The safety, tolerability, and efficacy of a neoadjuvant gemcitabine intravesical drug delivery system (TAR-200) in muscle-invasive bladder cancer patients: a phase I trial

Novel intravesical therapies and delivery systems for the management of bladder cancer

PURPOSE OF REVIEW

Bladder cancer is a substantial burden for public health worldwide. A risk-adapted treatment strategy is required for non muscle-invasive (NMIBC) and muscle-invasive bladder cancer (MIBC). To date, treatment includes surgery with or without peri-operative local or systemic treatment. The aim of this review was to explore novel intravesical therapies and delivery systems emerging in NMIBC and MIBC.

RECENT FINDINGS

Several novel intravesical therapies and delivery systems for NMIBC and MIBC treatment recently emerged. Hyperthermic intravesical chemotherapy (HIVEC) allows a reasonable cancer control in selected high-risk NMIBC. Novel intravesical drugs such as nadofaragene firadenovec, Oncofid-P-B or Nogapendekin alfa-inbakicept seem to be safe and well tolerated. However, their efficacy in high-risk NMIBC should be further investigated. Hydrogels appear to be safe, well tolerated and potentially efficient in primary chemoablation in selected cases of low-grade intermediate-risk NMIBC tumors. Drug-releasing intravesical systems (drug-RIS) such as TAR-200 are safe and well tolerated, providing high partial and complete response rate in both NMIBC and MIBC patients.

SUMMARY

The armamentarium for the treatment of bladder cancer patients is expanding, notably with HIVEC, hydrogels, drug-RIS and novel therapies. However, accurate patients' selection is key to prevent disease progression in any bladder-sparing strategy, and radical cystectomy remains the gold-standard to date.

Potential bladder cancer therapeutic delivery systems: a recent update

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.

An evaluation of nadofaragene firadenovec-vncg for the treatment of high-risk BCG-unresponsive non-muscle-invasive bladder cancer

INTRODUCTION

BCG-unresponsive non-muscle invasive bladder cancer (NMIBC) represent a significant therapeutic challenge in the treatment of bladder cancer. Nadofaragene firadenovec, represents a breakthrough in this area, offering a novel approach for the treatment of BCG-unresponsive NMIBC.

AREAS COVERED

This overview explores the historical development of nadofaragene firadenovec, assessing its efficacy and safety, and discusses future NMIBC therapy directions.

EXPERT OPINION

Patients with high grade NMIBC who are BCG unresponsive will have a growing number of treatment alternatives to bladder removal. Nadofaragene firadenovec offers good short-term efficacy but lacks significant durability for most patients. Its strengths include ease of administration and low risk of adverse events. This will need to balance with risk of progression and cost. Furthermore, the likely approval of other agents will require consideration of which therapy to use and for which patient. The need for biomarkers to tailor treatment choices to individual patient needs is becoming more critical. The treatment field is rapidly advancing, with several Phase 3 single-arm trials underway, indicating a potential broader range of treatment options for NMIBC. Further research will be necessary to determine the optimal choice for patients.

Current State of Minitablet Product Design: A Review

Interest in minitablets (MTs) has grown exponentially over the last 20 years and especially the last decade, as evidenced by the number of publications cited in Scopus and PubMed. MTs offer significant opportunities for personalized medicine, dose titration and flexible dosing, taste masking, and customizing drug delivery systems. Advances in specialized MT tooling, manufacturing, and characterization instrumentation have overcome many of the earlier development issues. Breakthrough MT swallowability, acceptability, and palatability research have challenged the long-standing idea that only liquids are acceptable dosage forms for infants and young children. MTs have been shown to be a highly acceptable dosage form for infants, small children, and geriatric patients who have difficulty swallowing. This review discusses the current state of MT applications, acceptability in pediatric and geriatric populations, medication adherence, manufacturing processes such as tableting and coating, running powder and tablet characterization, packaging and MT dispensing, and regulatory considerations.

