Jennifer Smith is the editor of Oncology Practice, part of MDedge Hematology/Oncology. She was previously the editor of Hematology Times, an editor at Principal Investigators Association, and a reporter at The Oneida Daily Dispatch. She has a BS in journalism.

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Department of Medicine, John H. Stroger Jr. Hospital of Cook County, Chicago, Illinois
Department of Medicine, Rush Medical College, Chicago, Illinois
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Liquid vs. tissue biopsy in advanced prostate cancer: Why not both?

Article Type
Changed
Wed, 02/17/2021 - 08:26

 

The genomic landscape of circulating tumor DNA (ctDNA) was comparable to the landscape of tissue biopsies in a large study of patients with metastatic castration-resistant prostate cancer (mCRPC), according to researchers.

The type and frequency of genomic alterations observed were largely similar in ctDNA and tissue, and there was high concordance for BRCA1/2 alterations. Comprehensive genomic profiling (CGP) of ctDNA detected more acquired resistance alterations, which included novel androgen receptor (AR)–activating variants. In fact, alterations in nine genes were significantly enriched in ctDNA, but some of these alterations may be attributable to clonal hematopoiesis and not the tumor.

Still, the researchers concluded that CGP of ctDNA could complement tissue-based CGP.

“This is the largest study of mCRPC plasma samples conducted to date, and CGP of ctDNA recapitulated the genomic landscape detected in tissue biopsies,” said investigator Hanna Tukachinsky, PhD, from Foundation Medicine, the company that developed the liquid biopsy tests used in this study.

“The large percentage of patients with rich genomic signal from ctDNA and the sensitive, specific detection of BRCA1/2 alterations position liquid biopsy as a compelling clinical complement to tissue CGP for patients with mCRPC.”

Dr. Tukachinsky presented results from this study at the 2021 Genitourinary Cancers Symposium (Abstract 25). The results were also published in Clinical Cancer Research, but the following data are from the meeting presentation.

ctDNA profiling proves feasible, comparable

CGP was performed on 3,334 liquid biopsy samples and 2,006 tissue samples from patients with mCRPC, including patients in the TRITON2 and TRITON3 trials.

The plasma samples were profiled using FoundationACT, which had a panel of 62 genes, or FoundationOne Liquid CDx, which had a panel of 70 genes.

Most of the liquid biopsy samples – 94% – had detectable ctDNA, and the median ctDNA fraction was 7.5%.

“One of the most important findings in this study is the fact that the majority of patients with advanced prostate cancer – 94% of them – have abundant ctDNA,” Dr. Tukachinsky said.

“The overall landscape we detected in ctDNA highly resembles landscapes reported in tissue-based CGP studies of mCRPC,” she added.

ctDNA results showed a high percentage of TP53 and AR alterations, as well as alterations in DNA repair genes (ATM, CHEK2, BRCA2, and CDK12), PI3 kinase components (PTEN, PIK3CA, and AKT1), and WNT components (APC and CTNNB1).

“It should be noted that the two assays did not bait for TMPRSS2-ERT fusions or SPOP ... and we’re missing homozygous deletions, which affects the frequency we detect PTEN, RB1, and BRCA alterations,” Dr. Tukachinsky said.

When the researchers compared results from the 3,334 liquid biopsy samples and the 2,006 tissue samples, they found that most genes were altered at similar rates.

However, nine genes were significantly enriched in ctDNA – AR, TP53, ATM, CHEK2, NF1, TERT, JAK2, IDH2, and GNAS.

Dr. Tukachinsky noted that JAK2, GNAS, and IDH2 alterations are rarely detected in mCRPC tissue and are likely attributable to clonal hematopoiesis. Alterations in TERT and NF1, as well as some of the alterations in ATM and CHEK2, might also be attributed to clonal hematopoiesis, she added.

 

 

Rare and novel AR alterations

“ctDNA detected more acquired resistance genomic alterations than tissue, including novel and rare AR-activating variants,” Dr. Tukachinsky said.

She noted that F877L/T878A, a compound mutant that has been shown to confer synergistic resistance to enzalutamide, was found in 11 patients.

Similarly, “completely novel” in-frame mutations spanning residues H875 to T878 were found in 11 patients, and each shifted S885 into the T878 position.

“Although these require more experiments to prove that they are activating, their repeated appearance in different patients with mCRPC and alignment of the serine residues is highly suggestive that they are activating,” Dr. Tukachinsky said.

The researchers also found, in 160 patients, AR rearrangements that truncate the reading frame just after exon 3 to yield a receptor with an intact DNA binding domain but without a ligand binding domain.

“These truncated receptors have been demonstrated to confer resistance to AR signaling inhibitors and drive transcription of the AR target genes,” Dr. Tukachinsky said.

BRCA1/2: High concordance

To further assess concordance between ctDNA and tissue, Dr. Tukachinsky and colleagues evaluated a subset of 837 patients with matched tissue and liquid biopsies.

The researchers observed high concordance in BRCA1/2 short variants and rearrangements. The positive percent agreement was 93.1%, the negative percent agreement was 97.4%, and the overall percent agreement was 97.0%.

There were 5 patients in whom BRCA1/2 alterations were detected in tissue but not ctDNA, and there were 20 patients in whom BRCA1/2 alterations were detected in ctDNA but not tissue.

The false negatives could be the result of low ctDNA fraction, a minor clone, or filtering out by post analytics, said study discussant Silke Gillessen, MD, of the Institute of Oncology of Southern Switzerland in Bellinzona. She also postulated that the false positives could be explained by clonal hematopoiesis or metastases from a subclone.

Implications for practice

This study showed that liquid and tissue biopsies can perform comparably in identifying patients with BRCA1/2 variants who may benefit from PARP inhibition, Dr. Tukachinsky noted. Additionally, ctDNA revealed novel AR variants that may be driving resistance to AR-signaling inhibitors. However, the presence of alterations that may derive from clonal hematopoiesis suggests ctDNA results should be interpreted with some caution, she added.

“NCCN [National Comprehensive Cancer Network] guidelines have recently changed to include liquid biopsy as an option. There’s definitely some skepticism about liquid biopsy …. That said, liquid biopsy is also a pretty powerful tool,” Dr. Tukachinsky said.

“We are not advocating liquid biopsy over tissue. In the cases where tissue’s not available, or if you have a primary, in some cases, liquid could serve as a good complement to give you the full picture of what’s going on in the tumor,” she added.

“For the time being, tissue will still be our gold standard,” Dr. Gillessen said. “And if we can’t get the tissue tested, that will be then maybe a point for the liquid biopsy.”

Dr. Tukachinsky’s research was funded by Foundation Medicine and Clovis Oncology. She and her colleagues disclosed relationships with both companies and a range of other companies. Dr. Gillessen disclosed relationships with Amgen, Astellas Pharma, Bayer, and several other companies as well as a patent for a biomarker method (WO 3752009138392 A1).

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The genomic landscape of circulating tumor DNA (ctDNA) was comparable to the landscape of tissue biopsies in a large study of patients with metastatic castration-resistant prostate cancer (mCRPC), according to researchers.

The type and frequency of genomic alterations observed were largely similar in ctDNA and tissue, and there was high concordance for BRCA1/2 alterations. Comprehensive genomic profiling (CGP) of ctDNA detected more acquired resistance alterations, which included novel androgen receptor (AR)–activating variants. In fact, alterations in nine genes were significantly enriched in ctDNA, but some of these alterations may be attributable to clonal hematopoiesis and not the tumor.

Still, the researchers concluded that CGP of ctDNA could complement tissue-based CGP.

“This is the largest study of mCRPC plasma samples conducted to date, and CGP of ctDNA recapitulated the genomic landscape detected in tissue biopsies,” said investigator Hanna Tukachinsky, PhD, from Foundation Medicine, the company that developed the liquid biopsy tests used in this study.

“The large percentage of patients with rich genomic signal from ctDNA and the sensitive, specific detection of BRCA1/2 alterations position liquid biopsy as a compelling clinical complement to tissue CGP for patients with mCRPC.”

Dr. Tukachinsky presented results from this study at the 2021 Genitourinary Cancers Symposium (Abstract 25). The results were also published in Clinical Cancer Research, but the following data are from the meeting presentation.

ctDNA profiling proves feasible, comparable

CGP was performed on 3,334 liquid biopsy samples and 2,006 tissue samples from patients with mCRPC, including patients in the TRITON2 and TRITON3 trials.

The plasma samples were profiled using FoundationACT, which had a panel of 62 genes, or FoundationOne Liquid CDx, which had a panel of 70 genes.

Most of the liquid biopsy samples – 94% – had detectable ctDNA, and the median ctDNA fraction was 7.5%.

“One of the most important findings in this study is the fact that the majority of patients with advanced prostate cancer – 94% of them – have abundant ctDNA,” Dr. Tukachinsky said.

“The overall landscape we detected in ctDNA highly resembles landscapes reported in tissue-based CGP studies of mCRPC,” she added.

ctDNA results showed a high percentage of TP53 and AR alterations, as well as alterations in DNA repair genes (ATM, CHEK2, BRCA2, and CDK12), PI3 kinase components (PTEN, PIK3CA, and AKT1), and WNT components (APC and CTNNB1).

“It should be noted that the two assays did not bait for TMPRSS2-ERT fusions or SPOP ... and we’re missing homozygous deletions, which affects the frequency we detect PTEN, RB1, and BRCA alterations,” Dr. Tukachinsky said.

When the researchers compared results from the 3,334 liquid biopsy samples and the 2,006 tissue samples, they found that most genes were altered at similar rates.

However, nine genes were significantly enriched in ctDNA – AR, TP53, ATM, CHEK2, NF1, TERT, JAK2, IDH2, and GNAS.

Dr. Tukachinsky noted that JAK2, GNAS, and IDH2 alterations are rarely detected in mCRPC tissue and are likely attributable to clonal hematopoiesis. Alterations in TERT and NF1, as well as some of the alterations in ATM and CHEK2, might also be attributed to clonal hematopoiesis, she added.

 

 

Rare and novel AR alterations

“ctDNA detected more acquired resistance genomic alterations than tissue, including novel and rare AR-activating variants,” Dr. Tukachinsky said.

She noted that F877L/T878A, a compound mutant that has been shown to confer synergistic resistance to enzalutamide, was found in 11 patients.

Similarly, “completely novel” in-frame mutations spanning residues H875 to T878 were found in 11 patients, and each shifted S885 into the T878 position.

