Radiogenomic analysis of breast cancer by using B-mode and vascular US and RNA sequencing

Ah Young Park, Mi Ryung Han, Kyong Hwa Park, Jung Sun Kim, Gil Soo Son, Hye Yoon Lee, Young Woo Chang, Eun Kyung Park, Sang Hoon Cha, Yunjung Cho, Hyosun Hong, Kyu Ran Cho, Sung Eun Song, Ok Hee Woo, Ju Han Lee, Jaehyung Cha, Bo Kyoung Seo

Research output: Contribution to journalArticlepeer-review

15 Citations (Scopus)


Background: Radiogenomic investigations for breast cancer provide an understanding of tumor heterogeneity and discover image phenotypes of genetic variation. However, there is little research on the correlations between US features of breast cancer and whole-transcriptome profiling. Purpose: To explore US phenotypes reflecting genetic alteration relevant to breast cancer treatment and prognosis by comparing US images of tumor with their RNA sequencing results. Materials and Methods: From January to October 2016, B-mode and vascular US images in 31 women (mean age, 49 years 6 9 [standard deviation]) with breast cancer were prospectively analyzed. B-mode features included size, shape, echo pattern, orientation, margin, and calcifications. Vascular features were evaluated by using microvascular US and contrast agent–enhanced US: vascular index, vessel morphologic features, distribution, penetrating vessels, enhancement degree, order, margin, internal homogeneity, and perfusion defect. RNA sequencing was conducted with total RNA obtained from a surgical specimen by using next-generation sequencing. US features were compared with gene expression profiles, and ingenuity pathway analysis was used to analyze gene networks, enriched functions, and canonical pathways associated with breast cancer. The P value for differential expression was extracted by using a parametric F test comparing nested linear models. Results: Thirteen US features were associated with various patterns of 340 genes (P , .05). Nonparallel orientation at B-mode US was associated with upregulation of TFF1 (log twofold change [log2FC] = 4.0; P , .001), TFF3 (log2FC = 2.5; P , .001), AREG (log2FC = 2.6; P = .005), and AGR3 (log2FC = 2.6; P = .003). Complex vessel morphologic structure was associated with upregulation of FZD8 (log2FC = 2.0; P = .01) and downregulation of IGF1R (log2FC = 22.0; P = .006) and CRIPAK (log2FC = 22.4; P = .01). The top networks with regard to orientation or vessel morphologic structure were associated with cell cycle, death, and proliferation. Conclusion: Compared with RNA sequencing, B-mode and vascular US features reflected genomic alterations associated with hormone receptor status, angiogenesis, or prognosis in breast cancer.

Original languageEnglish
Pages (from-to)24-34
Number of pages11
Issue number1
Publication statusPublished - 2020

Bibliographical note

Funding Information:
Study supported by the Basic Science Research Program through the National Research Foundation of Korea (NRF-2017R1A2B4010178, NRF-2017R1D1A1B03031978) and Canon Medical Systems Korea.

Publisher Copyright:
© RSNA, 2020

ASJC Scopus subject areas

  • Radiology Nuclear Medicine and imaging


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