search keyword '"buccal drug delivery"' showing total 118 results

1. Biopolymer Drug Delivery Systems for Oromucosal Application: Recent Trends in Pharmaceutical R&D.

Author

Dubashynskaya, Natallia V., Petrova, Valentina A., and Skorik, Yury A.

Subjects

*DRUG delivery systems, *BIOPOLYMERS, *ORAL mucosa, *LIPOSOMES, *DRUG absorption, *DRUG bioavailability, *IMMUNOCOMPETENT cells, *DRUG metabolism

Abstract

Oromucosal drug delivery, both local and transmucosal (buccal), is an effective alternative to traditional oral and parenteral dosage forms because it increases drug bioavailability and reduces systemic drug toxicity. The oral mucosa has a good blood supply, which ensures that drug molecules enter the systemic circulation directly, avoiding drug metabolism during the first passage through the liver. At the same time, the mucosa has a number of barriers, including mucus, epithelium, enzymes, and immunocompetent cells, that are designed to prevent the entry of foreign substances into the body, which also complicates the absorption of drugs. The development of oromucosal drug delivery systems based on mucoadhesive biopolymers and their derivatives (especially thiolated and catecholated derivatives) is a promising strategy for the pharmaceutical development of safe and effective dosage forms. Solid, semi-solid and liquid pharmaceutical formulations based on biopolymers have several advantageous properties, such as prolonged residence time on the mucosa due to high mucoadhesion, unidirectional and modified drug release capabilities, and enhanced drug permeability. Biopolymers are non-toxic, biocompatible, biodegradable and may possess intrinsic bioactivity. A rational approach to the design of oromucosal delivery systems requires an understanding of both the anatomy/physiology of the oral mucosa and the physicochemical and biopharmaceutical properties of the drug molecule/biopolymer, as presented in this review. This review summarizes the advances in the pharmaceutical development of mucoadhesive oromucosal dosage forms (e.g., patches, buccal tablets, and hydrogel systems), including nanotechnology-based biopolymer nanoparticle delivery systems (e.g., solid lipid particles, liposomes, biopolymer polyelectrolyte particles, hybrid nanoparticles, etc.). [ABSTRACT FROM AUTHOR]

Published

2024

2. Atorvastatin liposomes in a 3D-printed polymer film: a repurposing approach for local treatment of oral candidiasis.

Author

Nour, Eman M., El-Habashy, Salma E., Shehat, Michael G., Essawy, Marwa M., El-Moslemany, Riham M., and Khalafallah, Nawal M.

Abstract

Oral candidiasis (OC) is an opportunistic fungal infection, common amongst the elderly and the immunocompromised. Unfortunately, the therapeutic efficacy of common antifungals is imperiled by the rise of antifungal drug resistance. An alternative promising therapeutic option possibly contributing to antifungal therapy is drug repurposing. Herein, we aimed to employ novel pharmaceutical drug delivery for enhancing the emerging antifungal potential of the hypocholesterolemic drug atorvastatin (ATV). ATV-propylene-glycol-liposomes (ATV/PG-Lip) were prepared then integrated in 3D-printed (3DP) mucoadhesive films comprising chitosan, polyvinyl-alcohol and hydroxypropyl methylcellulose, as an innovative blend, for the management of OC. ATV/PG-Lip demonstrated good colloidal properties of particle size (223.3 ± 2.1 nm), PDI (0.12 ± 0.001) and zeta potential (-18.2 ± 0.3 mV) with high entrapment efficiency (81.15 ± 1.88%) and sustained drug release. Also, ATV/PG-Lip showed acceptable three-month colloidal stability and in vitro cytocompatibility on human gingival fibroblasts. The developed 3DP-films exhibited controlled ATV release (79.4 ± 1.4% over 24 h), reasonable swelling and mucoadhesion (2388.4 ± 18.4 dyne/cm2). In vitro antifungal activity of ATV/PG-Lip was confirmed against fluconazole-resistant Candida albicans via minimum inhibitory concentration determination, time-dependent antifungal activity, agar diffusion and scanning electron microscopy. Further, ATV/PG-Lip@3DP-film exceeded ATV@3DP-film in amelioration of infection and associated inflammation in an in vivo oral candidiasis rabbit model. Accordingly, the results confirm the superiority of the fabricated ATV/PG-Lip@3DP-film for the management of oral candidiasis and tackling antifungal resistance. [ABSTRACT FROM AUTHOR]

Published

2023

3. Three-Dimensional Printing Technologies in Oral Films Manufacturing—A Minireview.

Author

Ozon, Emma Adriana, Sarbu, Iulian, Popovici, Violeta, Mitu, Mirela Adriana, Musuc, Adina Magdalena, Karampelas, Oana, and Velescu, Bruno Stefan

Subjects

THREE-dimensional printing, ORAL drug administration, BIOPOLYMERS, DRUG delivery systems, DRUG absorption, LIQUID crystal displays

Abstract

The interest in buccal drug delivery is under consideration due to some distinct properties compared to the traditional pharmaceutical formulations for oral administration: significantly higher bioavailability, a faster absorption rate of the drug, and substantial compliance for special needs patients. Oral films are obtained through various technologies, from conventional tools to 3D and 4D printing approaches. This minireview aims to describe the current additive manufacturing technologies in oral film fabrication, display their advantages and limitations, and discuss various formulation strategies. It also provides advanced data regarding synthetic and natural polymers used in 3D printing technologies for oral films. Moreover, it shows the most recent studies with 3D-printed orodispersible films and mucoadhesive buccal films manufactured through previously analyzed methods. Finally, conclusions and future perspectives are also briefly summarized. [ABSTRACT FROM AUTHOR]

Published

2023

4. Nanotechnology-based mucoadhesive and mucus-penetrating drug-delivery systems for transbuccal drug delivery.

Author

Desai, Digvijay Dattatray, Manikkath, Jyothsna, Lad, Hitesh, Kulkarni, Mugdha, Manikkath, Aparna, and Radhakrishnan, Raghu

Abstract

Buccal drug-delivery systems present a promising approach for the drug delivery to the buccal mucosa, addressing oral cavity-specific problems, enabling systemic delivery and minimizing adverse effects on biological systems. Numerous strategies have been proposed to load drug-containing nanoparticles (NPs) to the buccal mucosa for local and systemic applications. There has been considerable interest in the development of mucoadhesive buccal formulations, particularly hydrogel composites utilizing mucoadhesive films incorporating NPs. Drug permeability and controlled drug release through buccal drug delivery continues to pose a challenge despite the availability of various remedies. This review highlights the need for, mechanisms and latest advances in NP-based transbuccal drug delivery with a focus on various pathological disorders and examples and limitations of the different methods. [ABSTRACT FROM AUTHOR]

Published

2023

5. A REVIEW ON BUCCAL DRUG DELIVERY SYSTEM.

Author

Patel, Honey, Pathak, Bhumin, Patel, Tejas, Vaghela, Nikita, Patel, Devika, Surati, Jasmina, and Shah, Ketan

Subjects

*ORAL mucosa, *DRUG delivery systems, *DRUG administration

Abstract

Buccal delivery involves the administration of the desired drug through the buccal mucosal membrane lining of the oral cavity. The objective of this article is to review buccal drug delivery by discussing the structure and environment of the oral mucosa and highlighting the mechanisms of drug permeation and methodology in evaluating buccal formulations. This review also highlights a brief description of advantages, limitations of buccal drug delivery and theories involved in mucoadhesion along with method of preparation mucoadhesive system, mucoadhesive polymer, and classification of buccal system. [ABSTRACT FROM AUTHOR]

Published

2023

6. Gel based formulations in oral controlled release drug delivery

Author

Biswas, Gopa Roy, Mishra, Swetalina, and Sufian, Abu

Published

2022

7. Development and Evaluation of Combined Effect Buccal Films for Treatment of Oral Candidiasis.

Author

Arslan, Derya, Akbal Dağıstan, Özlem, Sagirli, Olcay, Mulazimoglu, Lutfiye, Cevher, Erdal, and Yildiz-Pekoz, Ayca

Abstract

Buccal film formulations, including antifungal nystatin, anti-inflammatory agent hydrocortisone acetate, and local anesthetic lidocaine hydrochloride for pain relief, were developed. Bioadhesive films were fabricated with hydrophilic polymers, hydroxyethyl cellulose (HEC), and xanthan gum (XG) and dried in the incubator. Textural, swelling, and bioadhesive properties, physicochemical and in vitro release characteristics, and antifungal activities of bioadhesive films were evaluated. Bioadhesive films significantly extended nystatin release by prolonging retention time of the target area formulation while rapidly releasing hydrocortisone acetate and lidocaine HCl, reducing drug administration. The polymer type affected bioadhesion strength and erosion ratio, and XG formulations had more polymer suitability. Consequently, XT-O2 formulation that was prepared with xanthan gum and tween 80, was best for its highest antifungal film activity (20.00 ± 0.07 mm), released nystatin (44.296% ± 1.695), and lowest erosion matrix (36.719% ± 0.249). The selected formulation can be used for compatibility, stability and in vivo studies targeted oral candidiasis infections. [ABSTRACT FROM AUTHOR]

Published

2023

8. Buccal films: A review of therapeutic opportunities, formulations & relevant evaluation approaches.

Author

Shipp, Lewis, Liu, Fang, Kerai-Varsani, Laxmi, and Okwuosa, Tochukwu C.