“Although these require more experiments to prove that they are activating, their repeated appearance in different patients with mCRPC and alignment of the serine residues is highly suggestive that they are activating,” Dr. Tukachinsky said.

The researchers also found, in 160 patients, AR rearrangements that truncate the reading frame just after exon 3 to yield a receptor with an intact DNA binding domain but without a ligand binding domain.

“These truncated receptors have been demonstrated to confer resistance to AR signaling inhibitors and drive transcription of the AR target genes,” Dr. Tukachinsky said.

BRCA1/2: High concordance

To further assess concordance between ctDNA and tissue, Dr. Tukachinsky and colleagues evaluated a subset of 837 patients with matched tissue and liquid biopsies.

The researchers observed high concordance in BRCA1/2 short variants and rearrangements. The positive percent agreement was 93.1%, the negative percent agreement was 97.4%, and the overall percent agreement was 97.0%.

There were 5 patients in whom BRCA1/2 alterations were detected in tissue but not ctDNA, and there were 20 patients in whom BRCA1/2 alterations were detected in ctDNA but not tissue.

The false negatives could be the result of low ctDNA fraction, a minor clone, or filtering out by post analytics, said study discussant Silke Gillessen, MD, of the Institute of Oncology of Southern Switzerland in Bellinzona. She also postulated that the false positives could be explained by clonal hematopoiesis or metastases from a subclone.

Implications for practice

This study showed that liquid and tissue biopsies can perform comparably in identifying patients with BRCA1/2 variants who may benefit from PARP inhibition, Dr. Tukachinsky noted. Additionally, ctDNA revealed novel AR variants that may be driving resistance to AR-signaling inhibitors. However, the presence of alterations that may derive from clonal hematopoiesis suggests ctDNA results should be interpreted with some caution, she added.

“NCCN [National Comprehensive Cancer Network] guidelines have recently changed to include liquid biopsy as an option. There’s definitely some skepticism about liquid biopsy …. That said, liquid biopsy is also a pretty powerful tool,” Dr. Tukachinsky said.

“We are not advocating liquid biopsy over tissue. In the cases where tissue’s not available, or if you have a primary, in some cases, liquid could serve as a good complement to give you the full picture of what’s going on in the tumor,” she added.

“For the time being, tissue will still be our gold standard,” Dr. Gillessen said. “And if we can’t get the tissue tested, that will be then maybe a point for the liquid biopsy.”

Dr. Tukachinsky’s research was funded by Foundation Medicine and Clovis Oncology. She and her colleagues disclosed relationships with both companies and a range of other companies. Dr. Gillessen disclosed relationships with Amgen, Astellas Pharma, Bayer, and several other companies as well as a patent for a biomarker method (WO 3752009138392 A1).

 

The genomic landscape of circulating tumor DNA (ctDNA) was comparable to the landscape of tissue biopsies in a large study of patients with metastatic castration-resistant prostate cancer (mCRPC), according to researchers.

The type and frequency of genomic alterations observed were largely similar in ctDNA and tissue, and there was high concordance for BRCA1/2 alterations. Comprehensive genomic profiling (CGP) of ctDNA detected more acquired resistance alterations, which included novel androgen receptor (AR)–activating variants. In fact, alterations in nine genes were significantly enriched in ctDNA, but some of these alterations may be attributable to clonal hematopoiesis and not the tumor.

Still, the researchers concluded that CGP of ctDNA could complement tissue-based CGP.

“This is the largest study of mCRPC plasma samples conducted to date, and CGP of ctDNA recapitulated the genomic landscape detected in tissue biopsies,” said investigator Hanna Tukachinsky, PhD, from Foundation Medicine, the company that developed the liquid biopsy tests used in this study.

“The large percentage of patients with rich genomic signal from ctDNA and the sensitive, specific detection of BRCA1/2 alterations position liquid biopsy as a compelling clinical complement to tissue CGP for patients with mCRPC.”

Dr. Tukachinsky presented results from this study at the 2021 Genitourinary Cancers Symposium (Abstract 25). The results were also published in Clinical Cancer Research, but the following data are from the meeting presentation.

ctDNA profiling proves feasible, comparable

CGP was performed on 3,334 liquid biopsy samples and 2,006 tissue samples from patients with mCRPC, including patients in the TRITON2 and TRITON3 trials.

The plasma samples were profiled using FoundationACT, which had a panel of 62 genes, or FoundationOne Liquid CDx, which had a panel of 70 genes.

Most of the liquid biopsy samples – 94% – had detectable ctDNA, and the median ctDNA fraction was 7.5%.

“One of the most important findings in this study is the fact that the majority of patients with advanced prostate cancer – 94% of them – have abundant ctDNA,” Dr. Tukachinsky said.

“The overall landscape we detected in ctDNA highly resembles landscapes reported in tissue-based CGP studies of mCRPC,” she added.

ctDNA results showed a high percentage of TP53 and AR alterations, as well as alterations in DNA repair genes (ATM, CHEK2, BRCA2, and CDK12), PI3 kinase components (PTEN, PIK3CA, and AKT1), and WNT components (APC and CTNNB1).

“It should be noted that the two assays did not bait for TMPRSS2-ERT fusions or SPOP ... and we’re missing homozygous deletions, which affects the frequency we detect PTEN, RB1, and BRCA alterations,” Dr. Tukachinsky said.

When the researchers compared results from the 3,334 liquid biopsy samples and the 2,006 tissue samples, they found that most genes were altered at similar rates.

However, nine genes were significantly enriched in ctDNA – AR, TP53, ATM, CHEK2, NF1, TERT, JAK2, IDH2, and GNAS.

Dr. Tukachinsky noted that JAK2, GNAS, and IDH2 alterations are rarely detected in mCRPC tissue and are likely attributable to clonal hematopoiesis. Alterations in TERT and NF1, as well as some of the alterations in ATM and CHEK2, might also be attributed to clonal hematopoiesis, she added.

 

 

Rare and novel AR alterations

“ctDNA detected more acquired resistance genomic alterations than tissue, including novel and rare AR-activating variants,” Dr. Tukachinsky said.

She noted that F877L/T878A, a compound mutant that has been shown to confer synergistic resistance to enzalutamide, was found in 11 patients.

Similarly, “completely novel” in-frame mutations spanning residues H875 to T878 were found in 11 patients, and each shifted S885 into the T878 position.

“Although these require more experiments to prove that they are activating, their repeated appearance in different patients with mCRPC and alignment of the serine residues is highly suggestive that they are activating,” Dr. Tukachinsky said.

The researchers also found, in 160 patients, AR rearrangements that truncate the reading frame just after exon 3 to yield a receptor with an intact DNA binding domain but without a ligand binding domain.

“These truncated receptors have been demonstrated to confer resistance to AR signaling inhibitors and drive transcription of the AR target genes,” Dr. Tukachinsky said.

BRCA1/2: High concordance

To further assess concordance between ctDNA and tissue, Dr. Tukachinsky and colleagues evaluated a subset of 837 patients with matched tissue and liquid biopsies.

The researchers observed high concordance in BRCA1/2 short variants and rearrangements. The positive percent agreement was 93.1%, the negative percent agreement was 97.4%, and the overall percent agreement was 97.0%.

There were 5 patients in whom BRCA1/2 alterations were detected in tissue but not ctDNA, and there were 20 patients in whom BRCA1/2 alterations were detected in ctDNA but not tissue.

The false negatives could be the result of low ctDNA fraction, a minor clone, or filtering out by post analytics, said study discussant Silke Gillessen, MD, of the Institute of Oncology of Southern Switzerland in Bellinzona. She also postulated that the false positives could be explained by clonal hematopoiesis or metastases from a subclone.

Implications for practice

This study showed that liquid and tissue biopsies can perform comparably in identifying patients with BRCA1/2 variants who may benefit from PARP inhibition, Dr. Tukachinsky noted. Additionally, ctDNA revealed novel AR variants that may be driving resistance to AR-signaling inhibitors. However, the presence of alterations that may derive from clonal hematopoiesis suggests ctDNA results should be interpreted with some caution, she added.

“NCCN [National Comprehensive Cancer Network] guidelines have recently changed to include liquid biopsy as an option. There’s definitely some skepticism about liquid biopsy …. That said, liquid biopsy is also a pretty powerful tool,” Dr. Tukachinsky said.

“We are not advocating liquid biopsy over tissue. In the cases where tissue’s not available, or if you have a primary, in some cases, liquid could serve as a good complement to give you the full picture of what’s going on in the tumor,” she added.

“For the time being, tissue will still be our gold standard,” Dr. Gillessen said. “And if we can’t get the tissue tested, that will be then maybe a point for the liquid biopsy.”

Dr. Tukachinsky’s research was funded by Foundation Medicine and Clovis Oncology. She and her colleagues disclosed relationships with both companies and a range of other companies. Dr. Gillessen disclosed relationships with Amgen, Astellas Pharma, Bayer, and several other companies as well as a patent for a biomarker method (WO 3752009138392 A1).

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Combo disappoints in metastatic, castration-resistant prostate cancer

Article Type
Changed
Fri, 02/12/2021 - 10:13

 

Combining the tyrosine kinase inhibitor saracatinib with docetaxel does not benefit patients with metastatic, castration-resistant prostate cancer (mCRPC), according to researchers.

In a phase 1/2 study, adding saracatinib to docetaxel increased toxicity without improving progression-free or overall survival.

“Although we could safely combine the Src kinase inhibitor saracatinib with docetaxel, it did not show any improvement in outcomes, when compared with docetaxel plus placebo. We therefore do not recommend proceeding to a phase 3 trial,” said investigator Robert J. Jones, MD, PhD, of the Institute of Cancer Sciences at the University of Glasgow, Scotland.

Dr. Jones presented the phase 1/2 trial results at the 2021 Genitourinary Cancers Symposium (Abstract 107).

He explained that saracatinib targets Src family members, and Src activity is increased during the acquisition of castration resistance and during taxane resistance. Dr. Jones and colleagues therefore theorized that saracatinib could be beneficial for patients with mCRPC.

The team tested their theory with the phase 1/2 trial, enrolling patients with mCRPC who had not previously received taxanes or radionucleotides. Dr. Jones reported results for 10 patients in the phase 1 portion of the trial and 140 patients in the phase 2 portion.

In phase 1, patients received saracatinib at 50 mg, 125 mg, or 175 mg daily plus docetaxel at 75 mg/m2.

There were no dose-limiting toxicities or pharmacokinetic interactions in these patients, so the phase 2 dose of saracatinib was 175 mg daily.

