Advanced search
Publication Cover
Expert Opinion on Drug Delivery Volume 7, 2010 - Issue 1
Submit an article Journal homepage
771
Views
78
CrossRef citations to date
0
Altmetric
Reviews

Chemical permeation enhancers for transbuccal drug delivery

Nisreen Hassan Department of Pharmaceutics, Faculty of Pharmacy, Jamia Hamdard, Hamdard Nagar, New Delhi-110 062, India +91 9811312247; +91 11 2605 9663; [email protected]
,
Abdul Ahad Department of Pharmaceutics, Faculty of Pharmacy, Jamia Hamdard, Hamdard Nagar, New Delhi-110 062, India +91 9811312247; +91 11 2605 9663; [email protected]
,
Mushir Ali Department of Pharmaceutics, Faculty of Pharmacy, Jamia Hamdard, Hamdard Nagar, New Delhi-110 062, India +91 9811312247; +91 11 2605 9663; [email protected]
&
Javed Ali
Pages 97-112 | Received 22 Apr 2009, Accepted 15 Sep 2009, Published online: 18 Dec 2009

Bibliography

  • Hoogstraate AJ, Wertz PHW. Drug delivery via the buccal mucosa. Pharm Sci Tech Today1998;1:309-16
  • Harris D, Robinson JR. Drug delivery via the mucous membranes of the oral cavity. J Pharm Sci1992;81:1-10
  • Rossi S, Sandri G, Caramella CM. Buccal drug delivery: a challenge already won? Drug Discov Today2005;2:59-65
  • Scholz OA, Wolff A, Schumacher A, Drug delivery from the oral cavity: focus on a novel mechatronic delivery device. Drug Discov Today2008;13:247-53
  • Gandhi RB, Robinson JR. Oral cavity as a site for bioadhesive drug delivery. Adv Drug Deliv Rev1994;13:43-74
  • Galey WR, Lonsdale HK, Nacht S. The in vitro permeability of skin and buccal mucosa to selected drugs and tritiated water. J Invest Dermatol1976;67:713-17
  • Senel S, HIncal AA. Drug permeation enhancement via buccal route: possibilities and limitations. J Control Release2001;72:133-44
  • Giannola LI, Caro VD, Giandalia G, Diffusion of naltrexone across reconstituted human oral epithelium and histomorphological features. Eur J Pharm Biopharm2007;65:238-46
  • Rathbone MJ, Tucker IG. Mechanisms, barriers and pathways of oral mucosal drug permeation. Adv Drug Deliv Rev1993;12:41-60
  • Whitehead K, Mitragotri S. Mechanistic analysis of chemical permeation enhancers for oral drug delivery. Pharm Res2008;25(6):1412-9
  • Hoogstraate AJ, Verhoef JC, Pijpers A, In vivo buccal delivery of the peptide drug buserelin with glycodeoxycholate as an absorption enhancer in pigs. Pharm Res1996;13:1233-37
  • Merkle HP, Wolany G. Buccal delivery for peptide drugs. J Control Release1992;21:155-64
  • Anders R, Merckle HP, Schurr W, Ziegler R. Buccal absorption of protirelin: an effective way to stimulate thyrotropin and prolactin. J Pharm Sci1983;72:1481-3
  • Shojaei AH. Buccal mucosa as a route for systemic drug delivery: a review. J Pharm Pharmaceut1998;1(1):15-30
  • Martin L, Wilson CG, Koosha F, Uchegbu IF. Sustained buccal delivery of the hydrophobic drug denbufylline using physically cross-linked palmitoyl glycol chitosan hydrogels. Eur J Pharm Biopharm2003;55:35-45
  • Singh B, Ahuja N. Development of controlled-release buccoadhesive hydrophilic matrices of diltiazem hydrochloride: optimization of bioadhesion, dissolution, and diffusion parameters. Drug Dev Ind Pharm2002;28:431-42
  • Liu C, Xu HN, Li XL. In vitro permeation of tetramethylpyrazine across porcine buccal mucosa. Acta Pharmacol Sin2002;23:792-96
  • Siegel IA, Gordon HP. Penetration of oral mucosa by organic compounds. J Dent Res1979;58:109-10
  • Siegel IA, Izutsu KT, Watson E. Mechanisms of non electrolyte penetration across dog and rabbit oral mucosa in vitro. Arch Oral Biol1981;26:357-61
