SCREENING FOR EARLY LUNG CANCER Pang Yong Kek
Lecture Outline Why performing screening? How to improve early detection? Benefits and Risks of screening Challenges in screening Conclusion
Why Performing Screening? Lung cancer is one of the commonest cancer afflicting mankind Vast majority of the victims have advanced disease at the time of presentation Despite the significant improvement made in treatment modality, mortality of lung cancer remains high In 2018, it is estimated that 154,050 deaths from lung cancer will occur in the United States. Five-year survival rates for lung cancer are only 18%
Lung cancer In Malaysia, lung cancer accounts for 13.8% of all cancers in males and 3.8% of all cancers in females Second Report of the National Cancer Registry. Cancer incidence in Malaysia, 2003. National Cancer Registry, Malaysia (http:www.acrm.org.my/ncr)
Clinical stage of NSCLC at diagnosis - UMMC Stage 3b & 4 = 69% (37%) n = 580 (32%) No of patients Stage 3a, 7% Stage of disease 76% of patients with NSCLC present with stage III or stage IV disease 1. Liam CK et al. Respirology 2000; 5:355-61; 2. Liam CK et al. Chest 2002; 121:309-10
Why Performing Screening? Screening often leads to detection of early stage disease Early stage disease = Higher chance curative treatment = Better Life Expectancy + Improved Quality of Life
How To Screen? Most of the early lung cancer does not have any sign or symptom, Imaging of the chest has been regarded as a potentially useful tool to identify the nodule in the lung Historical study: CXR & sputum cytology versus standard of care has failed to demonstrate survival benefit in high risk individuals 1. Moyer VA, Force USPST. Screening for lung cancer: U.S. Preventive Services Task Force recommendation statement. Ann Intern Med 2014;160:330 338. 2. Detterbeck FC, Mazzone PJ, Naidich DP, Bach PB. Screening for lung cancer: diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest 2013;143:e78S 92S.
How To Screen? In recent years, due to advances made in imaging technology, the idea has been re-investigated using low-dose CT scan (LDCT) Source: The Valley Health Cancer Center website
NLST Study The National Lung Screening Trial (NLST) is a trial conducted on over 53,000 high-risk individuals in the US. They are defined as Aged 55 74 years Current smokers or Ex-smokers (who had quit 15 years) 30 pack-years
NLST Study Subjects were randomised for screening with LDCT Thorax versus Chest X-ray Each subject will get 3 scans (baseline and annually for 2 years) After that they were followed up for another 3.5 years Result: the LDCT arm showed a 20% (95% CI, 6.8 26.7; P=.004) reduction in mortality from lung cancer compared to the CXR
Tobacco and Risk of Lung Cancer The overall relative risk (RR) for lung cancer is 20-fold higher for smokers than for non-smokers. In general, the more tobacco is smoked, the higher is the risk Cessation of tobacco smoking decreases the risk for lung cancer.
Other Risk Factors of Lung Cancer Although smoking tobacco is a well-established risk factor for lung cancer, other environmental and genetic factors also increase the risk These include: Occupational exposure History of lung or other cancers Family history of cancer
Other Risk Factors - Occupational exposure Carcinogens targeting the lungs include arsenic, chromium, asbestos, nickel, cadmium, beryllium, silica, diesel fumes, coal smoke, and soot. Radon exposure
Other Risk Factors Previous cancer Patients with other cancers are also at increased risk of cancer, e.g. : Survivors of primary lung cancer, lymphomas, cancers of the head and neck, or smoking-related cancers, such as bladder cancer. Patients previously treated with chest irradiation have a 13-fold increased risk of developing a new primary lung cancer, Those who have previously been treated with alkylating agents (chemotherapy) have an estimated RR of 9.4
Other Risk Factors - Family history of cancer Several studies have shown the 1st degree relatives of a lung cancer patient are at increased risk of lung cancer A meta-analysis of 28 case-control studies and 17 observational cohort studies showed an RR of 1.8 (95% CI, 1.6 2.0) for individuals with a sibling/parents or a first-degree relative with lung cancer The risk is greater in individuals with multiple affected family members or who had a cancer diagnosis at a young age.
Selection of individuals for Screening The NCCN Panel recommends that only those with high risk should be screened Those with moderate or low risk should not be screened In addition, only those who are the potential candidates for curative therapy should be screened.
High Risk Patients Group 1: Individuals aged 55 to 74 years with a 30 pack-year history of smoking tobacco who currently smoke or, if former smoker, have quit within 15 years (category 1). Group 2 Individuals aged 50 years or older with a 20 pack-year history of smoking tobacco and with one additional risk factor (category 2A). (Screening beyond the NLST criteria)
High Risk Patients For Group 2, screening may be offered if they have one of the additional risk factors below: personal history of cancer or lung disease, family history of lung cancer, radon exposure, occupational exposure to carcinogens.
