Your search keyword '"Amanda Frydendahl"' showing total 24 results

1. DREAMS: deep read-level error model for sequencing data applied to low-frequency variant calling and circulating tumor DNA detection

Author

Mikkel H. Christensen, Simon O. Drue, Mads H. Rasmussen, Amanda Frydendahl, Iben Lyskjær, Christina Demuth, Jesper Nors, Kåre A. Gotschalck, Lene H. Iversen, Claus L. Andersen, and Jakob Skou Pedersen

Subjects

Circulating tumor DNA, Next-generation sequencing, Cancer research, Colorectal cancer, Machine learning, Biology (General), QH301-705.5, Genetics, QH426-470

Abstract

Abstract Circulating tumor DNA detection using next-generation sequencing (NGS) data of plasma DNA is promising for cancer identification and characterization. However, the tumor signal in the blood is often low and difficult to distinguish from errors. We present DREAMS (Deep Read-level Modelling of Sequencing-errors) for estimating error rates of individual read positions. Using DREAMS, we develop statistical methods for variant calling (DREAMS-vc) and cancer detection (DREAMS-cc). For evaluation, we generate deep targeted NGS data of matching tumor and plasma DNA from 85 colorectal cancer patients. The DREAMS approach performs better than state-of-the-art methods for variant calling and cancer detection.

Published

2023

2. Error-Corrected Deep Targeted Sequencing of Circulating Cell-Free DNA from Colorectal Cancer Patients for Sensitive Detection of Circulating Tumor DNA

Author

Amanda Frydendahl, Mads Heilskov Rasmussen, Sarah Østrup Jensen, Tenna Vesterman Henriksen, Christina Demuth, Mathilde Diekema, Henrik Jørn Ditzel, Sara Witting Christensen Wen, Jakob Skou Pedersen, Lars Dyrskjøt, and Claus Lindbjerg Andersen

Subjects

ctDNA, cfDNA, cell-free tumor DNA, liquid biopsy, colorectal cancer, minimal residual disease, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

Circulating tumor DNA (ctDNA) is a promising biomarker, reflecting the presence of tumor cells. Sequencing-based detection of ctDNA at low tumor fractions is challenging due to the crude error rate of sequencing. To mitigate this challenge, we developed ultra-deep mutation-integrated sequencing (UMIseq), a fixed-panel deep targeted sequencing approach, which is universally applicable to all colorectal cancer (CRC) patients. UMIseq features UMI-mediated error correction, the exclusion of mutations related to clonal hematopoiesis, a panel of normal samples for error modeling, and signal integration from single-nucleotide variations, insertions, deletions, and phased mutations. UMIseq was trained and independently validated on pre-operative (pre-OP) plasma from CRC patients (n = 364) and healthy individuals (n = 61). UMIseq displayed an area under the curve surpassing 0.95 for allele frequencies (AFs) down to 0.05%. In the training cohort, the pre-OP detection rate reached 80% at 95% specificity, while it was 70% in the validation cohort. UMIseq enabled the detection of AFs down to 0.004%. To assess the potential for detection of residual disease, 26 post-operative plasma samples from stage III CRC patients were analyzed. From this we found that the detection of ctDNA was associated with recurrence. In conclusion, UMIseq demonstrated robust performance with high sensitivity and specificity, enabling the detection of ctDNA at low allele frequencies.

Published

2024

3. Validation of computational determination of microsatellite status using whole exome sequencing data from colorectal cancer patients

Author

Amanda Frydendahl Boll Johansen, Christine Gaasdal Kassentoft, Michael Knudsen, Maria Bach Laursen, Anders Husted Madsen, Lene Hjerrild Iversen, Kåre Gotschalck Sunesen, Mads Heilskov Rasmussen, and Claus Lindbjerg Andersen

Subjects

MSIsensor, Colorectal cancer, DNA mismatch repair deficiency, Microsatellite instability, MSI, MSS, Neoplasms. Tumors. Oncology. Including cancer and carcinogens, RC254-282

Abstract

Abstract Background Microsatellite instability (MSI), resulting from a defective mismatch repair system, occurs in approximately 15% of sporadic colorectal cancers (CRC). Since MSI is associated with a poor response to 5-fluorouracile based chemotherapy and is a positive predictive marker of immunotherapy, it is routine practice to evaluate the MSI status of resected tumors in CRC patients. MSIsensor is a novel computational tool for determining MSI status using Next Generation Sequencing. However, it is not widely used in the clinic and has not been independently validated in exome data from CRC. To facilitate clinical implementation of computational determination of MSI status, we compared MSIsensor to current gold standard methods for MSI testing. Methods MSI status was determined for 130 CRC patients (UICC stage I-IV) using immunohistochemistry, PCR based microsatellite stability testing and by applying MSIsensor to exome sequenced tumors and paired germline DNA. Furthermore, we investigated correlation between MSI status, mutational load and mutational signatures. Results Eighteen out of 130 (13.8%) patients were microsatellite instable. We found a 100% agreement between MSIsensor and gold standard methods for MSI testing. All MSI tumors were hypermutated. In addition, two microsatellite stable (MSS) tumors were hypermutated, which was explained by a dominant POLE signature and pathogenic POLE mutations (p.Pro286Arg and p.Ser459Phe). Conclusion MSIsensor is a robust tool, which can be used to determine MSI status of tumor samples from exome sequenced CRC patients.

Published

2019

4. Dreams:deep read-level error model for sequencing data applied to low-frequency variant calling and circulating tumor DNA detection

Author

Mikkel H. Christensen, Simon Drue, Mads H. Rasmussen, Amanda Frydendahl, Iben Lyskjær, Christina Demuth, Jesper Nors, Kåre A. Gotschalck, Lene H. Iversen, Claus L. Andersen, and Jakob Skou Pedersen

Subjects

High-Throughput Nucleotide Sequencing/methods, Circulating Tumor DNA/genetics, Humans, Neoplasms/diagnosis

Abstract

Circulating tumor DNA detection using Next-Generation Sequencing (NGS) data of plasma DNA is promising for cancer identification and characterization. However, the tumor signal in the blood is often low and difficult to distinguish from errors. We present DREAMS (Deep Read-level Modelling of Sequencing-errors) for estimating error rates of individual read positions. Using DREAMS, we developed statistical methods for variant calling (DREAMS-vc) and cancer detection (DREAMS-cc).For evaluation, we generated deep targeted NGS data of matching tumor and plasma DNA from 85 colorectal cancer patients. The DREAMS approach performed better than state-of-the-art methods for variant calling and cancer detection.