  • Siegel IA. Permeability of the rat oral mucosa to organic solutes measured in vivo. Arch Oral Biol1984;29:13-6
  • Sadoogh-Abasian F, Evered DF. Absorption of vitamin C from the human buccal cavity. Br J Nutr1979;42:15-20
  • Manning AS, Evered DF. The absorption of sugars from the human oral cavity. Clin Sci Mol Med1976;51:127-32
  • McMullan JM, Manning AS, Evered DF. Effect of calcium ions on the uptake of sugars through the human buccal mucosa. Biochem Soc Trans1977;5:129-30
  • Evered DF, Offer RM. Aspirin inhibition of glucose absorption from the human mouth. Biochem Soc Trans1981;9:133-34
  • Evered DF, Sadoogh-Abasian F, Patel PD. Absorption of nicotinic acid and nicotinamide across human buccal mucosa. Life Sci1980;27:1649-51
  • Evered DF, Mallett C. Thiamine absorption across human buccal mucosa. Life Sci1983;32:1355-8
  • Hunjan MK, Evered DF. Absorption of glutathione from the gastrointestinal tract. Biochim Biophys Acta1985;815:184-5
  • Evered DF, Vadgama JV. Absorption of aminoacids from the human buccal cavity. Biochem Soc Trans1981;9:132-33
  • Kurosaki Y, Nishimura H, Terao K, Existence of a specialized absorption mechanism for cefadroxil, an aminocephalosporin antibiotic, in the human oral cavity. Int J Pharm1992;82:165-69
  • Squier CA, Wertz PW. Structure and function of the oral mucosa and implications for drug delivery. In: Rathbone MJ, editor, Oral mucosal drug delivery, Marcel Dekker, Inc., New York; 1996 . p. 1-26
  • Squier CA. The permeability of keratinized and non keratinized oral epithelium to horseradish peroxidase. J Ultrastruct Res1973;43:160-77
  • Squier CA, Rooney L. The permeability of keratinized and non keratinized oral epithelium to lanthanum in vivo. J Ultrastruct Res1976;54:286-95
  • Hill MW, Squier CA. The permeability of oral palatal mucosa maintained in organ culture. J Anat1979;128:169-78
  • Dowty ME, Knuth KE, Irons BK, Robinson JR. Transport of thyrotropin releasing hormone in rabbit buccal mucosa in vitro. Pharm Res1992;9:1113-22
  • Squier CA, Lesch CA. Penetration pathways of different compounds through epidermis and oral epithelia. J Oral Pathol1988;17:512-16
  • Squier CA. Effect of enzyme digestion on the permeability barrier in keratinizing and non keratinizing epithelia. Br J Dermatol1984;111:253-64
  • Dowty ME, Knuth KE, Robinson JR. Enzyme characterisation studies on the rate limiting barrier in rabbit buccal mucosa. Int J Pharm1992;88:293-302
  • Chattarajee SC, Walker RB. Penetration enhancer classification. In: Smith EW, Maibach HI, editors, Percutaneous penetration enhancement, CRC Press, Boca Raton, FL; 1995. p. 1-4
  • Aungst A. Permeability and metabolism as barriers to transmucosal delivery of peptides and proteins. In: Hsieh DS, editor, Drug permeation enhancement. Theory and applications, New York: Marcel Dekker, 1994. p. 323-43
  • Lee VHL, Yamamoto A. Penetration and enzymatic barriers to peptide and protein absorption. Adv Drug Deliv Rev1990;4:171-207
  • Hayashi M, Hirasawa T, Muraoka T, Comparison of water influx and sieving coefficient in rat jejunal, rectal and nasal absorption of antipyrine. Chem Pharm Bull1985;33:2149-52
  • Kamda A, Nishihata T, Kim S, Study of enamine derivatives of phenyl glycine as adjuvant for the rectal absorption of insulin. Chem Pharm Bull1981;29:2012-19
  • Barry BW. Dermatological formulations, percutaneous absorption. In: Barry BW, editor. New York: Marcel Dekker, 270 Madison Avenue10016; 1983. p. 127-233
  • Junginger HE, Verhoef JC. Macromolecules as safe penetration enhancers for hydrophilic drugs –a fiction? Pharm Sci Tech Today1998;1:370-76
