Blood-Brain Barrier Disruption in Neuro-Oncology: Strategies, Failures, and Challenges to Overcome.

Authors: Karmur BS, Philteos J, Abbasian A, Zacharia BE, Lipsman N, Levin V, Grossman S, Mansouri A

The blood-brain barrier (BBB) presents a formidable challenge in the development of effective therapeutics in neuro-oncology. This has fueled several decades of efforts to develop strategies for disrupting the BBB, but progress has not been satisfactory. As such, numerous drug- and device-based methods are currently being investigated in humans. Through a focused assessment of completed, active, and pending clinical trials, our first aim in this review is to outline the scientific foundation, successes, and limitations of the BBBD strategies developed to date. Among 35 registered trials relevant to BBBD in neuro-oncology in the ClinicalTrials.gov database, mannitol was the most common drug-based method, followed by RMP-7 and regadenoson. MR-guided focused ultrasound was the most common device-based method, followed by MR-guided laser ablation, ultrasound, and transcranial magnetic stimulation. While most early-phase studies focusing on safety and tolerability have met stated objectives, advanced-phase studies focusing on survival differences and objective tumor response have been limited by heterogeneous populations and tumors, along with a lack of control arms. Based on shared challenges among all methods, our second objective is to discuss strategies for confirmation of BBBD, choice of systemic agent and drug design, alignment of BBBD method with real-world clinical workflow, and consideration of inadvertent toxicity associated with disrupting an evolutionarily-refined barrier. Finally, we conclude with a strategic proposal to approach future studies assessing BBBD.

Introduction

Purpose Drug delivery with BBB opening

Study Objective To review and assess clinical trials of blood–brain barrier disruption in neuro-oncology, outlining the scientific basis, successes, and limitations of existing BBBD strategies.

Animal model / Human subject Homo sapiens (human); strain: N/A; age: not specified; sex: not specified

Disease model brain tumors (neuro-oncology)

MRI or image guidance method MR-guided focused ultrasound

Cargo name and characteristics Mannitol — small-molecule osmotic agent (used to transiently disrupt the BBB); RMP-7 (Cereport) — bradykinin-analogue peptide (peptide agonist to increase BBB permeability); Regadenoson — small-molecule adenosine A2A receptor agonist (pharmacologic BBB modulation)

Outcomes and Safety

Summary of Outcomes Early-phase trials showed that various BBB disruption methods (notably MR‑guided focused ultrasound) can safely produce transient BBB opening to enable drug delivery, but later-phase studies found limited efficacy for survival or objective tumor response largely due to heterogeneous cohorts and lack of control arms. The review names MR‑guided focused ultrasound as the most common device-based method; no specific focused ultrasound parameters were reported as consistently successful.

Safety-related matter Most early-phase BBBD studies met stated safety and tolerability objectives. The review also warns about potential inadvertent toxicity from disrupting the BBB and notes termination of several lines of investigation, though no specific adverse events are detailed.

Brain Region

Visualization unavailable

Ultrasound Parameters

Focal Characteristics Focal depth: None; Focal length: None; Aperture size: None

We are open to feedback. If you see a mistake or have a suggestion, please contact us.