Logo
Nazad
Dr Kevin Litchfield, S. Stanislaw, L. Spain, L. Gallegos, A. Rowan, Desiree Schnidrig, Heidi Rosenbaum, A. Harlé, L. Au, S. Hill, Z. Tippu, Jennifer Thomas, Hang Xu, S. Horswell, A. Barhoumi, Carol Jones, Katherine Leith, Daniel L Burgess, T. Watkins, E. Lim, Nicolai J. Birkbak, P. Lamy, I. Nordentoft, L. Dyrskjøt, S. Hazell, M. Jamal-Hanjani, J. Larkin, C. Swanton, Nelson R. Alexander, S. Turajlic
47 1. 5. 2020.

Representative Sequencing: Unbiased Sampling of Solid Tumor Tissue.

Although thousands of solid tumors have been sequenced to date, a fundamental under-sampling bias is inherent in current methodologies. This is caused by a tissue sample input of fixed dimensions (e.g., 6 mm biopsy), which becomes grossly under-powered as tumor volume scales. Here, we demonstrate representative sequencing (Rep-Seq) as a new method to achieve unbiased tumor tissue sampling. Rep-Seq uses fixed residual tumor material, which is homogenized and subjected to next-generation sequencing. Analysis of intratumor tumor mutation burden (TMB) variability shows a high level of misclassification using current single-biopsy methods, with 20% of lung and 52% of bladder tumors having at least one biopsy with high TMB but low clonal TMB overall. Misclassification rates by contrast are reduced to 2% (lung) and 4% (bladder) when a more representative sampling methodology is used. Rep-Seq offers an improved sampling protocol for tumor profiling, with significant potential for improved clinical utility and more accurate deconvolution of clonal structure.


Pretplatite se na novosti o BH Akademskom Imeniku

Ova stranica koristi kolačiće da bi vam pružila najbolje iskustvo

Saznaj više