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Expert Opinion on Drug Delivery Volume 8, 2011 - Issue 10
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Reviews

Vaginal gel drug delivery systems: understanding rheological characteristics and performance

Tao Yu The Queen's University of Belfast, School of Pharmacy, Pharmaceutical Engineering and Materials Science Group, 97 Lisburn Road, Belfast, BT9 7BL, Northern [email protected]
,
Karl Malcolm The Queen's University of Belfast, School of Pharmacy, Pharmaceutical Engineering and Materials Science Group, 97 Lisburn Road, Belfast, BT9 7BL, Northern [email protected]
,
David Woolfson The Queen's University of Belfast, School of Pharmacy, Pharmaceutical Engineering and Materials Science Group, 97 Lisburn Road, Belfast, BT9 7BL, Northern [email protected]
,
David S Jones The Queen's University of Belfast, School of Pharmacy, Pharmaceutical Engineering and Materials Science Group, 97 Lisburn Road, Belfast, BT9 7BL, Northern [email protected]
&
Gavin P Andrews The Queen's University of Belfast, School of Pharmacy, Pharmaceutical Engineering and Materials Science Group, 97 Lisburn Road, Belfast, BT9 7BL, Northern [email protected]
Pages 1309-1322 | Published online: 05 Jul 2011

Bibliography

  • das Neves J, Bahia MF. Gels as vaginal drug delivery systems. Int J Pharm 2006;318:1-14
  • Vermani K, Garg S. The scope and potential of vaginal drug delivery. Pharm Sci Technol Today 2000;3:359-64
  • Hussain A, Ahsan F. The vagina as a route for systemic drug delivery. J Control Release 2005;103:301-13
  • Ross-Murphy SB. Rheological characterisation of gels. J Texture Stud 1995a;26:391-400
  • Tsitsilianis C. Responsive reversible hydrogels from associative "smart" macromolecules. Soft Matter 2010;6:2372-88
  • Nijenhius K. Viscoelastic properties of thermoreversible gels. In: Burchard W, Ross-Murphy SB. editors. Physical networks. Elsevier; London: 1990
  • Hernandez MJ, Pellicer J, Delegidio J, Rheological characterisation of easy to disperse (ETD) Carbopol hydrogels. J Dispersion Sci Technol 1998;19:31-42
  • Ghannam MT, Esmail MN. Rheological properties of carboxymethylcellulose. J Appl Polym Sci 1997;64:289
  • Durand D, Bertand C, Busnel JP, Physical gelation induced by ionic complexation: pectin-calcium systems. In: Burchard W, Ross-Murphy SB. editors. Physical Networks. Elsevier; London: 1990
  • Garg S, Tambwekar KR, Vermani K, Compendium of pharmaceutical excipients for vaginal formulations. Pharm Technol 2001;14-24. Available at http://pharmtech.findpharma.com/pharmtech/data/articlestandard//pharmtech/512001/5133/article.pdf (Last accessed 1 July 2011)
  • Owen DH, Peters JJ, Kieweg SL, Biophysical analysis of prototype microbicidal gels. J Pharm Sci 2007;96:661-9
  • Barnhart KT, Pretorius SE, Timbers K, Distribution of a 3.5-mL (1.0%) C31G vaginal gel using magnetic resonance imaging. Contraception 2005;71:357-61
  • Curran RM, Donnelly L, Morrow JR, Vaginal delivery of the recombinant HIV-1 clade-C trimeric gp140 envelope protein CN54gp140 within novel rheologically structured vehicles elicits specific immune responses. Vaccine 2009;27:6791-8
  • Lai BE, Xie YQ, Lavine ML, Dilution of microbicide gels with vaginal fluid and semen simulants: effect on rheological properties and coating flow. J Pharm Sci 2008;97:1030-8
  • Baloglu E, Senyigit ZA, Karavana SY, Strategies to prolong the intravaginal residence time of drug delivery system. J Pharm Pharm Sci 2009;3:312-36
  • Pendergrass P, Belovicz M, Reeves C. Surface area of the human vagina as measured from vinyl polysiloxane casts. Gynecol Obstet Invest 2003;55:110-13
  • Weber A, Walters M, Schover L. Vaginal anatomy and sexual function. Obstet Gynecol 1995;86:946-9
  • Alexander NJ, Baker E, Kaptein M, Why consider vaginal drug administration? Fertil Steril 2004;82:1-12
  • Burkitt HG, Young B, Heath JW. Histologia Funcional. 3rd edition. Guanabara Koogan, RJ; Rio de Janeiro: 1994
  • Szeri AJ, Park SC, Verguet S, A model of transluminal flow of an anti-HIV microbicide vehicle:combined elastic squeezing and gravitational sliding. Phys Fluids 2008;20:83101
  • Owen DH, Peters JJ, Lavine ML, Effect of temperature and pH on contraceptive gel viscosity. Contraception 2003;67:57-64
  • Dasari S, Pereira L, Reddy AP, Comprehensive proteomic analysis of human cervical-vaginal fluid. J Proteome Res 2007;6:1258-68
