User login
The clinical utility of circulating tumor DNA (ctDNA) for detecting minimal residual disease (MRD) and for treatment planning postoperatively was a topic of debate at the European Lung Cancer Congress 2024, held in Prague, Czech Republic.
PRO: Prognostic Value
Enriqueta Felip, MD, PhD, of Vall d’Hebron Institute of Oncology in Barcelona, Spain, argued in favor of using liquid biopsy for disease surveillance and decision making about adjuvant therapy.
“In early stage non–small cell lung cancer I think the evidence shows that pretreatment baseline ctDNA levels are clearly prognostic, and also, after surgical resection, the MRD predicts relapse, so we know that at present ctDNA and MRD are strong prognostic markers,” she said.
“I think ctDNA is useful as a noninvasive tool in both settings — at baseline pre surgery and also post surgery — to guide adjuvant therapy decision making,” she added.
Dr. Felip noted that so-called “tumor-informed” assays, such as sequencing of tumor tissue to identify mutations that can then be tracked in plasma samples, are high sensitivity methods, but have a long turnaround time, and approximately one in five patients does not have adequate tumor tissues for analysis.
In contrast, “tumor agnostic” methods rely on epigenetic features such as DNA methylation and cell-free DNA fragmentation patterns to detect tumor-derived DNA, but don’t rely on tumor tissue sample.
Dr. Felip cited a 2017 study published in Cancer Discovery showing that in patients with localized lung cancer post treatment ctDNA detection preceded radiographic progression in 72% of patients by a median of 5.2 months. In addition, the investigators found that 53% of patients had ctDNA mutation profiles that suggested they would respond favorably to tyrosine kinase inhibitors or immune checkpoint inhibitors.
She also pointed to 2022 European Society for Medical Oncology (ESMO) recommendations on the use of ctDNA in patients with cancer, which state that detection of residual tumor DNA after NSCLC therapy with curative intent is associated with a high risk of future relapse, as supported by evidence from multiple studies. The recommendation also states, however, that there is insufficient evidence to recommend ctDNA testing in routine clinical practice in the absence of evidence from prospective clinical trials.
Evidence to support a benefit of ctDNA detection for treatment planning in the adjuvant setting come from several clinical studies, Dr. Felip said. For example, in a 2020 study published in Nature Cancer, investigators found that patients with detectable ctDNA after chemoradiotherapy who had treatment consolidation with an immune checkpoint inhibitor had significantly better freedom from progression compared with patients who had detectable ctDNA but did not receive consolidation immunotherapy.
In the IMpower010 trial, patients who were ctDNA-positive post surgery and received adjuvant atezolizumab (Tecentriq) had a median disease-free survival of 19.1 months, compared with 7.9 months for patients who did not get the immune checkpoint inhibitor, further indicating the value of ctDNA in the adjuvant setting, she said.
Wrapping up her argument, Dr. Felip acknowledged that currently the negative predictive value of ctDNA/MRD is suboptimal.
“However, we have seen that high ctDNA levels pre surgery predict poor outcome, and MRD-positive following definitive therapy is strongly prognostic and has extremely high positive predictive value for recurrence,” she said.
Taken together, the evidence suggests that patients who are ctDNA-positive preoperatively should be considered for neoadjuvant chemotherapy and immune checkpoint inhibition. If ctDNA persists after neoadjuvant therapy, patients should have extensive re-staging before surgery, because their options for pathologic complete response are limited. Patients who are MRD-positive after surgery should be treated with the same therapeutic approach as for patients with metastatic disease, Dr. Felip concluded.
CON: No Data Supporting OS Benefit
Offering counterpoint to Dr. Felip’s argument, Jordi Remon Masip, MD, PhD, of Gustave Roussy cancer treatment center in Villejuif, France, said that the currently available evidence suggests that MRD helps identify a high-risk population, but that its utility in the clinic is still uncertain.
“Today, I am a believer that we need prospective clinical trials, but one of the most important points today is to elucidate if the minimal residual disease is just prognostic or whether we really can use this minimal residual disease for making treatment decisions, not only escalating [but] also de-escalating treatment strategies in early stage non–small cell lung cancer,” he said.
