Your search keyword '"Lanman R"' showing total 110 results

1. Preoperative Circulating Tumor DNA in Patients with Peritoneal Carcinomatosis Is an Independent Predictor of Progression-Free Survival

Author

Baumgartner, J, Banks, K, Lanman, R, Tran, L, Kelly, KJ, Lowy, A, and Kurzrock, R

Subjects

Oncology and Carcinogenesis, Oncology & Carcinogenesis

Published

2018

2. EP04.02-004 The Patient Impact of Liquid Biopsy - Health-Related Quality of Life in Patients Undergoing Liquid Biopsy for Advanced Non-Small Cell Lung Cancer

Author

Corke, L., primary, Laskin, J., additional, Agulnik, J., additional, Laurie, S., additional, Hao, D., additional, Juergens, R., additional, Fernandes, R., additional, Le, L., additional, Law, J., additional, Ezeife, D., additional, Shookoohi, A., additional, Kasymjanova, G., additional, Kelly, S., additional, Nadon, T., additional, Lanman, R., additional, Kiedrowski, L., additional, and Leighl, N., additional

Published

2022

3. OA16.02 The Economic Value of Liquid Biopsy for Genomic Profiling in Advanced Non-Small Cell Lung Cancer

Author

Ezeife, D., primary, Spackman, E., additional, Juergens, R., additional, Laskin, J., additional, Agulnik, J., additional, Hao, D., additional, Laurie, S., additional, Law, J., additional, Le, L., additional, Kiedrowski, L., additional, Melosky, B., additional, Shepherd, F.A., additional, Cohen, V., additional, Wheatley-Price, P., additional, Vandermeer, R., additional, Li, J., additional, Fernandes, R., additional, Shokoohi, A., additional, Lanman, R., additional, and Leighl, N., additional

Published

2021

4. P89.03 Demonstrating VALUE of Liquid Biopsy for Lung Cancer in a Public Healthcare System

Author

Hao, D., primary, Laskin, J., additional, Laurie, S., additional, Agulnik, J., additional, Juergens, R., additional, Ezeife, D., additional, Law, J., additional, Le, L., additional, Kiedrowski, L., additional, Melosky, B., additional, Shepherd, F., additional, Cohen, V., additional, Vandermeer, R., additional, Shokoohi, A., additional, Li, J., additional, Fernandes, R., additional, Lanman, R., additional, and Leighl, N., additional

Published

2021

5. Efficacy and Determinants of Response to HER Kinase Inhibition in HER2-Mutant Metastatic Breast Cancer

Author

Smyth L, Piha-Paul S, Won H, Schram A, Saura C, Loi S, Lu J, Shapiro G, Juric D, Mayer I, Arteaga C, de la Fuente M, Brufksy A, Spanggaard I, Mau-Sorensen M, Arnedos M, Moreno V, Boni V, Sohn J, Schwartzberg L, Gonzalez-Farre X, Cervantes A, Bidard F, Gorelick A, Lanman R, Nagy R, Ulaner G, Chandarlapaty S, Jhaveri K, Gavrila E, Zimel C, Selcuklu S, Melcer M, Samoila A, Cai Y, Scaltriti M, Mann G, Xu F, Eli L, Dujka M, Lalani A, Bryce R, Baselga J, Taylor B, Solit D, Meric-Bernstam F, and Hyman D

Subjects

skin and connective tissue diseases

Abstract

HER2 mutations define a subset of metastatic breast cancers with a unique mechanism of oncogenic addiction to HER2 signaling. We explored activity of the irreversible pan-HER kinase inhibitor neratinib, alone or with fulvestrant, in 81 patients with HER2-mutant metastatic breast cancer. Overall response rate was similar with or without estrogen receptor (ER) blockade. By comparison, progression-free survival and duration of response appeared longer in ER+ patients receiving combination therapy, although the study was not designed for direct comparison. Preexistent concurrent activating HER2 or HER3 alterations were associated with poor treatment outcome. Similarly, acquisition of multiple HER2-activating events, as well as gatekeeper alterations, were observed at disease progression in a high proportion of patients deriving clinical benefit from neratinib. Collectively, these data define HER2 mutations as a therapeutic target in breast cancer and suggest that coexistence of additional HER signaling alterations may promote both de novo and acquired resistance to neratinib. SIGNIFICANCE: HER2 mutations define a targetable breast cancer subset, although sensitivity to irreversible HER kinase inhibition appears to be modified by the presence of concurrent activating genomic events in the pathway. These findings have implications for potential future combinatorial approaches and broader therapeutic development for this genomically defined subset of breast cancer.

Published

2020

6. BRAF Mutations: Classes I, II and III in NSCLC Patients Included in the SLLIP Trial, Targeted Treatment According to Class

Author

Bracht, J, Karachaliou, N, Bivona, T, Fernandez-Bruno, M, Berenguer, J, Gonzalez-Cao, M, Lanman, R, Faull, I, Nagy, R, Drozdowskyj, A, Hernandez, AA, Mosquera, JJG, Molina-Vila, MA, and Rosell, R

Subjects

SLLIP trial, BRAF mutations, NSCLC

Published

2019

7. Clinical utility of plasma-based digital next-generation sequencing in oncogene-driven non-small-cell lung cancer patients with tyrosine kinase inhibitor resistance

Author

Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Cáncer (España), Red Temática de Investigación Cooperativa en Enfermedades Cardiovasculares (España), European Commission, Comunidad de Madrid, Zugazagoitia, Jon, Gómez-Rueda, Ana, Jantus-Lewintre, Eloisa, Isla, María Dolores, Camps, Carlos, Ramos, Inmaculada, Trigo, José Manuel, Bernabé Caro, Reyes, Juan-Vidal, Óscar, Sánchez-Torres, J. M., García-Campelo, R., Provencio, Mariano, Felip, Enriqueta, Castro, Javier de, Faul, Iris, Lanman, R. B., Ponce-Aix, Santiago, Paz-Ares, Luis, Garrido, Pilar, Instituto de Salud Carlos III, Centro de Investigación Biomédica en Red Cáncer (España), Red Temática de Investigación Cooperativa en Enfermedades Cardiovasculares (España), European Commission, Comunidad de Madrid, Zugazagoitia, Jon, Gómez-Rueda, Ana, Jantus-Lewintre, Eloisa, Isla, María Dolores, Camps, Carlos, Ramos, Inmaculada, Trigo, José Manuel, Bernabé Caro, Reyes, Juan-Vidal, Óscar, Sánchez-Torres, J. M., García-Campelo, R., Provencio, Mariano, Felip, Enriqueta, Castro, Javier de, Faul, Iris, Lanman, R. B., Ponce-Aix, Santiago, Paz-Ares, Luis, and Garrido, Pilar