Subjects

*FILM reviewing, *PILLS, *THREE-dimensional printing, *MELT spinning, *DRUG delivery systems, *DRUG dosage, *SUMATRIPTAN

Abstract

The potential of the mucoadhesive film technology is hard to ignore, owing to perceived superior patient acceptability versus buccal tablets, and significant therapeutic opportunities compared to conventional oral drug delivery systems, especially for those who suffer from dysphagia. In spite of this, current translation from published literature into the commercial marketplace is virtually non-existent, with no authorised mucoadhesive buccal films available in the UK and very few available in the USA. This review seeks to provide an overview of the mucoadhesive buccal film technology and identify key areas upon which to focus scientific efforts to facilitate the wider adoption of this patient-centric dosage form. Several indications and opportunities for development were identified, while discussing the patient-related factors influencing the use of these dosage forms. In addition, an overview of the technologies behind the manufacturing of these films was provided, highlighting manufacturing methods like solvent casting, hot melt extrusion, inkjet printing and three-dimensional printing. Over thirty mucoadhesive polymers were identified as being used in film formulations, with details surrounding their mucoadhesive capabilities as well as their inclusion alongside other key formulation constituents provided. Lastly, the importance of physiologically relevant in vitro evaluation methodologies was emphasised, which seek to improve in vivo correlations, potentially leading to better translation of mucoadhesive buccal films from the literature into the commercial marketplac. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2022

9. Examination of Effective Buccal Absorption of Salmon Calcitonin Using Cell-Penetrating Peptide-Conjugated Liposomal Drug Delivery System

Author

Keum T, Noh G, Seo JE, Bashyal S, Sohn DH, and Lee S

Subjects

buccal drug delivery, peptide delivery, penetratin, liposomes, tr146 cells, porcine buccal tissues, Medicine (General), R5-920

Abstract

Taekwang Keum,1,2,* Gyubin Noh,1,2,* Jo-Eun Seo,1 Santosh Bashyal,1,2 Dong Hwan Sohn,1 Sangkil Lee1,2 1College of Pharmacy, Keimyung University, Daegu, Republic of Korea; 2Center for Forensic Pharmaceutical Science, Daegu, Republic of Korea*These authors contributed equally to this workCorrespondence: Sangkil Lee, College of Pharmacy, Keimyung University, 1095 Dalgubeol-daero, Dalseo-gu, Daegu, 42601, Republic of Korea, Tel +82-53-580-6655, Fax +82-53-580-5164, Email skdavid@kmu.ac.krIntroduction: The buccal route has been considered an attractive alternative delivery route for injectable formulations. Cell-penetrating peptides (CPPs) are gaining increased attention for their cellular uptake and tissue permeation effects. This study was aimed to evaluate the in vitro and ex vivo permeation-enhancing effect of penetratin-conjugated liposomes for salmon calcitonin (sCT) in TR146 human buccal cells and porcine buccal tissues.Methods: Penetratin was conjugated to phospholipids through a maleimide-thiol reaction. Liposomes were prepared and sCT was encapsulated using a thin-film hydration method. Physical properties such as particle size, zeta potential, encapsulation efficiency, and morphological images via transmission electron microscopy were obtained. Cellular uptake studies were conducted using flow cytometry (FACS) and confocal laser scanning microscopy (CLSM). A cell permeation study was performed using a Transwell® assay, and permeation through porcine buccal tissue was evaluated. The amount of sCT permeated was quantified using an ELISA kit and was optically observed using CLSM.Results: The particle size of penetratin-conjugated liposomes was approximately 123.0 nm, their zeta potential was +29.6 mV, and their calcitonin encapsulation efficiency was 18.0%. In the cellular uptake study using FACS and CLSM, stronger fluorescence was observed in penetratin-conjugated liposomes compared with the solution containing free sCT and control liposomes. Likewise, the amount of sCT permeated from penetratin-conjugated liposomes was higher than that from the free sCT solution and control liposomes by 5.8-fold across TR146 cells and 91.5-fold across porcine buccal tissues.Conclusion: Penetratin-conjugated liposomes are considered a good drug delivery strategy for sCT via the buccal route.Keywords: buccal drug delivery, peptide delivery, penetratin, liposomes, TR146 cells, porcine buccal tissues

Published

2022

10. In vitro Models for Predicting Bioadhesion Fracture Strength to Ex Vivo Animal Buccal Tissue.

Author

Rahamim VS, Patel D, Drori E, Coopersmith S, and Azagury A

Subjects

Animals, Humans, Swine, Chitosan chemistry, Cell Line, Adhesiveness, Hydrogels chemistry, Alginates chemistry, Cheek, Gelatin chemistry, Tissue Adhesives chemistry, Tissue Adhesives pharmacology, Mouth Mucosa

Abstract

Commitment to the 3Rs principle (Replacement, Reduction, and Refinement) led to the development of a cell-based system to measure buccal bioadhesion in vitro and replace the use of porcine buccal and esophageal tissues (PBT and PET, respectively). Additionally, the aim is to bridge the gap in knowledge regarding the bioadhesion properties of PBT and PET. The in vitro models are based on the human buccal epithelial cell line-TR146 without ("Model I") or with ("Model II") 5% (w/v) mucous layer. The in vitro setup also provides a method to evaluate the bioadhesion between two soft materials. Standard bioadhesive hydrogels (alginate, chitosan, and gelatin) are used to test and compare the results from the in vitro models to the ex vivo tissues. The ex vivo and in vitro models show increased bioadhesion as the applied force and contact time increases. Furthermore, Model I exhibits bioadhesion values-of alginate, chitosan, and gelatin-comparable to those obtained with PBT. It is also found that contact time and applied force similarly affect PBT and PET bioadhesion, while PET exhibits greater values. In conclusion, Model I can replace PBT for measuring bioadhesion and be incorporated into the experimental design of bioadhesive DDS, thus minimizing animal tissue usage., (© 2024 The Author(s). Small published by Wiley‐VCH GmbH.)

Published

2024

11. An updated overview on mucoadhesive buccal drug delivery system

Author

Bagade, Om M., Mali, Ashwini R., Survase, Saroja S., Chaudhari, Ankita K., and Doke, Priyanka E.

Published

2021

12. A Complete Review on Mucoadhesive Buccal Tablets

Author

Nagaveni, P., Sirisha, S., and Rao, C. Appa

Published

2021

13. Facilitated Buccal Insulin Delivery via Hydrophobic Ion-Pairing Approach: In vitro and ex vivo Evaluation

Author

Bashyal S, Seo JE, Keum T, Noh G, Lamichhane S, Kim JH, Kim CH, Choi YW, and Lee S

Subjects

hydrophobic ion-pairing, bile salts, peptide delivery, buccal drug delivery, buccal absorption, tr146 cells, porcine buccal tissue, Medicine (General), R5-920

Abstract

Santosh Bashyal,1 Jo-Eun Seo,1 Taekwang Keum,1,2 Gyubin Noh,1,2 Shrawani Lamichhane,1,2 Jeong Hwan Kim,1,2 Chang Hyun Kim,3 Young Wook Choi,3 Sangkil Lee1,2 1College of Pharmacy, Keimyung University, Daegu, Republic of Korea; 2Center for Forensic Pharmaceutical Science, Keimyung University, Daegu, Republic of Korea; 3College of Pharmacy, Chung-Ang University, Seoul, Republic of KoreaCorrespondence: Sangkil LeeCollege of Pharmacy, Keimyung University, 1095 Dalgubeol-Daero, Dalseo-Gu, Daegu, 42601, Republic of KoreaTel +82 53 580 6655Fax +82 53 580 5164Email skdavid@kmu.ac.krBackground: The clinical use of therapeutic peptides has been limited because of their inefficient delivery approaches and, therefore, inadequate delivery to target sites. Buccal administration of therapeutic peptides offers patients a potential alternative to the current invasive routes of administration.Purpose: The aim of the study was to fabricate hydrophobic ion-pairing (HIP)-nanocomplexes (C1 and C2) utilizing anionic bile salts and cationic peptides, and to assess their permeability across TR146 buccal cell layers and porcine buccal tissue.Methods: C1 and C2-nanocomplexes were fabricated using the HIP approach. In addition, their physiochemical and morphological attributes, in vitro and ex vivo permeability properties, and qualitative and quantitative cellular uptake were evaluated and compared. The localization of C1 and C2-nanocomplexes in porcine buccal tissue was determined using confocal laser scanning microscopy.Results: The C1-nanocomplex was the superior nanocarrier and significantly enhanced the transport of insulin across TR146 cell layers and porcine buccal tissue, exhibiting a 3.00- and 51.76-fold increase in permeability coefficient, respectively, when compared with insulin solution (p < 0.01). C1-nanocomplex was more efficient than C2-nanocomplex at facilitating insulin permeability, with a 2.18- and 27.64-fold increase across TR146 cell layers and porcine buccal tissue, respectively. The C1-nanocomplex demonstrated immense uptake and localization of insulin in TR146 cells and porcine buccal tissue, as evidenced by a highly intense fluorescence in TR146 cells, and a great shift of fluorescence intensity towards the inner region of buccal tissue over time. The increase in fluorescence intensity was observed in the order of C1 > C2 > insulin solution.Conclusion: In this study, we highlighted the efficacy of potential nanocarriers in addressing the daunting issues associated with the invasive administration of insulin and indicated a promising strategy for the buccal administration and delivery of this life-saving peptide hormone.Keywords: hydrophobic ion-pairing, bile salts, peptide delivery, buccal drug delivery, buccal absorption, TR146 cells, porcine buccal tissue

Published

2021

14. Development of mucoadhesive modified kappa‐carrageenan/pectin patches for controlled delivery of drug in the buccal cavity.

