The lifetime risk of aging-related diseases among survivors of childhood cancer, accelerated by cancer treatment exposures, is unknown. Understanding this risk can provide a more comprehensive assessment of long-term health across the lifespan of survivors and guide adult care.

To estimate the lifetime risks of 8 treatment-related cancers and cardiovascular conditions among childhood cancer survivors and compare them with the general population.

Using data from the Childhood Cancer Survivor Study and national databases, this simulation modeling study projected long-term outcomes for 5-year survivors diagnosed between 1970 and 1999 based on treatment exposures and age-related risks. The general population comparator was simulated using age-, sex-, and calendar year-matched individuals who faced only age-related risks.

Treatment era (1970s, 1980s, 1990s), original cancer diagnosis, radiation treatment for primary diagnosis (any, none).

Estimated lifetime risks of 8 health conditions (breast cancer, colorectal cancer, glial tumors, sarcomas, heart failure, coronary heart disease/myocardial infarction, stroke, and valvular disease). Risks were projected and compared with the general population, stratified by radiation exposure.

In the general population, 20% developed at least 1 health condition by age 65.0 years; in 5-year survivors this threshold was reached at age 47.3 years, representing a 17.7-year (95% uncertainty interval [UI], 14.0-21.0) acceleration in disease onset. By age 65 years, 55% of survivors were projected to develop at least 1 condition, indicating a 2.7-fold (95% UI, 2.2-3.5) higher relative risk and 34.2% (95% UI, 28.3-42.5) absolute excess risk compared with the general population. Risks were higher among those treated with radiation therapy for childhood cancer (22.0 years earlier onset [95% UI, 18.0-25.0]; 37.3% excess risk [95% UI, 31.6%-44.7%]) but still elevated for those without radiation exposure (13.5 years earlier onset [95% UI, 10.0-16.0]; 31.0% excess risk [95% UI, 23.9%-40.3%]). Reaching middle age was still associated with increased health risks. Compared with the general population, survivors who reached age 40 years had a 6.2-fold higher risk (95% UI, 4.8-9.4) of developing a new condition within 10 years.

This study found that survivors of childhood cancer experience accelerated onset of aging-related diseases, regardless of prior radiation exposure. These findings underscore the importance of prioritizing cancer and cardiovascular disease prevention among survivors decades earlier than for the general population.

Melanoma as a subsequent malignant neoplasm has been described among childhood cancer survivors; however, the risk factors and long-term survival are not well understood.

We assessed incidence, risk factors, and outcomes for melanoma among participants in the Childhood Cancer Survivor Study cohort. Cumulative incidence and standardized incidence ratios (SIRs) were calculated, and multivariable Cox models were used to determine hazard ratios (HRs) and associated 95% CI for melanoma risk factors. Radiation exposure to seven body regions and melanoma status for each of eight regions per survivor were integrated into the Cox model.

Among 25,716 participants, 177 melanomas developed in 160 survivors (110 invasive, 62 in situ cutaneous, five ocular). The 40-year melanoma cumulative incidence was 1.1% (95% CI, 0.9 to 1.4) for all participants and 1.5% (95% CI, 1.0 to 2.1) among those receiving a cumulative radiation dose of ≥40 Gy. Compared with the general population, the SIR for invasive skin or ocular melanoma was 2.0 (95% CI, 1.6 to 2.4). A cumulative radiation dose of ≥40 Gy to the corresponding body region(s) of the melanoma (HR, 2.0 [95% CI, 1.1 to 3.7]), a cumulative cyclophosphamide equivalent dose of ≥20,000 mg/m2 (HR, 1.9 [95% CI, 1.1 to 3.6]), and bleomycin exposure (HR, 2.2 [95% CI, 1.2 to 4.1]) were associated with increased cutaneous melanoma. Invasive melanoma at any site was associated with an increased risk of death (HR, 2.4 [95% CI, 1.7 to 3.3]).

Childhood cancer survivors have more than a two-fold increased risk of melanoma compared with the general population, and those with an invasive melanoma have more than a two-fold risk of death. High-dose radiation and alkylating agent exposure, and bleomycin are important risk factors for melanoma and should be considered in future patient guidance and screening.

Childhood cancer survivors, particularly those who received chest radiotherapy, are at high risk for developing subsequent breast cancer. Minimizing long-term toxicity risks associated with additional radiotherapy and chemotherapy is a priority, but therapeutic tradeoffs have not been comprehensively characterized and their impact on survival is unknown. In this study, 431 female childhood cancer survivors with subsequent breast cancer from a multicenter retrospective cohort study were evaluated. Compared with one-to-one matched females with first primary breast cancer, survivors are as likely to be prescribed guideline-concordant treatment (N = 344 pairs; survivors: 94%, controls: 93%), but more frequently undergo mastectomy (survivors: 81%, controls: 60%) and are less likely to be treated with anthracyclines (survivors: 47%, controls: 66%) or radiotherapy (survivors: 18%, controls: 61%). Despite this, survivors have nearly 3.5-fold (95% CI = 2.17-5.57) greater mortality risk. Here, we show survivors with subsequent breast cancer face excess mortality despite therapeutic tradeoffs and require specialized treatment guidelines.

This study aims to establish the characteristics of second primary neoplasms (SPNs) and the long-term follow-up status of a tertiary pediatric oncology center.

Records of 1799 patients followed up in the pediatric oncology division between January 1981 and December 2022 were evaluated retrospectively.

Thirty-four (1.9%) cases of secondary neoplasms were identified throughout 42 years. The 5-year and 10-year cumulative incidence was 1% and 4%, respectively. The 3 most common SPNs were thyroid carcinomas (TC), central nervous system (CNS) tumors, and leukemias. The shortest median latent period of SPN detection was 15.5 (2 to 35) months in secondary leukemias, whereas 8 (0 to 17) years in all SPNs. Secondary solid tumors that occurred within the radiation field were TC and meningiomas with a 5.5 (3 to 12) and 16 (6 to 22) years latency period, respectively. Ten patients died; the median death time from the diagnosis of SPN was 10 months in all secondary leukemias and 3.5 months in CNS tumors. The 5-year overall survival was 91%, with a median follow-up time of 13.1 years in all patients with SPN.

