Panel Sequencing for Targeted Therapy Selection in Solid Tumors
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- Title: Panel Sequencing for Targeted Therapy Selection in Solid Tumors
- Author: Nicholas Willard DO, Lynette Sholl MD and Dara Aisner MD, PhD
- Publisher: Elsevier Inc
- Publication: 2022
- Language: English
- Pages: 15
- Format: PDF
- File size: 386 KB
- DOI: 10.1016/j.cll.2022.04.004
- ID: CBR80
The genetic testing of solid tumors has evolved rapidly. With an ever-increasing number of clinically significant and/or actionable gene alterations in addition to increasing biologic, gene, or mutation-specific therapies, single-target testing is no longer suitable for many modern oncology patients. This review explores panel-based testing, including its history and evolution from prior testing modalities. We also discuss its current usefulness, as best exemplified by lung cancer, and other special considerations including a summary of the pros and cons of panel implementation and use. Lastly, we discuss the successes and challenges of panel-based testing and explore future directions.
Key points
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Panel-based testing via next-generation sequencing offers many advantages in identifying clinically relevant alterations over single-target techniques.
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Lung cancer serves as a prime example of the growing usefulness of panel-based testing, but this is increasingly being expanded to other tumor types.
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May nuanced considerations exist when implementing panel-based testing, including personnel training, bioinformatics, and reimbursement.
Introduction
Over the past 1 to 2 decades, molecular diagnostics has shifted from a focus on single gene or even single mutation target testing toward panel-based testing in many human diseases. In cancer management in particular, panel-based strategies provide a more effective strategy for the identification of the growing number of tumor and germline variants that have diagnostic, prognostic, and predictive usefulness. Within the realm of solid tumors, panel-based testing has gained traction in clinical practice, both owing to an ever-increasing number of therapeutically relevant targets, as well as greater assay accessibility and increasingly streamlined workflows. Next-generation sequencing (NGS) has largely driven this revolution because it permits massively parallel sequencing of a customizable number of genes and gene targets with relatively good analytical sensitivity. For the purposes of this review, panel-based testing is defined as the aggregation of genomic regions of interest into a single assay. This practice is in contrast with the interrogation of single exons and/or genes via standalone tests run in parallel or sequentially. We explore panel-based testing, including its history, current usefulness, and special considerations. We also show examples of the successes and challenges of panel-based sequencing and discuss potential future directions.
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