Author

Özkahraman, Bengi, Özbaş, Zehra, Yaşayan, Gökçen, Akgüner, Zeynep Püren, Yarımcan, Filiz, Alarçin, Emine, and Bal‐Öztürk, Ayça

Subjects

TRIAMCINOLONE acetonide, ASPERGILLUS flavus, ASPERGILLUS fumigatus, MYCOSES, INFRARED spectroscopy

Abstract

In this study, modified kappa‐carrageenan/pectin hydrogel patches were fabricated for treatment of buccal fungal infections. For this purpose, kappa‐carrageenan‐g‐acrylic acid was modified with different thiolated agents (L‐cysteine and 3‐mercaptopropionic acid), and the thiol content of the resulting modified kappa‐carrageenan was confirmed by elemental analyzer. Then, the hydrogel patches were fabricated, and characterized by Fourier‐transform infrared spectroscopy, thermogravimetric analysis, ex vivo mucoadhesion test, and swelling behavior. Triamcinolone acetonide was added either directly or by encapsulating within the poly(lactic‐co‐glycolic acid) nanoparticles. The release amount of the drug from the directly loaded patch was 7.81 mg/g polymer, while it was 3.28 mg/g polymer for the encapsulated patch with the same content at 7 hr. The hydrogel patches had no cytotoxicity by cell culture studies. Finally, the drug loaded hydrogel patches were demonstrated antifungal activity against Aspergillus fumigatus and Aspergillus flavus. These results provide that the novel modified kappa‐carrageenan and pectin based buccal delivery system has promising antifungal property, and could have advantages compared to conventional buccal delivery systems. [ABSTRACT FROM AUTHOR]

Published

2022

15. Mucoadhesion and Mucopenetration of Cannabidiol (CBD)-Loaded Mesoporous Carrier Systems for Buccal Drug Delivery.

Author

Söpper, Ulrike, Hoffmann, Anja, and Daniels, Rolf

Subjects

*DRUG delivery systems, *CANNABIDIOL, *PROPYLENE glycols

Abstract

Transmucosal drug delivery represents a promising noninvasive option when drugs are employed which have a low oral bioavailability like CBD. However, this concept can only be successful as long as the formulation provides sufficient buccal retention and mucosal penetration. In this study, mucoadhesive carrier systems were evaluated consisting of CBD-loaded silica (Aeroperl 300) carriers, mucoadhesive polymers (Hypromellose (HPMC), chitosan and carbomer) and propylene glycol as a penetration enhancer. Mucoadhesive effect, drug release and penetration ability were evaluated for each carrier system. The results show that the addition of HPMC and carbomer substantially improve mucoadhesion compared to pure CBD, with an increase of 16-fold and 20-fold, respectively. However, due to their strong swelling, HPMC and carbomer hinder the penetration of CBD and rely on co-administration of propylene glycol as an enhancer to achieve sufficient mucosal absorption. Chitosan, on the other hand, achieves an 8-fold increase in mucoadhesion and enhances the amount of CBD absorbed by three times compared to pure CBD. Thus, chitosan represents a promising polymer to combine both effects. Considering the results, the development of silica-based buccal drug delivery systems is a promising approach for the effective delivery of CBD. [ABSTRACT FROM AUTHOR]

Published

2021

16. Formulation, characterization and in vitro release studies of terbinafine hydrochloride loaded buccal films.

Author

ARPA, Muhammet Davut, ÜNÜKÜR, Melike Zeynep, and ERİM, Ümit Can

Subjects

*TERBINAFINE, *BUCCAL administration, *ORAL drug administration, *METHYLCELLULOSE, *IN vitro studies

Abstract

Buccal administration of different active ingredients as an alternative to oral or dermal routes has been widely studied. The films are one of the most investigated dosage forms regarding the buccal formulations developed using bioadhesive polymers. Having thin and flexible structures, the films remain in the mouth for their duration of action without causing any discomfort. There are many studies conducted to develop buccal films for local treatment of oral fungal infections. In this research, buccal films were prepared using terbinafine hydrochloride, which is frequently used orally and systemically in the treatment of fungal infections and has low water solubility. The films were prepared by solvent casting method using hydroxypropyl methyl cellulose (HPMC) and polyvinyl pyrrolidone K30 (PVP) as the bioadhesive polymers and glycerin (2-3%) as the plasticizer. Characterization properties including thickness, weight uniformity, flexibility, tensile strength, swelling capacity were examined and the bioadhesive characteristics were determined by Texture Analyzer device using bovine buccal tissue. According to the findings of bioadhesion studies, the highest bioadhesive properties were detected in F1 and F7 formulations, which contained 5% HPMC. In vitro release studies exhibited that F1 and F7 film formulations with 5% HPMC represented slower and more controlled release compared to F2 and F8 film formulations having 4% HPMC + 1% PVP. The results revealed that the developed buccal formulations loaded with terbinafine hydrochloride might be convenient for the local treatment of oral fungal infections. [ABSTRACT FROM AUTHOR]

Published

2021

17. Drug Release and Mucoadhesive behavior of Hydrogel in Chemo-Radiotherapy induced Oral Mucositis

Author

Jain, Praveen Kumar, Gilhotra, Ritu, and Kori, Mohan Lal

Published

2019

18. Optimization of Unidirectional Mucoadhesive Buccal Patches Based on Chitosan and Pluronic® F-127 for Metoprolol Controlled Release: In Vitro and Ex Vivo Evaluations.

Author

Escalona-Rayo, Cristian Fernando, Serrano-Castañeda, Pablo, López-Cervantes, Miriam, and Escobar-Chávez, José Juan

Abstract

Purpose: The aim of this work was to optimize unidirectional buccal patches loaded with metoprolol (MT-MBPs) to provide adequate mucoadhesive and water uptake properties as well as controlled drug release for the effective treatment of different cardiovascular diseases. Methods: The patches were prepared layer-by-layer using the solvent casting method. A central composite design was employed to statistically optimize the formulation variables. Chitosan and Pluronic® F-127 (poloxamer 407) concentrations were chosen as the independent variables, while ex vivo mucoadhesive force, ex vivo residence time, in vitro water uptake (%), and in vitro drug release (%) were to be considered the dependent variables. The optimized formulation was also characterized and evaluated in terms of morphology, thermal behavior, tensile strength, elongation at break, and ex vivo drug permeation. Results: The optimized MT-MBPs were successful in terms of mucoadhesive force (3.58 ± 0.62 N), residence time (342.67 ± 17.21 min), and water uptake at 1 h (24.53 ± 3.62%). A controlled drug release was obtained for 8 h. Thermal and morphologic analyses demonstrated that metoprolol was homogeneously distributed throughout the microporous chitosan-based polymer matrix. Furthermore, the MT-MBPs exhibited a tensile strength of 3.76 ± 0.55 N/mm2 and an elongation at break of 36.52 ± 13.88%. The results of ex vivo permeation through pig buccal mucosa indicated that therapeutic metoprolol concentrations can be reached by using a patch of 5.62 cm2. Conclusions: Optimal composition of the MT-MBPs included 2.9% (w/v) and 2.6% (w/v) of chitosan and Pluronic® F-127, respectively, which constitutes the most suitable makeup for metoprolol buccal delivery. [ABSTRACT FROM AUTHOR]

Published

2020

19. Evaluation of commercial arrowroot starch/CMC film for buccal drug delivery of glipizide

Author

Dhanasekaran Gayathri and Lakshmanan Saraswathy Jayakumari

Subjects

arrowroot starch, buccal drug delivery, CMC, film, glipizide, Chemical technology, TP1-1185

Abstract

Abstract In the present work, commercial arrowroot starch (AR starch) has been successfully used as a base material with sodium salt of carboxy methyl cellulose (CMC) for buccal drug delivery system. Different ratio of CMC and AR starch has been prepared with constant ratio of drug. In our study, glipizide has been used as the drug for controlled drug delivery through buccal mucosa. Films were cast by solution casting method with glycerol as plasticizer. All the films were characterized for thickness, swelling index, moisture content, relative pH, drug content uniformity, compatibility of polymer and drug, surface morphology of films, muco adhesive property and in-vitro drug release study. Formulation F3 shows a residence time of 140 minutes with good mucoadhesive property, compatibility within polymers, drug content uniformity of 100 ± 6.0% and a controlled drug release among all the ratios.

Published

2020

20. Buccal administration of mucoadhesive blend films saturated with propranolol loaded nanoparticles

Author

Pakorn Kraisit, Sontaya Limmatvapirat, Manee Luangtana-Anan, and Pornsak Sriamornsak

Subjects

Hydroxypropyl methylcellulose (HPMC), Polycarbophil, Propranolol HCl, Nanoparticle, Mucoadhesive film, Buccal drug delivery, Therapeutics. Pharmacology, RM1-950

Abstract

The aims of this study were to prepare and characterize hydroxypropyl methylcellulose (HPMC)/polycarbophil (PC) mucoadhesive blend films saturated with propranolol hydrochloride (PNL)-loaded nanoparticles to improve permeability of drugs that undergo first-pass metabolism. An ionic cross-linking method and film casting technique was used to prepare nanoparticles and mucoadhesive blend films, respectively. Increasing concentrations of PNL (70, 80, 90 mg/film) in HPMC/PC blend films containing PNL-loaded nanoparticles (PN-films) and HPMC/PC blend films containing PNL (80 mg/film) without nanoparticles (PP-films) were prepared to test swelling, mucoadhesiveness, release, permeation and physicochemical properties. Scanning electron microscope (SEM) images showed a partially smooth surface with a wrinkled occurrence and spherically shaped, well-dispersed nanoparticles on the surface of PN-films containing PNL 80 mg/film (PN-films-80). The size of the nanoparticles on the surface of PN-films-80 was around 100 nm, which was similar to the nanoparticle size observed using light scattering technique. The swelling index (SI) of all PN-films and PP-films increased greatly in the first period time (10–20 min) and reached swelling equilibrium at 20 min and 30 min, respectively. For the PN-films, the concentration of PNL influenced the mucoadhesive properties and tended to be higher when the amount of PNL increased. Immediate release of all blend film formulations was found in early time points (10–30 min). After 120 min, the release of PN-films-70 was lower than the other PN-films. Permeation studies using porcine buccal mucosa showed that inclusion of nanoparticles in the films increased the permeability of PNL compared to PP-films. Therefore, buccal administration of mucoadhesive blend films containing PNL-loaded nanoparticles could be a promising approach for drugs that undergo first-pass metabolism.