Abstract

[Objectives] Resistance to tyrosine-kinase inhibitors (TKIs) is a clinical challenge in patients with oncogene-driven non-small-cell lung cancers (NSCLC). We have analyzed the utility of next-generation sequencing (NGS) of cell-free circulating tumor DNA (ctDNA) to impact the clinical care of patients with TKI resistance., [Materials and methods] We conducted a multi-institutional prospective study including consecutive EGFR, ALK, or ROS1-altered NSCLC patients with TKI resistance from 12 Spanish institutions. Post-progression ctDNA NGS was performed by Guardant Health (Guardant360 assay)., [Results] We included 53 patients separated in 3 cohorts: 31 EGFR-mutant NSCLCs with first/second-generation TKI resistance (cohort 1), 15 EGFR T790M + NSCLCs with osimertinib resistance (cohort 2), and 7 ALK/ROS1-rearranged NSCLCs with crizotinib and/or next-generation TKI resistance (cohort 3). Besides Guardant360, 22 patients from cohort 1 (71%) underwent post-progression tumor biopsies and/or alternative plasma-based genotyping. In the entire study population, 34 patients (64%) had reliable evidence of tumor-DNA shed for resistance assessment, and 24 patients (45%) had actionable alterations. Target-independent pathogenic alterations were frequently detected, particularly at osimertinib resistance. Eleven patients (20%) received subsequent molecular-guided therapies indicated by plasma NGS alone (n = 9, 17%), or plasma NGS and tissue sequencing (n = 2, 4%), deriving the expected clinical benefit. Of these, 9 had EGFR T790 M mutation and received osimertinib, 1 had ALK G1202R mutation and received lorlatinib, and 1 had ROS1 G2032R mutation and received cabozantinib. Two additional cases from cohort 1 (6%) had undetectable EGFR T790 M by Guardant360 but were T790M + by tissue and BEAMing digital PCR respectively, and also received osimertinib., [Conclusion] NGS of ctDNA detects actionable alterations in a large proportion of oncogene-driven NSCLC patients with TKI resistance, and can be used to guide subsequent treatments as a complement or alternative to tissue or PCR-based plasma genotyping in the real-world clinical setting.

Published

2019

8. Clinical utility of plasma-based digital next-generation sequencing in patients with advance-stage lung adenocarcinomas with insufficient tumor samples for tissue genotyping

Author

Instituto de Salud Carlos III, European Commission, Zugazagoitia, Jon, Ramos, Inmaculada, Trigo, José Manuel, Palka, M., Gómez-Rueda, Ana, Jantus-Lewintre, Eloisa, Camps, Carlos, Isla, María Dolores, Iranzo, P., Ponce-Aix, Santiago, García-Campelo, R., Provencio, Mariano, Franco, F., Bernabé Caro, Reyes, Juan-Vidal, Óscar, Felip, Enriqueta, Castro, Javier de, Sánchez-Torres, J. M., Faul, Iris, Lanman, R. B., Garrido, Pilar, Paz-Ares, Luis, Instituto de Salud Carlos III, European Commission, Zugazagoitia, Jon, Ramos, Inmaculada, Trigo, José Manuel, Palka, M., Gómez-Rueda, Ana, Jantus-Lewintre, Eloisa, Camps, Carlos, Isla, María Dolores, Iranzo, P., Ponce-Aix, Santiago, García-Campelo, R., Provencio, Mariano, Franco, F., Bernabé Caro, Reyes, Juan-Vidal, Óscar, Felip, Enriqueta, Castro, Javier de, Sánchez-Torres, J. M., Faul, Iris, Lanman, R. B., Garrido, Pilar, and Paz-Ares, Luis

Abstract

[Background] Approximately 30% of tumor biopsies from patients with advanced-stage lung adenocarcinomas yield insufficient tissue for successful molecular subtyping. We have analyzed the clinical utility of next-generation sequencing (NGS) of cell-free circulating tumor DNA (ctDNA) in patients with inadequate tumor samples for tissue genotyping. [Patients and methods] We conducted the study in a multi-institutional prospective cohort of clinically unselected patients with advanced-stage lung adenocarcinomas with insufficient tissue for EGFR, ALK or ROS1 genotyping across 12 Spanish institutions (n = 93). ctDNA NGS was carried out by Guardant Health (Guardant360, Redwood City, CA), using a hybrid-capture-based 73-gene panel. Variants were deemed actionable if they were part of the OncoKB precision oncology knowledge database and classified in four levels of actionability based on their clinical or preclinical evidence for drug response. [Results] Eighty-three out of 93 patients (89%) had detectable levels of ctDNA. Potentially actionable level 1–4 genomic alterations were detected in 53 cases (57%), of which 13 (14%) had level 1–2A alterations (Food and Drug Administration-approved and standard-care biomarkers according to lung cancer guidelines). Frequencies of each genomic alteration in ctDNA were consistent with those observed in unselected pulmonary adenocarcinomas. The majority of the patients (62%), particularly those with actionable alterations (87%), had more than one pathogenic variant in ctDNA. The median turnaround time to genomic results was 13 days. Twelve patients (13%) received genotype-matched therapies based on ctDNA results, deriving the expected clinical benefit. Patients with co-occurring pathogenic alterations had a significantly shorter median overall survival as compared with patients without co-occurring pathogenic alteration (multivariate hazard ratio = 5.35, P = 0.01). [Conclusion] Digital NGS of ctDNA in lung cancers with insufficient tumor

Published

2019

9. Cell-Free DNA to detect focal versus non-focal MET amplification in metastatic colorectal cancer patients: Combined analysis from Japan and the United States