Considering the SPN-inducing effects of radiotherapy and chemotherapy, patient-protective improvements in treatment protocols are required. Multidisciplinary and long-term follow-up is essential even in adulthood because of the long latency period of some SPN occurring in pediatric cancer survivors.

Cutaneous malignant neoplasms are the most common subsequent neoplasm after blood or marrow transplant (BMT), but a full assessment among survivors is lacking.

To identify risk factors for subsequent cutaneous malignant neoplasms using the BMT Survivor Study (BMTSS).

This retrospective cohort study included patients who underwent transplant from 1974 to 2014 at City of Hope, University of Minnesota, or University of Alabama at Birmingham and survived 2 years or longer, as well as a comparison cohort of siblings. Both groups completed the BMTSS survey. Data analysis took place from October 2022 to October 2024.

Demographics, pre-BMT and BMT-related therapeutic exposures, chronic graft-vs-host disease (cGVHD), and posttransplant immunosuppression.

Incident cutaneous malignant neoplasms (basal cell carcinoma [BCC], squamous cell carcinoma [SCC], and melanoma) after BMT. Exposures were evaluated for association with subsequent neoplasms using proportional subdistribution hazards models (reported as subdistribution hazard ratio [SHR] and 95% CI).

Among the 3880 BMT survivors (median [range] age at BMT, 44.0 [0-78.0] years; 2165 [55.8%] male; 190 [4.9%] Black, 468 [12.1%] Hispanic, 2897 [74.7%] non-Hispanic White, and 325 [8.4%] of other race [including Asian and Pacific Islander] and multiracial) who were followed up for a median (range) of 9.5 (2.0-46.0) years, 605 developed 778 distinct cutaneous neoplasms (BCC, 321; SCC, 231; melanoma, 78; and unknown type, 148). The 30-year cumulative incidence of any cutaneous malignant neoplasm was 27.4% (BCC, 18.0%; SCC, 9.8%; and melanoma, 3.7%). Seventy-year cumulative probabilities of BCC, SCC, and melanoma were considerably higher in BMT survivors than siblings (18.1% vs 8.2%, 14.7% vs 4.2%, and 4.2% vs 2.4%, respectively). Among BMT survivors, risk factors for subsequent cutaneous malignant neoplasms included age of 50 years and older at BMT (BCC: SHR, 1.76; 95% CI, 1.36-2.29; SCC: SHR, 3.37; 95% CI, 2.41-4.72), male sex (BCC: SHR, 1.39; 95% CI, 1.10-1.75; SCC: SHR, 1.85; 95% CI, 1.39-2.45), pre-BMT monoclonal antibody exposure (BCC: SHR, 1.71; 95% CI, 1.27-2.31), allogeneic BMT with cGVHD (BCC: SHR, 1.48; 95% CI, 1.06-2.08; SCC: SHR, 2.61; 95% CI, 1.68-4.04 [reference: autologous BMT]), post-BMT immunosuppression (BCC: SHR, 1.63; 95% CI, 1.24-2.14; SCC: SHR, 1.48; 95% CI, 1.09-2.02; melanoma: SHR, 1.90; 95% CI, 1.16-3.12), and transplant at City of Hope (BCC: SHR, 3.55; 95% CI, 2.58-4.89; SCC: SHR, 3.57; 95% CI, 2.34-5.47 [reference: University of Minnesota]) or University of Alabama at Birmingham (BCC: SHR, 2.35; 95% CI, 1.35-4.23; SCC: SHR, 2.63; 95% CI, 1.36-5.08 [reference: University of Minnesota]). Race and ethnicity other than non-Hispanic White were protective for BCC (Black: no cases; Hispanic: SHR, 0.27; 95% CI, 0.16-0.44; other race and multiracial: SHR, 0.26; 95% CI, 0.14-0.50 [reference: non-Hispanic White]) and SCC (Black: SHR, 0.17; 95% CI, 0.04-0.67; Hispanic: SHR, 0.28; 95% CI, 0.16-0.50; other race and multiracial: SHR, 0.13; 95% CI, 0.05-0.37 [reference: non-Hispanic White]). Total body irradiation was associated with BCC risk among those younger than 50 years at BMT (SHR, 1.92; 95% CI, 1.27-2.92).

In this cohort study, the high risk of cutaneous malignant neoplasms and malignant-specific risk factors suggest a need for personalized patient counseling and posttransplant dermatologic surveillance.

The incidence of malignant gastrointestinal (GI) tumors is increasing, and advancements in medical care have significantly improved patient survival rates. As a result, the number of cases involving multiple primary cancers (MPC) has also increased. The rarity of MPC and the absence of sensitive and specific diagnostic markers often lead to missed or incorrect diagnoses. It is, therefore, of vital importance to improve the vigilance of clinicians and the accurate diagnosis of this disease. Patients with GI malignancies face a higher relative risk of developing additional primary malignant tumors compared to those with other systemic tumors. Vigilant monitoring and follow-up are crucial, especially for high-risk groups, which include older adults, men, those with addictions to alcohol and tobacco, those with a family history of tumors, and those who have undergone radiotherapy.

In this article, we report three cases of MPC, each involving malignant tumors of the GI tract as the initial primary carcinoma, offering insights that may aid in effectively managing similar cases.

Patients with GI malignancies face a higher MPC risk. Developing screening and follow-up protocols may enhance detection and treatment outcomes.

Individuals under 30 years old with oral squamous cell carcinoma (OSCC) are a relatively rare subgroup but require attention. However, literature on the clinicopathological characteristics of OSCC patients under 30 is currently lacking.

A total of 66 OSCC patients under 30 were included in this study. We collected data on demographic characteristics, chief complaint, risk factors, pathological features, imaging, blood test, staging, neoadjuvant therapy, surgical treatment plans, and survival status. Survival curves for overall survival (OS) and disease-free survival (DFS) were generated to explore prognostic factors in patients under 30.

