Exciting Results, but Not Ready for Prime Time
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CT Screening Cuts Lung Cancer Mortality; Raises Policy Questions

Final results from the National Lung Screening Trial show a significant reduction in lung cancer mortality with the use of annual low-dose CT screening, compared with standard chest x-rays among former heavy smokers at high risk for lung cancer.

Low-dose CT screening led to a relative reduction of 20% in the rate of death from lung cancer, according to findings released online by the New England Journal of Medicine on June 29 (doi: 10.1056/NEJMoa1102873).The number needed to screen with low-dose CT to prevent one death from lung cancer was 320.

Although preliminary study results were announced in November 2010, the article by the National Lung Screening Trial (NLST) research team marks the first time that the results appear in a peer-reviewed journal. Acknowledging that the earlier announcement has led to calls for lung cancer screening, the authors urge rigorous analysis of cost-effectiveness before public policy recommendations are made.

"The reduction in lung-cancer mortality must be weighed against the harms from positive screening results and overdiagnosis, as well as the costs," they wrote.

In the study, 53,454 men and women aged 55-74 years – who were current or former smokers with a smoking history of at least 30 pack-years – were recruited at 33 U.S. medical centers. A total of 26,722 participants were randomized to receive three annual screens with low-dose helical CT; 26,732 were randomized to three annual screens using chest x-ray. The two groups were virtually identical in demographics and smoking history.

In all three screening rounds, positive screening tests were substantially more common in the low-dose CT group than in the radiography group (27.3% vs. 9.2% in the first round; 27.9% vs. 6.2% in the second; and 16.8% vs. 5% in the third). All told, 39.1% of the CT group and 16% of the radiography group had at least one positive result.

The percentage of screening tests that identified a clinically significant abnormality -- other than an abnormality suspicious for lung cancer – also was more than three times as high in the low-dose CT group as in the radiography group (7.5% vs. 2.1%).

More than 90% of positive screenings in the first round of the study led to a diagnostic evaluation, though the follow-up rates were lower in the later rounds. Diagnostic evaluation most often consisted of additional imaging with invasive procedures being performed infrequently.

Across the three screenings, most of the positive results were false positives – 96.4% in the CT group and 94.5% in the radiography group. Of the total number of low-dose CT screening tests, 24.2% were classified as positive and 23.4% had false-positive results; of the total number of radiographic screening tests, 6.9% were classified as positive and 6.5% were false-positive results.

In all, 1,060 lung cancers were diagnosed in the low-dose CT group (645/100,000 person-years) vs. 941 in the radiography group (572/100,000 person-years). Of these cancers, 649 in the low-dose CT group were diagnosed after a positive screening test and 44 were diagnosed after a negative screening test. In the radiography group, 279 cancers were diagnosed after a positive screening test and 137 were diagnosed after a negative screening test.

In both groups, the remaining cases were among participants who missed screening or were diagnosed after their trial screening phase was over

Analysis of lung cancer-specific mortality showed that in the CT group 356 lung cancer deaths occurred after 144,103 person-years; in the radiography group 443 lung cancer deaths occurred after 143,368 person-years. This corresponded to 247 and 309 lung cancer deaths, respectively, per 100,000 person-years in the CT and radiography groups.

There were 1,877 and 2,000 deaths from all causes in the CT and radiography groups, respectively, "representing a significant reduction with low-dose CT screening of 6.7% ... in the rate of death from any cause," the investigators wrote. While lung cancer accounted for 24.1% of all the deaths in the trial, 60.3% of the excess deaths in the radiography group were due to lung cancer.

The authors concluded that "although some agencies and organizations are contemplating the establishment of lung-cancer screening recommendations on the basis of the findings of the NLST, the current NLST data alone are, in our opinion, insufficient to fully inform such important decisions."

They noted that "The observation that low-dose CT screening can reduce the rate of death from lung cancer has generated many questions." Among these they listed: Will populations with different risk profiles benefit from screening? Could less frequent screening programs be equally effective? Would the use of different criteria for a positive screening result translate to similar benefit? For how long should people be screened?

