Beating lung cancer remains one of our biggest challenges. With more than 35,000 lives lost to the disease every year, it’s the most common cause of cancer death in the UK.
Survival from lung cancer remains stubbornly low. And one reason for this is that people are often diagnosed at a late stage, when there are few curative treatment options available.
That’s why researchers are finding out if it’s possible to detect lung cancer at an early stage through screening, and whether the benefits of diagnosing more lung cancers early through screening outweigh the harms.
In part one of this two-part series, we’ll fill you in on the story of lung cancer screening and some of the big unanswered questions.
A history of lung cancer screening
Screening people without symptoms for early signs of lung cancer isn’t a new idea.
Doctors first started researching the use of chest x-rays to find early lung tumours in groups of men in the 1950s. But trials carried out both in the UK and the US produced disappointing results – giving men regular chest x-rays didn’t reduce the number of lung cancer deaths.
Lung cancer screening was put on the backburner.
In 1977 the first study of computed tomography (CT) scans to look for lung cancer was published. The computing power combined with x-rays meant doctors could see the lungs in more detail than before. But this came with a big downside – the amount of radiation people are exposed to in a CT scan is much higher than traditional chest x-rays.
Again, technology improved to help overcome this problem. In 1996, researchers showed that newer CT scanners, which give off a lower radiation dose, were just as good at detecting small abnormalities, which could be lung cancer, as older machines.
Several clinical trials were carried out to see if offering regular scans to certain people with no symptoms of lung cancer could find more cases at an early stage, when they are more likely to be treated successfully.
But the number of people who get lung cancer is relatively small compared to the number who don’t. This is even true for those at higher risk, such as smokers. So many thousands of people need to be screened to get robust evidence that screening decreases the number of people dying from the disease. And the early attempts at clinical trials were too small to provide a definite answer.
The need to go big: a large trial opens
In 2002 an ambitious trial, called the National Lung Screening Trial (NLST), opened in the US to build a clearer picture.
The trial involved more than 53,000 people at high risk from lung cancer – that’s people over 50 who had smoked heavily over a long period. They were screened annually for 3 years, using either a chest x-ray or the low radiation dose CT scan.
The results showed around a 20% reduction in the number of lung cancer deaths in the group monitored with the low dose CT scans compared to x-rays – we blogged about it when the results were released back in 2011. More cancers were diagnosed at the earliest stage using low dose CT, and one death from lung cancer was averted for every 330 people screened with low dose CT compared to an x-ray. But the trial left several points unaddressed.
- There wasn’t an ‘unscreened’ group – all the participants had a scan of some kind (either x-ray or low dose CT), meaning the true benefits and harms of screening compared to people not having any type of screening were left unknown.
- There was a high rate of ‘false alarms’ – around 4 in 10 people had CT scans that warranted further investigation, but more than 9 in 10 of these cases (96%) turned out not to be cancer.
- Further diagnostic tests carry risks – a small number of people died because of having further invasive tests, such as a biopsy under anaesthetic, after an abnormal scan result. Some of these people didn’t have lung cancer.
- Overdiagnosis – it’s been estimated that in this trial around 1 in 5 lung cancers detected by low dose CT were overdiagnosed. An overdiagnosed cancer is one that that would never become dangerous. As it’s not possible to tell on an individual basis if a cancer is overdiagnosed, and adjust treatment plans accordingly, these people were treated for a lung cancer unnecessarily – this is called overtreatment.
Many other smaller European lung screening studies have been carried out since the publication of the US trial. This includes the UK Lung Screening Trial (UKLST) and the second largest lung screening trial to date, the NELSON trial (based in Belgium and Holland).
Like the US trial, both European studies included people aged 50-74 who were long-term, heavy current or former smokers. But the European trials also included a group who had no screening as a comparison. Those who did get screening were tested just once (UKLST) or at different intervals between 1 and 2.5 years (NELSON).
The two trials ask a few other important questions about screening.
- Is it possible to cut the number of people needing invasive diagnostic tests by better predicting which abnormal results might be lung cancer?
- Can studying the size and growth of lung abnormalities found on scans (called nodules) help reduce the number of cancers being treated unnecessarily?
- What is the psychological impact on people who have a ‘false alarm’, and does screening impact on smokers’ motivation to quit?
