Amy Anderson-Mellies scite author profile

Background Improvements in pediatric cancer survival are attributed to cooperative clinical trials. Underrepresentation of specific demographic groups has been described in adult and pediatric cancer trials and poses a threat to the generalizability of results. An evaluation of data provided by the Children's Oncology Group (COG) of upfront trial enrollment for US patients 0 to 29 years old between 2004 and 2015 was performed. Methods US cancer cases were estimated using incidence data and US population estimates from the Surveillance, Epidemiology, and End Results Program and compared to observed COG cases. Percent enrollment and standardized ratios of enrollment were calculated across demographic, disease, and socioeconomic groups. The COG website was utilized to quantify available trials and assess age eligibility. Results 19.9% of estimated US cancer patients age 0 to 19 years enrolled on COG trials. Younger patients were more represented across diseases and races/ethnicities. Patients with hematologic malignancies were more represented compared to solid and central nervous system (CNS) tumors. Conclusion COG trial enrollment rates are declining when compared to previously published data, potentially from challenges in pediatric drug development, difficulty designing feasible trials for highly curable diagnoses, and issues ensuring trial availability for the heterogeneous group of solid and CNS tumors. Though racial/ethnic groups and county-level socioeconomic factors were proportionally represented, under representation of the adolescent/ young adult (AYA) population and younger patients with solid and CNS tumors remains a

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Chronic pain, health-related quality of life, and employment in working-age cancer survivors

Cox-Martin¹,

Anderson-Mellies²,

Borges³

2019

J Cancer Surviv

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Sociodemographic Disparities in Presentation and Survival of Pediatric Bone Cancers

Goulding

Arguinchona

Anderson-Mellies

et al. 2022

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Osteosarcoma (OST) and Ewing sarcoma (ES) are the most common pediatric bone cancers. Patients with metastatic disease at diagnosis have poorer outcomes compared with localized disease. Using the Surveillance, Epidemiology, and End Results registries, we identified children and adolescents diagnosed with OST or ES between 2004 and 2015. We examined whether demographic and socioeconomic disparities were associated with a higher likelihood of metastatic disease at diagnosis and poor survival outcomes. In OST, Hispanic patients and those living in areas of high language isolation were more likely to have metastatic disease at diagnosis. Regardless of metastatic status, OST patients with public insurance had increased odds of death compared to those with private insurance. Living in counties with lower education levels increased odds of death for adolescents with metastatic disease. In ES, non-White adolescents had higher odds of death compared with white patients. Adolescents with metastatic ES living in higher poverty areas had increased odds of death compared with those living in less impoverished areas. Disparities in both diagnostic and survival outcomes based on race, ethnicity, and socioeconomic factors exist in pediatric bone cancers, potentially due to barriers to care and treatment inequities.

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Ethnicity, socioeconomic status, income inequality, and colorectal cancer outcomes: evidence from the 4C2 collaboration

Anderson-Mellies

Borrayo

Doherty

et al. 2022

Cancer Causes Control

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Population-based analysis of radiation-induced gliomas after cranial radiotherapy for childhood cancers

Leary

Anderson-Mellies

Green

2022

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Background Cranial radiotherapy (RT) used for pediatric CNS cancers and leukemias carries a risk of secondary CNS malignancies, including radiation-induced gliomas (RIG). Our aim was to characterize the epidemiology of RIG. Methods This retrospective study used SEER data (1975-2016). Cohort 1 included patients diagnosed with glioma as a second malignancy > 2 years after receiving treatment for a first malignancy diagnosed at 0-19 years, either a primary CNS tumor (1a, n=57) or leukemia (1b, n=20). Cohort 2 included patients who received RT for a pediatric CNS tumor and died of presumed progressive disease > 7 years after diagnosis, since previous studies have documented many missed RIGs in this group (n=296). Controls (n=10,687) included all other patients ages 0-19 who received RT for a first CNS tumor or leukemia. Results For Cohort 1, 0.77% of patients receiving cranial RT developed RIG. 3.39% of patients receiving cranial RT for primary CNS tumors fell in Cohort 2. Median latency to RIG diagnosis was 11.1 years and was significantly shorter for Cohort 1b than 1a. Median OS for Cohort 1 was 9.0 months. Receiving surgery, radiation, or chemotherapy were all associated with a non-statistically significant improvement in OS (p 0.1-0.2). 1.8% of all brain tumor deaths fell in Cohort 1, with 7.9% in Cohort 2. Conclusion 1-4% of patients undergoing cranial RT for pediatric cancers later developed RIG, which can occur 3-35 years after RT. Given the substantial and likely underestimated impact on overall CNS tumor mortality, RIG is deserving of increased attention in preclinical and clinical studies.

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