Author

Saori, M., primary, Kawazoe, A., additional, Nakamura, Y., additional, Odegaard, J.I., additional, Lefterova, M.I., additional, Lanman, R., additional, Yoshino, T., additional, and Strickler, J.H., additional

Published

2019

10. P1.03-31 BRAF Mutations: Classes I, II and III in NSCLC Patients Included in the SLLIP Trial, Targeted Treatment According to Class

Author

Bracht, J., primary, Karachaliou, N., additional, Bivona, T., additional, Fernández-Bruno, M., additional, Berenguer, J., additional, Gonzalez-Cao, M., additional, Lanman, R., additional, Faull, I., additional, Nagy, R., additional, Drozdowskyj, A., additional, Hernandez, A. Aguilar, additional, Mosquera, J.J. Garcia, additional, Molina-Vila, M.A., additional, and Rosell, R., additional

Published

2019

11. P1.01-98 Outcomes in Advanced NSCLC Patients Treated with 1st Line EGFR-TKI Based on Mutation Detection from Tissue or cfDNA-Based Genomic Sequencing

Author

Tran, H., primary, Lam, V., additional, Vasquez, M., additional, Hong, L., additional, Colen, R., additional, Elshafeey, N., additional, Hassan, I., additional, Papadimitrakopoulou, V., additional, Blumenschein, G., additional, Carter, B., additional, Simon, G., additional, Lanman, R., additional, Raymond, V., additional, Elamin, Y., additional, Altan, M., additional, Tsao, A., additional, Gibbons, D., additional, Zhang, J., additional, and Heymach, J., additional

Published

2019

12. P1.04-47 Tumor Mutation Burden Through Hybrid Capture – Circulating Tumor DNA May Predict Response to Immunotherapy in NSCLC

Author

Grinberg, R., primary, Roisman, L., additional, Geva, S., additional, Lefterova, M., additional, Quinn, K., additional, Gutman, L. Soussan, additional, Dvir, A., additional, Yair, R., additional, Lanman, R., additional, Mehta, D., additional, Kiedrowski, L., additional, Raez, L., additional, and Peled, N., additional

Published

2019

13. P3.01-28 The Clinical Impact of Comprehensive cfDNA Genomic Testing in Lung Cancer

Author

Geva, S., primary, Belilovski Rozenblum, A., additional, Twito, T., additional, Grinberg, R., additional, Dvir, A., additional, Soussan Gutman, L., additional, Roisman, L., additional, Ilouze, M., additional, Dudnik, E., additional, Zer, A., additional, Rotem, O., additional, Lanman, R., additional, and Peled, N., additional

Published

2018

14. P3.04-11 The Influence of Circulating Tumor DNA Analysis on Response to Immunotherapy in Non-Small Cell Lung Cancer (NSCLC)

Author

Grinberg, R., primary, Roisman, L., additional, Geva, S., additional, Lefterova, M., additional, Quinn, K., additional, Soussan Gutman, L., additional, Dvir, A., additional, Yair, R., additional, Twito, T., additional, Lanman, R., additional, and Peled, N., additional

Published

2018

15. MA26.03 Activity of Osimertinib and the Selective RET Inhibitor BLU-667 in an EGFR-Mutant Patient with Acquired RET Rearrangement

Author

Piotrowska, Z., primary, Isozaki, H., additional, Lennerz, J., additional, Digumarthy, S., additional, Gainor, J., additional, Marcoux, N., additional, Banwait, M., additional, Dias-Santagata, D., additional, Iafrate, A.J., additional, Mino-Kenudson, M., additional, Nagy, R., additional, Lanman, R., additional, Evans, E., additional, Clifford, C., additional, Wolf, B., additional, Hata, A., additional, and Sequist, L., additional

Published

2018

16. MA16.08 Clinical Utility of Detecting ROS1 Genetic Alterations in Plasma

Author

Dagogo-Jack, I., primary, Nagy, R., additional, Ferris, L., additional, Lin, J., additional, Gainor, J., additional, Lanman, R., additional, and Shaw, A., additional

Published

2018

17. MA16.01 Frequency and Genomic Context of Emerging Markers for Molecular Testing in Lung Adenocarcinoma in Cell-Free DNA NGS Analysis

Author

Kiedrowski, L., primary, Lam, V., additional, Piotrowska, Z., additional, Tsao, A., additional, Wells, A., additional, Lanman, R., additional, Papadimitrakopoulou, V., additional, and Nagy, R., additional

Published

2018

18. P2.15-16 Clinical Economic Impact of Improved Genotyping in Patients with Advanced Non-Small Cell Lung Adenocarcinoma (NSCLC)

Author

Lopes, G., primary, Raymond, V., additional, Scott, J., additional, Matthews, C., additional, Doshi, S., additional, Wang, E., additional, Skrzypczak, S., additional, Lanman, R., additional, and Gandara, D., additional

Published

2018

19. MA02.11 Achieving Value in Cancer Diagnostics: Blood Versus Tissue Molecular Profiling - A Prospective Canadian Study (VALUE)

Author

Ezeife, D., primary, Agulnik, J., additional, Juergens, R., additional, Laskin, J., additional, Laurie, S., additional, Le, L., additional, Hao, D., additional, Bebb, G., additional, Law, J., additional, Skrzypczak, S., additional, Juri, D., additional, Lanman, R., additional, and Leighl, N., additional

Published

2018

20. P1.09-21 Circulating Tumor DNA Improves Genotypification and Detection of Targetable Alterations in Selected Lung Cancer Patients

Author

Zatarain-Barrón, Z., primary, Barron, F., additional, Cardona, A., additional, Cruz-Rico, G., additional, Arrieta, O., additional, Flores-Veles, K., additional, Espenschied, C., additional, Raymond, V., additional, Lanman, R., additional, and Vargas, C., additional

Published

2018

21. P1.13-37 Clinical Evaluation of Plasma-Based (cfDNA) Genomic Profiling in Over 1,000 Patients with Advanced Non-Small Cell Lung Cancer

