Mucoadhesive cellulosic derivative sponges as drug delivery system for vaginal application

[en] Vaginal delivery of active drugs has been largely studied for local and systemic applications. It is well known that vagina is a complex route, due to physiological and non-physiological changes. Therefore, in order to achieve a prolonged local effect, these variations have to be considered. The aim of this study was to formulate and to characterize a solid system, called sponges, obtained by lyophilization of cellulosic derivative (HEC 250M) hydrogels. These sponges have to meet particular criteria to be adapted for vaginal application: they have to adhere to the vaginal cavity and to be rehydrated by the small amount of vaginal fluids. Moreover, they have to be easily manipulated and to be stable. Three freezing temperatures have been tested to prepare sponges ( 15 C, 25 C, 35 C). By SE analyzes, it was observed that the pores into the sponges were smaller and numerous as the freezing temperature decreases. However, this temperature did not have any influence on the rehydration speed that was rather influenced by the HEC concentration. Viscosity and mucoadhesive strength of hydrogels and corresponding sponges were also measured. It appeared that these parameters are mainly dépendent on the HEC concentration. These mucoadhesive sponges can be considered as potential drug delivery systems intended for vaginal application.

Research Center/Unit :

Centre Interfacultaire de Recherche du Médicament - CIRM

Disciplines :

Pharmacy, pharmacology & toxicology

Author, co-author :

Furst, Tania ; Université de Liège - ULiège > Département de pharmacie > Pharmacie galénique

Piette, Marie ; Université de Liège > Département de pharmacie > Département de pharmacie

Lechanteur, Anna ; Université de Liège > Département de pharmacie > Pharmacie galénique

Evrard, Brigitte ; Université de Liège > Département de pharmacie > Pharmacie galénique

Piel, Géraldine ; Université de Liège > Département de pharmacie > Pharmacie galénique

Language :

English

Title :

Mucoadhesive cellulosic derivative sponges as drug delivery system for vaginal application

Alternative titles :

[fr] Eponges formées de dérivés cellulosiques comme système d'aministration de médicaments pour application vaginale

Publication date :

23 January 2015

Journal title :

European Journal of Pharmaceutics and Biopharmaceutics

ISSN :

0939-6411

eISSN :

1873-3441

Publisher :

Elsevier, Amsterdam, Netherlands

Special issue title :

Special Issue Biological Barriers

Peer reviewed :

Peer Reviewed verified by ORBi

Available on ORBi :

since 26 March 2015

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Bibliography

A. Aka-Any-Grah, K. Bouchemal, A. Koffi, F. Agnely, M. Zhang, M. Djabourov, and et al. Formulation of mucoadhesive vaginal hydrogels insensitive to dilution with vaginal fluids Eur. J. Pharm. Biopharm. 76 2 2010 296 303
J. das Neves, and M.F. Bahia Gels as vaginal drug delivery systems Int. J. Pharmaceut. 318 1-2 2006 1 14
L.M. Ensign, R. Cone, and J. Hanes Nanoparticle-based drug delivery to the vagina: a review J. Control. Release 190 2014 500 514
Z. Vanic, and N. Skalko-Basnet Nanopharmaceuticals for improved topical vaginal therapy: can they deliver? Eur. J. Pharm. Sci. 50 1 2013 29 41
S. Yang, Y. Chen, R. Ahmadie, and E.A. Ho Advancements in the field of intravaginal siRNA delivery J. Control. Release 167 1 2013 29 39
T. Bríd, R.L.S. Burruano, and Daniel Malamud In vitro test to evaluate the interaction between synthetic cervical mucus and vaginal formulations AAPS PharmSciTech. 5 1 2004 (Article 17)
J. das Neves, M. Amiji, and B. Sarmento Mucoadhesive nanosystems for vaginal microbicide development: friend or foe? Nanomed. Nanobiotechnol. 3 4 2011 389 399
R. Margareth, and C. Marques Simulated biological fluids with possible application in dissolution testing Dissolution Technol. 2011 15 28
H.H. Sigurdsson, J. Kirch, and C.M. Lehr Mucus as a barrier to lipophilic drugs Int. J. Pharm. 453 1 2013 56 64
K.J. Whaley, J. Hanes, R. Shattock, R.A. Cone, and D.R. Friend Novel approaches to vaginal delivery and safety of microbicides: biopharmaceuticals, nanoparticles, and vaccines Antiviral Res. 88 Suppl. 1 2010 S55 S66
K. Berginc, S. Suljakovic, N. Skalko-Basnet, and A. Kristl Mucoadhesive liposomes as new formulation for vaginal delivery of curcumin Eur. J. Pharm. Biopharm. 87 1 2014 40 46
J.D. Smart The basics and underlying mechanisms of mucoadhesion Adv. Drug Deliv. Rev. 57 11 2005 1556 1568
S. David, A.D.W. Jones, and Andrew F. Brown Textural, viscoelastic and mucoadhesive properties of pharmaceutical gels composed of cellulose polymers Int. J. Pharm. 151 1997 223 233
A. Tachaprutinun, P. Pan-In, and S. Wanichwecharungruang Mucosa-plate for direct evaluation of mucoadhesion of drug carriers Int. J. Pharm. 441 1-2 2013 801 808
K.H. Matthews, H.N. Stevens, A.D. Auffret, M.J. Humphrey, and G.M. Eccleston Lyophilised wafers as a drug delivery system for wound healing containing methylcellulose as a viscosity modifier Int. J. Pharm. 289 1-2 2005 51 62
O. Labovitiadi, A.J. Lamb, and K.H. Matthews Lyophilised wafers as vehicles for the topical release of chlorhexidine digluconate-release kinetics and efficacy against Pseudomonas aeruginosa Int. J. Pharm. 439 1-2 2012 157 164
M. Piette, I. Coia, B. Evrard, Composition and Method for treating HPV, Belgium, US2014 017 0219 A1.
P.N. Gupta, A. Pattani, R.M. Curran, V.L. Kett, G.P. Andrews, R.J. Morrow, and et al. Development of liposome gel based formulations for intravaginal delivery of the recombinant HIV-1 envelope protein CN54gp140 Eur. J. Pharm. Sci. 46 5 2012 315 322
S.F. Ng, and N. Jumaat Carboxymethyl cellulose wafers containing antimicrobials: a modern drug delivery system for wound infections Eur. J. Pharm. Sci. 51 2014 173 179
J.S. Boateng, A.D. Auffret, K.H. Matthews, M.J. Humphrey, H.N. Stevens, and G.M. Eccleston Characterisation of freeze-dried wafers and solvent evaporated films as potential drug delivery systems to mucosal surfaces Int. J. Pharm. 389 1-2 2010 24 31
E. Josef, and H. Bianco-Peled Sponges carrying self-microemulsifying drug delivery systems Int. J. Pharm. 458 1 2013 208 217
C. María, M.L.F. Gutiérrez, and Monte Francisco del Ice-templated materials sophisticated structures exhibiting enhanced functionalities obtained after unidirectional freezing and ice-segregation-induced self-assembly Chem. Mater. 20 2007 634 648
J.C. Kasper, and W. Friess The freezing step in lyophilization: physico-chemical fundamentals, freezing methods and consequences on process performance and quality attributes of biopharmaceuticals Eur. J. Pharm. Biopharm. 78 2 2011 248 263
J.C. Kasper, G. Winter, and W. Friess Recent advances and further challenges in lyophilization Eur. J. Pharm. Biopharm. 85 2 2013 162 169