Published

2018

21. Formulation and optimization of gellan gum-poloxamer based dexamethasone mucoadhesive in situ gel.

Author

RENÇBER, Seda and KARAVANA, Sinem Yaprak

Subjects

*ADHESIVES, *THERMORESPONSIVE polymers, *DRUG delivery systems, *COLLOIDS, *GELLAN gum, *TREATMENT effectiveness, *GELATION, *COMPRESSIBILITY

Abstract

The main objective of the present study was to formulate and evaluate mucoadhesive in situ buccal gels of dexamethasone based on gellan gum-poloxamer 407. Formulations were characterized for gelling capacity, drug content, pH, viscosity, rheological studies, mechanical studies and in vitro drug release. The drug content, clarity and pH of the formulations were found to be satisfactory. Mucoadhesive in situ gels showed thermoresponsive behavior, existing as a liquid at room temperature and gel at 30-37°C. Formulations exhibited pseudoplastic flow and typical gel-type mechanical spectra (G' > G?) at different frequecy values and 37°C. Prepared gels resulted in preparations with desirable rheological features as well as texture (appropriate hardness, compressibility, adhesiveness, cohesiveness and elasticity) properties, which could benefit the therapeutic efficacy, by increasing the residence time and easiness for local application on the buccal mucosa. Additionally, the developed preparations exhibited sustained drug release up to 72 h as intended for these systems. Optimized formulation containing 14% w/v poloxamer 407 and 0.4% w/v gellan gum exhibited desired characteristics (mechanical and rheological properties) for developing buccal drug delivery systems. Thus, buccal dexamethasone loaded mucoadhesive in situ gel was found to be a promising formulation. [ABSTRACT FROM AUTHOR]

Published

2020

22. Mucoadhesion and Mucopenetration of Cannabidiol (CBD)-Loaded Mesoporous Carrier Systems for Buccal Drug Delivery

Author

Ulrike Söpper, Anja Hoffmann, and Rolf Daniels

Subjects

buccal drug delivery, mucoadhesion testing, mucopenetration, mesoporous silica, incipient wetness method, cannabidiol release, Pharmacy and materia medica, RS1-441

Abstract

Transmucosal drug delivery represents a promising noninvasive option when drugs are employed which have a low oral bioavailability like CBD. However, this concept can only be successful as long as the formulation provides sufficient buccal retention and mucosal penetration. In this study, mucoadhesive carrier systems were evaluated consisting of CBD-loaded silica (Aeroperl 300) carriers, mucoadhesive polymers (Hypromellose (HPMC), chitosan and carbomer) and propylene glycol as a penetration enhancer. Mucoadhesive effect, drug release and penetration ability were evaluated for each carrier system. The results show that the addition of HPMC and carbomer substantially improve mucoadhesion compared to pure CBD, with an increase of 16-fold and 20-fold, respectively. However, due to their strong swelling, HPMC and carbomer hinder the penetration of CBD and rely on co-administration of propylene glycol as an enhancer to achieve sufficient mucosal absorption. Chitosan, on the other hand, achieves an 8-fold increase in mucoadhesion and enhances the amount of CBD absorbed by three times compared to pure CBD. Thus, chitosan represents a promising polymer to combine both effects. Considering the results, the development of silica-based buccal drug delivery systems is a promising approach for the effective delivery of CBD.

Published

2021

23. Revolutionizing Brain Drug Delivery: Buccal Transferosomes on the Verge of a Breakthrough.

Author

Chandrasekhar P and Kaliyaperumal R

Subjects

Humans, Administration, Buccal, Mouth Mucosa metabolism, Liposomes, Animals, Drug Carriers chemistry, Pharmaceutical Preparations administration & dosage, Pharmaceutical Preparations chemistry, Pharmaceutical Preparations metabolism, Brain metabolism, Drug Delivery Systems methods

Abstract

The buccal cavity, also known as the oral cavity, is a complex anatomical structure that plays a crucial role in various physiological processes. It serves as a gateway to the digestive system and facilitates the initial stages of food digestion and absorption. However, its significance extends beyond mere digestion as it presents a promising route for drug delivery, particularly to the brain. Transferosomes are lipid-based vesicles that have gained significant attention in the field of drug delivery due to their unique structure and properties. These vesicles are composed of phospholipids that form bilayer structures capable of encapsulating both hydrophilic and lipophilic drugs. Strategies for the development of buccal transferosomes for brain delivery have emerged as promising avenues for pharmaceutical research. This review aims to explore the various approaches and challenges associated with harnessing the potential of buccal transferosomes as a means of enhancing drug delivery to the brain. By understanding the structure and function of both buccal tissue and transferosomes, researchers can develop effective formulation methods and characterization techniques to optimize drug delivery. Furthermore, strategic approaches and success stories in buccal transferosome development are highlighted, showcasing inspiring examples that demonstrate their potential to revolutionize brain delivery., (Copyright© Bentham Science Publishers; For any queries, please email at epub@benthamscience.net.)

Published

2024

24. Quality by design approach for optimizing preparation and characterization of buccal film formulation with different polymers.

Author

AKSU, BUKET, COŞKUNMERIÇ, NESRIN, YEĞEN, GIZEM, ÖZALP, YILDIZ, and OKUR, NESLIHAN ÜSTÜNDAĞ

Subjects

*BUCCAL administration, *CHITOSAN, *SODIUM alginate, *DRUG delivery systems, *PHARMACEUTICAL industry

Abstract

Bilayered oromucosal film preparations (buccal films) offer a promising way to enable drug administration via the oral cavity. Polymeric film formulations containing chitosan, sodium alginate or carbopol were evaluated to select a formulation for the development of buccal drug delivery systems. Quality by Design (QbD) is increasingly becoming an important and widely used approach in the pharmaceutical industry. QbD requires producing an understanding of the critical variables affecting the attribues of products. In this study, the principles of QbD have been uniquely applied to 54 different kinds of film formulation contain different excipients as Chitosan, Carbopol, Sodium Alginate, Glycerine, PEG 400, Propylene Glycol to obtain appropriate buccal formulations. Each of the prepared formulations contains different ingredients combination and ingredients' ratio (% w/v), which appear changes. For this aim, to evaluate the effects of variables to the film formulations, they were characterized as thickness, weight uniformity, swelling and moisture loss. [ABSTRACT FROM AUTHOR]

Published

2019

25. Review on Buccal Adhesive Drug Delivery System: A Promising Strategy for Poorly Soluble Drugs.

Author

Mangilal, Teelavath and Patnaik, K. S. K. Rao

Subjects

DRUG delivery systems, DRUG solubility, LANGERHANS cells, DRUG dosage, MOLECULAR biology

Abstract

Rapid developments in the field of molecular biology and gene technology resulted in generation of many macromolecular drugs including peptides, proteins, polysaccharides and nucleic acids in great number possessing superior pharmacological efficacy with site specificity and devoid of untoward and toxic effects. However, the main impediment for the oral delivery of these drugs as potential therapeutic agents is their extensive presystemic metabolism, instability in acidic environment resulting into inadequate and erratic oral absorption. Parentral route of administration is the only established route that overcomes all these drawbacks associated with these orally less/inefficient drugs. But, these formulations are costly, have least patient compliance, require repeated administration, in addition to the other hazardous effects associated with this route. Over the last few decades' pharmaceutical scientists throughout the world are trying to explore transdermal and transmucosal routes as an alternative to injections. Among the various transmucosal sites available, mucosa of the buccal cavity was found to be the most convenient and easily accessible site for the delivery of therapeutic agents for both local and systemic delivery as retentive dosage forms, because it has expanse of smooth muscle which is relatively immobile, abundant vascularization, rapid recovery time after exposure to stress and the near absence of langerhans cells. Direct access to the systemic circulation through the internal jugular vein bypasses drugs from the hepatic first pass metabolism leading to high bioavailability. Further, these dosage forms are self-administrable, cheap and have superior patient compliance. Developing a dosage form with the optimum pharmacokinetics is a promising area for continued research as it is enormously important and intellectually challenging. With the right dosage form design, local environment of the mucosa can be controlled and manipulated in order to optimize the rate of drug dissolution and permeation. A rational approach to dosage form design requires a complete understanding of the physicochemical and biopharmaceutical properties of the drug and excipients. Advances in experimental and computationa l methodologies will be helpful in shortening the processing time from formulation design to clinical use. This paper aims to review the developments in the buccal adhesive drug delivery systems to provide basic principles to the young scientists, which will be useful to circumvent the difficulties associated with the formulation design. [ABSTRACT FROM AUTHOR]

Published

2019

26. Development of bilayer films based on shellac and esterified cellulose nanocrystals for buccal drug delivery.

Author

Tang, Lirong, Hong, Biyun, Li, Tao, and Huang, Biao

Subjects

BUCCAL administration, CELLULOSE nanocrystals, SHELLAC, POLYETHYLENE glycol, TENSILE strength

