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Bioadhesive

The use of a bioadhesive, polymeric dosage form for sustained dehvery raises questions about swallowing or aspirating the device. The surface area is small, and patient comfort should be addressed by designing a small (less than 2 cm ), thin (less than 0.1 mm (4 mil) thick) device that conforms to the mucosal surface. The buccal route may prove useful for peptide or protein dehvery because of the absence of protease activity in the sahva. However, the epithelium is relatively tight, based on its electrophysiological properties. An average conductance in the dog is 1 mS/cm (57) as compared to conductances of about 27 and 10 mS/cm in the small intestine and nasal mucosa, respectively (58,59) these may be classified as leaky epitheha. [Pg.226]

V. Lenaerts and R. Gumy, eds.. Bioadhesive Drug Delivery Systems, CRC Press, Inc., Boca Raton, Fla., 1990. [Pg.236]

Chitosan acetate and lactate salt films have been tested as wound-healing materials. Mechanical, bioadhesive and biological evaluation of the films were carried out. The results were compared to Omiderm . Chitosan lactate exhibited a lower tensile strength, however, it was more flexible and bioadhesive than chitosan acetate. Chitosan lactate and Omiderm did not cause any allergic reactions in contrast, chitosan acetate produced skin irritation clearly due to the anion. Nevertheless, no sign of toxicity was encountered when the extracts of three preparations were administered parenterally [244]. [Pg.185]

Deacon MP (1999) Polymer Bioadhesives for Drug Delivery. PhD Thesis, University of Nottingham, Nottingham, UK... [Pg.254]

A number of the water-soluble polymers also have adhesive properties which are being extensively evaluated for drug delivery (9). These polymers will adhere to the mucous coating in the gastrointestinal tract, the nose, and the mouth to delay passage and sustain drug release. Those polymers with the best adhesive properties are those with hydroxyl and carboxyl groups. Table II lists some of the bioadhesive polymers and their adhesive properties. [Pg.21]

Table II. Examples of Polymers with Bioadhesive Properties... Table II. Examples of Polymers with Bioadhesive Properties...
Bioadhesion-Possibilities and Future Trends Gurney, R. Junginger, H. E., Eds. Wissenscheftliche Verlagsgesellachaft mbh, Stultgart Germany, 1990, pp. 13-213. [Pg.28]

Another approach is that of bioadhesive materials. The principle is to administer a device with adhesive polymers having an affinity for the gastric surface, most probably the mucin coat [12]. Bioadhesives have demonstrated utility in the mouth, eye, and vagina, with a number of commercially available products. To date, use of bioadhesives in oral drug delivery is a theoretical possibility, but no promising leads have been published. [Pg.506]

Bioadhesive Drug Delivery Systems Fundamentals, Novel Approaches, and Development, edited by Edith Mathiowitz, Donald E. Chickering III, and Claus-Michael Lehr... [Pg.9]

HW Hui, JR Robinson. (1985). Ocular delivery of progesterone using a bioadhesive polymer. Int J Pharm 26 203-213. [Pg.384]

In the gastrointestinal tract, a mucoadhesive drug delivery system provides advantages in prolonging the residence time of devices. The use of pH-sensitive bioadhesive polymers has been proposed [26], An extensive review of pH-sensi-tive hydrogels is given by Brpndsted and Kopecek [27],... [Pg.564]

PK Gupta, S-H Leung, JR Robinson. Bioadhesive/mucoadhesives in drug delivery to the gastrointestinal tract. In V Lenaerts, R Gurny, eds. Bioadhesive Drug Delivery Systems. Boca Raton, FL CRC Press, 1990, pp 65-92. [Pg.584]

A. A., Ozalp, M., Wilson, C. G., Formulation of a bioadhesive bilayered buccal tablet of natamydn for oral candidiasis, Proc. Inti. Symp. Control. Rd. Bioact. Mater. 2000, 27, 8205. [Pg.565]

Matthew V. Tirrell (Co-Chair) is Dean of the College of Engineering at the University of California at Santa Barbara. He was previously Professor and Head of the Department of Chemical Engineering and Materials Science at the University of Minnesota, where he served as Director of its Biomedical Engineering Institute. He received a B.S. from Northwestern University and a Ph.D. from University of Massachusetts. His interests are in transport and interfacial properties of polymers, with particular emphasis on molecular-scale mechanical measurements, bioadhesion, and new materials development. He is a member of the National Academy of Engineering. [Pg.197]

Besides widening the clinical use, the research on rifaximin is also focused on the synthesis of new derivatives [173, 273] and on the development of original formulations, like soft capsules [274] and a gum-like device [275], designed for the controlled and continuous release of rifaximin. The former preparation, being bioadhesive, could be particularly useful in the Helicobacter eradication from the stomach whereas the latter should make the treatment of infections of the oral cavity possible, thus expanding the spectrum of clinical use. [Pg.60]

See other pages where Bioadhesive is mentioned: [Pg.251]    [Pg.231]    [Pg.141]    [Pg.150]    [Pg.226]    [Pg.227]    [Pg.227]    [Pg.187]    [Pg.190]    [Pg.61]    [Pg.62]    [Pg.245]    [Pg.322]    [Pg.4]    [Pg.246]    [Pg.30]    [Pg.31]    [Pg.53]    [Pg.129]    [Pg.137]    [Pg.333]    [Pg.333]    [Pg.536]    [Pg.548]    [Pg.577]    [Pg.578]    [Pg.716]    [Pg.333]    [Pg.555]    [Pg.59]    [Pg.119]    [Pg.125]    [Pg.213]    [Pg.213]   
See also in sourсe #XX -- [ Pg.120 , Pg.217 ]

See also in sourсe #XX -- [ Pg.2 ]

See also in sourсe #XX -- [ Pg.75 , Pg.76 ]

See also in sourсe #XX -- [ Pg.24 ]

See also in sourсe #XX -- [ Pg.327 ]



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Adhesion bioadhesion

Artificial bioadhesion

Bioadhesion

Bioadhesion adhesive characteristics

Bioadhesion biological

Bioadhesion buccal cavity

Bioadhesion definition

Bioadhesion macromolecules

Bioadhesion measurement

Bioadhesion of polymers

Bioadhesion phenomenon

Bioadhesion theories

Bioadhesion tissues

Bioadhesive delivery systems

Bioadhesive delivery systems bioadhesion testing

Bioadhesive delivery systems bioadhesion theories

Bioadhesive delivery systems films

Bioadhesive delivery systems tablets

Bioadhesive force

Bioadhesive gels

Bioadhesive hydrogels

Bioadhesive nanoparticles

Bioadhesive polymers

Bioadhesive surfaces

Bioadhesive-biological interface

Bioadhesives

Bioadhesives chemistry

Bioadhesives colloidal

Bioadhesives ocular drug delivery

Bioadhesives polycarbophil

Bioadhesives vaginal delivery systems

Bioadhesives, residence time

Biofilm, bioadhesion

Buccal absorption bioadhesion

Chitosan as a Bioadhesive Material

Delivery systems bioadhesivity

Marine bioadhesives

Mechanism of Bioadhesion

Metallic bioadhesion

Microspheres bioadhesive

Nasal drug delivery bioadhesives

Polyelectrolyte Bioadhesive Delivery Systems

Polymers bioadhesivity

Starch bioadhesive microspheres

Surface Engineering by Coating of Hydrophilic Layers Bioadhesion and Biocontamination

The Need for Bioadhesion of Biomaterials

Tissue bioadhesive

Vaginal bioadhesive formulations

Vaginal drug delivery bioadhesive

Volume bioadhesives

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