  • Lee VHL. Protease inhibitors and penetration enhancers as approaches to modify peptide absorption. J Control Release1990;3:213-23
  • Nicolazzo JA, Reed BL, Finnin B. Buccal penetration enhancers: how do they really work? J Control Release2005;105:1-15
  • Williams AC, Barry BW. Penetration enhancers. Adv Drug Deliv Rev2004;56:603-18
  • Sudhakar Y, Kuotsu K, Bandyopadhyay AK. Buccal bioadhesive drug delivery – A promising option for orally less efficient drug. J Control Release2006;114:15-40
  • Okada H, Yashiki T, Mima H. Vaginal absorption of a potent luteinizing hormone releasing hormone analogue (leuprolide) in rats III: effects of estrous cycle on vaginal absorption of hydrophilic model compounds. J Pharm Sci1983;72:173-76
  • Nishihata T, Kim S, Morishita S, Adjuvant effects of glyceryl esters of acetoacetic acid on rectal absorption of insulin and inulin in rabbits. J Pharm Sci1983;72:280-85
  • Nishihata T, Okamura Y, Kamada A, Enhanced bioavailability of insulin after rectal administration with enamine as adjuvant in depancreatized dogs. J Pharm Pharmacol1985;37:22-6
  • Windsor E, Cronheim GE. Gastro-intestinal absorption of heparin and synthetic heparinoids,. Nature1961;190:263-64
  • Yamashita S, Saitoh H, Nakanishi K, Characterization of enhanced intestinal permeability; electrophysiological study on the effects of diclofenac and ethylenediamine tetraacetic acid. J Pharm Pharmacol1985;37:512-13
  • Sakai K, Kutsuna TM, Nishino T, Contribution of calcium ion sequestration by polyoxyethylated nonionic surfactants to the enhanced colonic absorption of p-aminobenzoic acid. J Pharm Sci1986;75:387-90
  • Martin GP, Marriott C, Kellaway IW. Direct effect of bile salts and phospholipids on the physical properties of. mucus. Gut1978;19:103-7
  • Madara JL, Dharmsathaphorn K. Occluding junction structure-function relationship in a cultured epithelial monolayer. J Cell Biol1985;101:2124-33
  • Ganem-Quintanar A, Kalia YN, Falson-Rieg F, Buri P. Mechanism of oral permeation enhancement. Int J Pharm1997;156:127-42
  • Hao J, Heng PSW. Buccal delivery systems. Drug Dev Ind Pharm2003;29:821-32
  • Sandri G, Rossi S, Bonferoni MC, Buccal penetration enhancement properties of N-trimethyl chitosan: Influence of quaternization degree on absorption of a high molecular weight molecule. Int J Pharm2005;297:146-55
  • Sandri G, Rossi S, Ferrari F, Assessment of chitosan derivatives as buccal and vaginal penetration enhancers. Eur J Pharm Sci2004;21:351-59
  • Bernkop-Schnurch A. Chitosan and its derivatives: potential excipients for peroral peptide delivery systems. Int J Pharm2000;194:1-13
  • Dodane V, Khan MA, Merwin JR. Effect of chitosan on epithelial permeability and structure. Int J Pharm1999;182:21-32
  • Hamman JH, Schultz CM, Kotze AF. Enhancement of paracellular drug transport across mucosal epithelia by N-trimethyl chitosan chloride. STP Pharm Sci2000;10:35-8
  • Tengamnuay P, Sahamethapat A, Sailasuta A, Mitra K. Chitosan as nasal absorption enhancers of peptides: comparison between free amine chitosans and soluble salts. Int J Pharm2000;197:53-67
  • Senel S, Kremer MJ, Kas S, Enhancing effect of chitosan on peptide drug delivery across buccal mucosa. Biomaterials2000;21:2067-71
  • Sandri G, Poggi P, Bonferoni MC, Histological evaluation of buccal penetration enhancement properties of chitosan and trimethyl chitosan. J Pharm Pharmacol2006;58(10):1327-36
  • Portero AC, Remunan-Lopez, Nielsen HM. The potential of chitosan in enhancing peptide and protein absorption across the TR146 cell culture model an in vitro model of the buccal epithelium. Pharm Res2002;19:169-74