In phase 2, patients were randomized to receive saracatinib plus docetaxel or placebo plus docetaxel.
 

Results: Safety and efficacy

“In terms of efficacy, the trial failed to meet its primary endpoint of demonstrating an improvement in progression-free survival. Indeed, there was a trend toward an improvement in progression-free survival for patients receiving placebo,” Dr. Jones said. “Similarly, in this key secondary endpoint of overall survival, there was no benefit from the addition of saracatinib. And again, there was a trend toward an improved survival in patients receiving placebo.”

The median progression-free survival was 19 weeks with saracatinib and 29 weeks with placebo (adjusted hazard ratio, 1.348).

The median overall survival was 62 weeks with saracatinib and 83 weeks with placebo (adjusted HR, 1.422).

Furthermore, there were no significant differences between the treatment arms for two other efficacy endpoints – maximum absolute change in prostate-specific antigen levels and absolute change in circulating tumor cell count from baseline to cycle three.

However, grade 3 or higher adverse events were more common in the saracatinib arm than in the placebo arm – 59% (41/69) and 41% (29/71), respectively.

The most common grade 3 or higher adverse events (in the saracatinib and placebo arms, respectively) were neutropenia (25% vs. 8%), diarrhea (12% vs. 4%), and fatigue (6% vs. 4%).

This research was funded by the UK National Health Service and Cancer Research UK. Dr. Jones disclosed relationships with Astellas Pharma, AstraZeneca, Bayer, Bristol-Myers Squibb, and a number of other companies.

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Combining the tyrosine kinase inhibitor saracatinib with docetaxel does not benefit patients with metastatic, castration-resistant prostate cancer (mCRPC), according to researchers.

In a phase 1/2 study, adding saracatinib to docetaxel increased toxicity without improving progression-free or overall survival.

“Although we could safely combine the Src kinase inhibitor saracatinib with docetaxel, it did not show any improvement in outcomes, when compared with docetaxel plus placebo. We therefore do not recommend proceeding to a phase 3 trial,” said investigator Robert J. Jones, MD, PhD, of the Institute of Cancer Sciences at the University of Glasgow, Scotland.

Dr. Jones presented the phase 1/2 trial results at the 2021 Genitourinary Cancers Symposium (Abstract 107).

He explained that saracatinib targets Src family members, and Src activity is increased during the acquisition of castration resistance and during taxane resistance. Dr. Jones and colleagues therefore theorized that saracatinib could be beneficial for patients with mCRPC.

The team tested their theory with the phase 1/2 trial, enrolling patients with mCRPC who had not previously received taxanes or radionucleotides. Dr. Jones reported results for 10 patients in the phase 1 portion of the trial and 140 patients in the phase 2 portion.

In phase 1, patients received saracatinib at 50 mg, 125 mg, or 175 mg daily plus docetaxel at 75 mg/m2.

There were no dose-limiting toxicities or pharmacokinetic interactions in these patients, so the phase 2 dose of saracatinib was 175 mg daily.

In phase 2, patients were randomized to receive saracatinib plus docetaxel or placebo plus docetaxel.
 

Results: Safety and efficacy

“In terms of efficacy, the trial failed to meet its primary endpoint of demonstrating an improvement in progression-free survival. Indeed, there was a trend toward an improvement in progression-free survival for patients receiving placebo,” Dr. Jones said. “Similarly, in this key secondary endpoint of overall survival, there was no benefit from the addition of saracatinib. And again, there was a trend toward an improved survival in patients receiving placebo.”

The median progression-free survival was 19 weeks with saracatinib and 29 weeks with placebo (adjusted hazard ratio, 1.348).

The median overall survival was 62 weeks with saracatinib and 83 weeks with placebo (adjusted HR, 1.422).

Furthermore, there were no significant differences between the treatment arms for two other efficacy endpoints – maximum absolute change in prostate-specific antigen levels and absolute change in circulating tumor cell count from baseline to cycle three.

However, grade 3 or higher adverse events were more common in the saracatinib arm than in the placebo arm – 59% (41/69) and 41% (29/71), respectively.

The most common grade 3 or higher adverse events (in the saracatinib and placebo arms, respectively) were neutropenia (25% vs. 8%), diarrhea (12% vs. 4%), and fatigue (6% vs. 4%).

This research was funded by the UK National Health Service and Cancer Research UK. Dr. Jones disclosed relationships with Astellas Pharma, AstraZeneca, Bayer, Bristol-Myers Squibb, and a number of other companies.

 

Combining the tyrosine kinase inhibitor saracatinib with docetaxel does not benefit patients with metastatic, castration-resistant prostate cancer (mCRPC), according to researchers.

In a phase 1/2 study, adding saracatinib to docetaxel increased toxicity without improving progression-free or overall survival.

“Although we could safely combine the Src kinase inhibitor saracatinib with docetaxel, it did not show any improvement in outcomes, when compared with docetaxel plus placebo. We therefore do not recommend proceeding to a phase 3 trial,” said investigator Robert J. Jones, MD, PhD, of the Institute of Cancer Sciences at the University of Glasgow, Scotland.

Dr. Jones presented the phase 1/2 trial results at the 2021 Genitourinary Cancers Symposium (Abstract 107).

He explained that saracatinib targets Src family members, and Src activity is increased during the acquisition of castration resistance and during taxane resistance. Dr. Jones and colleagues therefore theorized that saracatinib could be beneficial for patients with mCRPC.

The team tested their theory with the phase 1/2 trial, enrolling patients with mCRPC who had not previously received taxanes or radionucleotides. Dr. Jones reported results for 10 patients in the phase 1 portion of the trial and 140 patients in the phase 2 portion.

In phase 1, patients received saracatinib at 50 mg, 125 mg, or 175 mg daily plus docetaxel at 75 mg/m2.

There were no dose-limiting toxicities or pharmacokinetic interactions in these patients, so the phase 2 dose of saracatinib was 175 mg daily.

In phase 2, patients were randomized to receive saracatinib plus docetaxel or placebo plus docetaxel.
 

Results: Safety and efficacy

“In terms of efficacy, the trial failed to meet its primary endpoint of demonstrating an improvement in progression-free survival. Indeed, there was a trend toward an improvement in progression-free survival for patients receiving placebo,” Dr. Jones said. “Similarly, in this key secondary endpoint of overall survival, there was no benefit from the addition of saracatinib. And again, there was a trend toward an improved survival in patients receiving placebo.”

The median progression-free survival was 19 weeks with saracatinib and 29 weeks with placebo (adjusted hazard ratio, 1.348).

The median overall survival was 62 weeks with saracatinib and 83 weeks with placebo (adjusted HR, 1.422).

Furthermore, there were no significant differences between the treatment arms for two other efficacy endpoints – maximum absolute change in prostate-specific antigen levels and absolute change in circulating tumor cell count from baseline to cycle three.

However, grade 3 or higher adverse events were more common in the saracatinib arm than in the placebo arm – 59% (41/69) and 41% (29/71), respectively.

The most common grade 3 or higher adverse events (in the saracatinib and placebo arms, respectively) were neutropenia (25% vs. 8%), diarrhea (12% vs. 4%), and fatigue (6% vs. 4%).

This research was funded by the UK National Health Service and Cancer Research UK. Dr. Jones disclosed relationships with Astellas Pharma, AstraZeneca, Bayer, Bristol-Myers Squibb, and a number of other companies.

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Treatments linked to death in COVID patients with thoracic cancers

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Thu, 08/26/2021 - 16:04

 

Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m2, and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

 

 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).



In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

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Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m2, and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

 

 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).



In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

 

Past treatment may affect the risk of death among patients with thoracic malignancies who develop COVID-19, according to data from the TERAVOLT registry.

Prior treatment with steroids, anticoagulants, chemotherapy alone, or chemotherapy plus immunotherapy were all associated with an increased risk of death, but prior treatment with tyrosine kinase inhibitors or immunotherapy alone were not.

At the same time, there were no COVID-19–directed treatments that seemed to affect the risk of death.

“When we look at therapies administered to treat COVID-19 … including anticoagulation, antibiotics, antivirals, hydroxychloroquine, we found that no particular therapy was associated with increased chance of recovery from COVID-19,” said Leora Horn, MD, of Vanderbilt-Ingram Cancer Center in Nashville, Tenn.

Dr. Horn presented these findings as part of the American Society of Clinical Oncology virtual scientific program.
 

About TERAVOLT

The TERAVOLT registry is the brainchild of Marina Garassino, MD, of the National Cancer Institute of Milan. On March 15, Dr. Garassino emailed colleagues around the world with the idea of starting the registry. Within 5 days, the final protocol was approved, and the first patient was entered onto TERAVOLT.

In creating a registry, Dr. Garassino and colleagues wanted to “determine the demographic factors, comorbidities, cancer characteristics, and therapies that place patients with thoracic malignancies who develop COVID-19 most at risk for hospitalization and death,” Dr. Horn said.

Other goals of the registry are “to understand the clinical course of patients with thoracic malignancies who are infected by SARS-CoV-2, to provide practitioners with real-time data on therapeutic strategies that may impact survival, [and] to evaluate the long-term impact on cancer outcomes related to care adjustments and delays in patients with thoracic malignancies,” she added.

Dr. Garassino presented the first analysis of TERAVOLT data at the AACR virtual meeting I in April. Results were recently published in The Lancet Oncology as well. That analysis included 200 patients, 98% of whom were from Europe, and the median follow-up was 15 days.

Baseline characteristics and outcomes

Dr. Horn’s updated analysis included 400 patients with a median follow-up of 33 days from COVID-19 diagnosis. The data encompassed patients from North and South America, Europe, Africa, Asia, and Australia.

Of the 400 patients, 169 had recovered, 141 had died, and 118 were still in the hospital at the time of analysis. In all, 334 patients (78.3%) required a hospital admission, and 33 (8.3%) were admitted to the ICU. The median length of hospitalization was 10 days.

Across the three outcome groups (recovered, died, ongoing), the median age was 67-70 years. Most patients had non–small cell lung cancer (74.5%-81.9%), and most had stage IV disease (61.4%-76.8%).

A majority of patients were male (63.3%-70.2%), and most were current or former smokers (77.5%-86.9%). The median body mass index was 24-25 kg/m2, and 35%-46.4% of patients had an Eastern Cooperative Oncology Group (ECOG) performance status of 0.

Most patients (82.2%-90.7%) had COVID-19 diagnosed via real-time polymerase chain reaction, although some patients were diagnosed via clinical findings alone (3.1%-5%).

“[R]egardless of outcome, the most common presenting symptom was fever, cough, or dyspnea,” Dr. Horn noted.