Benefits Detection of early disease when it is still curable Although patients with earliest-stage disease (IA) may have a 5-year survival rate of 75% with surgery, the outcomes quickly decrease with increasing stages In the NLST, 356 participants died of lung cancer in the LDCT arm and 443 participants died of lung cancer in the chest radiograph arm. To prevent 1 death from lung cancer, 320 individuals with high-risk factors must be screened with LDCT.
Benefits Improved survival
Benefits Improved quality of life as a result of Early disease detection and curative treatment The NLST found that 40% of the cancers detected in the CT-screening group were stage IA, 12% were stage IIIB, and 22% were stage IV. Conversely, 21% of the cancers detected in the CXR group were stage IA, 13% were stage IIIB, and 36% were stage IV. These results suggest that LDCT screening decreases the number of cases of advanced National Lung Screening Trial Research Team, Aberle DR, Adams AM, et al. Reduced lung-cancer mortality with low-dose computed tomographic screening. N Engl J Med 2011;365:395 409.
Benefits Identification of other treatable disease, e.g. COPD, coronary artery disease National Lung Screening Trial Research Team, Aberle DR, Adams AM, et al. Reduced lung-cancer mortality with low-dose computed tomographic screening. N Engl J Med 2011;365:395 409.
Benefits Long-term cost may be reduced Upfront costs, e.g. screening, additional diagnostic procedures and other interventions will increase; however Future costs of treating advanced diseases with chemotherapy, targetable agents, immunotherapy, radiation therapy and others will be reduced
Benefits Provide an opportunity to persuade chronic smokers to stop smoking
Risks/Harms Screening leads to identification of many false positive nodules, which result in many unnecessary interventions In the NLST, the false-positive rate was 96.4% for the CT screening group. This is reduced to 33% with 2 annual sequential LDCT. Those who were screened positive may require interval imaging, percutaneous needle biopsy, or even surgical biopsy
Risks/Harms Some of these procedures are not without any risk the average surgical mortality rate for major lung surgery across the US is 5%, and the frequency of serious complications is > 20%.
Risks/Harms False-negative results may delay or prevent diagnosis and treatment because of a false sense of good health
Risks/Harms Futile detection of small aggressive tumour Futile detection of indolent disease (over-diagnosis)
Risks/Harms Identification of any nodule will lead to anxiety for the screened subjects False-positive and indeterminate results may decrease quality of life because of mental anguish and additional testing
Risks/Harms Risk of radiation Using low-dose techniques, the mean effective radiation dose is 1.5 msv (SD ± 0.5 msv) compared with an average of 7 msv for conventional CT scan The radiation dose of LDCT is 10 X that of CXR Brenner et al estimated a 1.8% increase in lung cancer cases if 50% of all current and former smokers in the US between 50 and 75 years of age were to undergo annual screening LDCT.
Cost-effectiveness The cost-effectiveness of LCS is also important to consider. LDCT imaging is more expensive than many other screening programs, and therefore it is important to validate the effectiveness of screening. 7 analyses have reported a cost effectiveness ratio of $100,000 (in U.S. dollars) or less per quality adjusted life years gained for LDCT. A threshold level of $100,000 per quality-adjusted life year gained is what some experts consider to be a reasonable value in the United States
Other Challenges Screening of early cancer is not a substitute for effort to promote smoking cessation In fact, it should be used an opportunity to pursuit subject to quit smoking (if they are still smoking)
Other Challenges Early lung cancer screening has not been prospectively tested in this country Lack of resources (time for counselling, CT machine and interventionists) Many high risk individuals are non-smoker, and younger than those traditionally included in the trial (< 50-55 years old) TB is common in this part of the world and this may result in a lot of false positive cases
Future opportunity Can we increase to sensitivity and specificity of the screening test? Combination with sputum test or breath test Combination with blood test
Future opportunity Can we increase to sensitivity and specificity of the screening test? PET-CT scan? PET-CT has been shown to increase the specificity for malignancy (7 10mm) PET has low sensitivity for nodules with < 8 mm of solid component and for small nodules near the diaphragm.
Conclusion Recent NLST has shown positive result for early lung cancer screening by employing LDCT. However, 3 other trials: MILD (Multicentre Italian Lung Detection), DANTE (Detection And screening of early lung cancer with Novel imaging TEchnology), Danish Lung Cancer Screening Trial (all using the LDCT) did not show a positive outcome in term of mortality Before such screening is being performed here, every aspect of the programme should be explored and deliberated.