Bladder Cancer and the Urinary Microbiome-New Insights and Future Directions: A Review

The presence of a microbiome in the urinary system has been established through recent advancements in technology and investigation of microbial communities in the human body. The study of the taxonomic and genomic ecology of microbial communities has been greatly improved by the use of metagenomics. The research in this area has expanded our understanding of microbial ecosystems and shows that the urinary tract contains over 100 species from over 50 genera, with Lactobacillus, Gardnerella, and Streptococcus being the most common. Previous studies have suggested that the microbiota in the urinary tract may play a role in carcinogenesis by causing chronic inflammation and genotoxicity, but more research is needed to reach a definite conclusion. This is a narrative review. We conducted a search for relevant publications by using the databases Medline/PubMed and Google Scholar. The search was based on keywords such as "urinary microbiome," "bladder cancer," "carcinogenesis," "urothelial carcinoma," and "next-generation sequencing." The retrieved publications were then reviewed to study the contribution of the urinary microbiome in the development of bladder cancer. The results have been categorized into four sections to enhance understanding of the urinary microbiome and to highlight its role in the emergence of bladder cancer through alterations in the immune response that involve T-cells and antibodies. The immune system and microbiome play crucial roles in maintaining health and preventing disease. Manipulating the immune system is a key aspect of various cancer treatments, and certain gut bacteria have been linked to positive responses to immunotherapies. However, the impact of these treatments on the urinary microbiome, and how diet and lifestyle affect it, are not well understood. Research in this area could have significant implications for improving bladder cancer treatment and patient outcomes.

The Safety, Tolerability, and Preliminary Efficacy of a Gemcitabine-releasing Intravesical System (TAR-200) in American Urological Association-defined Intermediate-risk Non-muscle-invasive Bladder Cancer Patients: A Phase 1b Study

Background and objective

Patients with intermediate-risk non-muscle-invasive bladder cancer (IR NMIBC) have a high risk of recurrence and need effective therapies to reduce the risk of disease recurrence or progression. This phase 1b study (NCT02720367) assessed the safety and tolerability of TAR-200, an intravesical drug delivery system, in participants with IR NMIBC.

Methods

Participants with recurrent IR NMIBC were eligible. Participants received either two 7-d or two 21-d TAR-200 dosing cycles over a 4-6-wk period in a marker lesion/ablation design. TAR-200 was placed in the window between the cystoscopy showing recurrent papillary disease and the subsequent complete transurethral resection of the bladder tumour. The primary endpoint was TAR-200 safety. The secondary endpoints included TAR-200 tolerability, pharmacokinetics, and preliminary efficacy.

Key findings and limitations

Twelve participants received TAR-200 treatment. No TAR-200-related serious or grade ≥ 3 treatment-emergent adverse events (TEAEs) occurred. Nine participants had grade ≤ 2 TAR-200-related TEAEs, with urgency, dysuria, and haematuria being most common. Two participants refused a second dosing cycle due to urinary urgency and frequency. Insertion and removal of TAR-200 was successful in all cases. Plasma gemcitabine concentrations remained below the lower limit of detection. Five participants (42%) had complete response (CR): four had pathological CR and one had CR based on visual assessment.

Conclusions and clinical implications

TAR-200 appears to be safe and well tolerated, with encouraging preliminary efficacy in participants with IR NMIBC. This study lays the groundwork for the multiple phase 2 and 3 global studies that are currently on-going for TAR-200.

Patient summary

In this study, researchers evaluated the safety of the novel drug delivery system TAR-200 in participants with intermediate-risk non-muscle-invasive bladder cancer. They concluded that TAR-200 was safe and well tolerated with promising antitumour activity.

Novel Delivery Mechanisms for Existing Systemic Agents and Emerging Therapies in Bladder Cancer

Systemic agents including immune checkpoint inhibitors, antibody-drug conjugates, and targeted therapies play a critical role in the management of bladder cancer. Novel localized delivery mechanisms for existing systemic agents explore solutions to improve treatment response without compromising safety. Herein, we review the contemporary innovations in modern intravesical agents, hyperthermic drug delivery, reverse-thermal gels, nanocarriers, gene therapy, and subcutaneous therapies.