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Lung cancer screening reduces mortality, but patient adherence to screening intervals is suboptimal in the United States, according to a review and meta-analysis published in the Journal of Thoracic Oncology.

“Lung cancer screening is effective in reducing mortality, particularly when patients adhere to follow-up recommendations standardized by the Lung CT Screening Reporting & Data System (Lung-RADS),” Yannan Lin, MD, MPH, of the University of California, Los Angeles, and colleagues wrote. ”Patient adherence to Lung-RADS–recommended screening intervals is suboptimal across clinical lung cancer screening programs in the U.S., especially among patients with Lung-RADS category 1-2 results.”

Lung cancer screening can identify tumors at earlier, more treatable stages, but patients with lung cancer diagnoses based on new nodules at incidence screening have shown shortened survivals. The National Lung Screening Trial (NLST) has shown a 20% relative reduction in lung cancer mortality with low-dose chest CT screening relative to chest radiography. The Lung-RADS guidelines to standardize the reporting of lung cancer screening were developed based on findings from the NLST and other screening studies, partly to reduce false-positive rates. Lung-RADS scores are based upon nodule size, characteristics and location, with management guidelines specific to Lung-RADS categories, ranging from low-dose chest CT in 12 months for Lung-RADS 1-2 to chest CT, PET/CT, or tissue sampling for Lung-RADS 4B/X.

The rate of adherence to lung cancer screening based on Lung-RADS guidelines is unclear. This systematic review and meta-analysis looked at patient adherence to Lung-RADS recommended screening intervals in clinical practice.

The meta-analysis included 21 studies. The pooled adherence rate was 57% for defined adherence, which included an annual incidence screen performed within 15 months, among 6,689 patients and 65% for anytime adherence among 5,085 patients. The authors noted that overall rates of adherence to Lung-RADS recommended screening intervals in clinical practices is low as compared with the over 90% adherence seen in the NLST, adversely affecting the mortality benefits of lung cancer screening.

Higher adherence rates were found in patients with Lung-RADS 3 (risk for lung cancer, 1%-2%) and 4 (risk, >5%) than Lung-RADS 1 and 2 (risk, <1%; P < .05), which the authors said suggests that tailored interventions based on Lung-RADS categories may be beneficial.

“It is likely that patients and referrers are more concerned about nodules at a higher risk for lung cancer, prompting greater adherence to recommended screening intervals in Lung-RADS 3-4,” the authors wrote. “It is crucial that patients and referrers alike understand that screening is most effective when performed regularly, including for those with negative baseline screens, as de novo nodules, those detected after a negative screen, are more aggressive than those detected at baseline screen.”

These low adherence rates seen in the clinical practices could be explained by patient characteristics, insurance coverage and interventions to ensure adherence, among other factors.

Further, inconsistent reporting of adherence rates was observed. Standardized reporting of adherence rates to lung cancer screening is needed to identify interventions to improve adherence, the authors wrote.

The authors of this study noted no conflicts of interest.

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Lung cancer screening reduces mortality, but patient adherence to screening intervals is suboptimal in the United States, according to a review and meta-analysis published in the Journal of Thoracic Oncology.

“Lung cancer screening is effective in reducing mortality, particularly when patients adhere to follow-up recommendations standardized by the Lung CT Screening Reporting & Data System (Lung-RADS),” Yannan Lin, MD, MPH, of the University of California, Los Angeles, and colleagues wrote. ”Patient adherence to Lung-RADS–recommended screening intervals is suboptimal across clinical lung cancer screening programs in the U.S., especially among patients with Lung-RADS category 1-2 results.”

Lung cancer screening can identify tumors at earlier, more treatable stages, but patients with lung cancer diagnoses based on new nodules at incidence screening have shown shortened survivals. The National Lung Screening Trial (NLST) has shown a 20% relative reduction in lung cancer mortality with low-dose chest CT screening relative to chest radiography. The Lung-RADS guidelines to standardize the reporting of lung cancer screening were developed based on findings from the NLST and other screening studies, partly to reduce false-positive rates. Lung-RADS scores are based upon nodule size, characteristics and location, with management guidelines specific to Lung-RADS categories, ranging from low-dose chest CT in 12 months for Lung-RADS 1-2 to chest CT, PET/CT, or tissue sampling for Lung-RADS 4B/X.

The rate of adherence to lung cancer screening based on Lung-RADS guidelines is unclear. This systematic review and meta-analysis looked at patient adherence to Lung-RADS recommended screening intervals in clinical practice.