Author

Tran, H., primary, Lam, V., additional, Vasquez, M., additional, Hong, L., additional, Colen, R., additional, Elshafeey, N., additional, Hassan, I., additional, Prado, E., additional, Papadimitrakopoulou, V., additional, Blumenschein, G., additional, Carter, B., additional, Simon, G., additional, Byers, L., additional, Altan, M., additional, Elamin, Y., additional, Lanman, R., additional, Raymond, V., additional, Tsao, A., additional, Gibbons, D., additional, Fossella, F., additional, Zhang, J., additional, and Heymach, J., additional

Published

2018

22. PD.2.05 Circulating Tumor DNA Improves Genotypification and Detection of Targetable Alterations in Selected Lung Cancer Patients

Author

Zatarain-Barrón, Z., primary, Barrón, F., additional, Cardona, A., additional, Cruz-Rico, G., additional, Flores-Veles, K., additional, Espenschied, C., additional, Raymond, V., additional, Lanman, R., additional, Vargas, C., additional, and Arrieta, O., additional

Published

2018

23. P3.01-060 The Clinical Utility of ctDNA Gene Analysis in Lung Cancer

Author

Geva, S., primary, Rozenblum, A. Belilovski, additional, Ilouze, M., additional, Roisman, L., additional, Dudnik, E., additional, Zer, A., additional, Twito, T., additional, Dvir, A., additional, Soussan-Gutman, L., additional, Lanman, R., additional, and Peled, N., additional

Published

2017

24. OA 07.02 Characteristics of Lung Cancer Cell-Free Tumor DNA (CfDNA) Shedding and Correlation with Tumor Burden as Measured by RECIST

Author

Lam, V., primary, Li, L., additional, Wang, J., additional, Tran, H., additional, Rinsurongkawong, W., additional, Lanman, R., additional, Lewis, J., additional, Roth, J., additional, Swisher, S., additional, Papadimitrakopoulou, V., additional, Lee, J., additional, Zhang, J., additional, and Heymach, J., additional

Published

2017

25. OA 09.01 Characterizing the Genomic Landscape of EGFR C797S in Lung Cancer Using ctDNA Next-Generation Sequencing

Author

Piotrowska, Z., primary, Nagy, R., additional, Fairclough, S., additional, Lanman, R., additional, Marcoux, N., additional, Gettinger, S., additional, Owonikoko, T., additional, Ramalingam, S., additional, and Sequist, L., additional

Published

2017

26. OA 12.05 Spectrum of 1,014 Somatic BRAF Alterations Detected in Cell-Free DNA of Patients with Advanced Non-Small Cell Lung Cancer

Author

Raymond, V., primary, Bivona, T., additional, Lanman, R., additional, Nagy, R., additional, Banks, K., additional, Chae, Y.K., additional, Clarke, J., additional, Crawford, J., additional, Gandara, D.R., additional, and Heymach, J., additional

Published

2017

27. P1.11-004 Impact of Liquid Biopsy on the Treatment of Low-Income Lung Cancer Patients

Author

D'Souza, A., primary, Brooks, C., additional, In, G., additional, Raymond, V., additional, Lanman, R., additional, and Nieva, J., additional

Published

2017

28. P3.01-046 Longitudinal Analysis of Plasma CtDNA in EGFR-Mutant NSCLC: SWOG S1403 Trial of Afatinib with or Without Cetuximab

Author

Mack, P., primary, Miao, J., additional, Banks, K., additional, Burich, R., additional, Politi, K., additional, Raymond, V., additional, Dix, D., additional, Lanman, R., additional, Moon, J., additional, Melnick, M.A., additional, Truini, A., additional, Redman, M., additional, Goldberg, S., additional, Gandara, D.R., additional, and Kelly, K., additional

Published

2017

29. Clinical implications of genomic variants identified in over 30,000 advanced-stage cancer patients by next-generation sequencing of circulating tumor DNA

Author

Pal, S.K., primary, Brooks, C., additional, Chudova, D., additional, Odegaard, J., additional, Gandara, D.R., additional, Mack, P., additional, Mortimer, S., additional, Banks, K., additional, Nagy, R.J., additional, Baca, A., additional, Lanman, R., additional, Eltoukhy, H., additional, and Talasaz, A., additional

Published

2017

30. Comparison of circulating tumor DNA (ctDNA) profile in metastatic urothelial carcinoma (mUC) derived from the upper tract (UT) and lower tract (LT)

Author

Agarwal, N., primary, Pal, S.K., additional, Sonpavde, G., additional, Kiedrowski, L.A., additional, Nagy, R.J., additional, Banks, K., additional, Lanman, R., additional, and Grivas, P., additional

Published

2017

31. Circulating tumour DNA (ctDNA) in the clinical management of patients (pts) with advanced non-small cell lung cancer (NSCLC): A single centre experience

Author

Uccello, M., primary, Kushnir, M., additional, Mak, G., additional, Murias Henriquez, C., additional, Abbosh, C., additional, Papadatos-Pastos, D., additional, Newsom-Davis, T., additional, Ahmad, T., additional, Swanton, C., additional, Forster, M., additional, Lanman, R., additional, Faull, I., additional, and Arkenau, H-T., additional

Published

2017

32. Abstract P3-03-03: An acquired HER2 T798I gatekeeper mutation induces resistance to neratinib in a patient with HER2 mutant-driven breast cancer

Author

Hanker, AB, primary, Red Brewer, M, additional, Sheehan, JH, additional, Koch, JP, additional, Lanman, R, additional, Hyman, DM, additional, Cutler, RE, additional, Lalani, AS, additional, Cross, D, additional, Lovly, CM, additional, Meiler, J, additional, and Arteaga, CL, additional

Published

2017

33. 109P - Cell-Free DNA to detect focal versus non-focal MET amplification in metastatic colorectal cancer patients: Combined analysis from Japan and the United States

Author

Saori, M., Kawazoe, A., Nakamura, Y., Odegaard, J.I., Lefterova, M.I., Lanman, R., Yoshino, T., and Strickler, J.H.