Among the 66 patients, tongue cancer was predominant, accounting for 60/66 (90.9%). Female patients had no history of smoking, alcohol consumption, or betel nut chewing, whereas all male patients with a history of betel nut chewing were smokers. Patients who sought medical attention shortly after the onset of symptoms tended to demonstrate greater disease severity. The 5-year OS for these patients was 88.9%, and the 5-year DFS was 77.2%. Smoking, drinking, betel nut chewing, staging, LNM, and tumor histological differentiation were not associated with OS and DFS, whereas high neutrophil count and high monocyte count were associated with better survival outcomes.

Our study dataset shows that OSCC patients under 30 are a subgroup with a high prevalence of tongue cancer, distinct etiological factors in females, and increasing proportions of betel nut chewing and moderately/poorly differentiated tumors. This subgroup generally has a favorable prognosis, but the prognostic factors differ from those in the general OSCC population.

The WHO Global Initiative for Childhood Cancer, prompted by the marked inequity of survival across the globe, aims to increase survival rates in low- and middle-income countries to 60% by 2030. In tandem with this effort, implementing survivorship-focused care is crucial to mitigate late effects and prevent early mortality beyond the 5-year survival end point. The observed burden of secondary malignancies, cardiovascular disease, and other chronic health conditions in adult survivors of childhood cancer in high-income countries provides guidance to generate evidence in limited-resource settings. The implementation of risk stratification tools, population health management, and development of contextually relevant health care delivery models, within the current landscape of survivorship care in Latin America, Africa, and Asia as examples, are vital to continue the momentum to ensure equitable care and quality of life for all survivors of childhood cancer. This narrative review informed by expert opinion serves as a call to action for survivors, advocacy groups, health professionals, health systems, governments, and global organizations to look beyond the 5-year survival benchmark.

Adult cancer survivors are at a heightened risk for secondary primary differentiated thyroid carcinoma (2-DTC). The characteristics and outcomes of 2-DTC remain poorly understood.

We aimed to explore the characteristics and outcomes of 2-DTC.

We retrospectively analyzed data from the Surveillance, Epidemiology, and End Results (SEER) database (2000-2017). 2-DTC was divided into 25 subgroups based on prior primary malignancies (PPMs). Baseline characteristics were compared using the chi-square test. Multivariable logistic analysis was used to identified if PPMs were associated with aggressive DTC characteristics. DTC-specific and cancer-specific mortality were analyzed using a univariable and multivariable competing risk regression model.

There were 138 555 1-DTC and 9253 2-DTC patients identified. 2-DTC patients were predominantly older, male, and White compared to first primary DTC (1-DTC) (all P < .05). In multivariable logistic regression analysis, only 4 types of PPMs were associated with higher rates of DTC aggressive characteristics, while 19 types exhibited lower rates (all P < .05). In multivariable competing risk analysis, 2-DTC showed no mortality risk in stages I (SHR: 1.16; 95% CI, 0.65-2.07) and II (SHR: 0.67; 95% CI, 0.45-1.01), but a protective role in stages III (SHR: 0.47; 95% CI, 0.27-0.83) and IV (SHR: 0.72; 95% CI, 0.52-0.99). Most PPMs that developed into 2-DTC had a lower risk of DTC-specific death than 1-DTC, but many PPMs had a higher risk of cancer-specific death.

Given the characteristics and outcomes of 2-DTC, aggressive treatment for 2-DTC, particularly for PPM with a high mortality risk, may not be advisable.

Introduction: Among childhood cancer survivors, the cumulative incidence rate of differentiated thyroid carcinomas (DTCs) is estimated to be 8-11%. Although the association of DTC with prior radiotherapy is well-studied, the association with chemotherapy remains less understood. Most studies focused on young adults, leaving a knowledge gap on subsequent DTC occurring in childhood and adolescence. Methods: In this retrospective cohort study, we analyzed DTCs in children and adolescents under 18 years of age who were registered with the national multicenter Malignant Endocrine Tumor studies in Germany (1997-2023). We compared patients with first primary DTC to those with subsequent DTC that developed after a history of childhood cancer or hematopoietic stem cell transplantation (HSCT). In the subsequent DTC subgroup, we compared DTCs following chemotherapy only to those following chemo- and radiotherapy. Results: Of 505 patients with DTCs, 66 (13.1%) (38 male, 28 female) were subsequent DTCs. The median age at subsequent DTC diagnosis was 12.7 years (range, 5.1-17.9), with a median latency of 7.3 years (range, 2.2-15.6) from the first malignancy or HSCT. The 5-year overall survival (OS) and thyroid-related adverse event-free survival (EFS) estimates from the diagnoses of a subsequent DTC were 100.0% and 82.5%, respectively. Prior treatment included chemotherapy in 64 patients, with 18 receiving chemotherapy alone. In all, 46 subsequent DTC patients had a history of external radiotherapy, including 2 treated with radiotherapy only and 14 with total body irradiation. Two patients received 131I-metaiodobenzylguanidine treatment. Subsequent DTCs versus first DTCs were smaller in size but more frequently multifocal. Subsequent DTCs following chemotherapy only, compared with chemo- and radiotherapy, developed after a shorter latency (median 6.2 vs. 7.8 years), and were larger (median 1.86 vs. 1.18 cm). Patients with subsequent DTCs following chemotherapy only were younger at diagnosis (median 11.5 vs. 13.7 years). No differences were observed for OS and EFS. Conclusions: Presenting features of subsequent DTCs differ from primary counterparts, although the prognosis is not significantly different. Subsequent DTCs following chemotherapy only versus chemo- and radiotherapy DTCs were larger and diagnosed in younger patients after a shorter latency. More research is needed to identify risk factors and mechanisms potentially contributing to thyroid tumorigenesis post-chemotherapy.