Risk stratification may help to identify those patients who can most benefit from intensive therapy, but it appears to be much more difficult to risk stratify patients with early stage NSCLC, he said, pointing to the International Tailored Chemotherapy Adjuvant (ITACA) trial, a phase III multicenter randomized trial comparing adjuvant pharmacogenomic-driven chemotherapy versus standard adjuvant chemotherapy in patients with completely resected stage II-IIIA NSCLC. In this study, chemotherapy customized to individual patients according to molecular diagnostic analysis after surgery did not improve overall survival outcomes.
Dr. Masip said that as a clinician he would like to have any reliable tool that could help him to decide which patients need more therapy and which can do well with less.
He agreed that MRD-positivity as signaled by ctDNA after surgery or by a tumor-informed method correlates with poor prognosis, but he noted that MRD status depends on clinical characteristics such as sex, smoking status, age, stage, tumor size, histology, and many other factors that need to be taken into account if the assay is to have value in clinical practice.
“It’s true that the minimal residual disease may capture a poor prognostic population. However, even if we apply the minimal residual disease in our daily clinical practice, we can only capture, or we can only rescue 20% of the patients with the wild type or oncogenic early stage non–small cell lung cancer,” he said.
In addition, as Dr. Felip acknowledged, the negative predictive value of MRD is not infallible, with a 63% false negative rate compared with only a 2% false-positive rate.
“Half of the patients with the recurrence of the disease have a very, very low circulating tumor DNA, and the techniques are not sensitive enough to capture this minimal residual disease,” Dr. Masip said.
It would also be a mistake to forgo giving adjuvant therapy to those patients deemed to be MRD-negative on the basis of ctDNA, given the high false-negative rates, he said.
Oncologists also have to put themselves in their patients’ shoes:
“If our patients accept that with minimal residual disease I can only improve the disease-free survival without improving the overall survival, they would accept having less toxicity but the same survival that they would if they started the treatment later, and also what would happen if the patient is randomized to no adjuvant treatment because the minimal residual disease is negative, and some months later there is a recurrence of disease?” Dr. Masip said.
“I think we need more prospective data, but we really, really need a more sensitive test to avoid or to decrease the percentage of patients with false-negative results, and also we need very motivated patients that would accept to be randomized to de-escalate treatment strategies,” he concluded.
Dr. Felip disclosed advisory or speakers bureau roles for AbbVie, Amgen, AstraZeneca, Bayer, Beigene, Boehringer Ingelheim, Bristol Myers Squibb, Daiichi Sankyo, Eli Lilly, F. Hoffman-La Roche, Genentech, Gilead, GlaxoSmithKline, Janssen, Medical Trends, Medscape, Merck Serono, MSD, Novartis, PeerVoice, Peptomyc, Pfizer, Regeneron, Sanofi, Takeda, and Turning Point Therapeutics. She has served as a board member of Grifols. Dr. Masip disclosed research support from MSD, AstraZeneca, and Sanofi, and other financial relationships with AstraZeneca, Sanofi, Takeda Roche, and Janssen.
The clinical utility of circulating tumor DNA (ctDNA) for detecting minimal residual disease (MRD) and for treatment planning postoperatively was a topic of debate at the European Lung Cancer Congress 2024, held in Prague, Czech Republic.
PRO: Prognostic Value
Enriqueta Felip, MD, PhD, of Vall d’Hebron Institute of Oncology in Barcelona, Spain, argued in favor of using liquid biopsy for disease surveillance and decision making about adjuvant therapy.
“In early stage non–small cell lung cancer I think the evidence shows that pretreatment baseline ctDNA levels are clearly prognostic, and also, after surgical resection, the MRD predicts relapse, so we know that at present ctDNA and MRD are strong prognostic markers,” she said.
“I think ctDNA is useful as a noninvasive tool in both settings — at baseline pre surgery and also post surgery — to guide adjuvant therapy decision making,” she added.
Dr. Felip noted that so-called “tumor-informed” assays, such as sequencing of tumor tissue to identify mutations that can then be tracked in plasma samples, are high sensitivity methods, but have a long turnaround time, and approximately one in five patients does not have adequate tumor tissues for analysis.
In contrast, “tumor agnostic” methods rely on epigenetic features such as DNA methylation and cell-free DNA fragmentation patterns to detect tumor-derived DNA, but don’t rely on tumor tissue sample.
