Vaginal Delivery of Paclitaxel via Nanoparticles with Non‐Mucoadhesive Surfaces Suppresses Cervical Tumor Growth

Abstract: Local delivery of chemotherapeutics in the cervicovaginal tract using nanoparticles may reduce adverse side effects associated with systemic chemotherapy, while improving outcomes for early stage cervical cancer. We hypothesize drug-loaded nanoparticles must rapidly penetrate cervicovaginal mucus (CVM) lining the female reproductive tract to effectively deliver their payload to underlying diseased tissues in a uniform and sustained manner. We develop paclitaxel-loaded nanoparticles, composed entirely of polyme… Show more

“…In the 320 present study, PLGA was selected as an alternative polymeric 321 matrix for the nano-formulation of dapivirine due to its wide use322 and versatility in the preparation of drug-loaded NPs, and well 323 documented biocompatibility and safety[27]. Indeed, different 324 groups attested the suitability of PLGA NPs for active compound 325 delivery with different vaginal therapeutic purposes[28,29]. Initial 326 experiments determined the effect of increasing amounts of dapi-327 virine in the colloidal properties of NPs.…”

“…Dapivirine-loaded poly(D,L-lactic-co- 29 glycolic acid) (PLGA) NPs were produced by an emulsion-solvent evaporation method, optimized for col- 30 loidal properties using a 3-factor, 3-level Box-Behnken experimental design, and characterized for drug 31 loading, production yield, morphology, thermal behavior, drug release, in vitro cellular uptake, cyto- 32 toxicity and pro-inflammatory potential. Also, drug permeability/membrane retention in well-estab- 33 lished HEC-1-A and CaSki cell monolayer models as mediated by NPs was assessed in the absence or 34 presence of mucin.…”

Precise engineering of dapivirine-loaded nanoparticles for the development of anti-HIV vaginal microbicides

“…In the 320 present study, PLGA was selected as an alternative polymeric 321 matrix for the nano-formulation of dapivirine due to its wide use322 and versatility in the preparation of drug-loaded NPs, and well 323 documented biocompatibility and safety[27]. Indeed, different 324 groups attested the suitability of PLGA NPs for active compound 325 delivery with different vaginal therapeutic purposes[28,29]. Initial 326 experiments determined the effect of increasing amounts of dapi-327 virine in the colloidal properties of NPs.…”

“…Dapivirine-loaded poly(D,L-lactic-co- 29 glycolic acid) (PLGA) NPs were produced by an emulsion-solvent evaporation method, optimized for col- 30 loidal properties using a 3-factor, 3-level Box-Behnken experimental design, and characterized for drug 31 loading, production yield, morphology, thermal behavior, drug release, in vitro cellular uptake, cyto- 32 toxicity and pro-inflammatory potential. Also, drug permeability/membrane retention in well-estab- 33 lished HEC-1-A and CaSki cell monolayer models as mediated by NPs was assessed in the absence or 34 presence of mucin.…”

Precise engineering of dapivirine-loaded nanoparticles for the development of anti-HIV vaginal microbicides

“…In this last case, differences in mucus samples and PEGylation protocols may justify contradictory data. The potential value of densely PEG-modified NPs in improving vaginal distribution of nanocarriers or nanosized drugs, including at collapsed mucosal folds, has been further demonstrated by Hanes and collaborators in both ex vivo [77] and animal in vivo [78][79][80] experiments. In particular, the administration of mucus-penetrating NPs in a hypotonic vehicle (water) was able to enhance mucus transport.…”

“…In addition, median survival of mice treated with mucus-penetrating NPs was 19 days, contrasting with 11 and 9 days for other treatments and control, respectively. These positive results for mucus-penetrating NPs were correlated with their ability to penetrate mucus, as well as distribute more uniformly and enhance drug retention in the cervicovaginal tract of mice than mucoadhesive NPs [80].…”

“…Yang et al [80] recently reported on the potential of two different types of NPs for the vaginal delivery control and other treatments (Figure 10). In addition, median survival of mice treated with mucus-penetrating NPs was 19 days, contrasting with 11 and 9 days for other treatments and control, respectively.…”

Polymer-based nanocarriers for vaginal drug delivery

Vaginal Bioadhesive Drug Delivery Systems and Their Applications