  • Siegel IA, Gordon HP. Effects of surfactants on the permeability of canine oral mucosa in-vitro. Toxicol Lett1985;26:153-58
  • Murakami T, Yata N, Tamauchi Y, Kamada A. Studies of absorption promoters for rectal delivery preparations. II. A possible mechanism of promoting efficacy of enamine derivatives in rectal absorption. Chem Pharm Bull1982;30:659-65
  • Murakami T, Sasaki Y, Yamajo R, Yata N. Effect of bile salts on the rectal absorption of sodium ampicillin in rats. Chem Pharm Bull1984;32:1948-55
  • Lee VHL. Enzymatic barriers to peptide and protein absorption and the use of penetration enhancers to modify absorption. In: Davis SS, Illum L, Tomlinson E, editors, Delivery systems for peptide drugs, Plenum Press, New York, NY; 1986. p. 87-104
  • Veuillez F, Kalia YN, Jacques Y, Factors and strategies for improving buccal absorption of peptides. Eur J Pharm Biopharm2001;51:93-109
  • Hogan DTO, Illum L. Absorption of peptides and proteins from the respiratory tract and the potential for development of locally administered vaccine. Crit Rev Ther Drug Carrier Syst1990;7:35-97
  • Yamamoto A, Luo AM, Dodda-Kashi S, Lee VHL. The ocular route for systemic insulin delivery in the albino rabbit. J Pharmacol Exp Ther1989;249:249-55
  • Senel S, Capan Y, Sargon MF, Histological and bioadhesion studies on buccal bioadhesive tablets containing a penetration enhancer sodium glycodeoxycholate. Int J Pharm1998;170:239-45
  • Hoogstraate AJ, Wertz PHW, Squier CA, Effects of the penetration enhancer glycodeoxycholate on the lipid integrity in porcine buccal epithelium in vitro. Eur J Pharm Sci1997;5:189-98
  • Senel S, Capan Y, Sargon MF, Enhancement of transbuccal permeation of morphine sulfate by sodium glycodeoxycholate in vitro. J Control Release1997;45:153-62
  • Hoogstraate AJ, Verhoef JC, Tuk B, Buccal delivery of fluorescein isothiocyanate-dextran 4400 and the peptide drug buserelin with glycodeoxycholate as an absorption enhancer in pigs. J Control Release1996;41:77-84
  • Senel S, Hoogstraate AJ, Spies F, Enhancement of in vitro permeability of porcine buccal mucosa by bile salts: kinetic and histological studies. J Control Release1994;32:45-56
  • Hoogstraate AJ, Senel S, Cullander C, Effects of bile salts on transport rates and routes of FTIC-labelled compounds across porcine buccal epithelium in vitro. J Control Release1996;40:211-21
  • Wang Y, Zuo Z, Chow MSS. HO-1-u-1 model for screening sublingual drug delivery–Influence of pH, osmolarity, permeation enhancer. Int J Pharm2009;370:68-74
  • Xiang J, Fang X, Li X. Transbuccal delivery of 2,3-ideoxy cytidine: in vitro permeation study and histological investigation. Int J Pharm2002;231:57-66
  • Shin SC, Kim JY. Enhanced permeation of triamcinolone acetonide through the buccal mucosa. Eur J Pharm Biopharm2000;50:217-20
  • Dhiman MK, Dhiman A, Sawant KK. Transbuccal delivery of 5-fluorouracil: permeation enhancement and pharmacokinetic study. AAPS Pharm Sci Tech2009;10(1):258-65
  • Yamamoto A, Hayakawa E, Lee VHL. Insulin and pro insulin proteolysis in mucosal homogenates of the albino rabbits: implications in peptide delivery from non oral routes. Life Sci1990;47:2465-74
  • Nakada Y, Awata C, Nakamichi C, Sugimoto I. The effect of additives on the oral mucosal absorption of human calcitonin in rats. J Pharmacobiol Dyn1988;11:395-401
  • Artusi M, Santi P, Colombo P, Junginger HE. Buccal delivery of thiocolchicoside: in vitro and in vivo permeation studies. Int J Pharm2003;250:203-13