Published

2023

5. Supplementary Data from Circulating Tumor DNA in Stage III Colorectal Cancer, beyond Minimal Residual Disease Detection, toward Assessment of Adjuvant Therapy Efficacy and Clinical Behavior of Recurrences

Author

Claus Lindbjerg Andersen, Andres Cervantes, Alexey Aleshin, Himanshu Sethi, Kåre Andersson Gotschalck, Lene Hjerrild Iversen, Ole Thorlacius-Ussing, Per Vadgaard Andersen, Uffe S. Løve, Anders Husted Madsen, Susana Roselló, Marisol Huerta, Desamparados Roda, Dina Hafez, Derrick Renner, Shruti Sharma, Juan Antonio Carbonell-Asins, Francisco Gimeno-Valiente, Thomas Reinert, Amanda Frydendahl, Noelia Tarazona, and Tenna Vesterman Henriksen

Abstract

Supplementary Data from Circulating Tumor DNA in Stage III Colorectal Cancer, beyond Minimal Residual Disease Detection, toward Assessment of Adjuvant Therapy Efficacy and Clinical Behavior of Recurrences

Published

2023

6. Data from Circulating Tumor DNA in Stage III Colorectal Cancer, beyond Minimal Residual Disease Detection, toward Assessment of Adjuvant Therapy Efficacy and Clinical Behavior of Recurrences

Author

Claus Lindbjerg Andersen, Andres Cervantes, Alexey Aleshin, Himanshu Sethi, Kåre Andersson Gotschalck, Lene Hjerrild Iversen, Ole Thorlacius-Ussing, Per Vadgaard Andersen, Uffe S. Løve, Anders Husted Madsen, Susana Roselló, Marisol Huerta, Desamparados Roda, Dina Hafez, Derrick Renner, Shruti Sharma, Juan Antonio Carbonell-Asins, Francisco Gimeno-Valiente, Thomas Reinert, Amanda Frydendahl, Noelia Tarazona, and Tenna Vesterman Henriksen

Abstract

Purpose:Sensitive methods for risk stratification, monitoring therapeutic efficacy, and early relapse detection may have a major impact on treatment decisions and patient management for stage III colorectal cancer patients. Beyond assessing the predictive power of postoperative ctDNA detection, we explored the added benefits of serial analysis: assessing adjuvant chemotherapy (ACT) efficacy, early relapse detection, and ctDNA growth rates.Experimental Design:We recruited 168 patients with stage III colorectal cancer treated with curative intent at Danish and Spanish hospitals between 2014 and 2019. To quantify ctDNA in plasma samples (n = 1,204), 16 patient-specific somatic single-nucleotide variants were profiled using multiplex-PCR, next-generation sequencing.Results:Detection of ctDNA was a strong recurrence predictor postoperatively [HR = 7.0; 95% confidence interval (CI), 3.7–13.5; P < 0.001] and directly after ACT (HR = 50.76; 95% CI, 15.4–167; P < 0.001). The recurrence rate of postoperative ctDNA-positive patients treated with ACT was 80% (16/20). Only patients who cleared ctDNA permanently during ACT did not relapse. Serial ctDNA assessment after the end of treatment was similarly predictive of recurrence (HR = 50.80; 95% CI, 14.9–172; P < 0.001), and revealed two distinct rates of exponential ctDNA growth, slow (25% ctDNA-increase/month) and fast (143% ctDNA-increase/month; P < 0.001). The ctDNA growth rate was prognostic of survival (HR = 2.7; 95% CI, 1.1–6.7; P = 0.039). Serial ctDNA analysis every 3 months detected recurrence with a median lead-time of 9.8 months compared with standard-of-care computed tomography.Conclusions:Serial postoperative ctDNA analysis has a strong prognostic value and enables tumor growth rate assessment. The novel combination of ctDNA detection and growth rate assessment provides unique opportunities for guiding decision-making.See related commentary by Morris and George, p. 438

Published

2023

7. Tumour-agnostic circulating tumour DNA analysis for improved recurrence surveillance after resection of colorectal liver metastases: A prospective cohort study

Author

Nadia Øgaard, Thomas Reinert, Tenna V. Henriksen, Amanda Frydendahl, Emilie Aagaard, Mai-Britt W. Ørntoft, Marie Ø. Larsen, Anders R. Knudsen, Frank V. Mortensen, and Claus L. Andersen

Subjects

Cancer Research, DNA methylation, Surveillance, Cancer biomarker, Liver Neoplasms, Prognosis, Colorectal cancer, Circulating Tumor DNA, Metastasis, Oncology, Recurrence, Biomarkers, Tumor, Humans, Prospective Studies, Neoplasm Recurrence, Local, Colorectal Neoplasms, Cell-Free Nucleic Acids, Circulating tumour DNA

Abstract

Purpose: Nearly 50% of patients recur within two years after curatively intended resection of colorectal cancer liver metastasis (CRLM). The optimal surveillance strategy is unknown due to the lack of evidence. Here, we explored the potential for improving postoperative CRLM surveillance by performing serial circulating tumour DNA (ctDNA) assessments parallel to standard-of-care surveillance. Experimental design: 499 prospectively collected serial plasma samples from 96 patients undergoing CRLM resection were analysed using the tumour-agnostic methylation multiplex droplet-digital PCR test ‘TriMeth’. Results: Patients with ctDNA postoperatively or post adjuvant chemotherapy experienced a significant lower recurrence-free survival than patients without ctDNA (hazard ratio (HR) 4.5; P < 0.0001 and HR 8.4, P < 0.0001). ctDNA status was a stronger predictor of recurrence than standard clinical risk factors and carcinoembryonic antigen. Serial TriMeth analysis detected ctDNA before radiological recurrence in 55.6% of ctDNA-positive patients, with up to 10.6 months lead-time (median 3.1 months). During surveillance, 24% of patients had inconclusive CT scans, which was associated with a significant delay in recurrence diagnosis (median 3.5 months versus 1.0 month, P < 0.0001). Uniquely, ctDNA status at the time of inconclusive CT scans predicted recurrence with positive and negative predictive values of 100%, and 75% (P = 0.0003). Serial TriMeth analysis allowed ctDNA growth rate assessment and revealed that fast ctDNA growth was associated with poor overall survival (HR: 1.6, P = 0.0052). Conclusions: Serial postoperative ctDNA analysis has a strong prognostic value and is more sensitive for recurrence detection than standard-of-care CRLM surveillance tools. Altogether, TriMeth provides several opportunities for improving postoperative surveillance of CRLM patients.