Abstract

Bilayer films were fabricated based on natural-based and biocompatible polymers such as esterified cellulose nanocrystals (ECNCs) and shellac, aiming for use in buccal drug delivery. Baicalin was used as the model drug. The swelling properties, drug loading and mechanical properties of films were evaluated and further characterized for mucoadhesion and in vitro drug release properties. The film (F2) containing ECNCs 45%, shellac 25% and polyethylene glycol 30% shows the best properties for the development of the film formulation. The swelling capacity of films was in the range of 36.5 ± 4.1-279.2 ± 14.1%. In vitro drug release shows that anomalous transport behavior indicates that transport includes drug diffusion and polymer relaxation. For film F2, the tensile strength and adhesion strength reaches to the maximum value of 21.57 ± 0.83 MPa and 0.073 ± 0.004 N, respectively. The interfacial interactions between drug and film components were confirmed by FTIR and XRD. [ABSTRACT FROM AUTHOR]

Published

2019

27. In Vitro and Ex Vivo Evaluation of Penetratin as a Non-invasive Permeation Enhancer in the Penetration of Salmon Calcitonin through TR146 Buccal Cells and Porcine Buccal Tissues

Author

Taekwang Keum, Gyubin Noh, Jo-Eun Seo, Santosh Bashyal, and Sangkil Lee

Subjects

cell penetrating peptide, Penetratin, salmon calcitonin, buccal drug delivery, TR146 cells, Medicine, Pharmacy and materia medica, RS1-441

Abstract

Buccal tissues are considered one of the potential alternative delivery route because of fast drug absorption and onset of action due to high vascularization and a non-keratinized epithelial membrane. In this study, the effect of Penetratin on the permeation of salmon calcitonin (sCT), a model macromolecular peptide drug, through TR146 buccal cells and porcine buccal tissues has been evaluated. To observe permeation profile of sCT, TR146 buccal cells were treated with Alexa 647 conjugated sCT (Alexa 647-sCT) with different concentrations of fluorescein isothiocyanate -labeled Penetratin (FITC-Penetratin) ranging from 0 to 40 μM, and analyzed using flow cytometry and confocal laser scanning microscopy. Intracellular penetration of FITC-Penetratin rapidly increased at low concentrations from 0 to 15 μM and it gradually increased at concentrations above 15 μM. Intracellular penetration of Alexa 647-sCT enhanced with the increase of FITC-Penetratin concentration. When TR146 cell layers and buccal tissues were co-treated with sCT and Penetratin as permeation enhancer, the flux of sCT increased as per Penetratin concentration. Compared to the control, 12.2 μM of Penetratin enhanced the flux of sCT in TR146 cell layers and buccal tissues by 5.5-fold and 93.7-fold, respectively. These results strongly suggest that Penetratin may successfully act as a non-invasive permeation enhancer for macromolecular peptide drug delivery through buccal routes.

Published

2020

28. A preliminary study for the development and optimization by experimental design of an in vitro method for prediction of drug buccal absorption.

Author

Mura, Paola, Orlandini, Serena, Cirri, Marzia, Maestrelli, Francesca, Mennini, Natascia, Casella, Giada, and Furlanetto, Sandra

Subjects

*DRUG absorption, *ORAL mucosa, *NAPROXEN, *BUCCAL administration, *ARTIFICIAL membranes

Abstract

The work was aimed at developing an in vitro method able to provide rapid and reliable evaluation of drug absorption through buccal mucosa. Absorption simulator apparatus endowed with an artificial membrane was purposely developed by experimental design. The apparent permeation coefficient (P app ) through excised porcine buccal mucosa of naproxen, selected as model drug, was the target value to obtain with the artificial membrane. The multivariate approach enabled systematic evaluation of the effect on the response (P app ) of simultaneous variations of the variables (kind of lipid components for support impregnation and relative amounts). A screening phase followed by a response-surface study allowed optimization of the lipid-mixture composition to obtain the desired P app value, and definition of a design space where all mixture components combinations fulfilled the desired target at a fixed probability level. The method offers a useful tool for a quick screening in the early stages of drug discovery and/or in preformulation studies, improving efficiency and chance of success in the development of buccal delivery systems. Further studies with other model drugs are planned to confirm the buccal absorption predictive capacity of the developed membrane. [ABSTRACT FROM AUTHOR]

Published

2018

29. Development of (acrylic acid/ polyethylene glycol)-zinc oxide mucoadhesive nanocomposites for buccal administration of propranolol HCl.

Author

Mahmoud, Ghada A., Ali, Amr El-Hag, Raafat, Amany I., Badawy, Nagwa A., and Elshahawy, Mai. F.

Subjects

*ACRYLIC acid, *POLYETHYLENE glycol, *ZINC oxide, *HYDROGELS, *X-ray spectroscopy, *X-ray diffraction, *PROPRANOLOL

Abstract

A series of mucoadhesive nanocomposites with self disinfection properties composed of acrylic acid, polyethylene glycol and ZnO nanoparticles (AAc/PEG)-ZnO were developed for localized buccal Propranolol HCl delivery. γ-irradiation as a clean tool for graft copolymerization process was used for the preparation of (AAc/PEG) hydrogels. In suite precipitation technique was used for ZnO nanoparticles immobilization within (AAc/PEG) hydrogels. The developed (AAc/PEG)-ZnO nanocomposites were characterized by X-ray diffraction (XRD), UV–Vis spectrophotometer, energy dispersive X-ray spectroscopy (EDX) and scanning electron microscopy (SEM) to confirm the success of ZnO nanoparticles formation within the (AAc/PEG) matrices. The presence of ZnO nanoparticles improves the thermal stability as indicated using thermogravimetric analysis (TGA). The mucoadhesion characteristics such as hydration degree, surface pH, and mucoadhesive strength were evaluated in artificial saliva solution. The self disinfection property of the developed (AAc/PEG)-ZnO nanocomposites was investigated by examining their resistance to pathogenic microorganisms such as Staphylococcus aureus , Bacillus subtilis , and Escherichia coli using disc diffusion method. The release of Propranolol -HCl drug in artificial saliva was found to obey a non-Fickian diffusion mechanism. The obtained results suggests that (AAc/PEG)-ZnO nanocomposites could be used as mucoadhesive carrier for buccal drug delivery with efficient antibacterial properties. [ABSTRACT FROM AUTHOR]

Published

2018

30. Buccal administration of mucoadhesive blend films saturated with propranolol loaded nanoparticles.

Author

Kraisit, Pakorn, Limmatvapirat, Sontaya, Luangtana-Anan, Manee, and Sriamornsak, Pornsak

Subjects

*BUCCAL administration, *PROPRANOLOL, *NANOPARTICLES, *METHYLCELLULOSE, *SCANNING electron microscopy, *DRUG delivery systems

Abstract

The aims of this study were to prepare and characterize hydroxypropyl methylcellulose (HPMC)/polycarbophil (PC) mucoadhesive blend films saturated with propranolol hydrochloride (PNL)-loaded nanoparticles to improve permeability of drugs that undergo firstpass metabolism. An ionic cross-linking method and film casting technique was used to prepare nanoparticles and mucoadhesive blend films, respectively. Increasing concentrations of PNL (70, 80, 90 mg/film) in HPMC/PC blend films containing PNL-loaded nanoparticles (PN-films) and HPMC/PC blend films containing PNL (80 mg/film) without nanoparticles (PPfilms) were prepared to test swelling, mucoadhesiveness, release, permeation and physicochemical properties. Scanning electron microscope (SEM) images showed a partially smooth surface with a wrinkled occurrence and spherically shaped, well-dispersed nanoparticles on the surface of PN-films containing PNL 80 mg/film (PN-films-80). The size of the nanoparticles on the surface of PN-films-80 was around 100 nm, which was similar to the nanoparticle size observed using light scattering technique. The swelling index (SI) of all PN-films and PP-films increased greatly in the first period time (10-20 min) and reached swelling equilibrium at 20 min and 30 min, respectively. For the PN-films, the concentration of PNL influenced themucoadhesive properties and tended to be higher when the amount of PNL increased. Immediate release of all blend film formulations was found in early time points (10-30 min). After 120 min, the release of PN-films-70 was lower than the other PNfilms. Permeation studies using porcine buccalmucosa showed that inclusion of nanoparticles in the films increased the permeability of PNL compared to PP-films. Therefore, buccal administration of mucoadhesive blend films containing PNL-loaded nanoparticles could be a promising approach for drugs that undergo first-pass metabolism. [ABSTRACT FROM AUTHOR]

Published

2018

31. REVIEW ON MUCOADHESIVE BUCCAL DRUG DELIVERY.

Author

Bhandari, Heta P. and Yadav, Jitendrasingh

Subjects

*BUCCAL administration, *BIOAVAILABILITY, *DRUG administration, *HYDROLYSIS, *DOSAGE forms of drugs

Abstract

Buccal delivery is considered to be a major alternative to the peroral route and the unique environment of the oral cavity offers its potential as a site of drug delivery. Buccal drug delivery has lately become an important route of drug administration. The rich in vascularization of oral mucosa and its permeability too many drugs make this route an attractive alternative to the oral and parenteral routes for systemic drug delivery. Absorption through the buccal mucosa overcomes premature drug degradation due to the enzyme activity and pH of gastrointestinal tract, avoids active drug loss due to pre-systemic metabolism (First-pass hepatic metabolism), acid hydrolysis and therapeutic plasma concentration of the drug can de rapidly achieved. There is always increase in demand for the patient convenience and compliance related research and novel methods are the development of mucoadhesive buccal formulations which results the greater bioavailability with reducing dose frequency to mouth plasma peak levels, which in turn minimize adverse/side effects and also make it cost effective. Moreover, rapid onset of action can be achieved.it is also possible to administer the drug to patients who are unconscious and less co-operative. In the present review, recent advancements and literature regarding mucoadhesive buccal patches is compiled and it suggests that this delivery system can be adopted by various pharmaceutical companies in the future at the large scale because it is the novel frontier in drug delivery technology that provides a very convenient means of taking medication. This review also highlight a brief description of advantages, disadvantages, limitation and theories involved in mucoadhesive, and classification of buccal system. [ABSTRACT FROM AUTHOR]

Published

2018

32. Cyanine derivative as a suitable marker for thermosensitive in situ gelling delivery systems: In vitro and in vivo validation of a sustained buccal drug delivery.