Dr. Felip cited a 2017 study published in Cancer Discovery showing that in patients with localized lung cancer post treatment ctDNA detection preceded radiographic progression in 72% of patients by a median of 5.2 months. In addition, the investigators found that 53% of patients had ctDNA mutation profiles that suggested they would respond favorably to tyrosine kinase inhibitors or immune checkpoint inhibitors.
She also pointed to 2022 European Society for Medical Oncology (ESMO) recommendations on the use of ctDNA in patients with cancer, which state that detection of residual tumor DNA after NSCLC therapy with curative intent is associated with a high risk of future relapse, as supported by evidence from multiple studies. The recommendation also states, however, that there is insufficient evidence to recommend ctDNA testing in routine clinical practice in the absence of evidence from prospective clinical trials.
Evidence to support a benefit of ctDNA detection for treatment planning in the adjuvant setting come from several clinical studies, Dr. Felip said. For example, in a 2020 study published in Nature Cancer, investigators found that patients with detectable ctDNA after chemoradiotherapy who had treatment consolidation with an immune checkpoint inhibitor had significantly better freedom from progression compared with patients who had detectable ctDNA but did not receive consolidation immunotherapy.
In the IMpower010 trial, patients who were ctDNA-positive post surgery and received adjuvant atezolizumab (Tecentriq) had a median disease-free survival of 19.1 months, compared with 7.9 months for patients who did not get the immune checkpoint inhibitor, further indicating the value of ctDNA in the adjuvant setting, she said.
Wrapping up her argument, Dr. Felip acknowledged that currently the negative predictive value of ctDNA/MRD is suboptimal.
“However, we have seen that high ctDNA levels pre surgery predict poor outcome, and MRD-positive following definitive therapy is strongly prognostic and has extremely high positive predictive value for recurrence,” she said.
Taken together, the evidence suggests that patients who are ctDNA-positive preoperatively should be considered for neoadjuvant chemotherapy and immune checkpoint inhibition. If ctDNA persists after neoadjuvant therapy, patients should have extensive re-staging before surgery, because their options for pathologic complete response are limited. Patients who are MRD-positive after surgery should be treated with the same therapeutic approach as for patients with metastatic disease, Dr. Felip concluded.
CON: No Data Supporting OS Benefit
Offering counterpoint to Dr. Felip’s argument, Jordi Remon Masip, MD, PhD, of Gustave Roussy cancer treatment center in Villejuif, France, said that the currently available evidence suggests that MRD helps identify a high-risk population, but that its utility in the clinic is still uncertain.
“Today, I am a believer that we need prospective clinical trials, but one of the most important points today is to elucidate if the minimal residual disease is just prognostic or whether we really can use this minimal residual disease for making treatment decisions, not only escalating [but] also de-escalating treatment strategies in early stage non–small cell lung cancer,” he said.
Risk stratification may help to identify those patients who can most benefit from intensive therapy, but it appears to be much more difficult to risk stratify patients with early stage NSCLC, he said, pointing to the International Tailored Chemotherapy Adjuvant (ITACA) trial, a phase III multicenter randomized trial comparing adjuvant pharmacogenomic-driven chemotherapy versus standard adjuvant chemotherapy in patients with completely resected stage II-IIIA NSCLC. In this study, chemotherapy customized to individual patients according to molecular diagnostic analysis after surgery did not improve overall survival outcomes.
Dr. Masip said that as a clinician he would like to have any reliable tool that could help him to decide which patients need more therapy and which can do well with less.
He agreed that MRD-positivity as signaled by ctDNA after surgery or by a tumor-informed method correlates with poor prognosis, but he noted that MRD status depends on clinical characteristics such as sex, smoking status, age, stage, tumor size, histology, and many other factors that need to be taken into account if the assay is to have value in clinical practice.
“It’s true that the minimal residual disease may capture a poor prognostic population. However, even if we apply the minimal residual disease in our daily clinical practice, we can only capture, or we can only rescue 20% of the patients with the wild type or oncogenic early stage non–small cell lung cancer,” he said.
In addition, as Dr. Felip acknowledged, the negative predictive value of MRD is not infallible, with a 63% false negative rate compared with only a 2% false-positive rate.
“Half of the patients with the recurrence of the disease have a very, very low circulating tumor DNA, and the techniques are not sensitive enough to capture this minimal residual disease,” Dr. Masip said.