Published

2022

8. Validation of computational determination of microsatellite status using whole exome sequencing data from colorectal cancer patients

Author

Johansen, Amanda Frydendahl Boll, Kassentoft, Christine Gaasdal, Knudsen, Michael, Laursen, Maria Bach, Madsen, Anders Husted, Iversen, Lene Hjerrild, Sunesen, Kåre Gotschalck, Rasmussen, Mads Heilskov, and Andersen, Claus Lindbjerg

Published

2019

9. Correlation between early dynamics in circulating tumour DNA and outcome from FOLFIRI treatment in metastatic colorectal cancer

Author

Lyskjær, Iben, Kronborg, Camilla Skovhus, Rasmussen, Mads Heilskov, Sørensen, Boe Sandahl, Demuth, Christina, Rosenkilde, Mona, Johansen, Amanda Frydendahl Boll, Knudsen, Michael, Vang, Søren, Krag, Søren Rasmus Palmelund, Spindler, Karen-Lise Garm, and Andersen, Claus Lindbjerg

Published

2019

10. Impact of Whole Genome Doubling on Detection of Circulating Tumor DNA in Colorectal Cancer

Author

Jonas Kabel, Tenna Vesterman Henriksen, Christina Demuth, Amanda Frydendahl, Mads Heilskov Rasmussen, Jesper Nors, Nicolai J. Birkbak, Anders Husted Madsen, Uffe S. Løve, Per Vadgaard Andersen, Thomas Kolbro, Alessio Monti, Ole Thorlacius-Ussing, Mikail Gögenur, Jeppe Kildsig, Nis Hallundbæk Schlesinger, Peter Bondeven, Lene Hjerrild Iversen, Kåre Andersson Gotschalck, and Claus Lindbjerg Andersen

Subjects

circulating tumor DNA, Cancer Research, Oncology, whole genome doubling, cancer diagnostics, colorectal cancer

Abstract

Objective: Circulating tumor DNA (ctDNA) is a candidate biomarker of cancer with practice-changing potential in the detection of both early and residual disease. Disease stage and tumor size affect the probability of ctDNA detection, whereas little is known about the influence of other tumor characteristics on ctDNA detection. This study investigates the impact of tumor cell whole-genome doubling (WGD) on the detection of ctDNA in plasma collected preoperatively from newly diagnosed colorectal cancer (CRC) patients.Methods: WGD was estimated from copy numbers derived from whole-exome sequencing (WES) data of matched tumor and normal DNA from 833 Danish CRC patients. To explore if tumor WGD status impacts ctDNA detection, we applied tumor-informed ctDNA analysis to preoperative plasma samples from all patients.Results: Patients with WGD+ tumors had 53% increased odds of being ctDNA positive (OR = 1.53, 95%CI: 1.12-2.09). After stratification for UICC stage, the association persisted for Stage I (OR = 2.44, 95%CI: 1.22-5.03) and Stage II (OR = 1.76, 95%CI: 1.11-2.81) but not for Stage III (OR = 0.83, 95%CI: 0.44-1.53) patients.Conclusion: The presence of WGD significantly increases the probability of detecting ctDNA, particularly for early-stage disease. In patients with more advanced disease, the benefit of WGD on ctDNA detection is less pronounced, consistent with increased DNA shedding from these tumors, making ctDNA detection less dependent on the amount of ctDNA released per tumor cell. Objective: Circulating tumor DNA (ctDNA) is a candidate biomarker of cancer with practice-changing potential in the detection of both early and residual disease. Disease stage and tumor size affect the probability of ctDNA detection, whereas little is known about the influence of other tumor characteristics on ctDNA detection. This study investigates the impact of tumor cell whole-genome doubling (WGD) on the detection of ctDNA in plasma collected preoperatively from newly diagnosed colorectal cancer (CRC) patients. Methods: WGD was estimated from copy numbers derived from whole-exome sequencing (WES) data of matched tumor and normal DNA from 833 Danish CRC patients. To explore if tumor WGD status impacts ctDNA detection, we applied tumor-informed ctDNA analysis to preoperative plasma samples from all patients. Results: Patients with WGD+ tumors had 53% increased odds of being ctDNA positive (OR = 1.53, 95%CI: 1.12–2.09). After stratification for UICC stage, the association persisted for Stage I (OR = 2.44, 95%CI: 1.22–5.03) and Stage II (OR = 1.76, 95%CI: 1.11–2.81) but not for Stage III (OR = 0.83, 95%CI: 0.44–1.53) patients. Conclusion: The presence of WGD significantly increases the probability of detecting ctDNA, particularly for early-stage disease. In patients with more advanced disease, the benefit of WGD on ctDNA detection is less pronounced, consistent with increased DNA shedding from these tumors, making ctDNA detection less dependent on the amount of ctDNA released per tumor cell.

Published

2023

11. Circulating Tumor DNA in Stage III Colorectal Cancer, beyond Minimal Residual Disease Detection, toward Assessment of Adjuvant Therapy Efficacy and Clinical Behavior of Recurrences

Author

Lene Hjerrild Iversen, Claus L. Andersen, Derrick Renner, Thomas Reinert, Ole Thorlacius-Ussing, Desamparados Roda, Tenna V Henriksen, Alexey Aleshin, Andrés Cervantes, Noelia Tarazona, Per Vadgaard Andersen, Shruti Sharma, Susana Roselló, J.A. Carbonell-Asins, Dina Hafez, Anders Husted Madsen, Uffe S. Løve, Kåre Andersson Gotschalck, Amanda Frydendahl, Marisol Huerta, F. Gimeno-Valiente, and Himanshu Sethi

