BACKGROUND: There is widespread recognition of the potential promise of vaginal microbicides as a tool to combat global human immunodeficiency virus/acquired immunodeficiency syndrome and sexually transmitted infections epidemics, and candidate product development has maintained a rapid pace in recent years; however, rectal microbicide development has received less attention. As it is likely that commercial products developed for vaginal use will also be used rectally, there is a clear need to assess the safety and efficacy of candidate microbicide products specifically in the rectal compartment. METHODS: We have developed a standardized protocol for preclinical rectal safety and (chlamydial) efficacy assessment of topical microbicide candidates in a nonhuman primate model. We evaluated a total of 12 test compounds for rectal safety (via rectal pH, microflora, and rectal lavage) and 1 compound for efficacy against rectal chlamydial infection. RESULTS: In this article, we describe our methods in detail and summarize our results, particularly noting the ability of our model to distinguish products with deleterious effects on the rectal environment. We also outline the specific criteria used to recommend products move into preclinical rectal efficacy trials or be recommended for reformulation to the product developer. In summary, we observed significant adverse effects in 2 products. The single product that underwent efficacy evaluation was not observed to be protective against rectal chlamydial infection. CONCLUSIONS: A preclinical safety and efficacy model is critical to promoting rectal microbicide development, which will ultimately offer a significant opportunity for intervention in the global HIV/AIDS epidemic.
BACKGROUND: There is widespread recognition of the potential promise of vaginal microbicides as a tool to combat global humanimmunodeficiency virus/acquired immunodeficiency syndrome and sexually transmitted infections epidemics, and candidate product development has maintained a rapid pace in recent years; however, rectal microbicide development has received less attention. As it is likely that commercial products developed for vaginal use will also be used rectally, there is a clear need to assess the safety and efficacy of candidate microbicide products specifically in the rectal compartment. METHODS: We have developed a standardized protocol for preclinical rectal safety and (chlamydial) efficacy assessment of topical microbicide candidates in a nonhuman primate model. We evaluated a total of 12 test compounds for rectal safety (via rectal pH, microflora, and rectal lavage) and 1 compound for efficacy against rectal chlamydial infection. RESULTS: In this article, we describe our methods in detail and summarize our results, particularly noting the ability of our model to distinguish products with deleterious effects on the rectal environment. We also outline the specific criteria used to recommend products move into preclinical rectal efficacy trials or be recommended for reformulation to the product developer. In summary, we observed significant adverse effects in 2 products. The single product that underwent efficacy evaluation was not observed to be protective against rectal chlamydial infection. CONCLUSIONS: A preclinical safety and efficacy model is critical to promoting rectal microbicide development, which will ultimately offer a significant opportunity for intervention in the global HIV/AIDS epidemic.
Authors: David M Phillips; Kristin M Sudol; Clark L Taylor; Laura Guichard; Robert Elsen; Robin A Maguire Journal: Contraception Date: 2004-08 Impact factor: 3.375
Authors: C A Gaydos; T C Quinn; D Willis; A Weissfeld; E W Hook; D H Martin; D V Ferrero; J Schachter Journal: J Clin Microbiol Date: 2003-01 Impact factor: 5.948
Authors: Lin Wang; Alexandra Beumer Sassi; Dorothy Patton; Charles Isaacs; B J Moncla; Phalguni Gupta; Lisa Cencia Rohan Journal: Drug Dev Ind Pharm Date: 2011-12-10 Impact factor: 3.225
Authors: Tara R Henning; Katherine Butler; Debra Hanson; Gail Sturdevant; Shanon Ellis; Elizabeth M Sweeney; James Mitchell; Frank Deyounks; Christi Phillips; Carol Farshy; Yetunde Fakile; John Papp; W Evan Secor; Harlan Caldwell; Dorothy Patton; Janet M McNicholl; Ellen Kersh Journal: J Infect Dis Date: 2014-04-21 Impact factor: 5.226