It would also be a mistake to forgo giving adjuvant therapy to those patients deemed to be MRD-negative on the basis of ctDNA, given the high false-negative rates, he said.
Oncologists also have to put themselves in their patients’ shoes:
“If our patients accept that with minimal residual disease I can only improve the disease-free survival without improving the overall survival, they would accept having less toxicity but the same survival that they would if they started the treatment later, and also what would happen if the patient is randomized to no adjuvant treatment because the minimal residual disease is negative, and some months later there is a recurrence of disease?” Dr. Masip said.
“I think we need more prospective data, but we really, really need a more sensitive test to avoid or to decrease the percentage of patients with false-negative results, and also we need very motivated patients that would accept to be randomized to de-escalate treatment strategies,” he concluded.
Dr. Felip disclosed advisory or speakers bureau roles for AbbVie, Amgen, AstraZeneca, Bayer, Beigene, Boehringer Ingelheim, Bristol Myers Squibb, Daiichi Sankyo, Eli Lilly, F. Hoffman-La Roche, Genentech, Gilead, GlaxoSmithKline, Janssen, Medical Trends, Medscape, Merck Serono, MSD, Novartis, PeerVoice, Peptomyc, Pfizer, Regeneron, Sanofi, Takeda, and Turning Point Therapeutics. She has served as a board member of Grifols. Dr. Masip disclosed research support from MSD, AstraZeneca, and Sanofi, and other financial relationships with AstraZeneca, Sanofi, Takeda Roche, and Janssen.
The clinical utility of circulating tumor DNA (ctDNA) for detecting minimal residual disease (MRD) and for treatment planning postoperatively was a topic of debate at the European Lung Cancer Congress 2024, held in Prague, Czech Republic.
PRO: Prognostic Value
Enriqueta Felip, MD, PhD, of Vall d’Hebron Institute of Oncology in Barcelona, Spain, argued in favor of using liquid biopsy for disease surveillance and decision making about adjuvant therapy.
“In early stage non–small cell lung cancer I think the evidence shows that pretreatment baseline ctDNA levels are clearly prognostic, and also, after surgical resection, the MRD predicts relapse, so we know that at present ctDNA and MRD are strong prognostic markers,” she said.
“I think ctDNA is useful as a noninvasive tool in both settings — at baseline pre surgery and also post surgery — to guide adjuvant therapy decision making,” she added.
Dr. Felip noted that so-called “tumor-informed” assays, such as sequencing of tumor tissue to identify mutations that can then be tracked in plasma samples, are high sensitivity methods, but have a long turnaround time, and approximately one in five patients does not have adequate tumor tissues for analysis.
In contrast, “tumor agnostic” methods rely on epigenetic features such as DNA methylation and cell-free DNA fragmentation patterns to detect tumor-derived DNA, but don’t rely on tumor tissue sample.
Dr. Felip cited a 2017 study published in Cancer Discovery showing that in patients with localized lung cancer post treatment ctDNA detection preceded radiographic progression in 72% of patients by a median of 5.2 months. In addition, the investigators found that 53% of patients had ctDNA mutation profiles that suggested they would respond favorably to tyrosine kinase inhibitors or immune checkpoint inhibitors.
She also pointed to 2022 European Society for Medical Oncology (ESMO) recommendations on the use of ctDNA in patients with cancer, which state that detection of residual tumor DNA after NSCLC therapy with curative intent is associated with a high risk of future relapse, as supported by evidence from multiple studies. The recommendation also states, however, that there is insufficient evidence to recommend ctDNA testing in routine clinical practice in the absence of evidence from prospective clinical trials.
Evidence to support a benefit of ctDNA detection for treatment planning in the adjuvant setting come from several clinical studies, Dr. Felip said. For example, in a 2020 study published in Nature Cancer, investigators found that patients with detectable ctDNA after chemoradiotherapy who had treatment consolidation with an immune checkpoint inhibitor had significantly better freedom from progression compared with patients who had detectable ctDNA but did not receive consolidation immunotherapy.
In the IMpower010 trial, patients who were ctDNA-positive post surgery and received adjuvant atezolizumab (Tecentriq) had a median disease-free survival of 19.1 months, compared with 7.9 months for patients who did not get the immune checkpoint inhibitor, further indicating the value of ctDNA in the adjuvant setting, she said.
Wrapping up her argument, Dr. Felip acknowledged that currently the negative predictive value of ctDNA/MRD is suboptimal.