Subjects

Male, Oncology, Cancer Research, medicine.medical_specialty, Neoplasm, Residual, Adjuvant chemotherapy, Clinical Decision-Making, Circulating Tumor DNA, Text mining, Predictive Value of Tests, Internal medicine, Biomarkers, Tumor, Stage III colorectal cancer, medicine, Adjuvant therapy, Humans, Tumor growth, Aged, Neoplasm Staging, business.industry, Prognosis, Minimal residual disease, Confidence interval, Circulating tumor DNA, Female, Drug Monitoring, Neoplasm Recurrence, Local, Colorectal Neoplasms, business

Abstract

Purpose: Sensitive methods for risk stratification, monitoring therapeutic efficacy, and early relapse detection may have a major impact on treatment decisions and patient management for stage III colorectal cancer patients. Beyond assessing the predictive power of postoperative ctDNA detection, we explored the added benefits of serial analysis: assessing adjuvant chemotherapy (ACT) efficacy, early relapse detection, and ctDNA growth rates. Experimental Design: We recruited 168 patients with stage III colorectal cancer treated with curative intent at Danish and Spanish hospitals between 2014 and 2019. To quantify ctDNA in plasma samples (n = 1,204), 16 patient-specific somatic single-nucleotide variants were profiled using multiplex-PCR, next-generation sequencing. Results: Detection of ctDNA was a strong recurrence predictor postoperatively [HR = 7.0; 95% confidence interval (CI), 3.7–13.5; P < 0.001] and directly after ACT (HR = 50.76; 95% CI, 15.4–167; P < 0.001). The recurrence rate of postoperative ctDNA-positive patients treated with ACT was 80% (16/20). Only patients who cleared ctDNA permanently during ACT did not relapse. Serial ctDNA assessment after the end of treatment was similarly predictive of recurrence (HR = 50.80; 95% CI, 14.9–172; P < 0.001), and revealed two distinct rates of exponential ctDNA growth, slow (25% ctDNA-increase/month) and fast (143% ctDNA-increase/month; P < 0.001). The ctDNA growth rate was prognostic of survival (HR = 2.7; 95% CI, 1.1–6.7; P = 0.039). Serial ctDNA analysis every 3 months detected recurrence with a median lead-time of 9.8 months compared with standard-of-care computed tomography. Conclusions: Serial postoperative ctDNA analysis has a strong prognostic value and enables tumor growth rate assessment. The novel combination of ctDNA detection and growth rate assessment provides unique opportunities for guiding decision-making. See related commentary by Morris and George, p. 438

Published

2021

12. Machine learning guided signal enrichment for ultrasensitive plasma tumor burden monitoring

Author

Adam J. Widman, Minita Shah, Nadia Øgaard, Cole C. Khamnei, Amanda Frydendahl, Aditya Deshpande, Anushri Arora, Mingxuan Zhang, Daniel Halmos, Jake Bass, Theophile Langanay, Srinivas Rajagopalan, Zoe Steinsnyder, Will Liao, Mads Heilskov Rasmussen, Sarah Østrup Jensen, Jesper Nors, Christina Therkildsen, Jesus Sotelo, Ryan Brand, Ronak H. Shah, Alexandre Pellan Cheng, Colleen Maher, Lavinia Spain, Kate Krause, Dennie T. Frederick, Murtaza S. Malbari, Melissa Marton, Dina Manaa, Lara Winterkorn, Margaret K. Callahan, Genevieve Boland, Jedd D. Wolchok, Ashish Saxena, Samra Turajlic, Marcin Imielinski, Michael F. Berger, Nasser K. Altorki, Michael A. Postow, Nicolas Robine, Claus Lindbjerg Andersen, and Dan A. Landau

Abstract

In solid tumor oncology, circulating tumor DNA (ctDNA) is poised to transform care through accurate assessment of minimal residual disease (MRD) and therapeutic response monitoring. To overcome the sparsity of ctDNA fragments in low tumor fraction (TF) settings and increase MRD sensitivity, we previously leveraged genome-wide mutational integration through plasma whole genome sequencing (WGS). We now introduce MRD-EDGE, a composite machine learning-guided WGS ctDNA single nucleotide variant (SNV) and copy number variant (CNV) detection platform designed to increase signal enrichment. MRD-EDGE uses deep learning and a ctDNA-specific feature space to increase SNV signal to noise enrichment in WGS by 300X compared to our previous noise suppression platform MRDetect. MRD-EDGE also reduces the degree of aneuploidy needed for ultrasensitive CNV detection through WGS from 1Gb to 200Mb, thereby expanding its applicability to a wider range of solid tumors. We harness the improved performance to track changes in tumor burden in response to neoadjuvant immunotherapy in non-small cell lung cancer and demonstrate ctDNA shedding in precancerous colorectal adenomas. Finally, the radical signal to noise enrichment in MRD-EDGE enables de novo mutation calling in melanoma without matched tumor, yielding clinically informative TF monitoring for patients on immune checkpoint inhibition.

Published

2022

13. Circulating tumor DNA for prognosis assessment and postoperative management after curative-intent resection of colorectal liver metastases

Author

Thomas Reinert, Lena Marie Skindhøj Petersen, Tenna Vesterman Henriksen, Marie Øbo Larsen, Mads Heilskov Rasmussen, Amanda Frydendahl Boll Johansen, Nadia Øgaard, Michael Knudsen, Iver Nordentoft, Søren Vang, Søren Rasmus Palmelund Krag, Anders Riegels Knudsen, Frank Viborg Mortensen, and Claus Lindbjerg Andersen

Subjects

Cancer Research, Circulating tumor DNA, Minimal residual disease, Liver Neoplasms, Prognosis, Circulating Tumor DNA, Recurrence surveillance, Oncology, Droplet digital PCR, Colorectal cancer liver metastases, Biomarkers, Tumor, Humans, Longitudinal Studies, Prospective Studies, Neoplasm Recurrence, Local, Colorectal Neoplasms

Abstract

The recurrence rate of colorectal liver metastases (CRLM) patients treated with curative intent is above 50%. Standard of care surveillance includes intensive computed tomographic (CT) imaging as well as carcinoembryonic antigen (CEA) measurements. Nonetheless, relapse detection often happens too late to resume curative treatment. This longitudinal cohort study enrolled 115 patients with plasma samples (N = 439) prospectively collected before surgery, postoperatively at day 30 and every third month for up to 3 years. Droplet digital PCR (ddPCR) was used to monitor serial plasma samples for somatic mutations. Assessment of ctDNA status either immediately after surgery, or serially during surveillance, stratified the patients into groups of high and low recurrence risk (hazard ratio [HR], 7.6; 95% CI, 3.0-19.7; P .0001; and HR, 4.3; 95% CI, 2.3-8.1; P .0001, respectively). The positive predictive value (PPV) of ctDNA was 100% in all postoperative analyses. In multivariable analyses, postoperative ctDNA status was the only consistently significant risk marker associated with relapse (P .0001). Indeterminate CT findings were observed for 30.8% (21/68) of patients. All patients (9/21) that were ctDNA positive at the time of the indeterminate CT scan later relapsed, contrasting 42.6% (5/12) of those ctDNA negative (P = .0046). Recurrence diagnoses in patients with indeterminate CT findings were delayed (median 2.8 months, P .0001). ctDNA status is strongly associated with detection of minimal residual disease and early detection of relapse. Furthermore, ctDNA status can potentially contribute to clinical decision-making in case of indeterminate CT findings, reducing time-to-intervention.