RUNX1::RUNX1T1 (R::RT1) acute myeloid leukaemia (AML) remains a clinical challenge, and further research is required to model and understand leukaemogenesis. Previous zebrafish R::RT1 models were hampered by embryonic lethality and low penetrance of the malignant phenotype. Here, we overcome this by developing an adult zebrafish model in which the human R::RT1 isoform 9a is co-expressed with the frequently co-occurring oncogenic NRASG12D mutation in haematopoietic stem and progenitor cells (HSPCs), using the Runx1+23 enhancer. Approximately 50% of F0 9a+NRASG12D transgenic zebrafish developed signs of haematological disease between 5 and 14 months, with 27% exhibiting AML-like pathology: myeloid precursor expansion, erythrocyte reduction, kidney marrow hypercellularity and the presence of blasts. Moreover, only 9a+NRASG12D transplant recipients developed leukaemia with high rates of mortality within 40 days, inferring the presence of leukaemia stem cells. These leukaemic features were rare or not observed in animals expressing either the NRAS or 9a oncogenes alone, suggesting 9a and NRAS cooperation drives leukaemogenesis. This novel adult AML zebrafish model provides a powerful new tool for investigating the basis of R::RT1 - NRAS cooperativity with the potential to uncover new therapeutic targets.

This retrospective study analyzed a large population of gastric cancer (GC) patients treated between 2010 and 2015 to investigate the clinical features and predictive risk factors for developing secondary primary malignancies (SPMs). The cumulative incidence of SPM was assessed using Kaplan-Meier analysis. Competing risk analyses adjusted for mortality were conducted using stratified Cox proportional hazard regression models and multivariate analyses to identify independent predictors of SPM. A total of 3289 out of 167,747 GC patients were included in the analytic cohort, with 155 patients diagnosed with SPM. Patients whose histologic type other than adenocarcinomas (AC) and signet ring cell carcinoma (SRCC) emerged as an independent risk factor for developing SPM (hazard ratio [HR] 2.262, 95% confidence interval [CI] 1.146-4.465, P = 0.019) in multivariate Cox regression analysis. The surgical method, including biopsy/local excision (HR 2.3, [CI] 1.291-4.095, P = 0.005) and subtotal/total resection ([HR] 1.947, [CI] 1.028-3.687, P = 0.041), chemotherapy ([HR] 1.527, [CI] 1.006-2.316, P = 0.047), and histologic type ([HR] 2.318, [CI] 1.193-4.504, P = 0.013)), were identified as independent risk factors in the competitive risk model. Subgroup analyses, stratified by chemotherapy, revealed an increased risk of SPM among older patients. Furthermore, a nomogram was developed and internally validated to predict the cumulative incidence of SPM in GC patients (C-index = 0.73 for 72 months). These findings suggested that in specific histologic types of GC, the lymph node infiltration region missed after local surgical resection, and concomitant chemotherapy would have an increased risk of SPM for cancer survivors.

Renal cancer, although still rare among individuals under 45 years of age, is on the rise in the general population. The risk and timing of subsequent renal cancer in survivors of childhood cancer is not well established. Using the SEER registry, we reported the incidence of subsequent malignant renal neoplasms after treatment for primary malignancy diagnosed under 20 years of age. We evaluated clinical characteristics, standardized incidence ratio (SIR), and Kaplan-Meier survival estimates. Fifty-three survivors developed subsequent renal cancer (54 total cases). Of these, 54.7% were female, 88.7% were white, and 13.2% were Hispanic. Mean ages at primary malignancy and subsequent renal cancer were 10.1 and 31.1 years, respectively. Forty-seven cases were second cancers, 6 were third, and 1 was fourth. For survivors of childhood cancer, the overall SIR for renal cancer was 4.52 (95% CI: 3.39-5.89). The 5-year overall survival rate after development of subsequent renal cancer was 73% (95% CI: 58%-83%). Renal cancer occurs 4.5 times more frequently in childhood cancer survivors than in the general population, necessitating long-term care considerations.

Female Hodgkin lymphoma (HL) survivors treated with chest radiotherapy (RT) at a young age have a strongly increased risk of breast cancer (BC). Studies in childhood cancer survivors have shown that doxorubicin exposure may also increase BC risk. Although doxorubicin is the cornerstone of HL chemotherapy, the association between doxorubicin and BC risk has not been examined in HL survivors treated at adult ages.

We assessed BC risk in a cohort of 1,964 female 5-year HL survivors, treated at age 15-50 years in 20 Dutch hospitals between 1975 and 2008. We calculated standardized incidence ratios, absolute excess risks, and cumulative incidences. Doxorubicin exposure was analyzed using multivariable Cox regression analyses.

After a median follow-up of 21.6 years (IQR, 15.8-27.1 years), 252 women had developed invasive BC or ductal carcinoma in situ. The 30-year cumulative incidence was 20.8% (95% CI, 18.2 to 23.4). Survivors treated with a cumulative doxorubicin dose of >200 mg/m2 had a 1.5-fold increased BC risk (95% CI, 1.08 to 2.1), compared with survivors not treated with doxorubicin. BC risk increased 1.18-fold (95% CI, 1.05 to 1.32) per additional 100 mg/m2 doxorubicin (Ptrend = .004). The risk increase associated with doxorubicin (yes v no) was not modified by age at first treatment (hazard ratio [HR]age <21 years, 1.5 [95% CI, 0.9 to 2.6]; HRage ≥21 years, 1.3 [95% CI, 0.9 to 1.9) or chest RT (HRwithout mantle/axillary field RT, 1.9 [95% CI, 1.06 to 3.3]; HRwith mantle/axillary field RT, 1.2 [95% CI, 0.8 to 1.8]).

This study shows that treatment with doxorubicin is associated with increased BC risk in both adolescent and adult HL survivors. Our results have implications for BC surveillance guidelines for HL survivors and treatment strategies for patients with newly diagnosed HL.

Healthy behaviors are paramount in preventing long-term adverse health outcomes in childhood, adolescent, and young adult (CAYA) cancer survivors. We systematically reviewed and synthesized existing literature on barriers, facilitators, and other factors associated with health behaviors in this population.

MEDLINE and PsycInfo were searched for qualitative and quantitative studies including survivors aged 16-50 years at study, a cancer diagnosis ≤25 years and ≥2 years post diagnosis. Health behaviors included physical activity, smoking, diet, alcohol consumption, sun exposure, and a combination of these behaviors (defined as health behaviors in general).