 

 

In an accompanying editorial, Dr. Harold C. Sox, professor of medicine at the Dartmouth Institute in Hanover, N. H., agreed with the investigators’ reservations. In particular, the cost effectiveness of low-dose CT screening for lung cancer must be analyzed, he said: "Policy makers should wait for cost-effectiveness analyses to determine the amount of overdiagnosis in the NLST, and, perhaps identification of biologic markers of cancers that do not progress."

In addition, "it may be possible to define subgroups of smokers who are at higher or lower risk for lung cancer and tailor the screening strategy accordingly," he said. "The findings of the NLST regarding lung-cancer mortality signal the beginning of the end of one era of research on lung-cancer screening and the start of another. The focus will shift to informing the difficult patient-centered and policy decisions that are yet to come."

Dr. Sox also noted that "overdiagnosis is a problem because predicting which early-stage cancers will not progress is in an early stage of development, so that everyone with screen-detected cancer receives treatment that some do not need," he wrote in an accompanying editorial (doi: 10.1056/NEJME1103776).

All but two of the NLST study authors reported that they have no relevant financial relationships. Jonathan D. Clap reported having financial interest in Human Genome Sciences. Constantine Gatsonis, Ph.D., is a consultant for Wilex AG, Mela Sciences, and Endocyte Inc., has received speaker fees from Bayer Health and payment for education development by the Radiologic Society of North America. He also has invested in the Vanguard Health Fund. Dr. Sox had no conflicts.

Body

This is an exciting

study that does show an impact on mortality, which has not been a screening

result from previous studies. What it doesn’t tell us exactly is: What does

this mean from a policy standpoint?

We need to look at a lot

more to see what’s the best model with this kind of screening and when this is

screening appropriate. I think the authors of this study were right to say that

this is a very positive result and it’s helpful … but that the best way to

implement this in day-to-day practice still is not completely resolved. There’s

a lot more work to be done in that regard.

One message that is still

very clear is that if you don’t want to die from lung cancer, you need to stop

smoking or never start smoking. This still has to be foremost in our public

health preventative message.

The study results do help

by saying that screening can have a role in day-to-day practice. The fact that

these patients were treated in a community setting showed that … the process

for diagnosing lung cancer can be handled by community physicians. I’m a

pulmonary physician. So when I sit down with patients who have the risk of

smoking, and we talk about what is the role of getting a low-dose CT scan for

screening, I think I have a lot more information to help both me and the

patient to decide whether this is beneficial to them versus a risk.

In the past, with CT

screening there was certainly risk from the radiation and risks for having

unnecessary procedures done, but no real proven benefit that we were going to

impact mortality if we found an early cancer. The study results do add value on

a day-to-day basis.

We just don’t know whether

it’s something that should be applied to everybody. Another question is whether

there are there markers that might help in this group of individuals to

identify who is at high risk for fast-growing tumors or for slow-growing tumors

Are there biologic markers that we can find with a blood test that might add to

this information to help us sort out who would benefit from screening or not?

[Other questions to

answer] from these data or from other ongoing studies include: Are there

subgroups of this 55- to 74-year-old population that are at higher risk? Are

there individuals who with less frequent screening can do just as well? Are

there individuals for whom more screening is necessary? The population looked

at [in the study] was a narrow window of high-risk individuals … It represents

about 7 million people out of the 94 million current and former smokers that we

have in this country.

We may even be able to

look at genetic markers at some point in the near future to determine who is at

higher risk and that will help us better identify who needs to be screened. I

think biomarkers and genetic markers all could be added to the formula when

we’re trying to decide what the best risk population to be screened is.

Screening tools work best when the screening population is well defined.

So now we have evidence

that screening in general can have an impact on disease. Unfortunately, prior

to this, lung cancer was diagnosed too late to make a big impact for most

patients. In lung cancer, an earlier diagnosis hopefully impacts mortality.

Lung cancer could become a curable disease if it’s found early enough to be

completely resected.

Dr. Albert A. Rizzo is

chair-elect of the American Lung Association board and chief of Christiana

Care’s pulmonary and critical care medicine section in Newark, Del.

He has no conflicts of interest.

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Body

This is an exciting

study that does show an impact on mortality, which has not been a screening

result from previous studies. What it doesn’t tell us exactly is: What does

this mean from a policy standpoint?