As for complications of COVID-19, 71% of patients who died had pneumonitis/pneumonia, 49.6% had acute respiratory distress syndrome, 14.9% had multiorgan failure, 12.1% had sepsis, and 5.7% had coagulopathy.

Among recovered patients, 59% had pneumonitis/pneumonia, 4.1% had acute respiratory distress syndrome, 3% had coagulopathy, 0.6% had sepsis, and none had multiorgan failure.

Patients who recovered were more likely to have no comorbidities at baseline, and 31.2% of patients who died had at least one comorbidity. The most frequent comorbidities were hypertension, chronic obstructive pulmonary disease, vascular disease, diabetes, and renal insufficiencies.
 

 

 

Prior treatments and COVID therapy

Among patients who died, 33.4% were on ACE inhibitors or angiotensin II receptor blockers, 27% were on anticoagulants, and 23.4% were on steroids (the equivalent of at least 10 mg of prednisone per day) at the time of COVID-19 diagnosis.

Among recovered patients, 20.7% were on ACE inhibitors or angiotensin II receptor blockers, 18.3% were on anticoagulants, and 14.2% were on steroids at the time of COVID-19 diagnosis.

“When we look at cancer therapy in the last 3 months, we can see that, regardless of outcome, the majority of patients had either not been treated or were on first-line therapy at the time of their COVID-19 diagnosis,” Dr. Horn noted.

Among patients who died, 46.8% had received chemotherapy, 22% had received immunotherapy, 12.8% had received targeted therapy, and 9.2% had received radiotherapy.

Among recovered patients, 33.7% had received chemotherapy, 26.6% had received immunotherapy, 19.5% had received targeted therapy, and 14.2% had received radiotherapy.

COVID-19–directed treatments included anticoagulation, antibiotics, antivirals, antifungals, steroids, interleukin-6 inhibitors, and hydroxychloroquine. Use of these therapies was similar among patients who recovered and patients who died.
 

Factors associated with death

In all, 79.4% of deaths were attributed to COVID-19, 10.6% were attributed to cancer, 8.5% were attributed to cancer and COVID-19, and 1.4% of deaths had an unknown cause.

In a univariate analysis, baseline characteristics associated with an increased risk of death were age of 65 years or older (P = .0033), one or more comorbidity (P = .0351), and ECOG performance status of 1 (P < .0001). Therapies associated with an increased risk of death in a univariate analysis included steroids (P = .0186), anticoagulation (P = .0562), and either chemotherapy alone or chemotherapy plus immunotherapy (P = .0256).



In a multivariate analysis, age over 65 years (P = .018), ECOG performance status of 1 (P < .001), prior use of steroids (P = .052), and receipt of chemotherapy alone or in combination with immunotherapy (P = .025) were all associated with an increased risk of death.

“There is no impact of gender [sex], body mass index, smoking status, stage, or type of cancer on risk of death,” Dr. Horn said. “Therapy administered to treat COVID-19 is not significantly associated with outcome.”

“The impact of COVID-19 infection on cancer management and outcomes must be evaluated,” she added. “Data collection is ongoing, with additional analysis and studies planned to look at patient and provider perception of COVID-19 and the impact it has had on cancer care.”

Strengths and limitations

There are several limitations to findings from the TERAVOLT registry, according to invited discussant Giuseppe Curigliano, MD, PhD, of the University of Milan.

He said the results are limited by the differences in triage decisions between European and other centers, the fact that most patients in TERAVOLT were hospitalized, the high proportion of patients with stage IV non–small cell lung cancer, and methods of data collection and analysis.

“There is no real-time data capture, no auditing, no standardized outcome definitions, and CRFs [case report forms] had a lot of limitations,” Dr. Curigliano said. “We have multiple biases, including selection bias, recall bias, confounding by indication, and changes in practice or disease evolution.”

Dr. Curigliano noted, however, that TERAVOLT is the largest real-world dataset of patients with COVID-19 and thoracic malignancies.

Furthermore, results from TERAVOLT correspond to results from the CCC-19 registry. Data from both registries suggest that older age, the presence of comorbidities, higher ECOG performances status, and chemotherapy alone or in combination with other therapies are associated with increased mortality among patients with cancer and COVID-19.

The TERAVOLT registry is funded, in part, by the International Association for the Study of Lung Cancer. Dr. Horn disclosed relationships with Amgen, AstraZeneca, Bayer, Boehringer Ingelheim, and other pharmaceutical companies. Dr. Curigliano disclosed relationships with AstraZeneca, Boehringer Ingelheim, Ellipses Pharma, and other pharmaceutical companies.
 

SOURCE: Horn L et al. ASCO 2020, Abstract LBA111.

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Nivolumab approved to treat esophageal squamous cell carcinoma

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Thu, 06/11/2020 - 12:34

 

The Food and Drug Administration has approved nivolumab (Opdivo) for use in certain patients with esophageal squamous cell carcinoma (ESCC).

The checkpoint inhibitor is now approved to treat patients with unresectable advanced, recurrent, or metastatic ESCC who previously received fluoropyrimidine- and platinum-based chemotherapy.

Researchers tested nivolumab in this population in the ATTRACTION-3 trial (NCT02569242). The trial enrolled 419 patients.

The patients were randomized to receive nivolumab at 240 mg via intravenous infusion over 30 minutes every 2 weeks (n = 210) or investigator’s choice of taxane chemotherapy (n = 209), which consisted of docetaxel (75 mg/m2 intravenously every 3 weeks) or paclitaxel (100 mg/m2 intravenously once a week for 6 weeks followed by 1 week off).

Nivolumab significantly improved overall survival but not progression-free survival. The median progression-free survival was 1.7 months in the nivolumab arm and 3.4 months in the chemotherapy arm (hazard ratio, 1.1).

The median overall survival was 10.9 months in the nivolumab arm and 8.4 months in the chemotherapy arm (hazard ratio, 0.77; P = .0189). The overall survival benefit was observed regardless of tumor programmed death–ligand 1 expression.

Response rates were similar between the treatment arms, but responses were more durable with nivolumab. The overall responses rate was 19.3% in the nivolumab arm and 21.5% in the chemotherapy arm. The median duration of response was 6.9 months and 3.9 months, respectively.

Serious adverse events were reported in 38% of patients in the nivolumab arm. Serious adverse events occurring in at least 2% of patients were pneumonia, esophageal fistula, interstitial lung disease, and pyrexia.

Adverse events prompted 13% of patients to discontinue nivolumab and 27% to delay nivolumab treatment.

Fatal adverse events in patients on nivolumab included interstitial lung disease or pneumonitis (1.4%), pneumonia (1.0%), septic shock (0.5%), esophageal fistula (0.5%), gastrointestinal hemorrhage (0.5%), pulmonary embolism (0.5%), and sudden death (0.5%).

The recommended dose of nivolumab for ESCC is 240 mg every 2 weeks or 480 mg every 4 weeks. For more details, see the full prescribing information.

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The Food and Drug Administration has approved nivolumab (Opdivo) for use in certain patients with esophageal squamous cell carcinoma (ESCC).

The checkpoint inhibitor is now approved to treat patients with unresectable advanced, recurrent, or metastatic ESCC who previously received fluoropyrimidine- and platinum-based chemotherapy.

Researchers tested nivolumab in this population in the ATTRACTION-3 trial (NCT02569242). The trial enrolled 419 patients.

The patients were randomized to receive nivolumab at 240 mg via intravenous infusion over 30 minutes every 2 weeks (n = 210) or investigator’s choice of taxane chemotherapy (n = 209), which consisted of docetaxel (75 mg/m2 intravenously every 3 weeks) or paclitaxel (100 mg/m2 intravenously once a week for 6 weeks followed by 1 week off).

Nivolumab significantly improved overall survival but not progression-free survival. The median progression-free survival was 1.7 months in the nivolumab arm and 3.4 months in the chemotherapy arm (hazard ratio, 1.1).

The median overall survival was 10.9 months in the nivolumab arm and 8.4 months in the chemotherapy arm (hazard ratio, 0.77; P = .0189). The overall survival benefit was observed regardless of tumor programmed death–ligand 1 expression.

Response rates were similar between the treatment arms, but responses were more durable with nivolumab. The overall responses rate was 19.3% in the nivolumab arm and 21.5% in the chemotherapy arm. The median duration of response was 6.9 months and 3.9 months, respectively.

Serious adverse events were reported in 38% of patients in the nivolumab arm. Serious adverse events occurring in at least 2% of patients were pneumonia, esophageal fistula, interstitial lung disease, and pyrexia.

Adverse events prompted 13% of patients to discontinue nivolumab and 27% to delay nivolumab treatment.

Fatal adverse events in patients on nivolumab included interstitial lung disease or pneumonitis (1.4%), pneumonia (1.0%), septic shock (0.5%), esophageal fistula (0.5%), gastrointestinal hemorrhage (0.5%), pulmonary embolism (0.5%), and sudden death (0.5%).

The recommended dose of nivolumab for ESCC is 240 mg every 2 weeks or 480 mg every 4 weeks. For more details, see the full prescribing information.

 

The Food and Drug Administration has approved nivolumab (Opdivo) for use in certain patients with esophageal squamous cell carcinoma (ESCC).

The checkpoint inhibitor is now approved to treat patients with unresectable advanced, recurrent, or metastatic ESCC who previously received fluoropyrimidine- and platinum-based chemotherapy.

Researchers tested nivolumab in this population in the ATTRACTION-3 trial (NCT02569242). The trial enrolled 419 patients.

The patients were randomized to receive nivolumab at 240 mg via intravenous infusion over 30 minutes every 2 weeks (n = 210) or investigator’s choice of taxane chemotherapy (n = 209), which consisted of docetaxel (75 mg/m2 intravenously every 3 weeks) or paclitaxel (100 mg/m2 intravenously once a week for 6 weeks followed by 1 week off).

Nivolumab significantly improved overall survival but not progression-free survival. The median progression-free survival was 1.7 months in the nivolumab arm and 3.4 months in the chemotherapy arm (hazard ratio, 1.1).

The median overall survival was 10.9 months in the nivolumab arm and 8.4 months in the chemotherapy arm (hazard ratio, 0.77; P = .0189). The overall survival benefit was observed regardless of tumor programmed death–ligand 1 expression.

Response rates were similar between the treatment arms, but responses were more durable with nivolumab. The overall responses rate was 19.3% in the nivolumab arm and 21.5% in the chemotherapy arm. The median duration of response was 6.9 months and 3.9 months, respectively.