“However, we have seen that high ctDNA levels pre surgery predict poor outcome, and MRD-positive following definitive therapy is strongly prognostic and has extremely high positive predictive value for recurrence,” she said.
Taken together, the evidence suggests that patients who are ctDNA-positive preoperatively should be considered for neoadjuvant chemotherapy and immune checkpoint inhibition. If ctDNA persists after neoadjuvant therapy, patients should have extensive re-staging before surgery, because their options for pathologic complete response are limited. Patients who are MRD-positive after surgery should be treated with the same therapeutic approach as for patients with metastatic disease, Dr. Felip concluded.
CON: No Data Supporting OS Benefit
Offering counterpoint to Dr. Felip’s argument, Jordi Remon Masip, MD, PhD, of Gustave Roussy cancer treatment center in Villejuif, France, said that the currently available evidence suggests that MRD helps identify a high-risk population, but that its utility in the clinic is still uncertain.
“Today, I am a believer that we need prospective clinical trials, but one of the most important points today is to elucidate if the minimal residual disease is just prognostic or whether we really can use this minimal residual disease for making treatment decisions, not only escalating [but] also de-escalating treatment strategies in early stage non–small cell lung cancer,” he said.
Risk stratification may help to identify those patients who can most benefit from intensive therapy, but it appears to be much more difficult to risk stratify patients with early stage NSCLC, he said, pointing to the International Tailored Chemotherapy Adjuvant (ITACA) trial, a phase III multicenter randomized trial comparing adjuvant pharmacogenomic-driven chemotherapy versus standard adjuvant chemotherapy in patients with completely resected stage II-IIIA NSCLC. In this study, chemotherapy customized to individual patients according to molecular diagnostic analysis after surgery did not improve overall survival outcomes.
Dr. Masip said that as a clinician he would like to have any reliable tool that could help him to decide which patients need more therapy and which can do well with less.
He agreed that MRD-positivity as signaled by ctDNA after surgery or by a tumor-informed method correlates with poor prognosis, but he noted that MRD status depends on clinical characteristics such as sex, smoking status, age, stage, tumor size, histology, and many other factors that need to be taken into account if the assay is to have value in clinical practice.
“It’s true that the minimal residual disease may capture a poor prognostic population. However, even if we apply the minimal residual disease in our daily clinical practice, we can only capture, or we can only rescue 20% of the patients with the wild type or oncogenic early stage non–small cell lung cancer,” he said.
In addition, as Dr. Felip acknowledged, the negative predictive value of MRD is not infallible, with a 63% false negative rate compared with only a 2% false-positive rate.
“Half of the patients with the recurrence of the disease have a very, very low circulating tumor DNA, and the techniques are not sensitive enough to capture this minimal residual disease,” Dr. Masip said.
It would also be a mistake to forgo giving adjuvant therapy to those patients deemed to be MRD-negative on the basis of ctDNA, given the high false-negative rates, he said.
Oncologists also have to put themselves in their patients’ shoes:
“If our patients accept that with minimal residual disease I can only improve the disease-free survival without improving the overall survival, they would accept having less toxicity but the same survival that they would if they started the treatment later, and also what would happen if the patient is randomized to no adjuvant treatment because the minimal residual disease is negative, and some months later there is a recurrence of disease?” Dr. Masip said.
“I think we need more prospective data, but we really, really need a more sensitive test to avoid or to decrease the percentage of patients with false-negative results, and also we need very motivated patients that would accept to be randomized to de-escalate treatment strategies,” he concluded.
Dr. Felip disclosed advisory or speakers bureau roles for AbbVie, Amgen, AstraZeneca, Bayer, Beigene, Boehringer Ingelheim, Bristol Myers Squibb, Daiichi Sankyo, Eli Lilly, F. Hoffman-La Roche, Genentech, Gilead, GlaxoSmithKline, Janssen, Medical Trends, Medscape, Merck Serono, MSD, Novartis, PeerVoice, Peptomyc, Pfizer, Regeneron, Sanofi, Takeda, and Turning Point Therapeutics. She has served as a board member of Grifols. Dr. Masip disclosed research support from MSD, AstraZeneca, and Sanofi, and other financial relationships with AstraZeneca, Sanofi, Takeda Roche, and Janssen.
FROM ELCC 2024