We need to look at a lot

more to see what’s the best model with this kind of screening and when this is

screening appropriate. I think the authors of this study were right to say that

this is a very positive result and it’s helpful … but that the best way to

implement this in day-to-day practice still is not completely resolved. There’s

a lot more work to be done in that regard.

One message that is still

very clear is that if you don’t want to die from lung cancer, you need to stop

smoking or never start smoking. This still has to be foremost in our public

health preventative message.

The study results do help

by saying that screening can have a role in day-to-day practice. The fact that

these patients were treated in a community setting showed that … the process

for diagnosing lung cancer can be handled by community physicians. I’m a

pulmonary physician. So when I sit down with patients who have the risk of

smoking, and we talk about what is the role of getting a low-dose CT scan for

screening, I think I have a lot more information to help both me and the

patient to decide whether this is beneficial to them versus a risk.

In the past, with CT

screening there was certainly risk from the radiation and risks for having

unnecessary procedures done, but no real proven benefit that we were going to

impact mortality if we found an early cancer. The study results do add value on

a day-to-day basis.

We just don’t know whether

it’s something that should be applied to everybody. Another question is whether

there are there markers that might help in this group of individuals to

identify who is at high risk for fast-growing tumors or for slow-growing tumors

Are there biologic markers that we can find with a blood test that might add to

this information to help us sort out who would benefit from screening or not?

[Other questions to

answer] from these data or from other ongoing studies include: Are there

subgroups of this 55- to 74-year-old population that are at higher risk? Are

there individuals who with less frequent screening can do just as well? Are

there individuals for whom more screening is necessary? The population looked

at [in the study] was a narrow window of high-risk individuals … It represents

about 7 million people out of the 94 million current and former smokers that we

have in this country.

We may even be able to

look at genetic markers at some point in the near future to determine who is at

higher risk and that will help us better identify who needs to be screened. I

think biomarkers and genetic markers all could be added to the formula when

we’re trying to decide what the best risk population to be screened is.

Screening tools work best when the screening population is well defined.

So now we have evidence

that screening in general can have an impact on disease. Unfortunately, prior

to this, lung cancer was diagnosed too late to make a big impact for most

patients. In lung cancer, an earlier diagnosis hopefully impacts mortality.

Lung cancer could become a curable disease if it’s found early enough to be

completely resected.

Dr. Albert A. Rizzo is

chair-elect of the American Lung Association board and chief of Christiana

Care’s pulmonary and critical care medicine section in Newark, Del.

He has no conflicts of interest.

Body

This is an exciting

study that does show an impact on mortality, which has not been a screening

result from previous studies. What it doesn’t tell us exactly is: What does

this mean from a policy standpoint?

We need to look at a lot

more to see what’s the best model with this kind of screening and when this is

screening appropriate. I think the authors of this study were right to say that

this is a very positive result and it’s helpful … but that the best way to

implement this in day-to-day practice still is not completely resolved. There’s

a lot more work to be done in that regard.

One message that is still

very clear is that if you don’t want to die from lung cancer, you need to stop

smoking or never start smoking. This still has to be foremost in our public

health preventative message.

The study results do help

by saying that screening can have a role in day-to-day practice. The fact that

these patients were treated in a community setting showed that … the process

for diagnosing lung cancer can be handled by community physicians. I’m a

pulmonary physician. So when I sit down with patients who have the risk of

smoking, and we talk about what is the role of getting a low-dose CT scan for

screening, I think I have a lot more information to help both me and the

patient to decide whether this is beneficial to them versus a risk.

In the past, with CT

screening there was certainly risk from the radiation and risks for having

unnecessary procedures done, but no real proven benefit that we were going to

impact mortality if we found an early cancer. The study results do add value on

a day-to-day basis.

We just don’t know whether

it’s something that should be applied to everybody. Another question is whether

there are there markers that might help in this group of individuals to

identify who is at high risk for fast-growing tumors or for slow-growing tumors

Are there biologic markers that we can find with a blood test that might add to

this information to help us sort out who would benefit from screening or not?

[Other questions to

answer] from these data or from other ongoing studies include: Are there

subgroups of this 55- to 74-year-old population that are at higher risk? Are

there individuals who with less frequent screening can do just as well? Are

there individuals for whom more screening is necessary? The population looked

at [in the study] was a narrow window of high-risk individuals … It represents

about 7 million people out of the 94 million current and former smokers that we

have in this country.