Serious adverse events were reported in 38% of patients in the nivolumab arm. Serious adverse events occurring in at least 2% of patients were pneumonia, esophageal fistula, interstitial lung disease, and pyrexia.

Adverse events prompted 13% of patients to discontinue nivolumab and 27% to delay nivolumab treatment.

Fatal adverse events in patients on nivolumab included interstitial lung disease or pneumonitis (1.4%), pneumonia (1.0%), septic shock (0.5%), esophageal fistula (0.5%), gastrointestinal hemorrhage (0.5%), pulmonary embolism (0.5%), and sudden death (0.5%).

The recommended dose of nivolumab for ESCC is 240 mg every 2 weeks or 480 mg every 4 weeks. For more details, see the full prescribing information.

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Frontline nivo-ipi plus chemo approved for metastatic NSCLC

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Mon, 06/08/2020 - 14:56

The Food and Drug Administration has approved the combination of nivolumab (Opdivo), ipilimumab (Yervoy), and two cycles of platinum-doublet chemotherapy as frontline treatment for patients with metastatic or recurrent non–small cell lung cancer (NSCLC) who have no EGFR or ALK genomic tumor aberrations.

The FDA collaborated with the Australian Therapeutic Goods Administration, Health Canada, and Singapore’s Health Sciences Authority on the review that led to this approval, as part of Project Orbis. The FDA approved the application 2 months ahead of schedule.

The combination chemotherapy was investigated in the CHECKMATE-9LA trial (NCT03215706), which enrolled patients with metastatic or recurrent NSCLC.

Patients were randomized to receive nivolumab plus ipilimumab and two cycles of platinum-doublet chemotherapy (n = 361) or platinum-doublet chemotherapy for four cycles (n = 358).

There was a significant overall survival benefit in the nivolumab-ipilimumab arm, compared with the chemotherapy-only arm. The median overall survival was 14.1 months and 10.7 months, respectively (hazard ratio, 0.69; P = .0006).

The median progression-free survival was 6.8 months in the nivolumab-ipilimumab arm and 5 months in the chemotherapy-only arm (HR, 0.70; P = .0001). The overall response rate was 38% and 25%, respectively (P = .0003).

The most common adverse events in the nivolumab-ipilimumab arm, which occurred in at least 20% of patients, were fatigue, musculoskeletal pain, nausea, diarrhea, rash, decreased appetite, constipation, and pruritus.

Serious adverse events occurred in 57% of patients in the nivolumab-ipilimumab arm. Fatal adverse events occurred in seven patients (2%) in that arm. Fatal events were hepatic toxicity, acute renal failure, sepsis, pneumonitis, diarrhea with hypokalemia, and massive hemoptysis in the setting of thrombocytopenia.

For more details, see the full prescribing information for nivolumab or ipilimumab. Nivolumab and ipilimumab are both products of Bristol-Myers Squibb.

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The Food and Drug Administration has approved the combination of nivolumab (Opdivo), ipilimumab (Yervoy), and two cycles of platinum-doublet chemotherapy as frontline treatment for patients with metastatic or recurrent non–small cell lung cancer (NSCLC) who have no EGFR or ALK genomic tumor aberrations.

The FDA collaborated with the Australian Therapeutic Goods Administration, Health Canada, and Singapore’s Health Sciences Authority on the review that led to this approval, as part of Project Orbis. The FDA approved the application 2 months ahead of schedule.

The combination chemotherapy was investigated in the CHECKMATE-9LA trial (NCT03215706), which enrolled patients with metastatic or recurrent NSCLC.

Patients were randomized to receive nivolumab plus ipilimumab and two cycles of platinum-doublet chemotherapy (n = 361) or platinum-doublet chemotherapy for four cycles (n = 358).

There was a significant overall survival benefit in the nivolumab-ipilimumab arm, compared with the chemotherapy-only arm. The median overall survival was 14.1 months and 10.7 months, respectively (hazard ratio, 0.69; P = .0006).

The median progression-free survival was 6.8 months in the nivolumab-ipilimumab arm and 5 months in the chemotherapy-only arm (HR, 0.70; P = .0001). The overall response rate was 38% and 25%, respectively (P = .0003).

The most common adverse events in the nivolumab-ipilimumab arm, which occurred in at least 20% of patients, were fatigue, musculoskeletal pain, nausea, diarrhea, rash, decreased appetite, constipation, and pruritus.

Serious adverse events occurred in 57% of patients in the nivolumab-ipilimumab arm. Fatal adverse events occurred in seven patients (2%) in that arm. Fatal events were hepatic toxicity, acute renal failure, sepsis, pneumonitis, diarrhea with hypokalemia, and massive hemoptysis in the setting of thrombocytopenia.

For more details, see the full prescribing information for nivolumab or ipilimumab. Nivolumab and ipilimumab are both products of Bristol-Myers Squibb.

The Food and Drug Administration has approved the combination of nivolumab (Opdivo), ipilimumab (Yervoy), and two cycles of platinum-doublet chemotherapy as frontline treatment for patients with metastatic or recurrent non–small cell lung cancer (NSCLC) who have no EGFR or ALK genomic tumor aberrations.

The FDA collaborated with the Australian Therapeutic Goods Administration, Health Canada, and Singapore’s Health Sciences Authority on the review that led to this approval, as part of Project Orbis. The FDA approved the application 2 months ahead of schedule.

The combination chemotherapy was investigated in the CHECKMATE-9LA trial (NCT03215706), which enrolled patients with metastatic or recurrent NSCLC.

Patients were randomized to receive nivolumab plus ipilimumab and two cycles of platinum-doublet chemotherapy (n = 361) or platinum-doublet chemotherapy for four cycles (n = 358).

There was a significant overall survival benefit in the nivolumab-ipilimumab arm, compared with the chemotherapy-only arm. The median overall survival was 14.1 months and 10.7 months, respectively (hazard ratio, 0.69; P = .0006).

The median progression-free survival was 6.8 months in the nivolumab-ipilimumab arm and 5 months in the chemotherapy-only arm (HR, 0.70; P = .0001). The overall response rate was 38% and 25%, respectively (P = .0003).

The most common adverse events in the nivolumab-ipilimumab arm, which occurred in at least 20% of patients, were fatigue, musculoskeletal pain, nausea, diarrhea, rash, decreased appetite, constipation, and pruritus.

Serious adverse events occurred in 57% of patients in the nivolumab-ipilimumab arm. Fatal adverse events occurred in seven patients (2%) in that arm. Fatal events were hepatic toxicity, acute renal failure, sepsis, pneumonitis, diarrhea with hypokalemia, and massive hemoptysis in the setting of thrombocytopenia.

For more details, see the full prescribing information for nivolumab or ipilimumab. Nivolumab and ipilimumab are both products of Bristol-Myers Squibb.

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FDA approves brigatinib and companion diagnostic for NSCLC

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Wed, 05/27/2020 - 15:21

The Food and Drug Administration has approved brigatinib (Alunbrig) to treat adults with ALK-positive metastatic non–small cell lung cancer (NSCLC) as detected by an FDA-approved test.

The FDA also approved the Vysis ALK Break Apart FISH Probe Kit as a companion diagnostic for brigatinib.

Brigatinib and the companion diagnostic were both evaluated in the ALTA 1L trial (NCT02737501). The trial enrolled adults with advanced ALK-positive NSCLC who had not previously received an ALK-targeted therapy. Patients had to have an ALK rearrangement based on a local standard of care test.

Clinical samples from trial participants were retrospectively tested with the Vysis ALK Break Apart FISH Probe Kit. Of the 275 patients enrolled in the trial, 239 were ALK positive according to the test. Results were negative for 20 patients and unavailable for 16 patients.



Patients were randomized to receive brigatinib at 180 mg once daily with a 7-day lead-in at 90 mg once daily (n = 137) or crizotinib at 250 mg twice daily (n = 138).

The estimated median progression-free survival was 24 months in the brigatinib arm and 11 months in the crizotinib arm (hazard ratio, 0.49; P < .0001). The overall response rate was 74% in the brigatinib arm and 62% in the crizotinib arm.

The most common adverse events in the brigatinib arm, occurring in at least 20% of patients, were diarrhea, fatigue, nausea, rash, cough, myalgia, headache, hypertension, vomiting, abdominal pain, pruritus, back pain, and dyspnea.

Serious adverse events occurred in 33% of patients in the brigatinib arm, and fatal adverse events included in 2.9%. The fatal events were pneumonia (1.5%), cerebrovascular accident (0.7%), and multiple organ dysfunction syndrome (0.7%).

For more details on the ALTA 1L trial, see the full prescribing information for brigatinib.

The approval of brigatinib was granted to ARIAD Pharmaceuticals. The approval of the Vysis ALK Break Apart FISH Probe Kit was granted to Abbott Molecular.

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The Food and Drug Administration has approved brigatinib (Alunbrig) to treat adults with ALK-positive metastatic non–small cell lung cancer (NSCLC) as detected by an FDA-approved test.

The FDA also approved the Vysis ALK Break Apart FISH Probe Kit as a companion diagnostic for brigatinib.

Brigatinib and the companion diagnostic were both evaluated in the ALTA 1L trial (NCT02737501). The trial enrolled adults with advanced ALK-positive NSCLC who had not previously received an ALK-targeted therapy. Patients had to have an ALK rearrangement based on a local standard of care test.

Clinical samples from trial participants were retrospectively tested with the Vysis ALK Break Apart FISH Probe Kit. Of the 275 patients enrolled in the trial, 239 were ALK positive according to the test. Results were negative for 20 patients and unavailable for 16 patients.



Patients were randomized to receive brigatinib at 180 mg once daily with a 7-day lead-in at 90 mg once daily (n = 137) or crizotinib at 250 mg twice daily (n = 138).

The estimated median progression-free survival was 24 months in the brigatinib arm and 11 months in the crizotinib arm (hazard ratio, 0.49; P < .0001). The overall response rate was 74% in the brigatinib arm and 62% in the crizotinib arm.

The most common adverse events in the brigatinib arm, occurring in at least 20% of patients, were diarrhea, fatigue, nausea, rash, cough, myalgia, headache, hypertension, vomiting, abdominal pain, pruritus, back pain, and dyspnea.

Serious adverse events occurred in 33% of patients in the brigatinib arm, and fatal adverse events included in 2.9%. The fatal events were pneumonia (1.5%), cerebrovascular accident (0.7%), and multiple organ dysfunction syndrome (0.7%).

