Intravesical combination therapies for non-muscle invasive bladder cancer: Recent advances and future directions.

Bladder cancer is the 10th most frequently diagnosed cancer worldwide with 5-year survival rate around 70%. The current first-line treatment for non-muscle invasive bladder cancer is transurethral resection of bladder tumours followed by intravesical Mycobacterium Bovis Bacillus Calmette-Guérin (BCG) immunotherapy. However, tumor recurrence rate is still high ranging from 31% to 78% within five years. To avoid radical cystectomy, intravesical combination therapies have been developed as salvage treatments to overcome BCG failure. Recent advances in diagnostics thanks to tumor molecular profiling and in treatment such as development of immunotherapies provides more treatment options beyond BCG treatment. This also goes hand-in hand with formulation advances to deliver these new therapies where traditional drug delivery systems might not be suitable, which in turn is completed by challenges to deliver drugs via the intravesical route. In this article the aim was to provide an in-depth analysis of the current developments of intravesical combination therapies, ranging from relatively simple combinations of mixing existed intravesical therapeutic agents (immunotherapies and chemotherapies) to the combined formulations containing advanced gene therapies and targeted therapies, with special focus on therapies that have made it to the clinical trial stage. In addition, recent attempts to utilize device-assisted treatments and novel drug delivery platforms are included. This review also highlights the limitations that still need to be overcome such as the inadequate studies on newly explored drug carriers and proposes potential directions for future work to overcome BCG-failure.

Current Topical Strategies for Skin-Aging and Inflammaging Treatment: Science versus Fiction.

Aging is a natural phenomenon that affects the whole body, including the skin. As we age, endogenous and exogenous factors cause our skin to become thinner, paler, and wrinkled. Although the underlying mechanisms of the pathogenesis of skin aging are not entirely known, multiple pathways have been proposed. Inflammaging has recently emerged as a pathway that correlates aging and age-related diseases with inflammation. This review discusses the role and pathways of inflammaging that lead to skin aging. Moreover, strategies and current topical approaches for skin-aging treatment are discussed. Studies over the past 10 years suggested that DNA damage and oxidative stress are the most critical mechanisms in skin aging, and both are interlinked with inflammaging. Several treatments for skin aging have been considered such as antioxidants, hormone replacement therapy, and vitamins. To deliver anti-aging agents topically, researchers adopted numerous approaches to enhance skin penetration including physical, chemical, or biomaterial enhancers and carrier-based formulations. In recent years, consumers' demands for anti-aging products have considerably risen, leading to robust growth in the anti-aging market. Therefore, further in-depth studies are necessary to understand skin-aging mechanisms and evaluate the efficacy of anti-aging products to protect consumers worldwide by providing them safe and effective over-the-counter skin-aging formulations.

Elaboration of polymersomes versus conventional liposomes for improving oral bioavailability of the anticancer flutamide.

AIM: Flutamide is an outstanding anticancer drug with poor oral bioavailability. This is the first work to investigate the potential of polymersomes versus conventional liposomes to improve flutamide bioavailability. MATERIALS & METHODS: Polymersomes were prepared by solvent-switching technique and successfully optimized with excellent nanometric size (143 nm) and ζ-potential (-33.4 mV). Physicochemical characterization, stability in gastrointestinal tract and in vivo oral pharmacokinetics in male Sprague-Dawely rats were performed. RESULTS: A significantly higher stability in simulated intestinal fluid was demonstrated by polymersomes compared with liposomes. Great improvement in flutamide oral bioavailability in polymersomes compared with both liposomes and drug suspension was obtained. CONCLUSION: Polymersomes are promising nanoplatforms to overcome stability problems of liposomes and to improve flutamide oral bioavailability.