The meta-analysis included 21 studies. The pooled adherence rate was 57% for defined adherence, which included an annual incidence screen performed within 15 months, among 6,689 patients and 65% for anytime adherence among 5,085 patients. The authors noted that overall rates of adherence to Lung-RADS recommended screening intervals in clinical practices is low as compared with the over 90% adherence seen in the NLST, adversely affecting the mortality benefits of lung cancer screening.

Higher adherence rates were found in patients with Lung-RADS 3 (risk for lung cancer, 1%-2%) and 4 (risk, >5%) than Lung-RADS 1 and 2 (risk, <1%; P < .05), which the authors said suggests that tailored interventions based on Lung-RADS categories may be beneficial.

“It is likely that patients and referrers are more concerned about nodules at a higher risk for lung cancer, prompting greater adherence to recommended screening intervals in Lung-RADS 3-4,” the authors wrote. “It is crucial that patients and referrers alike understand that screening is most effective when performed regularly, including for those with negative baseline screens, as de novo nodules, those detected after a negative screen, are more aggressive than those detected at baseline screen.”

These low adherence rates seen in the clinical practices could be explained by patient characteristics, insurance coverage and interventions to ensure adherence, among other factors.

Further, inconsistent reporting of adherence rates was observed. Standardized reporting of adherence rates to lung cancer screening is needed to identify interventions to improve adherence, the authors wrote.

The authors of this study noted no conflicts of interest.

Lung cancer screening reduces mortality, but patient adherence to screening intervals is suboptimal in the United States, according to a review and meta-analysis published in the Journal of Thoracic Oncology.

“Lung cancer screening is effective in reducing mortality, particularly when patients adhere to follow-up recommendations standardized by the Lung CT Screening Reporting & Data System (Lung-RADS),” Yannan Lin, MD, MPH, of the University of California, Los Angeles, and colleagues wrote. ”Patient adherence to Lung-RADS–recommended screening intervals is suboptimal across clinical lung cancer screening programs in the U.S., especially among patients with Lung-RADS category 1-2 results.”

Lung cancer screening can identify tumors at earlier, more treatable stages, but patients with lung cancer diagnoses based on new nodules at incidence screening have shown shortened survivals. The National Lung Screening Trial (NLST) has shown a 20% relative reduction in lung cancer mortality with low-dose chest CT screening relative to chest radiography. The Lung-RADS guidelines to standardize the reporting of lung cancer screening were developed based on findings from the NLST and other screening studies, partly to reduce false-positive rates. Lung-RADS scores are based upon nodule size, characteristics and location, with management guidelines specific to Lung-RADS categories, ranging from low-dose chest CT in 12 months for Lung-RADS 1-2 to chest CT, PET/CT, or tissue sampling for Lung-RADS 4B/X.

The rate of adherence to lung cancer screening based on Lung-RADS guidelines is unclear. This systematic review and meta-analysis looked at patient adherence to Lung-RADS recommended screening intervals in clinical practice.

The meta-analysis included 21 studies. The pooled adherence rate was 57% for defined adherence, which included an annual incidence screen performed within 15 months, among 6,689 patients and 65% for anytime adherence among 5,085 patients. The authors noted that overall rates of adherence to Lung-RADS recommended screening intervals in clinical practices is low as compared with the over 90% adherence seen in the NLST, adversely affecting the mortality benefits of lung cancer screening.

Higher adherence rates were found in patients with Lung-RADS 3 (risk for lung cancer, 1%-2%) and 4 (risk, >5%) than Lung-RADS 1 and 2 (risk, <1%; P < .05), which the authors said suggests that tailored interventions based on Lung-RADS categories may be beneficial.

“It is likely that patients and referrers are more concerned about nodules at a higher risk for lung cancer, prompting greater adherence to recommended screening intervals in Lung-RADS 3-4,” the authors wrote. “It is crucial that patients and referrers alike understand that screening is most effective when performed regularly, including for those with negative baseline screens, as de novo nodules, those detected after a negative screen, are more aggressive than those detected at baseline screen.”

These low adherence rates seen in the clinical practices could be explained by patient characteristics, insurance coverage and interventions to ensure adherence, among other factors.

Further, inconsistent reporting of adherence rates was observed. Standardized reporting of adherence rates to lung cancer screening is needed to identify interventions to improve adherence, the authors wrote.

The authors of this study noted no conflicts of interest.

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FROM THE JOURNAL OF THORACIC ONCOLOGY

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