Data from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Data from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Data from Longitudinal Liquid Biopsy and Mathematical Modeling of Clonal Evolution Forecast Time to Treatment Failure in the PROSPECT-C Phase II Colorectal Cancer Clinical Trial

Data from Longitudinal Liquid Biopsy and Mathematical Modeling of Clonal Evolution Forecast Time to Treatment Failure in the PROSPECT-C Phase II Colorectal Cancer Clinical Trial

Supplementary Data from Longitudinal Liquid Biopsy and Mathematical Modeling of Clonal Evolution Forecast Time to Treatment Failure in the PROSPECT-C Phase II Colorectal Cancer Clinical Trial

Supplementary Figure S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S2 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S2 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S3 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S3 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S4 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S4 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S5 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S5 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Figure S6 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Methods S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Methods S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Table S4 from Longitudinal Liquid Biopsy and Mathematical Modeling of Clonal Evolution Forecast Time to Treatment Failure in the PROSPECT-C Phase II Colorectal Cancer Clinical Trial

Supplementary Tables S1-S19 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Tables S1-S19 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Tables from Longitudinal Liquid Biopsy and Mathematical Modeling of Clonal Evolution Forecast Time to Treatment Failure in the PROSPECT-C Phase II Colorectal Cancer Clinical Trial

Supplementary Video S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Video S1 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Video S2 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer

Supplementary Video S2 from Circulating microRNA Analysis in a Prospective Co-clinical Trial Identifies MIR652–3p as a Response Biomarker and Driver of Regorafenib Resistance Mechanisms in Colorectal Cancer