Published

2019

34. 1702O - Clinical implications of genomic variants identified in over 30,000 advanced-stage cancer patients by next-generation sequencing of circulating tumor DNA

Author

Pal, S.K., Brooks, C., Chudova, D., Odegaard, J., Gandara, D.R., Mack, P., Mortimer, S., Banks, K., Nagy, R.J., Baca, A., Lanman, R., Eltoukhy, H., and Talasaz, A.

Published

2017

35. 868P - Comparison of circulating tumor DNA (ctDNA) profile in metastatic urothelial carcinoma (mUC) derived from the upper tract (UT) and lower tract (LT)

Author

Agarwal, N., Pal, S.K., Sonpavde, G., Kiedrowski, L.A., Nagy, R.J., Banks, K., Lanman, R., and Grivas, P.

Published

2017

36. 134P - Circulating tumour DNA (ctDNA) in the clinical management of patients (pts) with advanced non-small cell lung cancer (NSCLC): A single centre experience

Author

Uccello, M., Kushnir, M., Mak, G., Murias Henriquez, C., Abbosh, C., Papadatos-Pastos, D., Newsom-Davis, T., Ahmad, T., Swanton, C., Forster, M., Lanman, R., Faull, I., and Arkenau, H-T.

Published

2017

37. Clinical utility of plasma-based digital next-generation sequencing in patients with advance-stage lung adenocarcinomas with insufficient tumor samples for tissue genotyping.

Author

Zugazagoitia, J, Ramos, I, Trigo, J M, Palka, M, Gómez-Rueda, A, Jantus-Lewintre, E, Camps, C, Isla, D, Iranzo, P, Ponce-Aix, S, García-Campelo, R, Provencio, M, Franco, F, Bernabé, R, Juan-Vidal, O, Felip, E, Castro, J de, Sanchez-Torres, J M, Faul, I, and Lanman, R B

Subjects

*CIRCULATING tumor DNA, *LUNGS

Abstract

Background Approximately 30% of tumor biopsies from patients with advanced-stage lung adenocarcinomas yield insufficient tissue for successful molecular subtyping. We have analyzed the clinical utility of next-generation sequencing (NGS) of cell-free circulating tumor DNA (ctDNA) in patients with inadequate tumor samples for tissue genotyping. Patients and methods We conducted the study in a multi-institutional prospective cohort of clinically unselected patients with advanced-stage lung adenocarcinomas with insufficient tissue for EGFR, ALK or ROS1 genotyping across 12 Spanish institutions (n  =   93). ctDNA NGS was carried out by Guardant Health (Guardant360, Redwood City, CA), using a hybrid-capture-based 73-gene panel. Variants were deemed actionable if they were part of the OncoKB precision oncology knowledge database and classified in four levels of actionability based on their clinical or preclinical evidence for drug response. Results Eighty-three out of 93 patients (89%) had detectable levels of ctDNA. Potentially actionable level 1–4 genomic alterations were detected in 53 cases (57%), of which 13 (14%) had level 1–2A alterations (Food and Drug Administration-approved and standard-care biomarkers according to lung cancer guidelines). Frequencies of each genomic alteration in ctDNA were consistent with those observed in unselected pulmonary adenocarcinomas. The majority of the patients (62%), particularly those with actionable alterations (87%), had more than one pathogenic variant in ctDNA. The median turnaround time to genomic results was 13 days. Twelve patients (13%) received genotype-matched therapies based on ctDNA results, deriving the expected clinical benefit. Patients with co-occurring pathogenic alterations had a significantly shorter median overall survival as compared with patients without co-occurring pathogenic alteration (multivariate hazard ratio = 5.35, P  =   0.01). Conclusion Digital NGS of ctDNA in lung cancers with insufficient tumor samples for tissue sequencing detects actionable variants that frequently co-occur with other potentially clinically relevant genomic alterations, allowing timely initiation of genotype-matched therapies. [ABSTRACT FROM AUTHOR]

Published

2019

38. Anti-EGFR-resistant clones decay exponentially after progression: implications for anti-EGFR re-challenge.

Author

Parseghian, C M, Loree, J M, Morris, V K, Liu, X, Clifton, K K, Napolitano, S, Henry, J T, Pereira, A A, Vilar, E, Johnson, B, Kee, B, Raghav, K, Dasari, A, Wu, J, Garg, N, Raymond, V M, Banks, K C, Talasaz, A A, Lanman, R B, and Strickler, J H

Subjects

*CIRCULATING tumor DNA, *EPIDERMAL growth factor receptors, *PROGRESSION-free survival

Abstract

Background Colorectal cancer (CRC) has been shown to acquire RAS and EGFR ectodomain mutations as mechanisms of resistance to epidermal growth factor receptor (EGFR) inhibition (anti-EGFR). After anti-EGFR withdrawal, RAS and EGFR mutant clones lack a growth advantage relative to other clones and decay; however, the kinetics of decay remain unclear. We sought to determine the kinetics of acquired RAS/EGFR mutations after discontinuation of anti-EGFR therapy. Patients and methods We present the post-progression circulating tumor DNA (ctDNA) profiles of 135 patients with RAS / BRAF wild-type metastatic CRC treated with anti-EGFR who acquired RAS and/or EGFR mutations during therapy. Our validation cohort consisted of an external dataset of 73 patients with a ctDNA profile suggestive of prior anti-EGFR exposure and serial sampling. A separate retrospective cohort of 80 patients was used to evaluate overall response rate and progression free survival during re-challenge therapies. Results Our analysis showed that RAS and EGFR relative mutant allele frequency decays exponentially (r 2=0.93 for RAS ; r 2=0.94 for EGFR) with a cumulative half-life of 4.4 months. We validated our findings using an external dataset of 73 patients with a ctDNA profile suggestive of prior anti-EGFR exposure and serial sampling, confirming exponential decay with an estimated half-life of 4.3 months. A separate retrospective cohort of 80 patients showed that patients had a higher overall response rate during re-challenge therapies after increasing time intervals, as predicted by our model. Conclusion These results provide scientific support for anti-EGFR re-challenge and guide the optimal timing of re-challenge initiation. [ABSTRACT FROM AUTHOR]

Published

2019

39. Impact of genomic alterations on lapatinib treatment outcome and cell-free genomic landscape during HER2 therapy in HER2+ gastric cancer patients.