Results from the UK Lung Screening Trial showed that around 85% of the lung cancers picked up through screening were early stage. But as a pilot – with 2027 people receiving a CT scan and 2028 people receiving no screening – the study wasn’t large enough to tell if lung screening reduces the number of people dying from lung cancer.
The UKLST researchers have speculated that adopting a ‘watch and wait’ approach for low risk nodules might reduce false positives and overdiganosis of lung cancer. More research will uncover if this is the case.
Researchers leading the bigger NELSON trial have been analysing the data, and an early glimpse of some of the highly-anticipated results were presented at a recent European conference. While the full results are yet to be published in a scientific journal, those revealed at the conference suggest CT lung screening can reduce deaths from lung cancer in those at high risk.
If it saves lives, what are the downsides?
Research has shown that not all lung cancers need treating. Some grow quickly and need to be treated urgently, while others grow very slowly without causing any harm. They may even disappear completely thanks to our immune system.
We don’t yet fully understand the biology of lung cancer and how it develops, so doctors can’t reliably tell the slow growing harmless tumours from the aggressive, life-threatening ones.
Screening will likely result in doctors treating people who didn’t need treatment, which means some people having unnecessary surgery, radiotherapy and chemotherapy. And they will also face the physical and psychological side effects that come with this diagnosis and treatment.
Other harms of screening include spotting something that turns out not to be cancer (false alarms), which can result in further scans, potentially invasive biopsies, surgery, as well as unnecessary distress. Screening also exposes people to radiation. And even though modern CT scanners give out lower levels of radiation, it still increases the risk of developing cancer in the future, particularly in people with lungs already damaged by long-term smoking.
Weighing up the benefits and harms is hugely complicated, and the only way to fully understand the pros and cons is through years of research and pooling together the results of large clinical trials.
The next steps
The combined weight of data from the NELSON trial and its UK counterpart could be enough to settle the discussions on lung screening.
But the decision on whether certain groups of people in the UK should be offered lung screening in the form of CT scans falls to the National Screening Committee.
It has the difficult task of weighing up all the pros and cons to come up with a recommendation. Together with experts from the field, it needs to work out if lung screening would overall do more good than harm, while also being cost-effective for the NHS. If so, it would then work out details, like the age at which screening might be offered, who it should be offered to and how often scans should be done.
Researchers are looking for improvements
In the meantime, researchers are continuing to test screening in studies. In some cases, this involves an assessment of someone’s risk of developing lung cancer in the future, based on lifestyle information and then further investigations for those judged at certain levels of risk. In parts of England, some people are being offered a lung health assessment, followed by a low dose CT scan in some cases, as part of NHS projects trying to address poor lung cancer survival. And the UK’s latest, and largest, lung cancer screening trial has just been announced by University College London Hospitals NHS Foundation Trust (UCLH) and UCL.
If you’ve been offered the opportunity to have a low dose CT scan as part of these projects, it’s important to remember that having tests when you don’t have symptoms of a disease comes with both harms and benefits. You can speak to your doctor or other health professionals for advice, as well as making sure you read all the information that comes with the invitation.
Together this paints a complicated picture. There isn’t a national lung screening programme available in the UK, but there’s appetite from doctors and the NHS to run studies and introduce initiatives that look a lot like screening.
To help reach a consensus on how this type of activity should proceed, we ran an expert workshop in March with representatives from the National Screening Committee, NHS England and senior doctors and researchers. It was agreed that robust, evidence-led guidelines should be developed for the NHS projects, so that the way the projects are carried out, and they data they collect, are consistent.
While researchers and the National Screening Committee are still looking at the results from lung screening studies and gathering more evidence, science never stops. Researchers across the world are finding ways to improve CT scans as a screening test and looking for new ways to try and save lives from lung cancer.
Could other tests that don’t use radiation be as good, or better, than CT scans at detecting lung cancers earlier? Are there more reliable ways to tell which cancers need treating versus cancers or small growths that won’t cause any harm?
We’ll discuss that and more in part two of this series, looking at the latest research into detection technology that could make a big impact on lung cancer.
Emma
- If you’re worried that you are experiencing symptoms of lung cancer, it’s important you get checked by a doctor.
- The best thing smokers can do for their health is to stop smoking. Find out more about how to get help.
from Cancer Research UK – Science blog https://ift.tt/2SuwNN9
Beating lung cancer remains one of our biggest challenges. With more than 35,000 lives lost to the disease every year, it’s the most common cause of cancer death in the UK.