Author

Zeng, Ni, Seguin, Johanne, Destruel, Pierre-Louis, Dumortier, Gilles, Maury, Marc, Dhotel, Hélène, Bessodes, Michel, Scherman, Daniel, Mignet, Nathalie, and Boudy, Vincent

Subjects

*CYANINES, *DRUG delivery systems, *POLOXAMERS, *XANTHAN gum, *BUCCAL administration, *HYDROGELS, *DISSOLUTION (Chemistry)

Abstract

Buccal administration route is a promising way for a large number of drugs exhibiting a low oral bioavailability. The present work describes the formulation and evaluation of a mucoadhesive and thermosensitive in situ gelling delivery system based on poloxamer 407, poloxamer 188 and xanthan gum for buccal drug delivery. First, the mucoadhesion properties were evaluated using a tensile test. The effect of xanthan gum on the mucoadhesion force was demonstrated. Then, to assess the buccal residence time which reflects the mucoadhesion properties, the validation of a fluorescence probe for in vivo optical imaging experiment was conducted. Methyl-Cyanine 5 derivative (Me-Cy5) was used to label the hydrogels, dissolution tests and permeation studies through buccal epithelium cells showed that Me-Cy5 release from hydrogels was mainly due to an erosion mechanism and presented a limited penetration across epithelium cells. These results suggest that, Me-Cy5 is a suitable marker for thermosensitive in situ gelling delivery systems as the probe mostly stays entrapped in the hydrogel and do not cross the epithelial barrier. Buccal residence performance of the hydrogel was evaluated for the first time by non-invasive optical imaging after administration to mice. This technique is an interesting alternative compared to visual observations and sacrifice involved experiments, which could also be exploited to various administration routes. [ABSTRACT FROM AUTHOR]

Published

2017

33. Mucin dispersions as a model for the oromucosal mucus layer in in vitro and ex vivo buccal permeability studies of small molecules.

Author

Marxen, Eva, Mosgaard, Mette Dalskov, Pedersen, Anne Marie Lynge, and Jacobsen, Jette

Subjects

*ORAL mucosa, *BUCCAL administration, *MANNITOL, *PERMEABILITY measurement, *PHYSIOLOGY, *THERAPEUTICS, MUCIN analysis

Abstract

The mucus layer is believed to play a part in drug permeation across the oral mucosa. Human freeze-dried saliva (HFDS) and porcine gastric mucin (PGM) was evaluated as model for mucus layer per se or in conjunction with in vitro and ex vivo buccal permeability models. Four small molecules (nicotine, mannitol, propranolol, caffeine) showed decreased permeability across mucin dispersions, compared to controls, and a greater effect was seen with HFDS than with PGM. Permeability of propranolol and caffeine across filter-grown TR146 cells was decreased by the presence of mucin, whereas no effect was found on nicotine and mannitol. Incubation of porcine buccal mucosa with mucin dispersions for 24 h compromised the integrity of the tissue, whereas 30 min incubation did not affect tissue integrity. Tissue incubation with mucin dispersions did not decrease nicotine permeability. For the studied model drugs, it is concluded that mucin dispersions constitute a minor barrier for drug diffusion compared to the epithelium. [ABSTRACT FROM AUTHOR]

Published

2017

34. Development and In Vitro Evaluation of Mucoadhesive Buccal Tablets of Timolol Maleate

Author

Sheikh, Aijaz A., Firdos, Fauziya, Biyani, K.R., and Shaikh, Izhar

Published

2012

35. Buccal absorption of diazepam is improved when administered in bioadhesive tablets—An in vivo study in conscious Göttingen mini-pigs.

Author

Meng-Lund, Emil, Jacobsen, Jette, Müllertz, Anette, Jørgensen, Erling B., and Holm, René

Subjects

*DIAZEPAM, *BIOADHESIVE drug delivery systems, *BUCCAL administration, *BENZODIAZEPINES, *CRYSTALLINE polymers

Abstract

Buccal delivery may be clinically beneficial for compounds with a high gastrointestinal and hepatic first pass metabolism or in situations where a fast systemic absorption is desired. The delivery of a crystalline low soluble compounds, e.g. diazepam, may be limited due to the low volume of saliva available to facilitate solvation in order to drive the permeation of drug through the buccal mucosa. Therefore, the present study investigated the potential benefits of administering diazepam either as an amorphous or as a crystalline form in mucoadhesive tablets to conscious Göttingen mini-pigs. Presentation of the compound in the amorphous form lead to a very fast absorption, however, the obtained bioavailability was at the same level observed following buccal administration of a commercially immediate release tablet. Addition of chitosan, as a mucoadhesive excipient, resulted in a higher absolute bioavailability compared to tablets without chitosan. The absorption rate for the chitosan-based tablets was significant slower, probably due to the slower diffusion of the compound out of the tablet. In vitro release data was able to predict the variations in t max , but otherwise no correlation could be found between in vitro and in vivo data. [ABSTRACT FROM AUTHOR]

Published

2016

36. Formulation and Evaluation of Buccal Adhesive Drug Delivery System of Lercanidipine

Author

Patel, Chetan M, Patel, Sejal N, Patel, Nikhil P, Patel, DM, and Patel, CN

Published

2010

37. Development of Triamcinolone Acetonide-Loaded Nanostructured Lipid Carriers (NLCs) for Buccal Drug Delivery Using the Box-Behnken Design

Author

Pakorn Kraisit and Narong Sarisuta

Subjects

buccal drug delivery, Box-Behnken design, triamcinolone acetonide, nanostructured lipid carriers (NLCs), confocal laser scanning microscopy (CLSM), Nile red, Organic chemistry, QD241-441

Abstract

The aim of this present work was to prepare triamcinolone acetonide (TA)-loaded nanostructured lipid carriers (TA-loaded NLCs) for buccal drug delivery systems using the Box-Behnken design. A hot homogenization method was used to prepare the TA-loaded NLCs. Spermaceti (X1), soybean oil (X2), and Tween 80 (X3) were used as solid lipid, liquid lipid, and stabilizer, respectively. The particle size of TA-loaded NLCs was lower than 200 nm and the zeta potential displayed the negative charge in all formulations. The percentage encapsulation efficiency (%EE) of the TA-loaded NLCs showed that it was higher than 80% for all formulations. Field emission scanning electron microscope (FESEM) confirmed that the size of TA-loaded NLCs was approximately 100 nm and energy-dispersive X-ray spectroscopy (EDS) confirmed that the TA could be incorporated in the NLC system. The Higuchi model gave the highest value of the R2, indicating that this model was a fit for the TA release profiles of TA-loaded NLCs. Confocal laser scanning microscopy (CLSM) was used to observe the drug penetration within the porcine buccal mucosa and Nile red-loaded NLCs showed significantly higher penetration depth at 8 h than at 2 h. Therefore, TA-loaded NLCs could be an efficient carrier for drug delivery through the buccal mucosa.

Published

2018

38. Preparation and in-vivo evaluation of dimenhydrinate buccal mucoadhesive films with enhanced bioavailability.

Author

Yildiz Pekoz, Ayca, Sedef Erdal, Meryem, Okyar, Alper, Ocak, Meltem, Tekeli, Fatma, Kaptan, Engin, Sagirli, Olcay, and Araman, Ahmet

Subjects

MOTION sickness treatment, MOTION sickness, DIMENHYDRINATE, BIOAVAILABILITY, ADHESIVES, STRUCTURAL optimization, PREVENTION, THERAPEUTICS

Abstract

Dimenhydrinate (DMH)-loaded buccal bioadhesive films for the prevention and treatment of motion sickness were prepared and optimized. This study examines the rate of drug release from the films for prolonged periods of time to reduce or limit the frequency of DMH administration. Based on preliminary studies using various polymers and concentrations, hydroxyethylcellulose (2.5, 3.0, and 3.2%), and xanthan gum (2.8%) were chosen as matrix polymers. The films were analyzed with respect to their mechanical, physicochemical, bioadhesive, swelling, andin-vitrorelease properties. Inin-vivopharmacokinetic studies, xanthan gum-based DMH buccal film was associated with significantly increased DMH plasma levels between 1 h and 5 h after DMH dosing when compared with an oral drug solution. The area under the curve AUC0–7 hvalue of the mucoadhesive buccal film was two-fold higher than the oral DMH solution. Histological analysis revealed that DMH films cause mild morphological and inflammatory changes in rabbit buccal mucosa. The DMH buccal film is effective for approximately 7 h, thus representing an option for single-dose antiemetic therapy. This dosage regimen could be particularly beneficial for chain travelers who travel for long periods of time. [ABSTRACT FROM PUBLISHER]

