User login
PITTSBURGH – The incidence of many pediatric cancers are on the rise, and the increase is occurring in nearly all demographic groups studied, according to the latest data from the U.S. Centers for Disease Control and Prevention.
Pediatric cancers that increased significantly in incidence from 2001 through 2014, compared with previous time periods, include thyroid carcinoma, hepatic tumors, lymphomas, renal tumors, and brain tumors. Other cancer types remained unchanged, except malignant melanoma, which saw a significant decline in incidence over the same period, reported David A. Siegel, MD, of the Epidemic Intelligence Service at the CDC in Atlanta.
“Some of the possible causes might be as benign as just increased ascertainment, but it might be more complicated, such as environmental exposures or population-based changes,” he said during a poster discussion session at the annual meeting of the American Society of Pediatric Hematology/Oncology.
Recent studies of trends in pediatric cancer have either used data from before 2010 or covered less than a third of the U.S. population, the investigators noted.
To get a more accurate estimate of current trends, the investigators relied on the United States Cancer Statistics, which combines data from the Surveillance, Epidemiology, and End Results (SEER) program and the National Program of Cancer Registries. Together, the combined databases cover 100% of the U.S. population.
Dr. Siegel and his colleagues looked at cancer incidence rates and trends among individuals younger than 20 years of age from across 48 states from 2001 to 2014 – Mississippi, Nevada, and the District of Columbia were not included.
They used a joinpoint regression method to calculate average annual percent change (AAPC) in rates, then stratified rates and trends by sex, age, and race/ethnicity; location; economic status; and cancer type.
During the 14-year period of the study, there were a total of 196,200 incident cases of pediatric cancer, for an overall cancer incidence rate of 173 per million. The pediatric cancer with the highest incident rate was leukemia of any type (45.6 per million), brain tumors (30.8), and lymphomas (26.0).
Incidence rates were highest among males, patients from infancy through age 4, non-Hispanic whites, children who live in the Northeast region, those who live in the wealthiest counties, and those who live in urban/metropolitan counties. The overall pediatric cancer incidence rate increased, with an AAPC of 0.7 (95% confidence interval, 0.5-0.8).
“Rates increased in each stratum of sex, age, and race/ethnicity (except non-Hispanic American Indian/Alaska Native), region, economic status, and rural/urban classification,” the investigators wrote.
Cancers with significantly increased AAPC included thyroid carcinomas (AAPC, 4.8), hepatic tumors (2.5), lymphomas (1.7), renal tumors (0.6), and brain tumors (all types, 0.4).
There were no significant changes in the incidence of either germ cell cancer, retinoblastoma, leukemia, neuroblastoma, soft-tissue sarcomas, or bone tumors.
The only significant decrease over the study period was in the incidence of melanoma in children (–2.6).
“Possible causes of increasing rates might include changes in diagnostic, coding, and reporting standards, increased detection, population-based changes (such as increasing obesity), and environmental exposures,” they wrote.
Public health campaigns about the dangers of UV exposure and promoting the use of sunscreens may account for the decline in the incidence of malignant melanoma, they suggested.
The study was supported by the CDC. Dr. Siegel and coauthors are CDC employees. They reported having no conflicts of interest.
SOURCE: Siegel DA et al. ASPHO 2018, Abstract 605.
PITTSBURGH – The incidence of many pediatric cancers are on the rise, and the increase is occurring in nearly all demographic groups studied, according to the latest data from the U.S. Centers for Disease Control and Prevention.
Pediatric cancers that increased significantly in incidence from 2001 through 2014, compared with previous time periods, include thyroid carcinoma, hepatic tumors, lymphomas, renal tumors, and brain tumors. Other cancer types remained unchanged, except malignant melanoma, which saw a significant decline in incidence over the same period, reported David A. Siegel, MD, of the Epidemic Intelligence Service at the CDC in Atlanta.
“Some of the possible causes might be as benign as just increased ascertainment, but it might be more complicated, such as environmental exposures or population-based changes,” he said during a poster discussion session at the annual meeting of the American Society of Pediatric Hematology/Oncology.
Recent studies of trends in pediatric cancer have either used data from before 2010 or covered less than a third of the U.S. population, the investigators noted.
To get a more accurate estimate of current trends, the investigators relied on the United States Cancer Statistics, which combines data from the Surveillance, Epidemiology, and End Results (SEER) program and the National Program of Cancer Registries. Together, the combined databases cover 100% of the U.S. population.
Dr. Siegel and his colleagues looked at cancer incidence rates and trends among individuals younger than 20 years of age from across 48 states from 2001 to 2014 – Mississippi, Nevada, and the District of Columbia were not included.
They used a joinpoint regression method to calculate average annual percent change (AAPC) in rates, then stratified rates and trends by sex, age, and race/ethnicity; location; economic status; and cancer type.
During the 14-year period of the study, there were a total of 196,200 incident cases of pediatric cancer, for an overall cancer incidence rate of 173 per million. The pediatric cancer with the highest incident rate was leukemia of any type (45.6 per million), brain tumors (30.8), and lymphomas (26.0).