Barriers, facilitators, and other factors reported in ≥2 two studies were considered relevant. Out of 4529 studies, 27 were included (n = 31,905 participants). Physical activity was the most frequently examined behavior (n = 12 studies), followed by smoking (n = 7), diet (n = 7), alcohol (n = 4), sun exposure (n = 4), and health behavior in general (n = 4). Relevant barriers to physical activity were fatigue, lack of motivation, time constraints, and current smoking. Relevant facilitators were perceived health benefits and motivation. Influence of the social environment and poor mental health were associated with more smoking, while increased energy was associated with less smoking. No relevant barriers and facilitators were identified for diet, alcohol consumption, and sun exposure. Barriers to healthy behavior in general were unmet information needs and time constraints whereas lifestyle advice, information, and discussions with a healthcare professional facilitated healthy behavior in general. Concerning other factors, women were more likely to be physically inactive, but less likely to drink alcohol and more likely to comply with sun protection recommendations than men. Higher education was associated with more physical activity, and lower education with more smoking.

This knowledge can be used as a starting point to develop health behavior interventions, inform lifestyle coaches, and increase awareness among healthcare providers regarding which survivors are most at risk of unhealthy behaviors.

In this Pediatric Normal Tissue Effects in the Clinic (PENTEC) vision paper, challenges and opportunities in the assessment of subsequent neoplasms (SNs) from radiation therapy (RT) are presented and discussed in the context of technology advancement.

The paper discusses the current knowledge of SN risks associated with historic, contemporary, and future RT technologies. Opportunities for research and SN mitigation strategies in pediatric patients with cancer are reviewed.

Present experience with radiation carcinogenesis is from populations exposed during widely different scenarios. Knowledge gaps exist within clinical cohorts and follow-up; dose-response and volume effects; dose-rate and fractionation effects; radiation quality and proton/particle therapy; age considerations; susceptibility of specific tissues; and risks related to genetic predisposition. The biological mechanisms associated with local and patient-level risks are largely unknown.

Future cancer care is expected to involve several available RT technologies, necessitating evidence and strategies to assess the performance of competing treatments. It is essential to maximize the utilization of existing follow-up while planning for prospective data collection, including standardized registration of individual treatment information with linkage across patient databases.

The occurrence of multiple primary cancers (MPC) is thought to reflect increased cancer susceptibility in patients due to a combination of genetic and environmental factors. Here we conducted a retrospective review of 2,894 consecutive patients evaluated at a single institution and identified 31 (1.14%) individuals with a history of three or more primary cancers, then analyzed the genetic and environmental influences associated with their propensity for developing malignancies. We found that 35.5% of patients had a hereditary cancer syndrome (HCS), with high penetrance HCS in 72.7% of cases, suggesting that monogenic causes underly a significant proportion of triple primary cancer risk. Analysis of cancer frequencies found that the diagnosis of breast cancer was associated with a significantly lower likelihood of HCS, while the diagnosis of colorectal, prostate, and pancreas cancer was associated with a significantly higher likelihood of HCS. Comparison of HCS-positive and HCS-negative patients revealed similar demographic characteristics, mean age at first diagnosis, and family history of cancer. Moreover, no significant differences in lifestyle behaviors, occupational exposures, chronic health conditions, or treatment with chemotherapy and radiation were observed between HCS-positive and -negative groups, though outliers in tobacco smoking, as well as systemic treatment after both first and second primary cancers were observed. These findings indicate a robust contribution of HCS to cancer susceptibility among patients with triple primary cancers while environmental influences were less evident. This emphasizes the need for larger MPC cohorts incorporating additional genetic and environmental factors to more comprehensively characterize drivers of cancer risk.

In patients with three or more primary cancers, genetic predisposition explained a significant proportion of cases; however, treatment history, lifestyle habits, and other exposures appeared to play a less significant role. This highlights the value of early genetic screening and the need to develop more sensitive markers of cancer susceptibility. See related Spotlight, p. 193.

From the advancement of treatment of pediatric cancer diagnosis, the five-year survival rate has increased significantly. However, the adverse consequence of improved survival rate is the second malignant neoplasm. Although previous studies provided information on the incidence and risk of SMN in long term survivors of childhood cancer, there is still scarce information known for short term (< 5 years) prognosis. This study aims to assess the incidence, characteristics, management, and outcome of children who develop SMN malignancies within 5 years of diagnosis of their initial cancer.

This is a retrospective cohort study of early Second Malignant Neoplasms (SMN) in pediatric oncology patients. The Cancer in Young People - Canada (CYP-C) national pediatric cancer registry was used and reviewed pediatric patients diagnosed with their first cancer from 2000-2015.

A total of 20,272 pediatric patients with a diagnosis of a first malignancy were analyzed. Of them, 0.7% were diagnosed with a SMN within the first 5 years following their first cancer diagnosis. Development of a SMN impacted survival, shown by an inferior survival rate in the SMN cohort (79.1%) after three years compared to that of the non-SMN cohort (89.7%). Several possible risk factors have been identified in the study including the use of epipodophyllotoxins, exposure to radiation, and hematopoietic stem cell 169 transplant.

This is the first national study assessing the incidence, 170 characteristics, risk factors and outcome of early SMN in Canadian children 171 from age 0-15 from 2000-2015.

The aim of this study was to investigate patient survival and factors associated with survival in second primary non-Hodgkin lymphoma (NHL) compared with the first primary NHL.

The retrospective cohort study used data from the Surveillance, Epidemiology, and End Results (SEER) database between 2000 and 2014. Demographic characteristics, histological types, Ann Arbor stage, and treatment information were collected. Cox proportional hazard models were used to estimate hazard ratios (HRs) and 95% confidence intervals (CIs) for factors associated with overall survival (OS) and cancer-specific survival (CSS) in the first and second primary NHLs.