Published

2016

39. Formulation, Characterisation and Stabilisation of Buccal Films for Paediatric Drug Delivery of Omeprazole.

Author

Khan, Sajjad, Boateng, Joshua, Mitchell, John, and Trivedi, Vivek

Abstract

This study aimed to develop films for potential delivery of omeprazole (OME) via the buccal mucosa of paediatric patients. Films were prepared using hydroxypropylmethylcellulose (HPMC), methylcellulose (MC), sodium alginate (SA), carrageenan (CA) and metolose (MET) with polyethylene glycol (PEG 400) as plasticiser, OME (model drug) and L-arg (stabiliser). Gels (1% w/w) were prepared at 40°C using water and ethanol with PEG 400 (0-1% w/w) and dried in an oven (40°C). Optimised formulations containing OME and L-arg (1:1, 1:2 and 1:3) were prepared to investigate the stabilisation of the drug. Tensile properties (Texture analysis, TA), physical form (differential scanning calorimetry, DSC; X-ray diffraction, XRD; thermogravimetric analysis, TGA) and surface topography (scanning electron microscopy, SEM) were investigated. Based on the TA results, SA and MET films were chosen for OME loading and stabilisation studies as they showed a good balance between flexibility and toughness. Plasticised MET films were uniform and smooth whilst unplasticised films demonstrated rough lumpy surfaces. SA films prepared from aqueous gels showed some lumps on the surface, whereas SA films prepared from ethanolic gels were smooth and uniform. Drug-loaded gels showed that OME was unstable and therefore required addition of L-arg. The DSC and XRD suggested molecular dispersion of drug within the polymeric matrix. Plasticised (0.5% w/w PEG 400) MET films prepared from ethanolic (20% v/v) gels and containing OME: L-arg 1:2 showed the most ideal characteristics (transparency, ease of peeling and flexibility) and was selected for further investigation. [ABSTRACT FROM AUTHOR]

Published

2015

40. Genipin-crosslinked catechol-chitosan mucoadhesive hydrogels for buccal drug delivery.

Author

Xu, Jinke, Strandman, Satu, Zhu, Julian X.X., Barralet, Jake, and Cerruti, Marta

Subjects

*CATECHOL, *CHITOSAN, *HYDROGELS, *DRUG delivery systems, *GASTROINTESTINAL agents, *BUCCAL administration

Abstract

Drug administration via buccal mucosa is an attractive drug delivery strategy due to good patient compliance, prolonged localized drug effect, and avoidance of gastrointestinal drug metabolism and first-pass elimination. Buccal drug delivery systems need to maintain an intimate contact with the mucosa lining in the wet conditions of the oral cavity for long enough to allow drug release and absorption. For decades, mucoadhesive polymers such as chitosan (CS) and its derivatives have been explored to achieve this. In this study, inspired by the excellent wet adhesion of marine mussel adhesive protein, we developed a buccal drug delivery system using a novel catechol-functionalized CS (Cat-CS) hydrogel. We covalently bonded catechol functional groups to the backbone of CS, and crosslinked the polymer with a non-toxic crosslinker genipin (GP). We achieved two degrees of catechol conjugation (9% and 19%), forming Cat9-CS/GP and Cat19-CS/GP hydrogels, respectively. We confirmed covalent bond formation during the catechol functionalization and GP crosslinking during the gel formation. The gelation time and the mechanical properties of Cat-CS hydrogels are similar to those of CS only hydrogels. Catechol groups significantly enhanced mucoadhesion in vitro (7 out of the 10 Cat19-CS hydrogels were still in contact with porcine mucosal membrane after 6 h, whereas all of the CS hydrogels lost contact after 1.5 h). The new hydrogel systems sustained the release of lidocaine for about 3 h. In-vivo, we compared buccal patches made of Cat19-CS/GP and CS/GP adhered to rabbit buccal mucosa. We were able to detect lidocaine in the rabbit's serum at concentration about 1 ng/ml only from the Cat19-CS patch, most likely due to the intimate contact provided by mucoadhesive Cat19-CS/GP systems. No inflammation was observed on the buccal tissue in contact with any of the patches tested. These results show that the proposed catechol-modified CS hydrogel is a promising mucoadhesive and biocompatible hydrogel system for buccal drug delivery. [ABSTRACT FROM AUTHOR]

Published

2015

41. Development and Evaluation of Combined Effect Buccal Films for Treatment of Oral Candidiasis.

Author

Arslan D, Akbal Dağıstan Ö, Sagirli O, Mulazimoglu L, Cevher E, and Yildiz-Pekoz A

Subjects

Humans, Nystatin, Polymers chemistry, Administration, Buccal, Adhesiveness, Mouth Mucosa, Antifungal Agents, Candidiasis, Oral drug therapy

Abstract

Buccal film formulations, including antifungal nystatin, anti-inflammatory agent hydrocortisone acetate, and local anesthetic lidocaine hydrochloride for pain relief, were developed. Bioadhesive films were fabricated with hydrophilic polymers, hydroxyethyl cellulose (HEC), and xanthan gum (XG) and dried in the incubator. Textural, swelling, and bioadhesive properties, physicochemical and in vitro release characteristics, and antifungal activities of bioadhesive films were evaluated.Bioadhesive films significantly extended nystatin release by prolonging retention time of the target area formulation while rapidly releasing hydrocortisone acetate and lidocaine HCl, reducing drug administration. The polymer type affected bioadhesion strength and erosion ratio, and XG formulations had more polymer suitability. Consequently, XT-O2 formulation that was prepared with xanthan gum and tween 80, was best for its highest antifungal film activity (20.00 ± 0.07 mm), released nystatin (44.296% ± 1.695), and lowest erosion matrix (36.719% ± 0.249). The selected formulation can be used for compatibility, stability and in vivo studies targeted oral candidiasis infections., (© 2022. The Author(s), under exclusive licence to American Association of Pharmaceutical Scientists.)

Published

2022

42. Mucoadhesive Films Containing Chitosan-Coated Nanoparticles: A New Strategy for Buccal Curcumin Release.

Author

Mazzarino, LetÍCia, Borsali, Redouane, and Lemos-Senna, Elenara

Subjects

*CHITOSAN, *NANOMEDICINE, *CURCUMIN, *DRUG dosage, *POLYSACCHARIDES, *SCANNING electron microscopy, *PHARMACISTS

Abstract

Mucoadhesive films containing curcumin-loaded nanoparticles were developed, aiming to prolong the residence time of the dosage form in the oral cavity and to increase drug absorption through the buccal mucosa. Films were prepared by the casting method after incorporation of curcumin-loaded chitosan-coated polycaprolactone nanoparticles into plasticized chitosan solutions. Different molar masses of mucoadhesive polysaccharide chitosan and concentrations of plasticizer glycerol were used to optimize the preparation conditions. Films obtained using medium and high molar mass chitosan were found to be homogeneous and flexible. Curcumin-loaded nanoparticles were uniformly distributed on the film surface, as evidenced by atomic force microscopy and high-resolution field-emission gun scanning electron microscopy (FEG-SEM) images. Analyses of film cross sections using FEG-SEM demonstrate the presence of nanoparticles inside the films. In addition, films proved to have a good rate of hydration in simulated saliva solution, displaying a maximum swelling of around 80% and in vitro prolonged-controlled delivery of curcumin. These results indicate that the mucoadhesive films containing nanoparticles offer a promising approach for buccal delivery of curcumin, which may be particularly useful in the treatment of periodontal diseases that require a sustained drug delivery. © 2014 Wiley Periodicals, Inc. and the American Pharmacists Association J Pharm Sci 103:3764-3771, 2014 [ABSTRACT FROM AUTHOR]

Published

2014

43. An improved cryopreservation method for porcine buccal mucosa in ex vivo drug permeation studies using Franz diffusion cells.

Author

Amores, Sonia, Domenech, José, Colom, Helena, Calpena, Ana C., Clares, Beatriz, Gimeno, Álvaro, and Lauroba, Jacinto

Subjects

*CRYOPRESERVATION of organs, tissues, etc., *ORAL mucosa, *BUCCAL administration, *SKIN absorption, *PERMEABILITY (Biology), *LIQUID nitrogen

Abstract

Abstract: The use of isolated animal models to assess percutaneous absorption of molecules is frequently reported. The porcine buccal mucosa has been proposed as a substitute for the buccal mucosa barrier on ex vivo permeability studies avoiding unnecessary sacrifice of animals. But it is not always easy to obtain fresh buccal mucosa. Consequently, human and porcine buccal mucosa is sometimes frozen and stored in liquid nitrogen, but this procedure is not always feasible. One cheaper and simpler alternative is to freeze the buccal mucosa of freshly slaughtered pigs in a mechanical freezer, using DMSO and albumin as cryoprotective agents. This study compared the ex vivo permeability parameters of propranolol hydrochloride through porcine buccal mucosa using a Franz diffusion cell system and HPLC as detection method. The freezing effects on drug permeability parameters were evaluated. Equally histological studies were performed. Furthermore, the use of the parameter transmucosal water loss (TMWL) as an indicator of the buccal mucosa integrity was evaluated just as transepidermal water loss (TEWL) is utilized for skin integrity. The results showed no difference between fresh and frozen mucosal flux, permeability coefficient or lag time of propranolol. However, statistical significant difference in TMWL between fresh and frozen mucosa was observed. [Copyright &y& Elsevier]

Published

2014

44. Mucoadhesive polymers for buccal drug delivery.

Author

Laffleur, Flavia

Subjects

MEDICAL polymers, DRUG delivery systems, ORAL drug administration, BIOAVAILABILITY, PATIENT compliance, DRUG administration

Abstract

Raising the concept of mucoadhesion in the 1980s, the use of mucoadhesive polymers for buccal drug delivery has been the subject of interest. Buccal route is one of the non-invasive routes comprising several advantages such as targeting the specific tissue (I), bypassing the first-pass effect (II) as well as higher patient compliance (III) and higher bioavailability (IV) have rendered administration route feasible for a variety of drugs. This review highlights the use of mucoadhesive polymers in buccal drug delivery. An overview of the oral mucosa's anatomy, theories of mucoadhesion as well as mucoadhesive polymers is given within this review. Furthermore, recent advantages in mucoadhesive polymers according to the variety of drug delivery forms are presented. [ABSTRACT FROM AUTHOR]

Published

2014

45. Buccal absorption of propofol when dosed in 1-perfluorobutylpentane to anaesthetised and conscious Wistar rats and Göttingen mini-pigs.