For more details on the ALTA 1L trial, see the full prescribing information for brigatinib.

The approval of brigatinib was granted to ARIAD Pharmaceuticals. The approval of the Vysis ALK Break Apart FISH Probe Kit was granted to Abbott Molecular.

The Food and Drug Administration has approved brigatinib (Alunbrig) to treat adults with ALK-positive metastatic non–small cell lung cancer (NSCLC) as detected by an FDA-approved test.

The FDA also approved the Vysis ALK Break Apart FISH Probe Kit as a companion diagnostic for brigatinib.

Brigatinib and the companion diagnostic were both evaluated in the ALTA 1L trial (NCT02737501). The trial enrolled adults with advanced ALK-positive NSCLC who had not previously received an ALK-targeted therapy. Patients had to have an ALK rearrangement based on a local standard of care test.

Clinical samples from trial participants were retrospectively tested with the Vysis ALK Break Apart FISH Probe Kit. Of the 275 patients enrolled in the trial, 239 were ALK positive according to the test. Results were negative for 20 patients and unavailable for 16 patients.



Patients were randomized to receive brigatinib at 180 mg once daily with a 7-day lead-in at 90 mg once daily (n = 137) or crizotinib at 250 mg twice daily (n = 138).

The estimated median progression-free survival was 24 months in the brigatinib arm and 11 months in the crizotinib arm (hazard ratio, 0.49; P < .0001). The overall response rate was 74% in the brigatinib arm and 62% in the crizotinib arm.

The most common adverse events in the brigatinib arm, occurring in at least 20% of patients, were diarrhea, fatigue, nausea, rash, cough, myalgia, headache, hypertension, vomiting, abdominal pain, pruritus, back pain, and dyspnea.

Serious adverse events occurred in 33% of patients in the brigatinib arm, and fatal adverse events included in 2.9%. The fatal events were pneumonia (1.5%), cerebrovascular accident (0.7%), and multiple organ dysfunction syndrome (0.7%).

For more details on the ALTA 1L trial, see the full prescribing information for brigatinib.

The approval of brigatinib was granted to ARIAD Pharmaceuticals. The approval of the Vysis ALK Break Apart FISH Probe Kit was granted to Abbott Molecular.

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FDA expands approval of atezolizumab in NSCLC

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Thu, 05/21/2020 - 16:50

 

The Food and Drug Administration has expanded the approved indication for atezolizumab (Tecentriq) in patients with non–small cell lung cancer (NSCLC).

Atezolizumab is now approved as first-line monotherapy for adults with metastatic NSCLC whose tumors are EGFR and ALK wild-type but have high PD-L1 expression (PD-L1 stained ≥50% of tumor cells or PD-L1 stained tumor-infiltrating immune cells covering ≥10% of the tumor area).

The FDA also approved the VENTANA PD-L1 (SP142) Assay as a companion diagnostic to identify patients with NSCLC who are eligible for treatment with atezolizumab.

The drug was evaluated in the IMpower110 trial (NCT02409342), which enrolled patients with stage IV, PD-L1–positive (tumor cells [TC] ≥1% or immune cells [IC] ≥1%) NSCLC who had received no prior chemotherapy for metastatic disease.

The patients were randomized to receive atezolizumab at 1,200 mg every 3 weeks (n = 286) or platinum-based chemotherapy (n = 263), which consisted of carboplatin or cisplatin with either pemetrexed or gemcitabine, until disease progression or unacceptable toxicity.

Overall survival was superior in the atezolizumab arm, but only among patients with high PD-L1 expression (TC ≥50% or IC ≥10%). The median overall survival was 20.2 months among PD-L1–high patients in the atezolizumab arm and 13.1 months among PD-L1–high patients in the chemotherapy arm (hazard ratio, 0.59; P = .0106). There was no significant difference in overall survival between the treatment arms for patients in the other two PD-L1 subgroups – TC ≥5% or IC ≥5% and TC ≥1% or IC ≥1%.

Serious adverse events occurred in 28% of patients receiving atezolizumab. The most frequent of these were pneumonia (2.8%), chronic obstructive pulmonary disease (2.1%), and pneumonitis (2.1%). Fatal adverse events in the atezolizumab arm included unexplained death, aspiration, chronic obstructive pulmonary disease, pulmonary embolism, acute myocardial infarction, cardiac arrest, mechanical ileus, sepsis, cerebral infraction, and device occlusion (one patient each).

For more details on atezolizumab, see the full prescribing information.

The FDA has granted the approval of atezolizumab to Genentech and the approval of the VENTANA PD-L1 (SP142) Assay to Ventana Medical Systems.

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The Food and Drug Administration has expanded the approved indication for atezolizumab (Tecentriq) in patients with non–small cell lung cancer (NSCLC).

Atezolizumab is now approved as first-line monotherapy for adults with metastatic NSCLC whose tumors are EGFR and ALK wild-type but have high PD-L1 expression (PD-L1 stained ≥50% of tumor cells or PD-L1 stained tumor-infiltrating immune cells covering ≥10% of the tumor area).

The FDA also approved the VENTANA PD-L1 (SP142) Assay as a companion diagnostic to identify patients with NSCLC who are eligible for treatment with atezolizumab.

The drug was evaluated in the IMpower110 trial (NCT02409342), which enrolled patients with stage IV, PD-L1–positive (tumor cells [TC] ≥1% or immune cells [IC] ≥1%) NSCLC who had received no prior chemotherapy for metastatic disease.

The patients were randomized to receive atezolizumab at 1,200 mg every 3 weeks (n = 286) or platinum-based chemotherapy (n = 263), which consisted of carboplatin or cisplatin with either pemetrexed or gemcitabine, until disease progression or unacceptable toxicity.

Overall survival was superior in the atezolizumab arm, but only among patients with high PD-L1 expression (TC ≥50% or IC ≥10%). The median overall survival was 20.2 months among PD-L1–high patients in the atezolizumab arm and 13.1 months among PD-L1–high patients in the chemotherapy arm (hazard ratio, 0.59; P = .0106). There was no significant difference in overall survival between the treatment arms for patients in the other two PD-L1 subgroups – TC ≥5% or IC ≥5% and TC ≥1% or IC ≥1%.

Serious adverse events occurred in 28% of patients receiving atezolizumab. The most frequent of these were pneumonia (2.8%), chronic obstructive pulmonary disease (2.1%), and pneumonitis (2.1%). Fatal adverse events in the atezolizumab arm included unexplained death, aspiration, chronic obstructive pulmonary disease, pulmonary embolism, acute myocardial infarction, cardiac arrest, mechanical ileus, sepsis, cerebral infraction, and device occlusion (one patient each).

For more details on atezolizumab, see the full prescribing information.

The FDA has granted the approval of atezolizumab to Genentech and the approval of the VENTANA PD-L1 (SP142) Assay to Ventana Medical Systems.

 

The Food and Drug Administration has expanded the approved indication for atezolizumab (Tecentriq) in patients with non–small cell lung cancer (NSCLC).

Atezolizumab is now approved as first-line monotherapy for adults with metastatic NSCLC whose tumors are EGFR and ALK wild-type but have high PD-L1 expression (PD-L1 stained ≥50% of tumor cells or PD-L1 stained tumor-infiltrating immune cells covering ≥10% of the tumor area).

The FDA also approved the VENTANA PD-L1 (SP142) Assay as a companion diagnostic to identify patients with NSCLC who are eligible for treatment with atezolizumab.

The drug was evaluated in the IMpower110 trial (NCT02409342), which enrolled patients with stage IV, PD-L1–positive (tumor cells [TC] ≥1% or immune cells [IC] ≥1%) NSCLC who had received no prior chemotherapy for metastatic disease.

The patients were randomized to receive atezolizumab at 1,200 mg every 3 weeks (n = 286) or platinum-based chemotherapy (n = 263), which consisted of carboplatin or cisplatin with either pemetrexed or gemcitabine, until disease progression or unacceptable toxicity.

Overall survival was superior in the atezolizumab arm, but only among patients with high PD-L1 expression (TC ≥50% or IC ≥10%). The median overall survival was 20.2 months among PD-L1–high patients in the atezolizumab arm and 13.1 months among PD-L1–high patients in the chemotherapy arm (hazard ratio, 0.59; P = .0106). There was no significant difference in overall survival between the treatment arms for patients in the other two PD-L1 subgroups – TC ≥5% or IC ≥5% and TC ≥1% or IC ≥1%.

Serious adverse events occurred in 28% of patients receiving atezolizumab. The most frequent of these were pneumonia (2.8%), chronic obstructive pulmonary disease (2.1%), and pneumonitis (2.1%). Fatal adverse events in the atezolizumab arm included unexplained death, aspiration, chronic obstructive pulmonary disease, pulmonary embolism, acute myocardial infarction, cardiac arrest, mechanical ileus, sepsis, cerebral infraction, and device occlusion (one patient each).

For more details on atezolizumab, see the full prescribing information.

The FDA has granted the approval of atezolizumab to Genentech and the approval of the VENTANA PD-L1 (SP142) Assay to Ventana Medical Systems.

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FDA approves olaparib/bevacizumab maintenance

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Mon, 05/11/2020 - 17:57

The Food and Drug Administration has announced a new approved indication for olaparib (Lynparza) in adults with advanced epithelial ovarian, fallopian tube, or primary peritoneal cancer.

Olaparib is now FDA-approved for use in combination with bevacizumab as maintenance therapy in patients who responded to first-line platinum-based chemotherapy and whose cancer is homologous recombination deficiency positive, as defined by a deleterious or suspected deleterious BRCA mutation and/or genomic instability.

The FDA also approved the Myriad myChoice CDx test as a companion diagnostic for olaparib.

Trial results

The efficacy of olaparib and the myChoice CDx test were assessed in patients in the phase 3 PAOLA-1 trial (NCT02477644). The study enrolled patients with advanced high-grade epithelial ovarian, fallopian tube, or primary peritoneal cancer who had received first-line platinum-based chemotherapy and bevacizumab.

Patients were stratified by first-line treatment outcome and BRCA mutation status, as determined by prospective local testing. All available clinical samples were retrospectively tested with the Myriad myChoice CDx test.

The patients were randomized to receive olaparib at 300 mg orally twice daily in combination with bevacizumab at 15 mg/kg every 3 weeks (n = 537) or placebo plus bevacizumab (n = 269). Patients continued bevacizumab in the maintenance setting and started olaparib 3-9 weeks after their last chemotherapy dose. Olaparib could be continued for up to 2 years or until disease progression or unacceptable toxicity.