Author

Kim, S T, Banks, K C, Pectasides, E, Kim, S Y, Kim, K, Lanman, R B, Talasaz, A, An, J, Choi, M G, and Lee, J H

Subjects

*LAPATINIB, *GASTRIC diseases, *CANCER patients, *HER2 protein, *OXALIPLATIN

Abstract

Background: To identify predictive markers for responders in lapatinib-treated patients and to demonstrate molecular changes during lapatinib treatment via cell-free genomics. Patients and methods: We prospectively evaluated the efficacy of combining lapatinib with capecitabine and oxaliplatin as first line neoadjuvant therapy in patients with previously untreated, HER2-overexpressing advanced gastric cancer. A parallel biomarker study was conducted by simultaneously performing immunohistochemistry and next-generation sequencing (NGS) with tumor and blood samples. Results: Complete response was confirmed in 7/32 patients (21.8%), 2 of whom received radical surgery with pathologicconfirmed complete response. Fifteen partial responses (46.8%) were observed, resulting in a 68.6% overall response rate. NGS of the 16 tumor specimens demonstrated that the most common co-occurring copy number alteration was CCNE1 amplification, which was present in 40% of HER2þ tumors. The relationship between CCNE1 amplification and lack of response to HER2-targeted therapy trended toward statistical significance (66.7% of non-responders versus 22.2% of responders harbored CCNE1 amplification; P=0.08). Patients with high level ERBB2 amplification by NGS were more likely to respond to therapy, compared with patients with low level ERBB2 amplification (P=0.02). Analysis of cfDNA showed that detectable ERBB2 copy number amplification in plasma was predictive to the response (100%, response rate) and changes in plasma-detected genomic alterations were associated with lapatinib sensitivity and/or resistance. The follow-up cfDNA genomics at disease progression demonstrated that there are emergences of other genomic aberrations such as MYC, EGFR, FGFR2 and MET amplifications. Conclusions: The present study showed that HER2þGC patients respond differently according to concomitant genomic aberrations beyond ERBB2, high ERBB2 amplification by NGS or cfDNA can be a positive predictor for patient selection, and tumor genomic alterations change significantly during targeted agent therapy. [ABSTRACT FROM AUTHOR]

Published

2018

40. Polyclonal RB1 mutations and acquired resistance to CDK 4/6 inhibitors in patients with metastatic breast cancer.

Author

Condorelli, R, Spring, L, O'Shaughnessy, J, Lacroix, L, Bailleux, C, Scott, V, Dubois, J, Nagy, R J, Lanman, R B, and Iafrate, A J

Subjects

*METASTATIC breast cancer, *CANCER genetics, *CANCER chemotherapy, *GENETIC mutation, *GENE expression

Abstract

Background: While deregulation of the cyclin D1-CDK4/6-retinoblastoma pathway is common in hormone receptor positive (HR+) breast cancer, Rb is usually intact in HR+breast cancer, and targeted CDK 4/6 inhibitors that act upstream of Rb, are routinely being utilized in clinical practice. However, factors that can lead to clinical resistance to CDK 4/6 inhibitors are not known. Patients and methods: We identified patients who had pre- and post-genotyping in tissue and peripheral blood samples after receiving CDK 4/6 inhibitors. Genotyping was carried out in tumor tissue or blood collected before start of CDK 4/6 inhibitor and after disease progression on CDK 4/6 inhibitor, covering more than 90% of the coding region in RB1. Results: We identified detectable acquired RB1 mutations in circulating tumor DNA (ctDNA) after exposure to CDK4/6 inhibitor (palbociclib, palbociclib, ribociclib) for 5, 8, and 13 months, respectively, in three patients. The RB1 mutations included substitution in donor splicing site of exon 8 of the RB1 gene in patient #1; substitution in donor splicing site of exon 22 of RB1 gene, exon 19 deletion, exon 3 insertion in patient #2; and RB1 exon 16 H483Y mutation in patient #3. None of these RB1 mutations were present in the pre-CDK 4/6 specimen highlighting these molecular alterations, which lead to functional loss of Rb1, likely emerged under selective pressure from the CDK4/6 inhibitor potentially confering therapeutic resistance. Conclusion: This is the first clinical report to describe the emergence of somatic RB1 mutations after exposure to palbociclib or ribociclib, in patients with metastatic breast cancer. Further research is needed to validate these findings, identify how these mutations temporally emerge under selective pressure of CDK 4/6 inhibitor, and develop rational therapeutic strategies. [ABSTRACT FROM AUTHOR]

Published

2018

41. Anti-EGFR-resistant clones decay exponentially after progression: Implications for anti-EGFR re-challenge

Author

A.A. Talasaz, Benny Johnson, Xian De Liu, Jason Henry, Naveen Garg, Bryan K. Kee, Michael J. Overman, Ryan B. Corcoran, David S. Hong, Arvind Dasari, Katherine Clifton, Kanwal Pratap Singh Raghav, Kimberly C. Banks, Stefania Napolitano, R.B. Lanman, John H. Strickler, Scott Kopetz, Christine Megerdichian Parseghian, Van K. Morris, V.M. Raymond, Ji Yuan Wu, Allan Andresson Lima Pereira, Jonathan M. Loree, Eduardo Vilar, Parseghian, C. M., Loree, J. M., Morris, V. K., Liu, X., Clifton, K. K., Napolitano, S., Henry, J. T., Pereira, A. A., Vilar, E., Johnson, B., Kee, B., Raghav, K., Dasari, A., Wu, J., Garg, N., Raymond, V. M., Banks, K. C., Talasaz, A. A., Lanman, R. B., Strickler, J. H., Hong, D. S., Corcoran, R. B., Overman, M. J., and Kopetz, S.