Author

Tsagogiorgas, Charalambos, Theisinger, Sonja, Holm, Per, Thiel, Manfred, Quintel, Michael, and Holm, René

Subjects

*BUCCAL administration, *DRUG absorption, *ALKANES, *LABORATORY rats, *DRUG bioavailability, *DRUG lipophilicity

Abstract

Abstract: The purpose of this study was to evaluate whether propofol could be absorbed buccally when administered in semifluorinated alkanes (SFAs), here specifically perfluorobutylpentane (F4H5). This was evaluated in anesthetised and conscious rats and mini-pigs, to measure the relative bioavailability of propofol following buccal administration, but also partly to evaluate the animal models used for this investigation. The absolute bioavailability in the conscious animals was approximately 10% for both species and approximately 50% and 30% in the anesthetised rats and mini-pigs, respectively. This clearly demonstrates that propofol can be absorbed buccally, and F4H5 appears to be a relevant excipient for buccal administration of lipophilic drugs like propofol. The lower absorption in the conscious animals clearly indicates the need for an optimisation of the formulation. [Copyright &y& Elsevier]

Published

2013

46. The application of a crosslinked pectin-based wafer matrix for gradual buccal drug delivery.

Author

Shaikh, Rubina P., Pillay, Viness, Choonara, Yahya E., Toit, Lisa C. Du, Ndesendo, Valence M. K., Kumar, Pradeep, and Khan, Riaz A.

Abstract

The purpose of this study was to develop crosslinked wafer matrices and establish the influence of the crosslinker type and processing sequence on achieving gradual buccal drug delivery. Three sets of drug-loaded crosslinked pectin wafers were produced employing the model water-soluble antihistamine, diphenhydramine and were compared with noncrosslinked wafers. The formulations were crosslinked with CaCl2, BaCl2, or ZnSO4 pre- or postlyophilization (sets 1 and 2) as well as pre- and postlyophilization (set 3), respectively. The surface morphology, porositometry, molecular vibrational transitions, textural attributes, thermal and in vitro drug release were characterized and supported by in silico molecular mechanics simulations. Results revealed that crosslinked wafers produced smaller pore sizes (107.63 Å) compared with noncrosslinked matrices (180.53 Å) due to molecular crosslinks formed between pectin chains. Drug release performance was dependent on the wafer crosslinking production sequence. Noncrosslinked wafers displayed burst-release with 82% drug released at t30min compared with first-order kinetic profiles obtained for prelyophilized crosslinked matrices (50% released at t30min followed by steady release). Wafers crosslinked postlyophilization displayed superior control of drug release (40% at t30min). Molecular mechanics simulations corroborated with the experimental data and established that Ba++, having the largest atomic radii (1.35 Å) formed a number of ionic bridges producing wafers of higher porosity (0.048 cm2/g) and had more influence on drug release. © 2012 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater, 2012. [ABSTRACT FROM AUTHOR]

Published

2012

47. Development and characterization of Eudragit based mucoadhesive buccal patches of salbutamol sulfate.

Author

Vasantha, Prasanth Viswanadhan, Puratchikody, Ayarivan, Mathew, Sam Thomarayil, and Balaraman, Ashok Kumar

Abstract

Abstract: For systemic drug delivery, the buccal region offers an attractive route of drug administration. Salbutamol sulfate is a short-acting β2-adrenergic receptor agonist used for the relief of bronchospasm in conditions such as asthma and chronic obstructive pulmonary disease. It’s oral bioavailability is ∼40% due to extensive first pass metabolism. Salbutamol sulfate patches were prepared using Eudragit L-100, HPMC, PVA and Carbopol 934 in various proportions and combinations using PEG-400/PG as plasticizers. Patches were laminated on one side with a water impermeable backing layer for unidirectional drug release. The thickness of medicated patches were ranged between 0.23±0.008 and 0.59±0.007mm and mass varied between 65.23±3.3 and 117.92±4.2mg. Patches showed an increase in mass and swelling index with PEG-400 when compared with PG. The surface-pH of patches ranged between 6 and 7. Formulations E7 (7.5mL Eudragit L-100, 15mL HPMC K4M, 7.5mL PVA and 2mL PEG-400), E12 (7.5mL Eudragit L-100, 7.5mL PVA, 15mL Carbopol and 2mL PEG-400), F7 (7.5mL Eudragit L-100, 15mL HPMC K4M, 7.5mL PVA and 2mL PG), and F12 (7.5mL Eudragit L-100, 7.5mL PVA, 15mL Carbopol and 2mL PG) showed high folding endurance. Residence time of the tested patches ranged between 101 and 110min. The maximum in vitro release was found to be 99.93% over a period of 120min for formulation F12. Data of in vitro release from patches were fitted to different kinetic models such as Higuchi and Korsmeyer–Peppas models to explain the release profile. Formulations E7 and F7 were best fitted to the non-Fickian, where as formulations E12 and F12 showed Fickian/anomalous drug release. Stability studies indicated that there was no change in the chemical and physical characteristics during the test period. [Copyright &y& Elsevier]

Published

2011

48. Formulation and Evaluation of a Novel Matrix-Type Orally Disintegrating Ibuprofen Tablet.

Author

Tayebi, Hoda and Mortazavi, Seyed Alireza

Subjects

*IBUPROFEN, *DOSAGE forms of drugs, *SOLID dosage forms, *EXCIPIENTS, *DRUG granulation

Abstract

Orally disintegrating tablets (ODTs) are capable of turning quickly into a liquid dosage form in contact with the saliva, thus possessing the advantages of both the solid dosage forms particularly stability and liquid dosage forms specially ease of swallowing and pre-gastric absorption of drug. The aim of this study was to prepare a novel matrix-type buccal fast disintegrating ibuprofen tablet formulation using special polymers, water soluble excipients, super-disintegrants and quickly soluble granules. For this purpose different tablet formulations of ibuprofen were prepared. The amount of ibuprofen in each formulation was 100 mg. Eight groups of formulation were prepared (A-H series), accounting for a total number of 45 formulations. Formulations prepared were examined in terms of different physicochemical tests including powder/granule flowability, appearance, thickness, uniformity of weight, hardness, friability and disintegration time. Results of formulation F22a (in series F), was found to be acceptable, making it the chosen formulation for further studies. Then, by adding various flavorants and sweeteners to this formulation, complementary series of formulations, named G and H, were prepared. Following the comparison of their taste with each other through asking 10 volunteers, the most suitable formulation regarding the taste, being formulation F22s, was chosen as the ultimate formulation. This formulation had PVP, ibuprofen and croscarmellose as the intra-granular components and xylitol and saccharin as the extra-granular ingredients. Formulation F22s was found to be acceptable in terms of physicochemical tests conducted, showing quick disintegration within the buccal cavity, appropriate hardness and rather low friability. Hence formulation F22s was selected as the final formulation. [ABSTRACT FROM AUTHOR]

Published

2011

49. Manufacture and characterization of mucoadhesive buccal films

Author

Morales, Javier O. and McConville, Jason T.

Subjects

*DRUG delivery systems, *ORAL mucosa, *POLYMERS, *GASTROINTESTINAL system, *DRUG tablets, *ORGANIC solvents, *SOLUTION (Chemistry)

Abstract

Abstract: The buccal route of administration has a number of advantages including bypassing the gastrointestinal tract and the hepatic first pass effect. Mucoadhesive films are retentive dosage forms and release drug directly into a biological substrate. Furthermore, films have improved patient compliance due to their small size and reduced thickness, compared for example to lozenges and tablets. The development of mucoadhesive buccal films has increased dramatically over the past decade because it is a promising delivery alternative to various therapeutic classes including peptides, vaccines, and nanoparticles. The “film casting process” involves casting of aqueous solutions and/or organic solvents to yield films suitable for this administration route. Over the last decade, hot-melt extrusion has been explored as an alternative manufacturing process and has yielded promising results. Characterization of critical properties such as the mucoadhesive strength, drug content uniformity, and permeation rate represent the major research areas in the design of buccal films. This review will consider the literature that describes the manufacture and characterization of mucoadhesive buccal films. [Copyright &y& Elsevier]

Published

2011

50. Rapidly disintegrating oramucosal drug delivery technologies.

Author

Reddy, Deshika, Pillay, Viness, Choonara, Yahya E, and du Toit, Lisa C.

Subjects

DRUG delivery systems, PATIENT compliance, PHARMACEUTICAL technology, DRUG administration, DRUG delivery devices

Abstract

In addition to successfully delivering drugs to a specific site within the body, a goal of any drug delivery system is to improve patient compliance. Thus, rapidly disintegrating oramucosal drug delivery systems are the focus of extensive research due to their ability to rapidly and efficiently deliver drugs. These drug delivery systems are able to release the drug as soon as they come into contact with saliva, thus obliviating the need for water during administration which is an attribute that makes them highly attractive for patient groups such as infants, pediatrics and geriatrics. The significant physiological and anatomical structural features of the oral cavity, the rationale behind the formulation and use of rapidly disintegrating technologies for oramucosal drug delivery, and the technologies that are currently available on the market or that are still under various stages of development is also discussed in this review article. The various technologies are described in terms of their methods of formulation and known mechanisms of drug release. The challenges posed by accurate in vitro disintegration and dissolution testing of rapidly disintegrating drug delivery systems employing conventional and the most recent novel methodologies are also discussed, including the use of ex-vivo permeation studies and in vivo models. [ABSTRACT FROM AUTHOR]

Published

2009