We may even be able to

look at genetic markers at some point in the near future to determine who is at

higher risk and that will help us better identify who needs to be screened. I

think biomarkers and genetic markers all could be added to the formula when

we’re trying to decide what the best risk population to be screened is.

Screening tools work best when the screening population is well defined.

So now we have evidence

that screening in general can have an impact on disease. Unfortunately, prior

to this, lung cancer was diagnosed too late to make a big impact for most

patients. In lung cancer, an earlier diagnosis hopefully impacts mortality.

Lung cancer could become a curable disease if it’s found early enough to be

completely resected.

Dr. Albert A. Rizzo is

chair-elect of the American Lung Association board and chief of Christiana

Care’s pulmonary and critical care medicine section in Newark, Del.

He has no conflicts of interest.

Title
Exciting Results, but Not Ready for Prime Time
Exciting Results, but Not Ready for Prime Time

Final results from the National Lung Screening Trial show a significant reduction in lung cancer mortality with the use of annual low-dose CT screening, compared with standard chest x-rays among former heavy smokers at high risk for lung cancer.

Low-dose CT screening led to a relative reduction of 20% in the rate of death from lung cancer, according to findings released online by the New England Journal of Medicine on June 29 (doi: 10.1056/NEJMoa1102873).The number needed to screen with low-dose CT to prevent one death from lung cancer was 320.

Although preliminary study results were announced in November 2010, the article by the National Lung Screening Trial (NLST) research team marks the first time that the results appear in a peer-reviewed journal. Acknowledging that the earlier announcement has led to calls for lung cancer screening, the authors urge rigorous analysis of cost-effectiveness before public policy recommendations are made.

"The reduction in lung-cancer mortality must be weighed against the harms from positive screening results and overdiagnosis, as well as the costs," they wrote.

In the study, 53,454 men and women aged 55-74 years – who were current or former smokers with a smoking history of at least 30 pack-years – were recruited at 33 U.S. medical centers. A total of 26,722 participants were randomized to receive three annual screens with low-dose helical CT; 26,732 were randomized to three annual screens using chest x-ray. The two groups were virtually identical in demographics and smoking history.

In all three screening rounds, positive screening tests were substantially more common in the low-dose CT group than in the radiography group (27.3% vs. 9.2% in the first round; 27.9% vs. 6.2% in the second; and 16.8% vs. 5% in the third). All told, 39.1% of the CT group and 16% of the radiography group had at least one positive result.

The percentage of screening tests that identified a clinically significant abnormality -- other than an abnormality suspicious for lung cancer – also was more than three times as high in the low-dose CT group as in the radiography group (7.5% vs. 2.1%).

More than 90% of positive screenings in the first round of the study led to a diagnostic evaluation, though the follow-up rates were lower in the later rounds. Diagnostic evaluation most often consisted of additional imaging with invasive procedures being performed infrequently.

Across the three screenings, most of the positive results were false positives – 96.4% in the CT group and 94.5% in the radiography group. Of the total number of low-dose CT screening tests, 24.2% were classified as positive and 23.4% had false-positive results; of the total number of radiographic screening tests, 6.9% were classified as positive and 6.5% were false-positive results.

In all, 1,060 lung cancers were diagnosed in the low-dose CT group (645/100,000 person-years) vs. 941 in the radiography group (572/100,000 person-years). Of these cancers, 649 in the low-dose CT group were diagnosed after a positive screening test and 44 were diagnosed after a negative screening test. In the radiography group, 279 cancers were diagnosed after a positive screening test and 137 were diagnosed after a negative screening test.

In both groups, the remaining cases were among participants who missed screening or were diagnosed after their trial screening phase was over

Analysis of lung cancer-specific mortality showed that in the CT group 356 lung cancer deaths occurred after 144,103 person-years; in the radiography group 443 lung cancer deaths occurred after 143,368 person-years. This corresponded to 247 and 309 lung cancer deaths, respectively, per 100,000 person-years in the CT and radiography groups.