The median progression-free survival among the 387 patients with homologous recombination deficiency-positive tumors was 37.2 months in the olaparib arm and 17.7 months in the placebo arm (hazard ratio, 0.33), according to the prescribing information for olaparib.

Serious adverse events occurred in 31% of patients in the olaparib arm. The most common were hypertension (19%) and anemia (17%).

Dose interruptions from adverse events occurred in 54% of patients in the olaparib arm, and dose reductions from adverse events occurred in 41%.

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The Food and Drug Administration has announced a new approved indication for olaparib (Lynparza) in adults with advanced epithelial ovarian, fallopian tube, or primary peritoneal cancer.

Olaparib is now FDA-approved for use in combination with bevacizumab as maintenance therapy in patients who responded to first-line platinum-based chemotherapy and whose cancer is homologous recombination deficiency positive, as defined by a deleterious or suspected deleterious BRCA mutation and/or genomic instability.

The FDA also approved the Myriad myChoice CDx test as a companion diagnostic for olaparib.

Trial results

The efficacy of olaparib and the myChoice CDx test were assessed in patients in the phase 3 PAOLA-1 trial (NCT02477644). The study enrolled patients with advanced high-grade epithelial ovarian, fallopian tube, or primary peritoneal cancer who had received first-line platinum-based chemotherapy and bevacizumab.

Patients were stratified by first-line treatment outcome and BRCA mutation status, as determined by prospective local testing. All available clinical samples were retrospectively tested with the Myriad myChoice CDx test.

The patients were randomized to receive olaparib at 300 mg orally twice daily in combination with bevacizumab at 15 mg/kg every 3 weeks (n = 537) or placebo plus bevacizumab (n = 269). Patients continued bevacizumab in the maintenance setting and started olaparib 3-9 weeks after their last chemotherapy dose. Olaparib could be continued for up to 2 years or until disease progression or unacceptable toxicity.

The median progression-free survival among the 387 patients with homologous recombination deficiency-positive tumors was 37.2 months in the olaparib arm and 17.7 months in the placebo arm (hazard ratio, 0.33), according to the prescribing information for olaparib.

Serious adverse events occurred in 31% of patients in the olaparib arm. The most common were hypertension (19%) and anemia (17%).

Dose interruptions from adverse events occurred in 54% of patients in the olaparib arm, and dose reductions from adverse events occurred in 41%.

The Food and Drug Administration has announced a new approved indication for olaparib (Lynparza) in adults with advanced epithelial ovarian, fallopian tube, or primary peritoneal cancer.

Olaparib is now FDA-approved for use in combination with bevacizumab as maintenance therapy in patients who responded to first-line platinum-based chemotherapy and whose cancer is homologous recombination deficiency positive, as defined by a deleterious or suspected deleterious BRCA mutation and/or genomic instability.

The FDA also approved the Myriad myChoice CDx test as a companion diagnostic for olaparib.

Trial results

The efficacy of olaparib and the myChoice CDx test were assessed in patients in the phase 3 PAOLA-1 trial (NCT02477644). The study enrolled patients with advanced high-grade epithelial ovarian, fallopian tube, or primary peritoneal cancer who had received first-line platinum-based chemotherapy and bevacizumab.

Patients were stratified by first-line treatment outcome and BRCA mutation status, as determined by prospective local testing. All available clinical samples were retrospectively tested with the Myriad myChoice CDx test.

The patients were randomized to receive olaparib at 300 mg orally twice daily in combination with bevacizumab at 15 mg/kg every 3 weeks (n = 537) or placebo plus bevacizumab (n = 269). Patients continued bevacizumab in the maintenance setting and started olaparib 3-9 weeks after their last chemotherapy dose. Olaparib could be continued for up to 2 years or until disease progression or unacceptable toxicity.

The median progression-free survival among the 387 patients with homologous recombination deficiency-positive tumors was 37.2 months in the olaparib arm and 17.7 months in the placebo arm (hazard ratio, 0.33), according to the prescribing information for olaparib.

Serious adverse events occurred in 31% of patients in the olaparib arm. The most common were hypertension (19%) and anemia (17%).

Dose interruptions from adverse events occurred in 54% of patients in the olaparib arm, and dose reductions from adverse events occurred in 41%.

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NSCLC: FDA approves capmatinib and companion assay

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Wed, 05/06/2020 - 19:00

The Food and Drug Administration has approved capmatinib (Tabrecta) to treat adults with metastatic non–small cell lung cancer (NSCLC) harboring MET exon 14 skipping mutations, as detected by an FDA-approved test.

The FDA also approved the FoundationOne CDx assay (F1CDx) as a companion diagnostic for capmatinib. F1CDx is a next-generation sequencing-based, in vitro diagnostic device that detects several mutations, including MET exon 14 skipping mutations.

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and the first treatment FDA-approved for NSCLC with MET exon 14 skipping mutations.

Capmatinib was granted accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, the FDA said. Results from this trial were recently presented at the AACR Virtual Annual Meeting I.

The phase 2 trial enrolled 97 patients with metastatic NSCLC and confirmed MET exon 14 skipping mutations, 69 of whom were previously treated and 28 of whom were treatment naive. The patients received capmatinib at 400 mg orally twice daily until disease progression or unacceptable toxicity.


The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months, respectively, according to the FDA.

The most common adverse events (occurring in at least 20% of patients) were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.

The full prescribing information for capmatinib is available for download from the FDA website.

The FDA granted the approval of capmatinib to Novartis Pharmaceuticals Corporation and the approval of the F1CDx companion diagnostic to Foundation Medicine.

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The Food and Drug Administration has approved capmatinib (Tabrecta) to treat adults with metastatic non–small cell lung cancer (NSCLC) harboring MET exon 14 skipping mutations, as detected by an FDA-approved test.

The FDA also approved the FoundationOne CDx assay (F1CDx) as a companion diagnostic for capmatinib. F1CDx is a next-generation sequencing-based, in vitro diagnostic device that detects several mutations, including MET exon 14 skipping mutations.

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and the first treatment FDA-approved for NSCLC with MET exon 14 skipping mutations.

Capmatinib was granted accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, the FDA said. Results from this trial were recently presented at the AACR Virtual Annual Meeting I.

The phase 2 trial enrolled 97 patients with metastatic NSCLC and confirmed MET exon 14 skipping mutations, 69 of whom were previously treated and 28 of whom were treatment naive. The patients received capmatinib at 400 mg orally twice daily until disease progression or unacceptable toxicity.


The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months, respectively, according to the FDA.

The most common adverse events (occurring in at least 20% of patients) were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.

The full prescribing information for capmatinib is available for download from the FDA website.

The FDA granted the approval of capmatinib to Novartis Pharmaceuticals Corporation and the approval of the F1CDx companion diagnostic to Foundation Medicine.

The Food and Drug Administration has approved capmatinib (Tabrecta) to treat adults with metastatic non–small cell lung cancer (NSCLC) harboring MET exon 14 skipping mutations, as detected by an FDA-approved test.

The FDA also approved the FoundationOne CDx assay (F1CDx) as a companion diagnostic for capmatinib. F1CDx is a next-generation sequencing-based, in vitro diagnostic device that detects several mutations, including MET exon 14 skipping mutations.

Capmatinib is a selective, reversible inhibitor of MET tyrosine kinase and the first treatment FDA-approved for NSCLC with MET exon 14 skipping mutations.

Capmatinib was granted accelerated approval based on overall response rate and response duration in the GEOMETRY mono-1 trial, the FDA said. Results from this trial were recently presented at the AACR Virtual Annual Meeting I.

The phase 2 trial enrolled 97 patients with metastatic NSCLC and confirmed MET exon 14 skipping mutations, 69 of whom were previously treated and 28 of whom were treatment naive. The patients received capmatinib at 400 mg orally twice daily until disease progression or unacceptable toxicity.


The overall response rate was 68% in the treatment-naive patients and 41% in the previously treated patients. The median duration of response was 12.6 months and 9.7 months, respectively, according to the FDA.

The most common adverse events (occurring in at least 20% of patients) were peripheral edema, nausea, fatigue, vomiting, dyspnea, and decreased appetite.

The full prescribing information for capmatinib is available for download from the FDA website.

The FDA granted the approval of capmatinib to Novartis Pharmaceuticals Corporation and the approval of the F1CDx companion diagnostic to Foundation Medicine.

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Antitumor treatment may increase risk of severe events in COVID-19 patients

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Wed, 01/04/2023 - 16:42

Cancer patients who received antitumor treatment within 14 days of COVID-19 diagnosis had an increased risk of severe events, according to data from three hospitals in Wuhan.

Patients with patchy consolidation at hospital admission also had an increased risk of severe events, defined as ICU admission, mechanical ventilation, or death.

However, these findings are limited by the small number of patients studied and the retrospective nature of the analysis, according to researchers.

Li Zhang, MD, PhD, of Tongji Hospital in Wuhan, China, presented this research at the AACR virtual meeting I. Some of the data were previously published in Annals of Oncology.

The researchers studied 28 patients with cancer among 1,276 patients with COVID-19 treated at three hospitals in Wuhan. The most common cancer types were lung (n = 7), esophageal (n = 4), and breast (n = 3). Patients had other gastrointestinal, gynecologic, genitourinary, and head and neck cancers as well.

The patients’ median age was 65 years (range, 56-70 years), 60.9% were men, 35.7% had stage IV cancer, and 28.6% had hospital-acquired COVID-19. Antitumor treatments included chemotherapy (n = 22), surgery (n = 21), radiotherapy (n = 21), targeted therapy (n = 5), and immune checkpoint inhibitors (n = 2).
 

COVID-19 treatment

Most patients (n = 22) received oxygen as their only respiratory intervention, although 10 received mechanical ventilation.

For systemic therapy, patients received antibiotic treatment (n = 23), corticosteroids (n = 15), intravenous immunoglobulin (n = 10), and tocilizumab (n = 1).

Antiviral treatments included umifenovir (n = 14), lopinavir/ritonavir (n = 10), ganciclovir (n = 9), ribavirin (n = 1), or a combination of antiviral drugs (n = 9).

“No cancer patients were enrolled in clinical trials, so no one received hydroxychloroquine or remdesivir,” Dr. Zhang noted.
 

Outcomes

In all, 15 patients (53.6%) had severe events. The median time from COVID-19 diagnosis to severe events was 7 days (range, 5-15 days).

A total of eight patients (28.6%) died – three with lung cancer, two with prostate cancer, one with liver cancer, one with rectal cancer, and one with testicular cancer.