  • Colonna C, Genta I, Perugini P, 5-Methyl-Pyrrolidinone Chitosan Films as Carriers for Buccal Administration of Proteins. AAPS Pharm Sci Tech2006;7:E1-E7
  • Sandri G, Bonferoni MC, Rossi S, Nanoparticles based on N-trimethylchitosan: evaluation of absorption properties using in vitro (Caco-2 cells) and ex vivo (excised rat jejunum) models. Eur J Pharm Biopharm2007;65(1):68-77
  • Sahni JK, Chopra S, Ahmad FJ, Khar RK. Potential prospects of chitosan derivative trimethyl chitosan chloride (TMC) as a polymeric absorption enhancer: synthesis, characterization and applications. J Pharm Pharmacol2008;60(9):1111-9
  • Sadeghi AM, Dorkoosh FA, Avadi MR, Permeation enhancer effect of chitosan and chitosan derivatives: comparison of formulations as soluble polymers and nanoparticulate systems on insulin absorption in Caco-2 cells. Eur J Pharm Biopharm2008;70(1):270-8
  • Ahad A, Aqil M, Kohli K, Chemical penetration enhancers: a patent review. Expert Opin. Ther. Patents2009;19(7):969-88
  • Silvestre AJD, Gandini A. Terpenes: major sources, properties and applications monomers, polymers and composites from renewable resources. Elsevier: Amsterdam, Boston; 2008. p. 17-38
  • Aqil M, Ahad A, Sultana Y, Ali A. Status of terpenes as skin penetration enhancers. Drug Discov Today2007;12:1061-67
  • Shojaei AH, Khan M, Lim G, Khosravan R. Transbuccal permeation of a nucleoside analog, dideoxycytidine: effects of menthol as a permeation enhancer. Int J Pharm1999;192:139-46
  • Ceschel GC, Maffei P, Moretti MDL, In vitro permeation through porcine buccal mucosa of Salvia desoleana Atzei & Picci essential oil from topical formulations. Int J Pharm2000;195:171-77
  • Coutel-Egros A, Maitani Y, Veillard M, Combined effects of pH, co-solvent and penetration enhancers on the in vitro buccal absorption of propranolol through excised hamster cheek pouch. Int J Pharm1992;84:117-28
  • Kitano M, Maitani Y, Takayama K, Nagai T. Buccal absorption through golden hamster cheek pouch in vitro and in vivo of 17beta-estradiol from hydrogels containing three types of absorption enhancers. Int J Pharm1998;174:19-28
  • Attia MA, EI-Gibaly I, Shaltout SE, Fetih GN. Transbuccal permeation, anti-inflammatory activity and clinical efficacy of piroxicam formulated in different gels. Int J Pharm2004;276:11-28
  • Siegel IA, Gordon HP. Surfactant-induced alterations of permeability of rat oral mucosa to non-electrolytes in-vivo. Arch Oral Biol1985;30:43-7
  • Steward A, Bayley DL, Howes C. The effect of enhancers on the buccal absorption of hybrid (BDBB) alpha-interferon. Int J Pharm1994;104:145-9
  • Aungst BJ, Rogers NJ. Comparison of the effects of various transmucosal absorption promoters on buccal insulin delivery. Int J Pharm1989;53:227-35
  • Shin SC, Bum JP, Choi JS. Enhanced bioavailability by buccal administration of triamcinolone acetonide from the bioadhesive gels in rabbits. Int J Pharm2000;209:37-43
  • Gandhi R, Robinson J. Mechanisms of penetration enhancement for transbuccal delivery of salicylic acid. Int J Pharm1992;85:129-40
  • Figueiras A, Hombach J, Veiga F, Bernkop-Schnurch A. In vitro enhancing effect of 1-dodecylazacycloheptan-2-evaluation of natural and methylated cyclodextrins as buccal permeation enhancing system for omeprazole delivery. Eur J Pharm Biopharm2009;71:339-45
  • Marttin E, Verhoef JC, Cullander C, Confocal laser scanning microscopic visualization of the transport of dextrans after nasal administration to rats: effects of absorption enhancers. Pharm Res1997;14:631-37
  • Hovgaard L, Bronsted H. Drug delivery studies in Caco-2 monolayers. IV. Absorption enhancer effects of cyclodextrins. Pharm Res1995;12:1328-32