Published

2022

14. Cirkulerende tumor-DNA ved behandling af kræft

Author

Cecilie Riis Iden, Amanda Frydendahl, Nadia Øgaard, Iben Boutrup Kongsfelt, Kristian Egebjerg, Claus Lindbjerg Andersen, and Morten Mau-Sørensen

Subjects

Circulating Tumor DNA/genetics, Humans, Early Detection of Cancer, Neoplasms/diagnosis

Abstract

Circulating tumour DNA analysis has a potential to improve multiple aspects of cancer management. This includes: a) early cancer detection in asymptomatic individuals, b) identification of patients with residual disease after curative intended treatment, c) patient stratification in relation to treatment decisions like adjuvant therapy and intensity of radiological surveillance, d) monitoring treatment effect for optimised adaptive therapy, e) identification of actionable targets, and f) early recurrence detection. These points are summarised in this review.

Published

2022

15. Circulating tumor DNA for prognosis assessment and postoperative management after curative‐intent resection of colorectal liver metastases

Author

Reinert, Thomas, primary, Petersen, Lena Marie Skindhøj, additional, Henriksen, Tenna Vesterman, additional, Larsen, Marie Øbo, additional, Rasmussen, Mads Heilskov, additional, Johansen, Amanda Frydendahl Boll, additional, Øgaard, Nadia, additional, Knudsen, Michael, additional, Nordentoft, Iver, additional, Vang, Søren, additional, Krag, Søren Rasmus Palmelund, additional, Knudsen, Anders Riegels, additional, Mortensen, Frank Viborg, additional, and Andersen, Claus Lindbjerg, additional

Published

2022

16. Error Characterization and Statistical Modeling Improves Circulating Tumor DNA Detection by Droplet Digital PCR

Author

Tenna V Henriksen, Simon O Drue, Amanda Frydendahl, Christina Demuth, Mads H Rasmussen, Thomas Reinert, Jakob S Pedersen, and Claus L Andersen

Subjects

noise, Biochemistry (medical), Clinical Biochemistry, ddPCR, colorectal cancer, ctDNA, FIDELITY, Polymerase Chain Reaction, Circulating Tumor DNA, Tumor Burden, Neoplasms, Mutation, Humans, LIQUID BIOPSIES

Abstract

Background Droplet digital PCR (ddPCR) is a widely used and sensitive application for circulating tumor DNA (ctDNA) detection. As ctDNA is often found in low abundance, methods to separate low-signal readouts from noise are necessary. We aimed to characterize the ddPCR-generated noise and, informed by this, create a sensitive and specific ctDNA caller. Methods We built 2 novel complimentary ctDNA calling methods: dynamic limit of blank and concentration and assay-specific tumor load estimator (CASTLE). Both methods are informed by empirically established assay-specific noise profiles. Here, we characterized noise for 70 mutation-detecting ddPCR assays by applying each assay to 95 nonmutated samples. Using these profiles, the performance of the 2 new methods was assessed in a total of 9447 negative/positive reference samples and in 1311 real-life plasma samples from colorectal cancer patients. Lastly, performances were compared to 7 literature-established calling methods. Results For many assays, noise increased proportionally with the DNA input amount. Assays targeting transition base changes were more error-prone than transversion-targeting assays. Both our calling methods successfully accounted for the additional noise in transition assays and showed consistently high performance regardless of DNA input amount. Calling methods that were not noise-informed performed less well than noise-informed methods. CASTLE was the only calling method providing a statistical estimate of the noise-corrected mutation level and call certainty. Conclusions Accurate error modeling is necessary for sensitive and specific ctDNA detection by ddPCR. Accounting for DNA input amounts ensures specific detection regardless of the sample-specific DNA concentration. Our results demonstrate CASTLE as a powerful tool for ctDNA calling using ddPCR.

Published

2021

17. [Circulating tumour DNA in the treatment of cancer]

Author

Cecilie Riis, Iden, Amanda Frydendahl Boll, Johansen, Nadia, Øgaard, Iben Boutrup, Kongsfelt, Kristian, Egebjerg, Claus Lindbjerg, Andersen, and Morten, Mau-Sørensen

Subjects

Neoplasms, Humans, Early Detection of Cancer, Circulating Tumor DNA

Abstract

Circulating tumour DNA analysis has a potential to improve multiple aspects of cancer management. This includes: a) early cancer detection in asymptomatic individuals, b) identification of patients with residual disease after curative intended treatment, c) patient stratification in relation to treatment decisions like adjuvant therapy and intensity of radiological surveillance, d) monitoring treatment effect for optimised adaptive therapy, e) identification of actionable targets, and f) early recurrence detection. These points are summarised in this review.