Causes of death were acute respiratory distress syndrome (n = 5), septic shock (n = 1), suspected pulmonary embolism (n = 1), and acute myocardial infarction (n = 1).

By April 4, 14 patients had been discharged from the hospital, and 6 were still hospitalized. The median duration of hospitalization was 18.4 days for discharged patients and 29.4 days for patients still in hospital.

Follow-up CT scans showed improvement in 13 patients, no changes in 5 patients, and deterioration in 6 patients.
 

Factors associated with severe events

In a multivariable analysis, receiving antitumor treatment within 14 days of COVID-19 diagnosis was associated with severe events (hazard ratio, 4.079; P = .037).

However, only seven patients received antitumor treatments within 14 days of COVID-19 diagnosis – three chemotherapy, two targeted therapy, one radiotherapy, and one immune checkpoint inhibitor. Five of these seven patients had severe events.

Another factor associated with severe events in multivariable analysis was patchy consolidation on CT scan at admission (HR, 5.438; P = .01). Age and gender were not significantly associated with severe events.
 

Immune checkpoint inhibitors

Dr. Zhang and colleagues also analyzed a second group of cancer patients and their family members to determine if patients on immune checkpoint inhibitors have an increased risk of COVID-19.

This group included 124 cancer patients treated with immune checkpoint inhibitors for at least 2 months. The patients had a median age of 59 years (range, 54-65 years), and 61.8% were men. Most patients (95.2%) had stage IV cancer, and the most common cancers were lung (54.0%), esophageal (18.6%), and head and neck (10.7%).

In this group, only one cancer patient developed COVID-19 (via nosocomial infection). In another case, a patient’s spouse developed COVID-19, but the patient did not.

Dr. Zhang said this “limited information did not suggest cancer patients treated with immune checkpoint inhibitors were more vulnerable to COVID infection.”

Dr. Zhang and colleagues reported no conflicts of interest. This research was funded by the National Natural Science Foundation of China and Huazhong University of Science and Technology COVID-19 Rapid Response Call China.

SOURCE: Zhang L et al. Ann Oncol. 2020 Mar 26. doi: 10.1016/j.annonc.2020.03.296.

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Cancer patients who received antitumor treatment within 14 days of COVID-19 diagnosis had an increased risk of severe events, according to data from three hospitals in Wuhan.

Patients with patchy consolidation at hospital admission also had an increased risk of severe events, defined as ICU admission, mechanical ventilation, or death.

However, these findings are limited by the small number of patients studied and the retrospective nature of the analysis, according to researchers.

Li Zhang, MD, PhD, of Tongji Hospital in Wuhan, China, presented this research at the AACR virtual meeting I. Some of the data were previously published in Annals of Oncology.

The researchers studied 28 patients with cancer among 1,276 patients with COVID-19 treated at three hospitals in Wuhan. The most common cancer types were lung (n = 7), esophageal (n = 4), and breast (n = 3). Patients had other gastrointestinal, gynecologic, genitourinary, and head and neck cancers as well.

The patients’ median age was 65 years (range, 56-70 years), 60.9% were men, 35.7% had stage IV cancer, and 28.6% had hospital-acquired COVID-19. Antitumor treatments included chemotherapy (n = 22), surgery (n = 21), radiotherapy (n = 21), targeted therapy (n = 5), and immune checkpoint inhibitors (n = 2).
 

COVID-19 treatment

Most patients (n = 22) received oxygen as their only respiratory intervention, although 10 received mechanical ventilation.

For systemic therapy, patients received antibiotic treatment (n = 23), corticosteroids (n = 15), intravenous immunoglobulin (n = 10), and tocilizumab (n = 1).

Antiviral treatments included umifenovir (n = 14), lopinavir/ritonavir (n = 10), ganciclovir (n = 9), ribavirin (n = 1), or a combination of antiviral drugs (n = 9).

“No cancer patients were enrolled in clinical trials, so no one received hydroxychloroquine or remdesivir,” Dr. Zhang noted.
 

Outcomes

In all, 15 patients (53.6%) had severe events. The median time from COVID-19 diagnosis to severe events was 7 days (range, 5-15 days).

A total of eight patients (28.6%) died – three with lung cancer, two with prostate cancer, one with liver cancer, one with rectal cancer, and one with testicular cancer.

Causes of death were acute respiratory distress syndrome (n = 5), septic shock (n = 1), suspected pulmonary embolism (n = 1), and acute myocardial infarction (n = 1).

By April 4, 14 patients had been discharged from the hospital, and 6 were still hospitalized. The median duration of hospitalization was 18.4 days for discharged patients and 29.4 days for patients still in hospital.

Follow-up CT scans showed improvement in 13 patients, no changes in 5 patients, and deterioration in 6 patients.
 

Factors associated with severe events

In a multivariable analysis, receiving antitumor treatment within 14 days of COVID-19 diagnosis was associated with severe events (hazard ratio, 4.079; P = .037).

However, only seven patients received antitumor treatments within 14 days of COVID-19 diagnosis – three chemotherapy, two targeted therapy, one radiotherapy, and one immune checkpoint inhibitor. Five of these seven patients had severe events.

Another factor associated with severe events in multivariable analysis was patchy consolidation on CT scan at admission (HR, 5.438; P = .01). Age and gender were not significantly associated with severe events.
 

Immune checkpoint inhibitors

Dr. Zhang and colleagues also analyzed a second group of cancer patients and their family members to determine if patients on immune checkpoint inhibitors have an increased risk of COVID-19.

This group included 124 cancer patients treated with immune checkpoint inhibitors for at least 2 months. The patients had a median age of 59 years (range, 54-65 years), and 61.8% were men. Most patients (95.2%) had stage IV cancer, and the most common cancers were lung (54.0%), esophageal (18.6%), and head and neck (10.7%).

In this group, only one cancer patient developed COVID-19 (via nosocomial infection). In another case, a patient’s spouse developed COVID-19, but the patient did not.

Dr. Zhang said this “limited information did not suggest cancer patients treated with immune checkpoint inhibitors were more vulnerable to COVID infection.”

Dr. Zhang and colleagues reported no conflicts of interest. This research was funded by the National Natural Science Foundation of China and Huazhong University of Science and Technology COVID-19 Rapid Response Call China.

SOURCE: Zhang L et al. Ann Oncol. 2020 Mar 26. doi: 10.1016/j.annonc.2020.03.296.

Cancer patients who received antitumor treatment within 14 days of COVID-19 diagnosis had an increased risk of severe events, according to data from three hospitals in Wuhan.

Patients with patchy consolidation at hospital admission also had an increased risk of severe events, defined as ICU admission, mechanical ventilation, or death.

However, these findings are limited by the small number of patients studied and the retrospective nature of the analysis, according to researchers.

Li Zhang, MD, PhD, of Tongji Hospital in Wuhan, China, presented this research at the AACR virtual meeting I. Some of the data were previously published in Annals of Oncology.

The researchers studied 28 patients with cancer among 1,276 patients with COVID-19 treated at three hospitals in Wuhan. The most common cancer types were lung (n = 7), esophageal (n = 4), and breast (n = 3). Patients had other gastrointestinal, gynecologic, genitourinary, and head and neck cancers as well.

The patients’ median age was 65 years (range, 56-70 years), 60.9% were men, 35.7% had stage IV cancer, and 28.6% had hospital-acquired COVID-19. Antitumor treatments included chemotherapy (n = 22), surgery (n = 21), radiotherapy (n = 21), targeted therapy (n = 5), and immune checkpoint inhibitors (n = 2).
 

COVID-19 treatment

Most patients (n = 22) received oxygen as their only respiratory intervention, although 10 received mechanical ventilation.

For systemic therapy, patients received antibiotic treatment (n = 23), corticosteroids (n = 15), intravenous immunoglobulin (n = 10), and tocilizumab (n = 1).

Antiviral treatments included umifenovir (n = 14), lopinavir/ritonavir (n = 10), ganciclovir (n = 9), ribavirin (n = 1), or a combination of antiviral drugs (n = 9).

“No cancer patients were enrolled in clinical trials, so no one received hydroxychloroquine or remdesivir,” Dr. Zhang noted.
 

Outcomes

In all, 15 patients (53.6%) had severe events. The median time from COVID-19 diagnosis to severe events was 7 days (range, 5-15 days).

A total of eight patients (28.6%) died – three with lung cancer, two with prostate cancer, one with liver cancer, one with rectal cancer, and one with testicular cancer.

Causes of death were acute respiratory distress syndrome (n = 5), septic shock (n = 1), suspected pulmonary embolism (n = 1), and acute myocardial infarction (n = 1).

By April 4, 14 patients had been discharged from the hospital, and 6 were still hospitalized. The median duration of hospitalization was 18.4 days for discharged patients and 29.4 days for patients still in hospital.

Follow-up CT scans showed improvement in 13 patients, no changes in 5 patients, and deterioration in 6 patients.
 

Factors associated with severe events

In a multivariable analysis, receiving antitumor treatment within 14 days of COVID-19 diagnosis was associated with severe events (hazard ratio, 4.079; P = .037).

However, only seven patients received antitumor treatments within 14 days of COVID-19 diagnosis – three chemotherapy, two targeted therapy, one radiotherapy, and one immune checkpoint inhibitor. Five of these seven patients had severe events.

Another factor associated with severe events in multivariable analysis was patchy consolidation on CT scan at admission (HR, 5.438; P = .01). Age and gender were not significantly associated with severe events.
 

Immune checkpoint inhibitors

Dr. Zhang and colleagues also analyzed a second group of cancer patients and their family members to determine if patients on immune checkpoint inhibitors have an increased risk of COVID-19.

This group included 124 cancer patients treated with immune checkpoint inhibitors for at least 2 months. The patients had a median age of 59 years (range, 54-65 years), and 61.8% were men. Most patients (95.2%) had stage IV cancer, and the most common cancers were lung (54.0%), esophageal (18.6%), and head and neck (10.7%).

In this group, only one cancer patient developed COVID-19 (via nosocomial infection). In another case, a patient’s spouse developed COVID-19, but the patient did not.

Dr. Zhang said this “limited information did not suggest cancer patients treated with immune checkpoint inhibitors were more vulnerable to COVID infection.”

Dr. Zhang and colleagues reported no conflicts of interest. This research was funded by the National Natural Science Foundation of China and Huazhong University of Science and Technology COVID-19 Rapid Response Call China.

SOURCE: Zhang L et al. Ann Oncol. 2020 Mar 26. doi: 10.1016/j.annonc.2020.03.296.

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