There were 1,877 and 2,000 deaths from all causes in the CT and radiography groups, respectively, "representing a significant reduction with low-dose CT screening of 6.7% ... in the rate of death from any cause," the investigators wrote. While lung cancer accounted for 24.1% of all the deaths in the trial, 60.3% of the excess deaths in the radiography group were due to lung cancer.

The authors concluded that "although some agencies and organizations are contemplating the establishment of lung-cancer screening recommendations on the basis of the findings of the NLST, the current NLST data alone are, in our opinion, insufficient to fully inform such important decisions."

They noted that "The observation that low-dose CT screening can reduce the rate of death from lung cancer has generated many questions." Among these they listed: Will populations with different risk profiles benefit from screening? Could less frequent screening programs be equally effective? Would the use of different criteria for a positive screening result translate to similar benefit? For how long should people be screened?

 

 

In an accompanying editorial, Dr. Harold C. Sox, professor of medicine at the Dartmouth Institute in Hanover, N. H., agreed with the investigators’ reservations. In particular, the cost effectiveness of low-dose CT screening for lung cancer must be analyzed, he said: "Policy makers should wait for cost-effectiveness analyses to determine the amount of overdiagnosis in the NLST, and, perhaps identification of biologic markers of cancers that do not progress."

In addition, "it may be possible to define subgroups of smokers who are at higher or lower risk for lung cancer and tailor the screening strategy accordingly," he said. "The findings of the NLST regarding lung-cancer mortality signal the beginning of the end of one era of research on lung-cancer screening and the start of another. The focus will shift to informing the difficult patient-centered and policy decisions that are yet to come."

Dr. Sox also noted that "overdiagnosis is a problem because predicting which early-stage cancers will not progress is in an early stage of development, so that everyone with screen-detected cancer receives treatment that some do not need," he wrote in an accompanying editorial (doi: 10.1056/NEJME1103776).

All but two of the NLST study authors reported that they have no relevant financial relationships. Jonathan D. Clap reported having financial interest in Human Genome Sciences. Constantine Gatsonis, Ph.D., is a consultant for Wilex AG, Mela Sciences, and Endocyte Inc., has received speaker fees from Bayer Health and payment for education development by the Radiologic Society of North America. He also has invested in the Vanguard Health Fund. Dr. Sox had no conflicts.

Final results from the National Lung Screening Trial show a significant reduction in lung cancer mortality with the use of annual low-dose CT screening, compared with standard chest x-rays among former heavy smokers at high risk for lung cancer.

Low-dose CT screening led to a relative reduction of 20% in the rate of death from lung cancer, according to findings released online by the New England Journal of Medicine on June 29 (doi: 10.1056/NEJMoa1102873).The number needed to screen with low-dose CT to prevent one death from lung cancer was 320.

Although preliminary study results were announced in November 2010, the article by the National Lung Screening Trial (NLST) research team marks the first time that the results appear in a peer-reviewed journal. Acknowledging that the earlier announcement has led to calls for lung cancer screening, the authors urge rigorous analysis of cost-effectiveness before public policy recommendations are made.

"The reduction in lung-cancer mortality must be weighed against the harms from positive screening results and overdiagnosis, as well as the costs," they wrote.

In the study, 53,454 men and women aged 55-74 years – who were current or former smokers with a smoking history of at least 30 pack-years – were recruited at 33 U.S. medical centers. A total of 26,722 participants were randomized to receive three annual screens with low-dose helical CT; 26,732 were randomized to three annual screens using chest x-ray. The two groups were virtually identical in demographics and smoking history.

In all three screening rounds, positive screening tests were substantially more common in the low-dose CT group than in the radiography group (27.3% vs. 9.2% in the first round; 27.9% vs. 6.2% in the second; and 16.8% vs. 5% in the third). All told, 39.1% of the CT group and 16% of the radiography group had at least one positive result.

The percentage of screening tests that identified a clinically significant abnormality -- other than an abnormality suspicious for lung cancer – also was more than three times as high in the low-dose CT group as in the radiography group (7.5% vs. 2.1%).

More than 90% of positive screenings in the first round of the study led to a diagnostic evaluation, though the follow-up rates were lower in the later rounds. Diagnostic evaluation most often consisted of additional imaging with invasive procedures being performed infrequently.