Subjects

0301 basic medicine, Oncology, Colorectal cancer, Mutant, Colorectal Neoplasm, 0302 clinical medicine, Retrospective Studie, Anti-EGFR therapy, Epidermal growth factor receptor, Neoplasm Metastasis, biology, Hematology, Prognosis, Neoplastic Cells, Circulating, ErbB Receptors, Neoplasm Metastasi, Survival Rate, Ectodomain, 030220 oncology & carcinogenesis, Disease Progression, Colorectal Neoplasms, Human, medicine.medical_specialty, Prognosi, Protein Kinase Inhibitor, Follow-Up Studie, 03 medical and health sciences, Exponential growth, Internal medicine, medicine, Humans, Progression-free survival, ErbB Receptor, Protein Kinase Inhibitors, Retrospective Studies, Circulating tumor DNA, business.industry, Retrospective cohort study, Original Articles, medicine.disease, ras Protein, Discontinuation, 030104 developmental biology, Drug Resistance, Neoplasm, Mutation, biology.protein, ras Proteins, business, Clonal decay, Follow-Up Studies

Abstract

Background Colorectal cancer (CRC) has been shown to acquire RAS and EGFR ectodomain mutations as mechanisms of resistance to epidermal growth factor receptor (EGFR) inhibition (anti-EGFR). After anti-EGFR withdrawal, RAS and EGFR mutant clones lack a growth advantage relative to other clones and decay; however, the kinetics of decay remain unclear. We sought to determine the kinetics of acquired RAS/EGFR mutations after discontinuation of anti-EGFR therapy. Patients and methods We present the post-progression circulating tumor DNA (ctDNA) profiles of 135 patients with RAS/BRAF wild-type metastatic CRC treated with anti-EGFR who acquired RAS and/or EGFR mutations during therapy. Our validation cohort consisted of an external dataset of 73 patients with a ctDNA profile suggestive of prior anti-EGFR exposure and serial sampling. A separate retrospective cohort of 80 patients was used to evaluate overall response rate and progression free survival during re-challenge therapies. Results Our analysis showed that RAS and EGFR relative mutant allele frequency decays exponentially (r2=0.93 for RAS; r2=0.94 for EGFR) with a cumulative half-life of 4.4 months. We validated our findings using an external dataset of 73 patients with a ctDNA profile suggestive of prior anti-EGFR exposure and serial sampling, confirming exponential decay with an estimated half-life of 4.3 months. A separate retrospective cohort of 80 patients showed that patients had a higher overall response rate during re-challenge therapies after increasing time intervals, as predicted by our model. Conclusion These results provide scientific support for anti-EGFR re-challenge and guide the optimal timing of re-challenge initiation.

Published

2019

42. 378PCirculating cell-free DNA molecular profiling among east Asian patients reveals activating MET alterations are common in diverse advanced cancer types.

Author

Ikeda, S, Kumaki, Y, Rich, T A, Shiotsu, Y, Franovic, A, Raymond, V M, Kurzrock, R, Lanman, R B, Lee, J, and Mok, T S K

Subjects

*CELL-free DNA, *DNA fingerprinting, *MEDICINE

Published

2018

43. 373PCell-free DNA (cfDNA) landscape in ERBB2 (HER2)-amplified Asian cancer patient population.

Author

Lee, J, Franovic, A, Rich, T A, Shiotsu, Y, Raymond, V M, and Lanman, R B

Subjects

*CANCER patients, *SYSTEMS biology

Published

2018

44. 1190PMicrosatellite instability detection by targeted sequencing of cell-free DNA.

Author

Artyomenko, A, Sikora, M, Lefterova, M, Raymond, V M, Gavino, D, Barbacioru, C, Artieri, C, Helman, E, Chudova, D, and Lanman, R B

Subjects

*NUCLEOTIDE sequence, *CELL-free DNA, *MEDICAL sciences

Published

2018

45. 1346PReal world cfDNA collection in EGFR-mutant NSCLC.

Author

Marcoux, N, Sequist, L V, Hata, A, Banwait, M, Dagogo-Jack, I, Nagy, R, Lanman, R B, Muzikansky, A, Digumarthy, S R, and Piotrowska, Z

Subjects

*EPIDERMAL growth factor receptors, *NON-small-cell lung carcinoma

Published

2018

46. 131PDevelopment and analytical validation of a plasma-based tumor mutational burden (TMB) score from next-generation sequencing panels.

Author

Quinn, K, Helman, E, Nance, T, Artieri, C, Yen, J, Zhao, J, Fairclough, S, Sikora, M, Chudova, D, and Lanman, R B

Subjects

*NUCLEOTIDE sequencing, *TUMORS, *EARLY detection of cancer

Published

2018

47. Identification of Somatically Acquired BRCA1/2 Mutations by cfDNA Analysis in Patients with Metastatic Breast Cancer.

Author

Vidula N, Dubash T, Lawrence MS, Simoneau A, Niemierko A, Blouch E, Nagy B, Roh W, Chirn B, Reeves BA, Malvarosa G, Lennerz J, Isakoff SJ, Juric D, Micalizzi D, Wander S, Spring L, Moy B, Shannon K, Younger J, Lanman R, Toner M, Iafrate AJ, Getz G, Zou L, Ellisen LW, Maheswaran S, Haber DA, and Bardia A

Subjects

Aged, Breast Neoplasms blood, Breast Neoplasms drug therapy, Breast Neoplasms pathology, Cell Line, Tumor, Circulating Tumor DNA blood, DNA Mutational Analysis, Drug Resistance, Neoplasm genetics, Female, High-Throughput Nucleotide Sequencing, Humans, Middle Aged, Mutation, Neoplastic Cells, Circulating pathology, Phthalazines pharmacology, Phthalazines therapeutic use, Piperazines pharmacology, Piperazines therapeutic use, Poly(ADP-ribose) Polymerase Inhibitors pharmacology, Poly(ADP-ribose) Polymerase Inhibitors therapeutic use, Retrospective Studies, Exome Sequencing, BRCA1 Protein genetics, BRCA2 Protein genetics, Breast Neoplasms genetics, Circulating Tumor DNA genetics