Of 318,168 cases followed for 5 years, 299,248 patients developed the first primary NHL and 18,920 patients developed the second primary NHL. This study identified a rising incidence of first and second primary NHL from 2000 to 2014. For the second primary NHL, the OS risk was higher when compared to the first primary NHL (HR: 1.13, 95% CI: 1.11 to 1.15, P <0.001). Risk factors that negatively affected OS in the first primary NHL included being male, over 40 years of age, certain marital statuses, specific histological types, and advanced disease stages. In contrast, being of White race and having histological types such as Follicular Lymphoma (FL), Marginal Zone Lymphoma (MZL), and mantle B-cell NHL were associated with better OS outcomes. Treatments like surgery, radiation therapy, and chemotherapy were associated with a lower risk of OS and CSS in the first primary NHL. For the second primary NHL, the detrimental risk factors were similar but also included being over the age of 60. Certain histological types showed a lower OS risk relative to diffuse Large B-cell Lymphoma (DLBCL). While surgery and chemotherapy were beneficial for OS, radiation therapy did not improve survival in second primary NHL cases. Notably, undergoing chemotherapy for the first primary cancer increased the OS risk in the second primary NHL, whereas surgery and radiation seemed to offer a protective effect against OS risk in the second primary NHL (all P <0.05).

Our findings emphasize the need for tailored strategies in managing the second primary NHL, given the distinct survival patterns and risk factor profiles compared to the first primary NHL. Future research should aim to further elucidate these differences to improve prognosis and treatment approaches for second primary NHL patients.

Treatment intensification has improved survival in patients with hepatoblastoma (HB); however, these treatments are associated with an increased risk of late effects, including second malignant neoplasms (SMNs). Data is limited regarding SMNs following HB treatment. Cases of SMNs following treatment for HB reported in the literature and from personal communication were analyzed to further assess this late effect. Thirty-eight patients were identified. The median age at diagnosis of HB was 16 months (range: 3 to 168 mo). All patients had received a platinum agent, and almost all had anthracycline exposure. The SMNs reported were hematopoietic malignancies (n=19), solid tumors (n=12), and post-transplant lymphoproliferative disorder (n=7). Of the 36 patients with outcome data, 19 survived. SMNs following HB treatment were primarily seen in patients with chemotherapy exposure, a history of liver transplantation, hereditary tumor predisposition syndromes, and/or a history of radiation treatment. Hematopoietic malignancies were the most common SMN reported in this cohort and were diagnosed earlier than other SMNs. Prospective collection of data through a companion late effects study or international registry could be used to further evaluate the rates and risks of SMNs as well as tumor predisposition syndromes in patients treated for HB.

For the past 30 years, the University of Minnesota's Cancer Survivorship Program has been dedicated to providing exceptional care to patients who have lived the cancer experience. Our model is consultative, risk-stratified, and oncologist-led but executed predominately by advanced practice providers. Care is personalized and serves three survivor populations: children, adults, and patients who received BMT with over 500 new patients evaluated annually. As guidelines and survivorship standards have changed, our clinical programs have evolved from a focus on survivorship care plans to supportive care. The program offers a wide range of supportive services from acupuncture to nutritional services as well as several educational programs for patients. The program has a strong research legacy, notably as the birthplace of research that led to the Children's Oncology Group Guidelines as well as advancements in cardio-oncology and frailty after bone marrow transplantation. In 2021, we hosted the first annual Survivorship Research Forum, providing the opportunity and space for experts across disciplines to exchange ideas on a broad range of survivorship topics not possible at other national cancer-related conferences. With successes and challenges, we have identified opportunities for growth as our program continues to evolve and grow in our goal to improve cancer outcomes along a wide spectrum of physical, emotional, functional, and social dimensions. IMPLICATIONS FOR CANCER SURVIVORS: The University of Minnesota Cancer Survivorship Program provides care, education, and research opportunities for patients across the cancer continuum.

Subsequent primary neoplasms (SPN) are among the most severe late effects and the second most frequent cause of death in childhood cancer patients. In this paper we introduce method and properties of the STATT-SCAR study (Second Tumor After Tumor Therapy, Second Cancer After Radiotherapy), which is a joint nested matched case-control study to evaluate the impact of chemotherapy (STATT) as well as radiotherapy (SCAR) on the risk of developing a SPN.

Based on the cohort of the German childhood cancer registry (GCCR), we selected patients diagnosed with a first neoplasm before age 15 or younger between 1980 and 2014. We selected those with a SPN at least half a year after the first neoplasm, and matched up to four controls to each case. Therapy data were acquired from various sources, including clinical study centers and treating hospitals. To analyze the impact of radiotherapy, organ doses were estimated by using reconstructed treatment plans. The effect of chemotherapy was analyzed using substance groups summarized after isotoxic dose conversion.

1244 cases with a SPN were identified and matched with 4976 controls. Treatment data were acquired for 83% of all match groups (one case and at least one control). Based on preliminary analyses, 98% of all patients received chemotherapy and 54% of all patients were treated with radiotherapy.

Based on our data, detailed analyses of dose response relationships and treatment element combinations are possible, leading to a deeper insight into SPN risks after cancer treatments.

The study is registered at the German clinical trial register (DRKS) under number DRKS00017847 [45].

Carriers of cancer predisposing variants are at an increased risk of developing subsequent malignant neoplasms among those who have survived childhood cancer. We aimed to investigate whether cancer predisposing variants contribute to the risk of subsequent malignant neoplasm-related late mortality (5 years or more after diagnosis).

In this analysis, data were included from two retrospective cohort studies, St Jude Lifetime Cohort (SJLIFE) and the Childhood Cancer Survivor Study (CCSS), with prospective follow-up of patients who were alive for at least 5 years after diagnosis with childhood cancer (ie, long-term childhood cancer survivors) with corresponding germline whole genome or whole exome sequencing data. Cancer predisposing variants affecting 60 genes associated with well-established autosomal-dominant cancer-predisposition syndromes were characterised. Subsequent malignant neoplasms were graded using the National Cancer Institute Common Terminology Criteria for Adverse Events (CTCAE) version 4.03 with modifications. Cause-specific late mortality was based on linkage with the US National Death Index and systematic cohort follow up. Fine-Gray subdistribution hazard models were used to estimate subsequent malignant neoplasm-related late mortality starting from the first biospecimen collection, treating non-subsequent malignant neoplasm-related deaths as a competing risk, adjusting for genetic ancestry, sex, age at diagnosis, and cancer treatment exposures. SJLIFE (NCT00760656) and CCSS (NCT01120353) are registered with ClinicalTrials.gov.

