Protective Effect of a Thermoreversible Gel Against the Toxicity of Nonoxynol-9

Background and Objectives: One major problem associated with the use of nonoxynol-9 is that it can induce local inflammation and ulceration of the vaginal and cervical mucosa that might favor the entry of pathogens. With the aim of developing a gel formulation that could be effective in preventing s...

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Bibliographic Details
Published in:Sexually transmitted diseases 1999-03, Vol.26 (3), p.177-183
Main Authors: GAGNÉ, NATHALIE, CORMIER, HÉLÈNE, OMAR, RABEEA F., DÉSORMEAUX, ANDRÉ, GOURDE, PIERRETTE, TREMBLAY, MICHEL J., JUHÁSZ, JULIANNA, BEAUCHAMP, DENIS, RIOUX, JACQUES E., BERGERON, MICHEL G.
Format: Article
Language:English
Subjects:
Animals
Biological and medical sciences
Birth control
Diffusion
Drug Interactions
Female
Gels
Gynecology. Andrology. Obstetrics
Infections
Medical sciences
Mucous Membrane - drug effects
Nonoxynol - toxicity
Other methods of contraception. Sterilization
Polyethylene Glycols
Polymers
Polypropylenes
Prevention
Protective Agents
Rabbits
Sexually transmitted diseases
STD
Toxicity
Tumor Cells, Cultured
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Summary:Background and Objectives: One major problem associated with the use of nonoxynol-9 is that it can induce local inflammation and ulceration of the vaginal and cervical mucosa that might favor the entry of pathogens. With the aim of developing a gel formulation that could be effective in preventing sexually transmitted infections, the authors have evaluated the capacity of a polyoxypropylene/polyoxyethylene polymer to reduce or eliminate the toxicity of nonoxynol-9. Study Design: The cytotoxicity of nonoxynol-9 alone or incorporated into the gel was investigated in human cervical and colon epithelial cells and after daily intravaginal application for 2 weeks in rabbits. Results: In vitro experiments showed that nonoxynol-9 was highly toxic to human cervical and colon epithelial cells in a dose-dependent manner. However, the incorporation of the spermicide into the gel markedly reduced its toxicity under the same experimental conditions. In vivo studies showed that in animals treated with nonoxynol-9, the spermicide was very toxic to the vaginal and cervical mucosa as evidenced by the presence of bleeding, irritation, epithelial disruption, necrosis, the accumulation of leukocytes in the submucosa, and the loss of integrity of the epithelial cells. Of prime importance, the incorporation of nonoxynol-9 into the gel markedly reduced the toxicity of this potent spermicide/microbicide. Conclusion: The gel formulation could be used as an interesting approach to eliminate the toxicity of potent spermicides/microbicides such as nonoxynol-9.
ISSN:0148-5717
1537-4521
DOI:10.1097/00007435-199903000-00009