Published

2021

18. Abstract 1959: Sensitive detection of circulating tumor DNA by whole genome sequencing: Validation of MRDetect using serial blood samples from stage III colorectal cancer patients

Author

Amanda Frydendahl, Thomas Reinert, Jesper Nors, Sunil Deochand, Dillon Maloney, Noah Friedman, Tomer Lauterman, Danielle Afterman, Imane Bourzgui, Nidhi Ramaraj, Zohar Donenhirsh, Ronel Veksler, Ravi Kandasamy, Iman Tavassoly, Jonathan Rosenfeld, Anders Husted Andersen, Uffe S. Løve, Per V. Andersen, Ole Thorlacius-Ussing, Lene Hjerrild Iversen, Kåre Andersson Gotschalck, Boris Oklander, Asaf Zviran, and Claus Lindbjerg Andersen

Subjects

Cancer Research, Oncology

Abstract

Background: While detection of circulating tumor DNA (ctDNA) is associated with poor cancer prognosis, the clinical utility for guiding treatment decisions is unresolved. Patients with minimal residual disease (MRD) often have less than one genome equivalent of ctDNA per 10 mL blood. Consequently, it is stochastic whether a 10 mL sample contains ctDNA from a particular genomic locus. Consequently, the sensitivity of ctDNA detection methods targeting a limited number of tumor loci is heavily affected by sampling bias. To overcome this challenge, we developed MRDetect; a whole genome sequencing (WGS) approach, which detects ctDNA using the patient-specific cumulative signal from tens of thousands of mutations throughout the genome. Recently, we showed how MRDetect found ctDNA fractions down to 10-4. Here, we performed a validation study to confirm the prognostic impact of MRDetect. Aim: Validation of MRDetect for sensitive ctDNA detection to monitor residual disease in stage III colorectal cancer (CRC) patients treated with curative intent. Methods: From a large, uniform cohort of stage III CRC patients n = 146), we had plasma samples collected every third month (n = 938, median = 9 per patient) and a median follow-up of 34 months. For each patient, a genome-wide mutational signature was established by WGS of tumor and matched normal DNA. Enhanced by an AI-based error suppression model, this signature was used to detect ctDNA in 1-2 mL plasma samples using WGS (20x coverage). We used de-novo point mutation and copy number variation analysis to investigate cancer evolution after treatment. To evaluate the reproducibility of MRDetect, aliquot samples (n = 2x190 samples) from 5 recurrence and 10 non-recurrence patients were processed and sequenced at two independent laboratories. Outcome measures: ctDNA status, tumor fraction, false positive rate, Time To ctDNA Recurrence (TTcR), and Time To radiological Recurrence (TTrR). Results: Analysis of paired samples showed great reproducibility with high agreement between both ctDNA status calls (Cohens Kappa = 0.81) and the estimated tumor fractions (r2 = 0.99). MRDetect revealed post-operative ctDNA in all recurrence patients (5/5) with detected tumor fractions down to 2 x 10-4. Median TTcR was 0.9 month (range 0.5 - 7.3 months) while median TTrR was 12.8 months (range 11.3 - 31.1 months). The false positive rate was 1% (1/100), assessed in longitudinal samples from the 10 non-relapsing patients. Tumor evolution dynamics in plasma samples revealed novel amplification and deletions, which were absent in the primary tissue but confirmed in metachronous metastases. We will present results from the full cohort at AACR 2022. Conclusion: MRDetect detects ctDNA with high sensitivity and specificity and enables effective postoperative assessment of MRD, cancer evolution dynamics and early relapse detection. Citation Format: Amanda Frydendahl, Thomas Reinert, Jesper Nors, Sunil Deochand, Dillon Maloney, Noah Friedman, Tomer Lauterman, Danielle Afterman, Imane Bourzgui, Nidhi Ramaraj, Zohar Donenhirsh, Ronel Veksler, Ravi Kandasamy, Iman Tavassoly, Jonathan Rosenfeld, Anders Husted Andersen, Uffe S. Løve, Per V. Andersen, Ole Thorlacius-Ussing, Lene Hjerrild Iversen, Kåre Andersson Gotschalck, Boris Oklander, Asaf Zviran, Claus Lindbjerg Andersen. Sensitive detection of circulating tumor DNA by whole genome sequencing: Validation of MRDetect using serial blood samples from stage III colorectal cancer patients [abstract]. In: Proceedings of the American Association for Cancer Research Annual Meeting 2022; 2022 Apr 8-13. Philadelphia (PA): AACR; Cancer Res 2022;82(12_Suppl):Abstract nr 1959.

Published

2022

19. Serial circulating tumor DNA analysis to assess recurrence risk, benefit of adjuvant therapy, growth rate and early relapse detection in stage III colorectal cancer patients

Author

J.A. Carbonell-Asins, Marisol Huerta, Susana Roselló, Lene Hjerrild Iversen, Claus L. Andersen, Ole Thorlacius-Ussing, Tenna V Henriksen, Alexey Aleshin, Andrés Cervantes, Uffe S. Løve, Kåre Andersson Gotschalck, Noelia Tarazona, Thomas Reinert, Shruti Sharma, Amanda Frydendahl, Derrick Renner, Himanshu Sethi, and Desamparados Roda

Subjects

Oncology, Cancer Research, medicine.medical_specialty, business.industry, Adjuvant chemotherapy, Early Relapse, Postoperative management, Recurrence risk, Circulating tumor DNA, Internal medicine, Stage III colorectal cancer, Adjuvant therapy, Medicine, business, Selection (genetic algorithm)

Abstract

3540 Background: Challenges in the postoperative management of stage III colorectal cancer include: 1) selection of high-risk patients for adjuvant chemotherapy (ACT), 2) lack of markers to assess ACT efficacy, 3) assessment of recurrence risk after ACT, and 4) lack of markers to guide treatment decisions for high-risk patients e.g. additional therapy or intensified surveillance. Circulating tumor DNA (ctDNA) is a promising marker with potential to mitigate the challenges. Here we used serial ctDNA measurements to assess the correlation between recurrence and ctDNA detection: postoperative, during and after ACT, and during surveillance; and to assess growth rates of metachronous metastases. Uniquely, we also used concurrent CT scans and ctDNA measurements to compare the sensitivity for detecting recurrence. Methods: Stage III CRC patients treated with curative intent at Danish and Spanish hospitals in 2014-2019 were recruited (n = 166). Blood samples (n = 1227) were collected prior to and immediately after surgery, and every third month for up to 36 months. Per patient 16 personal mutations were used to quantify plasma ctDNA (Signatera, bespoke mPCR NGS assay). Results: Detection of ctDNA was a strong recurrence predictor, both postoperatively (HR 7.2, 95% CI 3.8-13.8, P< 0.001), directly after ACT (HR = 18.2, 95% CI 7.1-46, P < 0.001), and when measured serially after end of treatment (HR = 41, 95% CI 16-100, P < 0.001). The recurrence rate of postoperative ctDNA positive patients treated with ACT was 80% (16/20). Patients who stayed ctDNA positive during ACT all recurred. Serial post-treatment ctDNA measurements revealed exponential growth for all recurrence patients following either a SLOW (26%-increase/month) or a FAST (126%-increase/month) pattern (P < 0.001). From ctDNA detection to radiologic recurrence, ctDNA levels of FAST patients increased by a median 117-fold, and up to 554-fold. The 3-year overall survival was 43% for FAST patients and 100% for SLOW and non-recurrence patients (HR = 41.3, 95% CI 7.5-228, P < 0.001). Coinciding CT scans and ctDNA measurements (n = 113 patients, 235 coinciding events, median 2 per patient) showed a high agreement (92%) and ctDNA either detected residual disease before the CT scan (n = 7 patients) or at the same time (n = 14 patients). The median lead-time was 7.5 months. Conclusions: The study confirmed the prognostic power of serial postoperative ctDNA analysis. Moreover, it provided novel analyses demonstrating that ctDNA is more sensitive for recurrence detection than CT scans and can be used for tumor growth rate assessments. The difference between FAST and SLOW growing tumors suggest that growth rates could guide whom to start on systemic therapy rapidly and whom to send for diagnostic imaging. Altogether, the study highlights many potential utilities of ctDNA in guiding clinical decision-making.

