Breast cancer is one of the most frequently diagnosed cancers in women and the major cause of worldwide cancer-related deaths among women. Various treatment strategies including conventional chemotherapy, immunotherapy, gene therapy, gene silencing and deliberately engineered nanomaterials for receptor mediated targeted delivery of anticancer drugs, antibodies, and small-molecule inhibitors, etc are being investigated by scientists to combat breast cancer. Smartly designed/fabricated nanomaterials are being explored to target breast cancer through enhanced permeation and retention effect; and also, being conjugated with suitable ligand for receptor-mediated endocytosis to target breast cancer for diagnostic, and theranostic applications. These receptor-targeted nanomedicines have shown efficacy to target specific tumor tissue/cells abstaining the healthy tissues/cells from cytotoxic effect of anticancer drug molecules. In the last few decades, theranostic nanomedicines have gained much attention among other nanoparticle systems due to their unique ability to deliver chemotherapeutic as well as diagnostic agents, simultaneously. Theranostic nanomaterials are emerging as novel paradigm with ability for concurrent delivery of imaging (with contrasting agents), targeting (with biomarkers), and anticancer therapeutics with one delivery system (as cancer theranostics) and can transpire as promising strategy to overcome various hurdles for effective management of breast cancer including its most aggressive form, triple-negative breast cancer.
Aim: Bedaquiline fumarate (BQF), an antitubercular drug, shows limited bioavailability due to solubility-limited intestinal absorption. In this research, the authors formulated a BQF-loaded microemulsion to improve BQF's oral bioavailability. Methods: Microemulsion was prepared by a spontaneous emulsification method and evaluated for thermodynamic stability, size, dispersibility, transmittance, rheology, microrheology, drug release, cytotoxicity and cellular uptake. Results: Microemulsion showed an average globule size of 26.50 ± 6.29 nm with spherical geometry and revealed gel-sol-gel behavior in microrheological studies. Cytotoxicity and cell uptake studies in Caco-2 cells showed that BQF microemulsion was cytocompatible at the highest concentration of 500 μg/ml with significantly higher cellular uptake than control. Conclusion: The present study indicates that BQF microemulsion could be explored further for effective treatment of multidrug-resistant tuberculosis.
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