  • Marttin E, Verhoef JC, Spies F, The effect of methylated betacyclo- dextrins on the tight junctions of the rat nasal respiratory epithelium: electron microscopic and confocal laser scanning microscopic visualization studies. J Control Release1999;57:205-13
  • Stoughton RB. Enhanced percutaneous penetration with dodecylaza-cycloheptan- 2-one. Arch Dermatol1982;118:474-77
  • Stoughton RB, McClure WO. Azone®, a new non-toxic enhancer of percutaneous penetration. Drug Dev Ind Pharm1983;9:725-44
  • Kurosaki Y, Hisaichi S, Nakayama T, Enhancing effect of 1-dodecylaza-cycloheptan-2-one (Azone®) on the absorption of salicylic acid from keratinized oral rnucosa and the duration of enhancement in vivo. Int J Pharm1989;51:47-54
  • Nicolazzo JA, Reed BL, Finnin BC. Enhancing the buccal mucosal uptake and retention of triamcinolone acetonide. J Control Release2005;105:240-48
  • Barry BW. Mode of action of penetration enhancers in human skin. J Control Release1987;6:85-97
  • Hadgraft J, Williams DG, Allan G. Azone® mechanisms of action and clinical effect. In: Walters KA, Hadgraft J, editors, Pharmaceutical skin penetration enhancement, New York: Marcel Dekker; 1993. p. 175-97
  • Tsutsumi K, Obata Y, Takayama K, Effect of the cod-liver oil extract on the buccal permeation of ionized and non ionized forms of ergotamine using the keratinized epithelial-free membrane of hamster cheek pouch mucosa. Int J Pharm1998;174:151-6
  • Higuchi T. Physical chemical analysis of percutaneous absorption process from creams and ointment. J Soc Cosmet Chem1960;11:85-97
  • Loftsson J, Gudmundsdottir TK, Fridriksdottir H, Fatty acids from cod-liver oil as skin penetration enhancers. Pharmazie1995;50:188-90
  • Starokadomskyy PL, Dubey IY. Lysalbinic acid – a new absorption enhancer for the buccal delivery of peptide drugs. Kyiv Ukraine2005;6:79-85
  • Starokadomskyy PL, Dubey IY. New absorption promoter for the buccal delivery: Preparation and characterization of lysalbinic acid. Int J Pharm2006;308:149-54
  • Starokadomskyy PL. New possibilities of chewing gum in local therapy. In: Proceedings of the Conference for Young Scientists, PhD Students and Students, Institute of Molecular Biology and Genetics, Kyiv, Ukraine, September 25–27; 2003. p. 263
  • Soyani AP, Chien YW. Systemic delivery of peptides and proteins across absorptive mucosae. Crit Rev Ther Drug Carrier Syst1996;13:85-184
  • Remon JP. Absorption enhancers. In: Swarbrick J, editor, Encyclopedia of pharmaceutical technology. 3rd edition. Informa Healthcare: London, UK; 2006; Vol-1. p. 13-15

Reprints and Corporate Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

To request a reprint or corporate permissions for this article, please click on the relevant link below:

Order Reprints Request Corporate Permissions

Academic Permissions

Please note: Selecting permissions does not provide access to the full text of the article, please see our help page How do I view content?

Obtain permissions instantly via Rightslink by clicking on the button below:

Request Academic Permissions

If you are unable to obtain permissions via Rightslink, please complete and submit this Permissions form. For more information, please visit our Permissions help page.

Related research

People also read lists articles that other readers of this article have read.

Recommended articles lists articles that we recommend and is powered by our AI driven recommendation engine.

Cited by lists all citing articles based on Crossref citations.
Articles with the Crossref icon will open in a new tab.