Published

2021

20. Cirkulerende tumor-DNA ved behandling af kræft

Author

Iden, Cecilie Riis, Johansen, Amanda Frydendahl Boll, Øgaard, Nadia, Kongsfelt, Iben Boutrup, Egebjerg, Kristian, Andersen, Claus Lindbjerg, Mau-Sørensen, Morten, Iden, Cecilie Riis, Johansen, Amanda Frydendahl Boll, Øgaard, Nadia, Kongsfelt, Iben Boutrup, Egebjerg, Kristian, Andersen, Claus Lindbjerg, and Mau-Sørensen, Morten

Abstract

Circulating tumour DNA analysis has a potential to improve multiple aspects of cancer management. This includes: a) early cancer detection in asymptomatic individuals, b) identification of patients with residual disease after curative intended treatment, c) patient stratification in relation to treatment decisions like adjuvant therapy and intensity of radiological surveillance, d) monitoring treatment effect for optimised adaptive therapy, e) identification of actionable targets, and f) early recurrence detection. These points are summarised in this review.

Published

2021

21. Validation of computational determination of microsatellite status using whole exome sequencing data from colorectal cancer patients

Author

Anders Husted Madsen, Maria Bach Laursen, Claus L. Andersen, Michael Knudsen, Kåre Gotschalck Sunesen, Amanda Frydendahl Boll Johansen, Mads Rasmussen, Lene Hjerrild Iversen, and Christine Gaasdal Kassentoft

Subjects

0301 basic medicine, Oncology, Exome sequencing, Male, PREDICTOR, Cancer Research, Colorectal cancer, MSIsensor, INSTABILITY DETECTION, DNA Mismatch Repair, Polymerase Chain Reaction, 0302 clinical medicine, Surgical oncology, MUTATIONAL PROCESSES, Exome, DNA mismatch repair deficiency, Aged, 80 and over, Predictive marker, High-Throughput Nucleotide Sequencing, DNA MISMATCH REPAIR, Middle Aged, lcsh:Neoplasms. Tumors. Oncology. Including cancer and carcinogens, Prognosis, TUMORS, Immunohistochemistry, 030220 oncology & carcinogenesis, POLE, Microsatellite, DNA mismatch repair, Female, Fluorouracil, Immunotherapy, Colorectal Neoplasms, Research Article, Adult, medicine.medical_specialty, Antimetabolites, Antineoplastic, POLYMERASE-EPSILON, lcsh:RC254-282, LYNCH-SYNDROME, 03 medical and health sciences, Internal medicine, Genetics, medicine, Biomarkers, Tumor, Humans, IMMUNOTHERAPY, neoplasms, SIGNATURES, MSI, Aged, MSS, business.industry, Microsatellite instability, Computational Biology, PERFORMANCE, medicine.disease, digestive system diseases, 030104 developmental biology, Mutation, business, Microsatellite Repeats

Abstract

Background Microsatellite instability (MSI), resulting from a defective mismatch repair system, occurs in approximately 15% of sporadic colorectal cancers (CRC). Since MSI is associated with a poor response to 5-fluorouracile based chemotherapy and is a positive predictive marker of immunotherapy, it is routine practice to evaluate the MSI status of resected tumors in CRC patients. MSIsensor is a novel computational tool for determining MSI status using Next Generation Sequencing. However, it is not widely used in the clinic and has not been independently validated in exome data from CRC. To facilitate clinical implementation of computational determination of MSI status, we compared MSIsensor to current gold standard methods for MSI testing. Methods MSI status was determined for 130 CRC patients (UICC stage I-IV) using immunohistochemistry, PCR based microsatellite stability testing and by applying MSIsensor to exome sequenced tumors and paired germline DNA. Furthermore, we investigated correlation between MSI status, mutational load and mutational signatures. Results Eighteen out of 130 (13.8%) patients were microsatellite instable. We found a 100% agreement between MSIsensor and gold standard methods for MSI testing. All MSI tumors were hypermutated. In addition, two microsatellite stable (MSS) tumors were hypermutated, which was explained by a dominant POLE signature and pathogenic POLE mutations (p.Pro286Arg and p.Ser459Phe). Conclusion MSIsensor is a robust tool, which can be used to determine MSI status of tumor samples from exome sequenced CRC patients.