12 469 (6172 male and 6297 female) participants were included, 4402 from the SJLIFE cohort (median follow-up time since collection of the first biospecimen 7·4 years [IQR 3·1-9·4]) and 8067 from the CCSS cohort (median follow-up time since collection of the first biospecimen 12·6 years [2·2-16·6]). 641 (5·1%) of 12 469 participants carried cancer predisposing variants (294 [6·7%] in the SJLIFE cohort and 347 [4·3%] in the CCSS cohort), which were significantly associated with an increased severity of subsequent malignant neoplasms (CTCAE grade ≥4 vs grade <4: odds ratio 2·15, 95% CI 1·18-4·19, p=0·0085). 263 (2·1%) subsequent malignant neoplasm-related deaths (44 [1·0%] in the SJLIFE cohort; and 219 [2·7%] in the CCSS cohort) and 426 (3·4%) other-cause deaths (103 [2·3%] in SJLIFE; and 323 [4·0%] in CCSS) occurred. Cumulative subsequent malignant neoplasm-related mortality at 10 years after the first biospecimen collection in carriers of cancer predisposing variants was 3·7% (95% CI 1·2-8·5) in SJLIFE and 6·9% (4·1-10·7) in CCSS versus 1·5% (1·0-2·1) in SJLIFE and 2·1% (1·7-2·5) in CCSS in non-carriers. Carrying a cancer predisposing variant was associated with an increased risk of subsequent malignant neoplasm-related mortality (SJLIFE: subdistribution hazard ratio 3·40 [95% CI 1·37-8·43]; p=0·0082; CCSS: 3·58 [2·27-5·63]; p<0·0001).

Identifying participants at increased risk of subsequent malignant neoplasms via genetic counselling and clinical genetic testing for cancer predisposing variants and implementing early personalised cancer surveillance and prevention strategies might reduce the substantial subsequent malignant neoplasm-related mortality burden.

American Lebanese Syrian Associated Charities and US National Institutes of Health.

The contributions of cooperative groups to performing large-cohort clinical trials and long-term survivorship studies have facilitated advances in treatment, supportive care and, ultimately, survival for patients with paediatric cancers. As a result, the number of childhood cancer survivors in the USA alone is expected to reach almost 580,000 by 2040. Despite these substantial improvements, childhood cancer survivors continue to have an elevated burden of chronic disease and an excess risk of early death compared with the general population and therefore constitute a large, medically vulnerable population for which delivery of high-quality, personalized care is much needed. Data from large survivorship cohorts have enabled the identification of compelling associations between paediatric cancers, cancer therapy and long-term health conditions. Effectively translating these findings into clinical care that improves the quality and quantity of life for survivors remains an important focus of ongoing research. Continued development of well-designed clinical studies incorporating dissemination and implementation strategies with input from patient advocates and other key stakeholders is crucial to overcoming these gaps. This Review highlights the global progress made and future efforts that will be needed to further increase the quality and quantity of life-years gained for childhood cancer survivors.

An estimated 15 000 children and adolescents aged 0 to 19 years are diagnosed with cancer each year in the US, and more than 85% survive for at least 5 years. By 45 years of age, approximately 95% of people who survive childhood cancer will develop a significant health problem related to the childhood cancer diagnosis or its treatment.

Approximately 500 000 people currently alive in the US have survived childhood cancer. The most common severe or life-threatening chronic health problems related to childhood cancer or its treatment are endocrine disorders such as hypothyroidism or growth hormone deficiency (44%), subsequent neoplasms such as breast cancer or thyroid cancer (7%), and cardiovascular disease such as cardiomyopathy or congestive heart failure, coronary artery disease, and cerebrovascular disease (5.3%). Medical conditions related to a cancer diagnosis during childhood or adolescence are most commonly caused by the radiation therapy and the chemotherapies used to treat cancer and may develop at varying lengths of time after exposure to these treatments. Individuals at highest risk for developing treatment-related health problems include patients with brain cancer treated with cranial irradiation (approximately 70% develop severe or life-threatening health problems) and allogeneic hematopoietic stem cell transplant recipients (approximately 60% develop severe or life-threatening health problems). Individuals at the lowest risk for developing treatment-related health problems include those who survived solid tumors (such as Wilms tumor) treated with surgical resection alone or with minimal chemotherapy, for whom the prevalence of subsequent health problems is similar to people who did not have cancer during childhood or adolescence. People diagnosed with childhood cancer in the 1990s who survived for at least 5 years after the cancer diagnosis have a shorter lifespan (by about 9 years) vs children who were not diagnosed with cancer in the 1990s.

Approximately 500 000 individuals currently alive in the US have survived childhood cancer. The most common adverse effects in individuals who survived childhood cancer are endocrine disorders, subsequent neoplasms, and cardiovascular disease. There is a need for clinicians and patients to have heightened awareness of these complications.

Chemotherapeutic exposures are associated with subsequent malignant neoplasm (SMN) risk. The role of genetic susceptibility in chemotherapy-related SMNs should be defined as use of radiation therapy (RT) decreases.

SMNs among long-term childhood cancer survivors of European (EUR; N = 9,895) and African (AFR; N = 718) genetic ancestry from the Childhood Cancer Survivor Study and St Jude Lifetime Cohort Study were evaluated. An externally validated 179-variant polygenic risk score (PRS) associated with pleiotropic adult cancer risk from the UK Biobank Study (N > 400,000) was computed for each survivor. SMN cumulative incidence comparing top and bottom PRS quintiles was estimated, along with hazard ratios (HRs) from proportional hazards models.