Across the three screenings, most of the positive results were false positives – 96.4% in the CT group and 94.5% in the radiography group. Of the total number of low-dose CT screening tests, 24.2% were classified as positive and 23.4% had false-positive results; of the total number of radiographic screening tests, 6.9% were classified as positive and 6.5% were false-positive results.

In all, 1,060 lung cancers were diagnosed in the low-dose CT group (645/100,000 person-years) vs. 941 in the radiography group (572/100,000 person-years). Of these cancers, 649 in the low-dose CT group were diagnosed after a positive screening test and 44 were diagnosed after a negative screening test. In the radiography group, 279 cancers were diagnosed after a positive screening test and 137 were diagnosed after a negative screening test.

In both groups, the remaining cases were among participants who missed screening or were diagnosed after their trial screening phase was over

Analysis of lung cancer-specific mortality showed that in the CT group 356 lung cancer deaths occurred after 144,103 person-years; in the radiography group 443 lung cancer deaths occurred after 143,368 person-years. This corresponded to 247 and 309 lung cancer deaths, respectively, per 100,000 person-years in the CT and radiography groups.

There were 1,877 and 2,000 deaths from all causes in the CT and radiography groups, respectively, "representing a significant reduction with low-dose CT screening of 6.7% ... in the rate of death from any cause," the investigators wrote. While lung cancer accounted for 24.1% of all the deaths in the trial, 60.3% of the excess deaths in the radiography group were due to lung cancer.

The authors concluded that "although some agencies and organizations are contemplating the establishment of lung-cancer screening recommendations on the basis of the findings of the NLST, the current NLST data alone are, in our opinion, insufficient to fully inform such important decisions."

They noted that "The observation that low-dose CT screening can reduce the rate of death from lung cancer has generated many questions." Among these they listed: Will populations with different risk profiles benefit from screening? Could less frequent screening programs be equally effective? Would the use of different criteria for a positive screening result translate to similar benefit? For how long should people be screened?

 

 

In an accompanying editorial, Dr. Harold C. Sox, professor of medicine at the Dartmouth Institute in Hanover, N. H., agreed with the investigators’ reservations. In particular, the cost effectiveness of low-dose CT screening for lung cancer must be analyzed, he said: "Policy makers should wait for cost-effectiveness analyses to determine the amount of overdiagnosis in the NLST, and, perhaps identification of biologic markers of cancers that do not progress."

In addition, "it may be possible to define subgroups of smokers who are at higher or lower risk for lung cancer and tailor the screening strategy accordingly," he said. "The findings of the NLST regarding lung-cancer mortality signal the beginning of the end of one era of research on lung-cancer screening and the start of another. The focus will shift to informing the difficult patient-centered and policy decisions that are yet to come."

Dr. Sox also noted that "overdiagnosis is a problem because predicting which early-stage cancers will not progress is in an early stage of development, so that everyone with screen-detected cancer receives treatment that some do not need," he wrote in an accompanying editorial (doi: 10.1056/NEJME1103776).

All but two of the NLST study authors reported that they have no relevant financial relationships. Jonathan D. Clap reported having financial interest in Human Genome Sciences. Constantine Gatsonis, Ph.D., is a consultant for Wilex AG, Mela Sciences, and Endocyte Inc., has received speaker fees from Bayer Health and payment for education development by the Radiologic Society of North America. He also has invested in the Vanguard Health Fund. Dr. Sox had no conflicts.

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FROM THE NEW ENGLAND JOURNAL OF MEDICINE

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Major Finding: Low-dose CT screening reduced the relative rate of death from lung cancer by 20%, compared with chest x-ray screening.

Data Source: A study of 53,454 Americans aged 55-74 years, who were current or former smokers with a smoking history of at least 30 pack-years.

Disclosures: All but two of the NLST study authors reported that they have no relevant financial relationships. Jonathan Clap reported having financial interest in Human Genome Sciences Inc. Constantine Gatsonis is a consultant for Wilex AG, Mela Sciences, and Endocyte Inc., has received speaker fees from Bayer Health, and payment for education development by the Radiologic Society of North America. He also has invested in the Vanguard Health Fund. Dr. Sox had no conflicts.