Published

2019

22. Correlation between early dynamics in circulating tumour DNA and outcome from FOLFIRI treatment in metastatic colorectal cancer

Author

Amanda Frydendahl Boll Johansen, Karen-Lise Garm Spindler, Iben Lyskjær, Camilla Kronborg, Boe Sandahl Sorensen, Claus L. Andersen, Søren Krag, Mads Rasmussen, Christina Demuth, Søren Vang, Michael Knudsen, and Mona Rosenkilde

Subjects

0301 basic medicine, Oncology, Male, Colorectal cancer, Leucovorin, lcsh:Medicine, GUIDELINES, THERAPY, Circulating Tumor DNA, Correlation, Tumour biomarkers, chemistry.chemical_compound, 0302 clinical medicine, Antineoplastic Combined Chemotherapy Protocols, Neoplasm Metastasis, lcsh:Science, Aged, 80 and over, Multidisciplinary, PLASMA, Middle Aged, Response to treatment, Progression-Free Survival, Treatment Outcome, FOLFIRI, SURVIVAL, Female, Fluorouracil, Colorectal Neoplasms, Cell-Free Nucleic Acids, Adult, medicine.medical_specialty, Early detection, Article, 03 medical and health sciences, Internal medicine, medicine, Biomarkers, Tumor, Chemotherapy, Humans, Progression-free survival, Aged, DIGITAL PCR, business.industry, MUTATIONS, lcsh:R, medicine.disease, 030104 developmental biology, chemistry, Mutation, lcsh:Q, Camptothecin, business, 030217 neurology & neurosurgery, Progressive disease, DNA, ACQUIRED-RESISTANCE

Abstract

Chemotherapy resistance remains a challenge in the clinical management of metastatic colorectal cancer (mCRC). Here, early changes in cell-free circulating tumour DNA (ctDNA) levels were explored as a marker of therapeutic efficacy. Twenty-four mCRC patients were enrolled and treated with FOLFIRI based first-line therapy. Blood samples collected pre-treatment, at day 7, 14, 21, 60 and at progression were analysed for cell-free DNA (cfDNA) and ctDNA levels using digital droplet PCR. A subset of samples were additionally analysed by targeted sequencing. Patients with high pre-treatment ctDNA or cfDNA levels (≥75th centile) had significantly shorter progression free survival (PFS) than patients with lower levels. Despite an overall decline in ctDNA levels from pre-treatment to first CT-scan, serial analysis identified seven patients with temporary increases in ctDNA consistent with growth of resistant cells. These patients had shorter PFS and shorter overall survival. Targeted sequencing analyses of cfDNA revealed dramatic changes in the clonal composition in response to treatment. Our study suggests that increasing ctDNA levels during the first cycles of first-line FOLFIRI treatment is a predictor of incipient progressive disease and poorer survival. Thus, we demonstrate the importance of monitoring ctDNA levels as early as one week after treatment onset to enable early detection of treatment failure.

Published

2019

23. Analysis of Plasma Cell-Free DNA by Ultradeep Sequencing in Patients With Stages I to III Colorectal Cancer

Author

Thomas Reinert, Katrine Stribolt, Zoe June Assaf, Lene Hjerrild Iversen, Matthew Rabinowitz, Ryan Swenerton, Ramya Srinivasan, Samantha Navarro, Lars Dyrskjøt, Claus L. Andersen, Tenna V Henriksen, Anne-Sofie Kannerup, Søren Vang, Alexander Olson, Shruti Goel, Alexey Aleshin, Michael Knudsen, Scott Dashner, Styrmir Sigurjonsson, Mustafa Balcioglu, Emil Christensen, Anders Husted Madsen, Cheng-Ho Jimmy Lin, Raheleh Salari, Paul Billings, Himanshu Sethi, Søren Krag, Mads Rasmussen, Søren Laurberg, Shruti Sharma, Bernhard Zimmermann, Svetlana Shchegrova, Amanda Frydendahl Boll Johansen, Antony Tin, Dina Hafez, Hsin-Ta Wu, Iver Nordentoft, and Kåre Gotschalck Sunesen

Subjects

Cancer Research, medicine.medical_specialty, Colorectal cancer, Adjuvant chemotherapy, SURGERY, Disease, Plasma cell, 03 medical and health sciences, 0302 clinical medicine, ADJUVANT CHEMOTHERAPY, Internal medicine, SURVEILLANCE, medicine, In patient, 030212 general & internal medicine, RECURRENCE, RISK, business.industry, Hazard ratio, COLON-CANCER, medicine.disease, FLUOROURACIL, Editorial Commentary, medicine.anatomical_structure, Oncology, Cell-free fetal DNA, 030220 oncology & carcinogenesis, SURVIVAL, business, Cohort study

Abstract

Importance: Novel sensitive methods for detection and monitoring of residual disease can improve postoperative risk stratification with implications for patient selection for adjuvant chemotherapy (ACT), ACT duration, intensity of radiologic surveillance, and, ultimately, outcome for patients with colorectal cancer (CRC). Objective: To investigate the association of circulating tumor DNA (ctDNA) with recurrence using longitudinal data from ultradeep sequencing of plasma cell-free DNA in patients with CRC before and after surgery, during and after ACT, and during surveillance. Design, Setting, and Participants: In this prospective, multicenter cohort study, ctDNA was quantified in the preoperative and postoperative settings of stages I to III CRC by personalized multiplex, polymerase chain reaction-based, next-generation sequencing. The study enrolled 130 patients at the surgical departments of Aarhus University Hospital, Randers Hospital, and Herning Hospital in Denmark from May 1, 2014, to January 31, 2017. Plasma samples (n = 829) were collected before surgery, postoperatively at day 30, and every third month for up to 3 years. Main Outcomes and Measures: Outcomes were ctDNA measurement, clinical recurrence, and recurrence-free survival. Results: A total of 130 patients with stages I to III CRC (mean [SD] age, 67.9 [10.1] years; 74 [56.9%] male) were enrolled in the study; 5 patients discontinued participation, leaving 125 patients for analysis. Preoperatively, ctDNA was detectable in 108 of 122 patients (88.5%). After definitive treatment, longitudinal ctDNA analysis identified 14 of 16 relapses (87.5%). At postoperative day 30, ctDNA-positive patients were 7 times more likely to relapse than ctDNA-negative patients (hazard ratio [HR], 7.2; 95% CI, 2.7-19.0; P

Published

2019

24. [Circulating tumour DNA in the treatment of cancer].

Author

Iden CR, Johansen AFB, Øgaard N, Kongsfelt IB, Egebjerg K, Andersen CL, and Mau-Sørensen M

Subjects

Early Detection of Cancer, Humans, Circulating Tumor DNA genetics, Neoplasms diagnosis, Neoplasms drug therapy, Neoplasms genetics

Abstract

Circulating tumour DNA analysis has a potential to improve multiple aspects of cancer management. This includes: a) early cancer detection in asymptomatic individuals, b) identification of patients with residual disease after curative intended treatment, c) patient stratification in relation to treatment decisions like adjuvant therapy and intensity of radiological surveillance, d) monitoring treatment effect for optimised adaptive therapy, e) identification of actionable targets, and f) early recurrence detection. These points are summarised in this review.

Published

2021