“A drop of fluid may now say what a scalpel once had to prove.”
Liquid biopsy is a minimally invasive method to detect tumor-derived biomarkers (ctDNA, CTCs, exosomes, microRNA) in body fluids—especially cerebrospinal fluid (CSF) or blood—to characterize and monitor intracranial metastases.
| Feature | CSF | Plasma |
|---|---|---|
| Proximity to brain lesion | ✅ Direct contact | ❌ Indirect |
| ctDNA yield in CNS disease | ✅ High | ❌ Low in brain-only mets |
| Invasiveness | ❌ Lumbar puncture required | ✅ Peripheral blood |
| Diagnostic sensitivity | ✅ Especially in leptomeningeal | ❌ Limited in CNS-only |
A review of Hongsermeier-Graves et al. 1) purports to explore the role of liquid biopsy in the early detection and monitoring of central nervous system (CNS) metastases, aligning itself with the precision medicine zeitgeist. The abstract recycles generic platitudes about tumor heterogeneity, genomic annotation, and immunotherapy response without offering CNS-specific insight.
Despite its title, the article treats CNS metastases as merely another metastatic niche. There is no meaningful exploration of the blood-brain barrier, the critical distinction between CSF and plasma-based detection, or the challenges of ctDNA shedding in isolated CNS lesions. These omissions are glaring for a paper claiming to address CNS-specific diagnostic tools.
The article reads like a compilation of PubMed alerts—a bloated medley of genomic buzzwords (EGFR, ALK, NGS, immunotherapy, resistance mutations) without structure, depth, or hierarchy. The authors oscillate between basic oncology reviews and surface-level CNS mentions, failing to deliver focused analysis or original synthesis.
Any mention of CNS-specific context (e.g., leptomeningeal disease, radiation necrosis) is decorative—mentioned briefly and then forgotten. The review indulges in academic name-dropping of promising technologies (like droplet digital PCR or methylation profiling) without critically addressing their limitations in CSF, such as low sensitivity in low-volume samples or contamination by peripheral blood DNA.
The paper worships “precision medicine” in the abstract sense, showcasing algorithmic vanity—pretending complexity and future-readiness by merely citing machine learning or “real-time genomic tracking” without concrete application in the neuro-oncological setting.
The review lacks quantitative backbone: there’s no discussion of sensitivity, specificity, PPV/NPV, or comparative metrics of liquid biopsy versus gold standards (surgical biopsy, MRI, CSF cytology). It's all theoretical promises—no performance benchmarks, no validation studies.
For the neurosurgeon, this paper is epistemological fluff: it provides no decision-making guidance, no workflow integration, and no criteria for when or how liquid biopsy is truly actionable in CNS metastatic patients. It romanticizes “monitoring” without specifying how results would change neurosurgical or neuro-oncological management.
Ultimately, the review functions more as a marketing pamphlet for liquid biopsy platforms than a critical appraisal of current clinical utility. It smacks of sponsored optimism, designed to attract citations and institutional funding, not to educate clinicians who face the daily ambiguity of treating brain metastases.
This is not a review. It's a genomic TED talk in disguise.
Liquid biopsy collect and analyze tumor components in body fluids, and there is an increasing interest in the investigation of liquid biopsies as a surrogate for tumor tissue in the management of both primary and secondary brain tumors.
Boire et al., critically reviewed available literature on spinal fluid and plasma circulating tumor cells (CTCs) and cell-free tumor (ctDNA) for diagnosis and monitoring of leptomeningeal and parenchymal brain metastases. We discuss technical issues and propose several potential applications of liquid biopsies in different clinical settings, i.e. for initial diagnosis, for assessment during treatment and for guidance of treatment decisions. Last, ongoing clinical studies on CNS metastases, that include liquid biopsies, are summarized and recommendations for future clinical studies are provided 2).
Boire et al., critically reviewed available literature on spinal fluid and plasma circulating tumor cells (CTCs) and cell-free tumor (ctDNA) for diagnosis and monitoring of leptomeningeal and parenchymal brain metastases.
They discuss technical issues and propose several potential applications of liquid biopsies in different clinical settings, i.e. for initial diagnosis, for assessment during treatment and for guidance of treatment decisions. Last, ongoing clinical studies on CNS metastases, that include liquid biopsies, are summarized and recommendations for future clinical studies are provided 3).