Abstract

Purpose: Plasma genotyping may identify mutations in potentially "actionable" cancer genes, such as BRCA1/2 , but their clinical significance is not well-defined. We evaluated the characteristics of somatically acquired BRCA1/2 mutations in patients with metastatic breast cancer (MBC)., Experimental Design: Patients with MBC undergoing routine cell-free DNA (cfDNA) next-generation sequencing (73-gene panel) before starting a new therapy were included. Somatic BRCA1/2 mutations were classified as known germline pathogenic mutations or novel variants, and linked to clinicopathologic characteristics. The effect of the PARP inhibitor, olaparib, was assessed in vitro , using cultured circulating tumor cells (CTCs) from a patient with a somatically acquired BRCA1 mutation and a second patient with an acquired BRCA2 mutation., Results: Among 215 patients with MBC, 29 (13.5%) had somatic cfDNA BRCA1/2 mutations [nine (4%) known germline pathogenic and rest (9%) novel variants]. Known germline pathogenic BRCA1/2 mutations were common in younger patients ( P = 0.008), those with triple-negative disease ( P = 0.022), and they were more likely to be protein-truncating alterations and be associated with TP53 mutations. Functional analysis of a CTC culture harboring a somatic BRCA1 mutation demonstrated high sensitivity to PARP inhibition, while another CTC culture harboring a somatic BRCA2 mutation showed no differential sensitivity. Across the entire cohort, APOBEC mutational signatures (COSMIC Signatures 2 and 13) and the "BRCA" mutational signature (COSMIC Signature 3) were present in BRCA1/2- mutant and wild-type cases, demonstrating the high mutational burden associated with advanced MBC., Conclusions: Somatic BRCA1/2 mutations are readily detectable in MBC by cfDNA analysis, and may be present as both known germline pathogenic and novel variants., (©2020 American Association for Cancer Research.)

Published

2020

48. Correction: PIK3CA C2 Domain Deletions Hyperactivate Phosphoinositide 3-kinase (PI3K), Generate Oncogene Dependence, and Are Exquisitely Sensitive to PI3Kα Inhibitors.

Author

Croessmann S, Sheehan JH, Lee KM, Sliwoski G, He J, Nagy R, Riddle D, Mayer IA, Balko JM, Lanman R, Miller VA, Cantley LC, Meiler J, and Arteaga CL

Published

2019

49. PIK3CA C2 Domain Deletions Hyperactivate Phosphoinositide 3-kinase (PI3K), Generate Oncogene Dependence, and Are Exquisitely Sensitive to PI3K α Inhibitors.

Author

Croessmann S, Sheehan JH, Lee KM, Sliwoski G, He J, Nagy R, Riddle D, Mayer IA, Balko JM, Lanman R, Miller VA, Cantley LC, Meiler J, and Arteaga CL

Abstract

Purpose: We describe herein a novel P447_L455 deletion in the C2 domain of PIK3CA in a patient with an ER + breast cancer with an excellent response to the PI3Kα inhibitor alpelisib. Although PIK3CA deletions are relatively rare, a significant portion of deletions cluster within amino acids 446-460 of the C2 domain, suggesting these residues are critical for p110α function. Experimental Design: A computational structural model of PIK3CA delP447-L455 in complex with the p85 regulatory subunit and MCF10A cells expressing PIK3CA delP447-L455 and PIK3CA H450_P458del were used to understand the phenotype of C2 domain deletions. Results: Computational modeling revealed specific favorable inter-residue contacts that would be lost as a result of the deletion, predicting a significant decrease in binding energy. Coimmunoprecipitation experiments showed reduced binding of the C2 deletion mutants with p85 compared with wild-type p110α. The MCF10A cells expressing PIK3CA C2 deletions exhibited growth factor-independent growth, an invasive phenotype, and higher phosphorylation of AKT, ERK, and S6 compared with parental MCF10A cells. All these changes were ablated by alpelisib treatment. Conclusions: C2 domain deletions in PIK3CA generate PI3K dependence and should be considered biomarkers of sensitivity to PI3K inhibitors. Clin Cancer Res; 24(6); 1426-35. ©2017 AACR ., (©2017 American Association for Cancer Research.)

Published

2018

50. Clinical utility of circulating cell-free DNA in advanced colorectal cancer.

Author

Pereira AAL, Morelli MP, Overman M, Kee B, Fogelman D, Vilar E, Shureiqi I, Raghav K, Eng C, Manuel S, Crosby S, Wolff RA, Banks K, Lanman R, Talasaz A, Kopetz S, and Morris V

Subjects

Adult, Aged, Biomarkers, Tumor blood, Biomarkers, Tumor genetics, Colorectal Neoplasms blood, Colorectal Neoplasms pathology, Female, High-Throughput Nucleotide Sequencing, Humans, Male, Middle Aged, Mutation, Patient Satisfaction, Quality of Health Care, Retrospective Studies, Colorectal Neoplasms genetics, DNA blood

Abstract

Background: Circulating cell-free DNA (cfDNA) isolated from the plasma of cancer patients (pts) has been shown to reflect the genomic mutation profile of the tumor. However, physician and patient assessment of clinical utility of these assays in patients with metastatic colorectal cancer (mCRC) has not been previously described., Methods: Patients were prospectively consented to a prospective genomic matching protocol (Assessment of Targeted Therapies Against Colorectal Cancer [ATTACC]), with collection of blood for cfDNA extraction and sequencing of a 54-gene panel in a CLIA-certified lab. Formalin-fixed, paraffin-embedded (FFPE) tissue from prior resections or biopsies underwent 50-gene sequencing. Results from both assays were returned to the treating physicians for patient care and clinical trial selection. Follow-up surveys of treating physicians and chart reviews assessed clinical utility., Results: 128 mCRC pts were enrolled between 6/2014 and 1/2015. Results were returned in median of 13 and 26 days for cfDNA and FFPE sequencing, respectively. With cfDNA sequencing, 78% (100/128) of samples had a detectable somatic genomic alteration. 50% of cfDNA cases had potentially actionable alterations, and 60% of these could be genomically matched to at least one clinical trial in our institution. 50% (15/30) of these pts enrolled onto an identified matched trial. Physicians reported that the cfDNA testing improved the quality of care they could provide in 73% of the cases, and that 89% of pts reported greater satisfaction with the efforts to personalize experimental therapeutic agents., Conclusions: cfDNA sequencing can provide timely information on potentially actionable mutations and amplifications, thereby facilitating clinical trial enrollment and improving the perceived quality of care.

Published

2017