A total of 1,594 survivors developed SMNs, with basal cell carcinomas (n = 822), breast cancers (n = 235), and thyroid cancers (n = 221) being the most frequent. Although SMN risk associations with the PRS were extremely modest in RT-exposed EUR survivors (HR, 1.22; P = .048; n = 4,630), the increase in 30-year SMN cumulative incidence and HRs comparing top and bottom PRS quintiles was statistically significant among nonirradiated EUR survivors (n = 4,322) treated with alkylating agents (17% v 6%; HR, 2.46; P < .01), anthracyclines (20% v 8%; HR, 2.86; P < .001), epipodophyllotoxins (23% v 1%; HR, 12.20; P < .001), or platinums (46% v 7%; HR, 8.58; P < .01). This PRS also significantly modified epipodophyllotoxin-related SMN risk among nonirradiated AFR survivors (n = 414; P < .01). Improvements in prediction attributable to the PRS were greatest for epipodophyllotoxin-exposed (AUC, 0.71 v 0.63) and platinum-exposed (AUC,0.68 v 0.58) survivors.

A pleiotropic cancer PRS has strong potential for improving SMN clinical risk stratification among nonirradiated survivors treated with specific chemotherapies. A polygenic risk screening approach may be a valuable complement to an early screening strategy on the basis of treatments and rare cancer-susceptibility mutations.

Evidence on the impact of chemotherapy on radiotherapy-induced second malignant neoplasms is controversial. We estimated how cisplatin modulates the in vitro response of two normal cell types to fractionated radiation. AHH-1 lymphoblasts and VH10 fibroblasts were irradiated at 1 Gy/fraction 5 and 3 times per week during 12 and 19 days, respectively, and simultaneously treated with 0.1, 0.2, 0.4, 0.8, 1.7 and 3.3 µM of cisplatin twice a week. Cell growth during treatment was monitored. Cell growth/cell death and endpoints related to accumulation of DNA damage and, thus, carcinogenesis, were studied up to 21 days post treatment in cells exposed to radiation and the lowest cisplatin doses. Radiation alone significantly reduced cell growth. The impact of cisplatin alone below 3.3 µM was minimal. Except the lowest dose of cisplatin in VH10 cells, cisplatin reduced the inhibitory effect of radiation on cell growth. Delayed cell death was highest in the combination groups while the accumulation of DNA damage did not reveal a clear pattern. In conclusion, fractionated, concomitant exposure to radiation and cisplatin reduces the inhibitory effect of radiation on cell proliferation of normal cells and does not potentiate delayed effects resulting from accumulation of DNA damage.

Anthracycline-based chemotherapy is associated with increased subsequent breast cancer (SBC) risk in female childhood cancer survivors, but the current evidence is insufficient to support early breast cancer screening recommendations for survivors treated with anthracyclines. In this study, we pooled individual patient data of 17,903 survivors from six well-established studies, of whom 782 (4.4%) developed a SBC, and analyzed dose-dependent effects of individual anthracycline agents on developing SBC and interactions with chest radiotherapy. A dose-dependent increased SBC risk was seen for doxorubicin (hazard ratio (HR) per 100 mg m-2: 1.24, 95% confidence interval (CI): 1.18-1.31), with more than twofold increased risk for survivors treated with ≥200 mg m-2 cumulative doxorubicin dose versus no doxorubicin (HR: 2.50 for 200-299 mg m-2, HR: 2.33 for 300-399 mg m-2 and HR: 2.78 for ≥400 mg m-2). For daunorubicin, the associations were not statistically significant. Epirubicin was associated with increased SBC risk (yes/no, HR: 3.25, 95% CI: 1.59-6.63). For patients treated with or without chest irradiation, HRs per 100 mg m-2 of doxorubicin were 1.11 (95% CI: 1.02-1.21) and 1.26 (95% CI: 1.17-1.36), respectively. Our findings support that early initiation of SBC surveillance may be reasonable for survivors who received ≥200 mg m-2 cumulative doxorubicin dose and should be considered in SBC surveillance guidelines for survivors and future treatment protocols.

Female survivors of Hodgkin lymphoma (HL) treated with chest radiotherapy have a strongly increased risk of breast cancer (BC), but the treatment-specific BC risk in male survivors of HL has not been evaluated. We assessed BC risk in a cohort of 3077 male survivors of 5-year HL treated at age ≤51 years in 20 Dutch hospitals between 1965 and 2013. We estimated standardized incidence ratios (SIRs), absolute excess risks per 10 000 person-years, and cumulative BC incidences. After a 20-year median follow-up, we observed 8 cases of male with BC. Male survivors of HL experienced a 23-fold (95% confidence interval [CI], 10.1-46.0) increased BC risk compared with the general population, representing 1.6 (95% CI, 0.7-3.3) excess BC incidences per 10 000 person-years. The 20- and 40-year cumulative BC incidences after HL treatment were 0.1% (95% CI, 0.02-0.3) and 0.7% (95% CI, 0.3-1.4), respectively. Treatment with chest radiotherapy without alkylating chemotherapy yielded a strongly increased SIR (20.7; 95% CI, 2.5-74.8), which was not significantly different for chest radiotherapy and alkylating chemotherapy (41.1; 95% CI, 13.4-96.0). Males treated with chest radiotherapy and anthracyclines had an SIR of 48.1 (95% CI, 13.1-123.1). Two patients died from BC (median follow-up, 4.7 years). To ensure early diagnosis and treatment, clinicians should be alert to BC symptoms in male survivors of HL.

Nelarabine is a guanine nucleoside analog and functions to terminate DNA synthesis in dividing cells. Pre-clinical and clinical studies have shown that it preferentially accumulates in T-cells where it exerts its cytotoxic effects. After generations of treatment protocol advances, it has been incorporated into numerous treatment regimens against T-lineage acute lymphoblastic leukemia/lymphoma (T-ALL/LLy). On 8 March 2023, the FDA approved the use of nelarabine for its use in T-ALL due to clear evidence of clinical benefits. This announcement concludes a nearly 6-decade period of evaluation for nelarabine and its role in the management of high-grade, aggressive T-cell malignancies.

We review the medicinal biology of nelarabine, its evaluation through decades of clinical studies, its dose-limited adverse effects, and its areas of highest impact in the treatment of T-ALL/LLy.

We provide a context of when nelarabine might be considered in treatments against T-ALL/LLy, and also alternative strategies when it has or has not been used in therapies prior to relapse. We anticipate that an increasing number of treatment regimens will include nelarabine as a part of front-line therapy.