  • Rathbone MJ. Intravaginal drug delivery technologies. In: Rathbone MJ. editor. Modified-release Drug Delivery Technology. Volume 2. Chapter 35 2nd edition. 2008
  • Levin RJ. Vagina, clitoral and periure-thral glans-an update on human female genital arousal. Exp Clin Endocrinol 1991;98:61-9
  • Verguet S, Holt BY, Szeri AJ. Increasing the effectiveness of vaginal microbicides: a biophysical framework to rethink behavioral acceptability. PLoS ONE 2010;5:1-8
  • Ness RB, Hillier SL, Richter HE, Douching in relation to bacterial vaginosis, lactobacilli, and facultative bacteria in the vagina. Obstet Gynecol 2002;100:765-72
  • Liu Y, Zhu Y-Y, Wei G, Effect of carrageenan on poloxamer-based in situ gel for vaginal use: improved in vitro and in vivo sustained-release properties. Eur J Pharm Sci 2009;37:306-12
  • Aka-Any-Grah A, Bouchemal K, Koffi A, Formulation of mucoadhesive vaginal hydrogels insensitive to dilution with vaginal fluids. Eur J Pharm Biopharm 2010;76:296-303
  • Hombachi J, Palmberger TF, Bernkop-Schnurch A. Development and in vitro evaluation of a mucoadhesive vaginal delivery system for nystatin. J Pharm Sci 2009;98:555-64
  • Jones DS, Woolfson DA, Brown AF, Design, characterisation and preliminary clinical evaluation of a novel mucoadhesive topical formulation containing tetracycline for the treatment of periodontal disease. J Control Release 2000;67:357-68
  • Gunasekaran S, Ak MM. Dynamic oscillatory shear testing of foods- selected application. Trends Food Sci Technol 2000;11:115-27
  • Coviello T, Coluzzi G, Palleschi A, Strutural and rheological charaterization of Scleroglucan/borax hydrogel for drug delivery. Int J Biol Macromol 2003;32:83-92
  • Jones DS, Bruschi ML, Freitas OD, Rheological, mechanical and mucoadhesive properties of thermoresponsive, bioadhesive binary mixtures composed of poloxamer 407 and carbopol 974P designed as platforms for implantable drug delivery systems for use in the oral cavity. Int J Pharm 2009;372:49-58
  • Jones DS, Woolfson DA, Brown AF. Viscoelastic properties of bioadhesive chlorhexidine-containing semi-solids for topical application to the oropharynx. Pharm Res 1998;15:1131-6
  • Hu X, Fan J, Yue CY. Rheological study of crosslinking and gelation in bismaleimide/cyanate ester interpenetrating polymer network. J Appl Polym Sci 2001;80:2437-45
  • Tamburic S, Craig DQ, Vuleta G, An investigation into the use of thermrheology and texture analysis in the evaluation of W/O creams stabilized with a silicone emulsifier. Pharm Dev Technol 1996b;3:299-306
  • Andrews GP, Donnelly L, Jones DS, Characterization of the rheological, mucoadhesive, and drug release properties of highly structured gel platforms for intravaginal drug delivery. Biomacromolecules 2009;10:2427-35
  • Bonacucina G, Martelli S, Palmieri GF. Rheological, mucoadhesive and release properties of Carbopol gels in hydrophilic cosolvents. Int J Pharm 2004;282:115-30
  • Goodwin JW, Hughes RW. Linear Viscoelasticty I. Phenomenological approach. In rheology for chemists: an introduction. Chapter 4 The Royal Society of Chemistry; Cambribge: 2000
  • Ross-Murphy SB. Structure-property relationships in food biopolymer gels and solutions. J Rheology 1995b;36:1451-63
  • Ferry JD. Viscoelastic properties of polymers. John Wiley and Sons; New York: 1980
  • Sahiner N, Singh M, Kee DD, Rheological characterization of a charged cationic hydrogel network across the gelation boundary. Polymer (Guildf) 2006;47:1124-31
  • Patfoort GA. The stress-strain diagram. In Polymers: an introduction to their physical, mechanical and rheological behaviour. E.Story-Scientia P.V.B.A, Gent; 1999. p. 134-51
  • Lafferty SV, Newton JM, Podczeck F. Characterisation of the mechanical properties of polymer films formed from aqueous polymer dispersions by creep testing. Int J Pharm 2002;239:143-8
  • Martucci JF, Ruseckaite RA, Vazquez A. Creep of glutaraldehyde-crosslinked gelatin films. Mater Sci Eng 2006;435:681-6
  • Barry BW. Rheology of pharmaceutical and cosmetic semisolids. Adv Pharm Sci 1974;4:1-72
  • Ceulemans J, Van Santvliet L, Ludwig A. Evaluation of continuous shear and creep rheometry in the physical characterisation of ointments. Int J Pharm 1999;176:187-202
  • de Paula M, Goissis G, Martins VC. Rheological behavior of anionic collagen injectable gels in the presence of rhamsan for plastic surgery applications. J Mater Sci Mater Med 2007;18:1683-90