Survival from lung cancer remains stubbornly low. And one reason for this is that people are often diagnosed at a late stage, when there are few curative treatment options available.
That’s why researchers are finding out if it’s possible to detect lung cancer at an early stage through screening, and whether the benefits of diagnosing more lung cancers early through screening outweigh the harms.
In part one of this two-part series, we’ll fill you in on the story of lung cancer screening and some of the big unanswered questions.
A history of lung cancer screening
Screening people without symptoms for early signs of lung cancer isn’t a new idea.
Doctors first started researching the use of chest x-rays to find early lung tumours in groups of men in the 1950s. But trials carried out both in the UK and the US produced disappointing results – giving men regular chest x-rays didn’t reduce the number of lung cancer deaths.
Lung cancer screening was put on the backburner.
In 1977 the first study of computed tomography (CT) scans to look for lung cancer was published. The computing power combined with x-rays meant doctors could see the lungs in more detail than before. But this came with a big downside – the amount of radiation people are exposed to in a CT scan is much higher than traditional chest x-rays.
Again, technology improved to help overcome this problem. In 1996, researchers showed that newer CT scanners, which give off a lower radiation dose, were just as good at detecting small abnormalities, which could be lung cancer, as older machines.
Several clinical trials were carried out to see if offering regular scans to certain people with no symptoms of lung cancer could find more cases at an early stage, when they are more likely to be treated successfully.
But the number of people who get lung cancer is relatively small compared to the number who don’t. This is even true for those at higher risk, such as smokers. So many thousands of people need to be screened to get robust evidence that screening decreases the number of people dying from the disease. And the early attempts at clinical trials were too small to provide a definite answer.
The need to go big: a large trial opens
In 2002 an ambitious trial, called the National Lung Screening Trial (NLST), opened in the US to build a clearer picture.
The trial involved more than 53,000 people at high risk from lung cancer – that’s people over 50 who had smoked heavily over a long period. They were screened annually for 3 years, using either a chest x-ray or the low radiation dose CT scan.
The results showed around a 20% reduction in the number of lung cancer deaths in the group monitored with the low dose CT scans compared to x-rays – we blogged about it when the results were released back in 2011. More cancers were diagnosed at the earliest stage using low dose CT, and one death from lung cancer was averted for every 330 people screened with low dose CT compared to an x-ray. But the trial left several points unaddressed.
- There wasn’t an ‘unscreened’ group – all the participants had a scan of some kind (either x-ray or low dose CT), meaning the true benefits and harms of screening compared to people not having any type of screening were left unknown.
- There was a high rate of ‘false alarms’ – around 4 in 10 people had CT scans that warranted further investigation, but more than 9 in 10 of these cases (96%) turned out not to be cancer.
- Further diagnostic tests carry risks – a small number of people died because of having further invasive tests, such as a biopsy under anaesthetic, after an abnormal scan result. Some of these people didn’t have lung cancer.
- Overdiagnosis – it’s been estimated that in this trial around 1 in 5 lung cancers detected by low dose CT were overdiagnosed. An overdiagnosed cancer is one that that would never become dangerous. As it’s not possible to tell on an individual basis if a cancer is overdiagnosed, and adjust treatment plans accordingly, these people were treated for a lung cancer unnecessarily – this is called overtreatment.
Many other smaller European lung screening studies have been carried out since the publication of the US trial. This includes the UK Lung Screening Trial (UKLST) and the second largest lung screening trial to date, the NELSON trial (based in Belgium and Holland).
Like the US trial, both European studies included people aged 50-74 who were long-term, heavy current or former smokers. But the European trials also included a group who had no screening as a comparison. Those who did get screening were tested just once (UKLST) or at different intervals between 1 and 2.5 years (NELSON).
The two trials ask a few other important questions about screening.
- Is it possible to cut the number of people needing invasive diagnostic tests by better predicting which abnormal results might be lung cancer?
- Can studying the size and growth of lung abnormalities found on scans (called nodules) help reduce the number of cancers being treated unnecessarily?
- What is the psychological impact on people who have a ‘false alarm’, and does screening impact on smokers’ motivation to quit?
