4.4 Article

MR imaging profile and histopathological characteristics of tumour vasculature, cell density and proliferation rate define two distinct growth patterns of human brain metastases from lung cancer

Journal

NEURORADIOLOGY
Volume 65, Issue 2, Pages 275-285

Publisher

SPRINGER
DOI: 10.1007/s00234-022-03060-2

Keywords

Brain metastasis; Magnetic resonance imaging; Imaging biomarker; Tumour vasculature; Histopathology

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By using MRI measurements and histopathological analysis, we can predict the primary tumor origin of brain metastases in a non-invasive manner and differentiate different types of brain metastases based on their proliferative status.
Purpose Non-invasive prediction of the tumour of origin giving rise to brain metastases (BMs) using MRI measurements obtained in radiological routine and elucidating the biological basis by matched histopathological analysis. Methods Preoperative MRI and histological parameters of 95 BM patients (female, 50; mean age 59.6 +/- 11.5 years) suffering from different primary tumours were retrospectively analysed. MR features were assessed by region of interest (ROI) measurements of signal intensities on unenhanced T1-, T2-, diffusion-weighted imaging and apparent diffusion coefficient (ADC) normalised to an internal reference ROI. Furthermore, we assessed BM size and oedema as well as cell density, proliferation rate, microvessel density and vessel area as histopathological parameters. Results Applying recursive partitioning conditional inference trees, only histopathological parameters could stratify the primary tumour entities. We identified two distinct BM growth patterns depending on their proliferative status: Ki67(high) BMs were larger (p = 0.02), showed less peritumoural oedema (p = 0.02) and showed a trend towards higher cell density (p = 0.05). Furthermore, Ki67(high) BMs were associated with higher DWI signals (p = 0.03) and reduced ADC values (p = 0.004). Vessel density was strongly reduced in Ki67(high) BM (p < 0.001). These features differentiated between lung cancer BM entities (p < 0.03 for all features) with SCLCs representing predominantly the Ki67(high )group, while NSCLCs rather matching with Ki67(low) features. Conclusion Interpretable and easy to obtain MRI features may not be sufficient to predict directly the primary tumour entity of BM but seem to have the potential to aid differentiating high- and low-proliferative BMs, such as SCLC and NSCLC.

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