  • Jones DS, Muldoon BC, Woolfson AD, An examination of the rheological and mucoadhesive properties of poly(acrylic acid) organogels designed as platforms for local drug delivery to the oral cavity. J Pharm Sci 2007;96:2632-46
  • Bercea M, Darie RN, Nita LE, Temperature responsive gels based on Pluronic F127 and poly(vinyl alcohol). Ind Eng Chem Res 2011;50:4199-206
  • Sherman P. Industrial Rheology. Academic Press; New York: 1970
  • Stanley NL, Taylor LJ. Rheological basis of oral characteristics of fluid and semisolid foods: a review. Acta Psychol (Amst) 1993;84:79-92
  • Barreiro-Iglesias R, Alvarez-Lorenzo C, Concheiro A. Incorporation of small quantities of surfactants as a way to improve the rheological and diffusional behavior of carbopol gels. J Control Release 2001;77:59-75
  • Macosko CW. Rheological principles, Measuremnets and applications. Wiley-vch; New York: 1994
  • Roberts GP, Barnes HA, Carew P. Modelling the flow behaviour of very shear-thinning liquids. Chem Eng Sci 2001;56:5617-23
  • Perioli L, Ambrogi V, Venezia L, Chitosan and a modified chitosan as agents to improve performances of mucoadhesive vaginal gels. Colloid SurfB Biointerfaces 2008;66:141-5
  • Schott H. Rheology. In: Gennaro AR. editor. Remington's Pharmaceutical Sciences. Mack Publishing Co; Easton, Pennslyvania: 1990. p. 310-26
  • Cross MM. Rheology of non-Newtonian flow : a new flow equation for pseudoplastic systems. J Colloid Sci 1965;20:417-37
  • Crawford RJ. Analysis of polymer melt flow. In plastics engineering. Chapter 5 Butterworth-Heinemann; Oxford: 1998
  • Barnes HA, Hutton JF, Walters K. Viscosity. In: Walters K. editor. An introduction to rheoogy. Chapter 2 Elsevier; Amsterdam: 1989
  • Lenk RS. Polymer Rheology. Applied Science Publishers Ltd; London: 1978
  • Martin A, Swarbrick J, Cammarata A. Rheology. In: Martin A, Swarbrick J, Cammarata A. editor. Physical Pharmacy. Lea & Febiger; Philadelphia: 1987
  • Eadli M, Esmail MN, Vatistas GH. Rheological properties of high concentrations of carboxymethylcellulose solutions. J Appl Polym Sci 2001;79:1787-801
  • Rayment P, Ross-Murphy SB, Ellis PR. Rheological properties of guar galactomannan and rice starch mixtures. Carbohydr Polym 1995;28:121-30
  • Bird RB, Armstrong RC, Hassanger O. Dynamics of polymeric liquids. In fluid mechanics. John Wiley and Sons; New York: 1987
  • Lapasin R, Lorenzi LD, Pricl S, Flow properties of hydroxypropyl guar gum and its long-chain hydrophobic derivatives. Carbohydr Polym 1995;28:195-202
  • Kieweg S, Katz D. Squeezing flows of vaginal gel formulations relevant to microbicide drug delivery. J Biomech Eng 2006;128:540-53
  • Owen DH, Peters JJ, Katz DF. Rheological properties of contraceptive gels. Contraception 2000;62:321-6
  • Barnhart KT, Stolpen A, Pretorius ES, Distribution of a spermicide containing nonoxynol-9 in the vaginal canal and the upper female reproductive tract. Hum Report 2001;16:1151-4
  • Mauck CK, Katz DF, Sandefer EP, Vaginal distribution of Replens® and K-Y® Jelly using three imaging techniques. Contraception 2008;77:195-204
  • Andrews GP, Gorman SP, Jones DS. Rheological characterisation of primary and binary interactive bioadhesive gels composed of cellulose derivatives designed as ophthalmic viscosurgical devices. Biomaterials 2005;26:571-80
  • Andrews GP, Jones DS. Rheological characterization of bioadhesive binary polymeric systems designed as platforms for drug delivery implants. Biomacromolecules 2006;7:899-906
  • das Neves J, da Silva MV, Goncalves MP, Rheological properties of vaginal hydrophilic polymer gels. Curr Drug Deliv 2009;6:83-92
  • Wille T, Pesun IJ, Combe EC, A clinical pilot study of the time-dependent composition of tooth bleaching systems. J Oral Rehabil 2001;30:510-14
  • de Paula MR, Goissis G, Martins VC, Injectable gels of anionic collagen:rhamsan composites for plastic correction: preparation, characterization, and rheological properties. J Biomed Mater Res B Appl Biomaterials 2005;75B:393-9
  • Bonacucina G, Palmieri GF. Acrylic polymers as thickening agents for tetraglycol cosolvent. J Pharm Sci 2006;95:726-36
  • Mahalingam A, Smith E, Fabian J, Design of a semisolid vaginal microbicide gel by relating composition to properties and performance. Pharm Res 2010;27:2478-91

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