Results from the UK Lung Screening Trial showed that around 85% of the lung cancers picked up through screening were early stage. But as a pilot – with 2027 people receiving a CT scan and 2028 people receiving no screening – the study wasn’t large enough to tell if lung screening reduces the number of people dying from lung cancer.
The UKLST researchers have speculated that adopting a ‘watch and wait’ approach for low risk nodules might reduce false positives and overdiganosis of lung cancer. More research will uncover if this is the case.
Researchers leading the bigger NELSON trial have been analysing the data, and an early glimpse of some of the highly-anticipated results were presented at a recent European conference. While the full results are yet to be published in a scientific journal, those revealed at the conference suggest CT lung screening can reduce deaths from lung cancer in those at high risk.
If it saves lives, what are the downsides?
Research has shown that not all lung cancers need treating. Some grow quickly and need to be treated urgently, while others grow very slowly without causing any harm. They may even disappear completely thanks to our immune system.
We don’t yet fully understand the biology of lung cancer and how it develops, so doctors can’t reliably tell the slow growing harmless tumours from the aggressive, life-threatening ones.
Screening will likely result in doctors treating people who didn’t need treatment, which means some people having unnecessary surgery, radiotherapy and chemotherapy. And they will also face the physical and psychological side effects that come with this diagnosis and treatment.
Other harms of screening include spotting something that turns out not to be cancer (false alarms), which can result in further scans, potentially invasive biopsies, surgery, as well as unnecessary distress. Screening also exposes people to radiation. And even though modern CT scanners give out lower levels of radiation, it still increases the risk of developing cancer in the future, particularly in people with lungs already damaged by long-term smoking.
Weighing up the benefits and harms is hugely complicated, and the only way to fully understand the pros and cons is through years of research and pooling together the results of large clinical trials.
The next steps
The combined weight of data from the NELSON trial and its UK counterpart could be enough to settle the discussions on lung screening.
But the decision on whether certain groups of people in the UK should be offered lung screening in the form of CT scans falls to the National Screening Committee.
It has the difficult task of weighing up all the pros and cons to come up with a recommendation. Together with experts from the field, it needs to work out if lung screening would overall do more good than harm, while also being cost-effective for the NHS. If so, it would then work out details, like the age at which screening might be offered, who it should be offered to and how often scans should be done.
Researchers are looking for improvements
In the meantime, researchers are continuing to test screening in studies. In some cases, this involves an assessment of someone’s risk of developing lung cancer in the future, based on lifestyle information and then further investigations for those judged at certain levels of risk. In parts of England, some people are being offered a lung health assessment, followed by a low dose CT scan in some cases, as part of NHS projects trying to address poor lung cancer survival. And the UK’s latest, and largest, lung cancer screening trial has just been announced by University College London Hospitals NHS Foundation Trust (UCLH) and UCL.
If you’ve been offered the opportunity to have a low dose CT scan as part of these projects, it’s important to remember that having tests when you don’t have symptoms of a disease comes with both harms and benefits. You can speak to your doctor or other health professionals for advice, as well as making sure you read all the information that comes with the invitation.
Together this paints a complicated picture. There isn’t a national lung screening programme available in the UK, but there’s appetite from doctors and the NHS to run studies and introduce initiatives that look a lot like screening.
To help reach a consensus on how this type of activity should proceed, we ran an expert workshop in March with representatives from the National Screening Committee, NHS England and senior doctors and researchers. It was agreed that robust, evidence-led guidelines should be developed for the NHS projects, so that the way the projects are carried out, and they data they collect, are consistent.
While researchers and the National Screening Committee are still looking at the results from lung screening studies and gathering more evidence, science never stops. Researchers across the world are finding ways to improve CT scans as a screening test and looking for new ways to try and save lives from lung cancer.
Could other tests that don’t use radiation be as good, or better, than CT scans at detecting lung cancers earlier? Are there more reliable ways to tell which cancers need treating versus cancers or small growths that won’t cause any harm?
We’ll discuss that and more in part two of this series, looking at the latest research into detection technology that could make a big impact on lung cancer.
Emma
- If you’re worried that you are experiencing symptoms of lung cancer, it’s important you get checked by a doctor.
- The best thing smokers can do for their health is to stop smoking. Find out more about how to get help.
from Cancer Research UK – Science blog https://ift.tt/2SuwNN9
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