Incidence rates were highest among males, patients from infancy through age 4, non-Hispanic whites, children who live in the Northeast region, those who live in the wealthiest counties, and those who live in urban/metropolitan counties. The overall pediatric cancer incidence rate increased, with an AAPC of 0.7 (95% confidence interval, 0.5-0.8).
“Rates increased in each stratum of sex, age, and race/ethnicity (except non-Hispanic American Indian/Alaska Native), region, economic status, and rural/urban classification,” the investigators wrote.
Cancers with significantly increased AAPC included thyroid carcinomas (AAPC, 4.8), hepatic tumors (2.5), lymphomas (1.7), renal tumors (0.6), and brain tumors (all types, 0.4).
There were no significant changes in the incidence of either germ cell cancer, retinoblastoma, leukemia, neuroblastoma, soft-tissue sarcomas, or bone tumors.
The only significant decrease over the study period was in the incidence of melanoma in children (–2.6).
“Possible causes of increasing rates might include changes in diagnostic, coding, and reporting standards, increased detection, population-based changes (such as increasing obesity), and environmental exposures,” they wrote.
Public health campaigns about the dangers of UV exposure and promoting the use of sunscreens may account for the decline in the incidence of malignant melanoma, they suggested.
The study was supported by the CDC. Dr. Siegel and coauthors are CDC employees. They reported having no conflicts of interest.
SOURCE: Siegel DA et al. ASPHO 2018, Abstract 605.
PITTSBURGH – The incidence of many pediatric cancers are on the rise, and the increase is occurring in nearly all demographic groups studied, according to the latest data from the U.S. Centers for Disease Control and Prevention.
Pediatric cancers that increased significantly in incidence from 2001 through 2014, compared with previous time periods, include thyroid carcinoma, hepatic tumors, lymphomas, renal tumors, and brain tumors. Other cancer types remained unchanged, except malignant melanoma, which saw a significant decline in incidence over the same period, reported David A. Siegel, MD, of the Epidemic Intelligence Service at the CDC in Atlanta.
“Some of the possible causes might be as benign as just increased ascertainment, but it might be more complicated, such as environmental exposures or population-based changes,” he said during a poster discussion session at the annual meeting of the American Society of Pediatric Hematology/Oncology.
Recent studies of trends in pediatric cancer have either used data from before 2010 or covered less than a third of the U.S. population, the investigators noted.
To get a more accurate estimate of current trends, the investigators relied on the United States Cancer Statistics, which combines data from the Surveillance, Epidemiology, and End Results (SEER) program and the National Program of Cancer Registries. Together, the combined databases cover 100% of the U.S. population.
Dr. Siegel and his colleagues looked at cancer incidence rates and trends among individuals younger than 20 years of age from across 48 states from 2001 to 2014 – Mississippi, Nevada, and the District of Columbia were not included.
They used a joinpoint regression method to calculate average annual percent change (AAPC) in rates, then stratified rates and trends by sex, age, and race/ethnicity; location; economic status; and cancer type.
During the 14-year period of the study, there were a total of 196,200 incident cases of pediatric cancer, for an overall cancer incidence rate of 173 per million. The pediatric cancer with the highest incident rate was leukemia of any type (45.6 per million), brain tumors (30.8), and lymphomas (26.0).
Incidence rates were highest among males, patients from infancy through age 4, non-Hispanic whites, children who live in the Northeast region, those who live in the wealthiest counties, and those who live in urban/metropolitan counties. The overall pediatric cancer incidence rate increased, with an AAPC of 0.7 (95% confidence interval, 0.5-0.8).
“Rates increased in each stratum of sex, age, and race/ethnicity (except non-Hispanic American Indian/Alaska Native), region, economic status, and rural/urban classification,” the investigators wrote.
Cancers with significantly increased AAPC included thyroid carcinomas (AAPC, 4.8), hepatic tumors (2.5), lymphomas (1.7), renal tumors (0.6), and brain tumors (all types, 0.4).
There were no significant changes in the incidence of either germ cell cancer, retinoblastoma, leukemia, neuroblastoma, soft-tissue sarcomas, or bone tumors.
The only significant decrease over the study period was in the incidence of melanoma in children (–2.6).
“Possible causes of increasing rates might include changes in diagnostic, coding, and reporting standards, increased detection, population-based changes (such as increasing obesity), and environmental exposures,” they wrote.
Public health campaigns about the dangers of UV exposure and promoting the use of sunscreens may account for the decline in the incidence of malignant melanoma, they suggested.
The study was supported by the CDC. Dr. Siegel and coauthors are CDC employees. They reported having no conflicts of interest.
SOURCE: Siegel DA et al. ASPHO 2018, Abstract 605.
REPORTING FROM ASPHO 2018
Key clinical point:
Study details: A review of data from the United States Cancer Statistics for children under age 20.
Disclosures: The CDC supported the study. Dr. Siegel and his coauthors are CDC employees. They reported having no conflicts of interest.
Source: Siegel DA et al. ASPHO 2018, Abstract 605.