Potential bladder cancer therapeutic delivery systems: a recent update.

Expert opinion on drug delivery Pub Date : 2024-09-01 Epub Date: 2024-09-11 DOI:10.1080/17425247.2024.2396958
Oluwadamilola M Kolawole, Vitaliy V Khutoryanskiy
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Abstract

Introduction: Bladder Cancer is one of the most expensive cancers to treat due to its high cost of therapy as well as the surveillance expenses incurred to prevent disease recurrence and progression. Thus, there is a strong need to develop safe, efficacious drug formulations with controlled drug release profiles and tumor-targeting potential, for improved therapeutic outcomes of bladder cancer patients.

Areas covered: This review aims to provide an overview of drug formulations that have been studied for potential bladder cancer treatment in the last decade; highlight recent trends in bladder cancer treatment; mention ongoing clinical trials on bladder cancer chemotherapy; detail recently FDA-approved drug products for bladder cancer treatment and identify constraints that have prevented the translation of promising drug formulations from the research laboratory to the clinics.

Expert opinion: This work revealed that surface functionalization of particulate drug delivery systems and incorporating the nanoparticles into in situ gelling systems could facilitate controlled drug release for extended periods, and improve the prognosis of bladder cancer treatment. Future research directions could incorporate multiple drugs into the drug delivery systems to treat advanced stages of the disease. In addition, smart nanomaterials, including photothermal therapies, could be exploited to improve the therapeutic outcomes of bladder cancer patients.

潜在的膀胱癌治疗给药系统:最新进展。
简介膀胱癌是治疗费用最昂贵的癌症之一,因为其治疗费用高昂,而且为防止疾病复发和恶化还需花费大量的监控费用。因此,为了改善膀胱癌患者的治疗效果,亟需开发安全、有效、药物释放可控且具有肿瘤靶向潜力的药物制剂:本综述旨在概述过去十年中为潜在的膀胱癌治疗而研究的药物制剂;强调膀胱癌治疗的最新趋势;提及正在进行的膀胱癌化疗临床试验;详细介绍美国食品及药物管理局(FDA)最近批准用于膀胱癌治疗的药物产品,并找出阻碍有前景的药物制剂从研究实验室转化到临床的制约因素:这项研究揭示了颗粒给药系统的表面功能化以及将纳米颗粒纳入原位胶凝系统可促进药物的长期控制释放,并改善膀胱癌治疗的预后。未来的研究方向是在给药系统中加入多种药物,以治疗晚期膀胱癌。此外,还可以利用智能纳米材料,包括光热疗法,改善膀胱癌患者的治疗效果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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