Prevalence and Risk Factors of Hypothalamic-Pituitary Dysfunction in Infant and Toddler Childhood Brain Tumor Survivors

Objective Childhood brain tumor survivors (CBTS) are at risk to develop hypothalamic-pituitary (HP) dysfunction (HPD). The risk for HPD may vary between different age groups due to maturation of the brain and differences in oncologic treatment protocols. Specific studies on HPD in infant brain tumor survivors (infant-BTS, 0-1 years at diagnosis) or toddler brain tumor survivors (toddler-BTS, ≥1-3 years) have not been performed. Patients and Methods A retrospective nationwide cohort study in CBTS was performed. Prevalence and risk factors for HPD were compared between infant-, toddler- and older-BTS. Subgroup analysis was performed for all non-irradiated CBTS (n=460). Results In total 718 CBTS were included, with a median follow-up time of 7.9 years. Overall, despite less frequent use of radiotherapy (RT) in infants, no differences in prevalence of HPD were found between the three groups. RT (OR 16.44; 95%CI 8.93 to 30.27), suprasellar tumor location (OR 44.76; 95%CI 19.00 to 105.49) and younger age (OR 1.11; 95%CI 1.05 to 1.18) were associated with HP dysfunction. Infant-BTS and toddler-BTS showed more weight gain (p<0.0001) and smaller height SDS (p=0.001) during follow-up. In non-irradiated CBTS, infant-BTS and toddler-BTS were significantly more frequently diagnosed with TSH-, ACTH- and ADH deficiency, compared to older-BTS. Conclusion Infant and toddler brain tumor survivors seem to be more vulnerable to develop HP dysfunction than older children. These results emphasize the importance of special infant- and toddler brain tumor treatment protocols and the need for endocrine surveillance in children treated for a brain tumor at young age.

Prevalence and Risk Factors of Hypothalamic-Pituitary Dysfunction in Infant and Toddler Brain Tumor Survivors

Background: Childhood brain tumor survivors (CBTS) are at risk for hypothalamic-pituitary (HP) dysfunction, mainly caused by radiation exposure or tumor involvement of the HP-region. The risk for HP dysfunction (HPD) may vary between different age groups due to maturation of the brain and differences in oncologic treatment protocols. The aim of this study was to determine the prevalence and risk factors of HPD in infant (IBTS) and toddler brain tumor survivors (TBTS) compared to older childhood brain tumor survivors (OCBTS). Patients and Methods: A retrospective analysis in a nationwide cohort of CBTS was performed. Prevalence and risk factors for HPD were compared between IBTS (aged 0-1 years at diagnosis), TBTS (aged 1-3 years at diagnosis) and OCBTS (aged &gt;3-18 years at diagnosis). Results: In 718 included CBTS, with a median follow-up time of 7.9 years, overall no differences in percentage of HPD were found between the three age groups. Treatment with radiotherapy (RT) (OR 15.41; 95%CI 8.33 to 28.48), suprasellar tumor location (OR 46.62; 95%CI 19.64 to 110.66) and younger age (OR 1.09; 95%CI 1.02 to 1.15) were associated with HP dysfunction. Because IBTS were significantly less often treated with RT, subanalyses were performed for all CBTS not treated with radiation (n=459). In non-irradiated CBTS, IBTS and TBTS were significantly more frequently diagnosed with TSH-, ACTH- and ADH deficiency, compared to ECBTS. IBTS and TBTS showed significantly more weight gain (p&lt;0.0001) and smaller height SDS (p=0.001) during follow-up. Conclusion: Infant and toddler brain tumor survivors seem to be more vulnerable to develop HP dysfunction than when compared to older children. These results emphasize the importance of special infant and toddlers brain tumor treatment protocols and endocrine surveillance in children treated for a brain tumor at young age.

High Prevalence of Weight Gain in Childhood Brain Tumor Survivors and Its Association With Hypothalamic-Pituitary Dysfunction

PURPOSE Childhood brain tumor survivors (CBTS) are at risk for developing obesity, which negatively influences cardiometabolic health. The prevalence of obesity in CBTS may have been overestimated in previous cohorts because of inclusion of children with craniopharyngioma. On the contrary, the degree of weight gain may have been underestimated because of exclusion of CBTS who experienced weight gain, but were neither overweight nor obese. Weight gain may be an indicator of underlying hypothalamic-pituitary (HP) dysfunction. We aimed to study prevalence of and risk factors for significant weight gain, overweight, or obesity, and its association with HP dysfunction in a national cohort of noncraniopharyngioma and nonpituitary CBTS. METHODS Prevalence of and risk factors for significant weight gain (body mass index [BMI] change ≥ +2.0 standard deviation score [SDS]), overweight, or obesity at follow-up, and its association with HP dysfunction were studied in a nationwide cohort of CBTS, diagnosed in a 10-year period (2002-2012), excluding all craniopharyngioma and pituitary tumors. RESULTS Of 661 CBTS, with a median age at follow-up of 7.3 years, 33.1% had significant weight gain, overweight, or obesity. Of the CBTS between 4 and 20 years of age, 28.7% were overweight or obese, compared with 13.2% of the general population between 4 and 20 years of age. BMI SDS at diagnosis, diagnosis of low-grade glioma, diabetes insipidus, and central precocious puberty were associated with weight gain, overweight, or obesity. The prevalence of HP dysfunction was higher in overweight and obese CTBS compared with normal-weight CBTS. CONCLUSION Overweight, obesity, and significant weight gain are prevalent in CBTS. An increase in BMI during follow-up may be a reflection of HP dysfunction, necessitating more intense endocrine surveillance.

SWK-02. WEAVING COMFORT AND SUPPORT FOR CHILDREN WITH BRAIN TUMORS AND THEIR FAMILIES IN AN OUTPATIENT CLINIC

Parents of children diagnosed with brain tumors report high levels of stress at diagnosis and feelings of “being lost” on transition to outpatient follow-up care (Jackson AC, et al, 2007). Ssori is a Japanese form of free-style weaving that encourages people facing life-limiting challenges to discover inner strengths. We report our experience with Saori weaving with brain tumor patients and their families in a pediatric oncology outpatient clinic at a major university medical center. During 2019, we offered weaving sessions twice a week. We had a total of 151 encounters with hematology/oncology patients (age 5–18 years), siblings, or parents. Among these patients there were 20 with primary brain tumor diagnoses. Weaving was offered in the art therapy area of the clinic. After creating a fabric, the weavers had the opportunity to have their work sewn into functional objects, such as pillows, bags, purses, or healing pouches filled with beans that can be heated or cooled for comfort. Brain tumor patients readily engaged in weaving, despite various degrees of neurologic disability including hemiparesis or low vision. In the words of an 8 y/o weaver. “This is so cool. Daddy, can we always come when the weavers are here, so I can weave?” And from a mother: “This is great. She’s focused and busy!” Case studies, including a presentation of Legacy work, will be reported. In conclusion, Saori weaving can be an impactful intervention for childhood brain tumor patients and their families in an outpatient clinic setting.

QOL-12. CLINICAL SIGNIFICANCE OF RADIATION-INDUCED CEREBROVASULAR DISEASE IN CHILDHOOD BRAIN TUMOR SURVIVORS

BACKGROUND Childhood brain tumor survivors have a high risk of early cerebrovascular disease, but currently its clinical significance is unknown. METHODS In a nation-wide study, we investigated 68 childhood brain tumor survivors treated with radiotherapy by using magnetic resonance imaging (MRI) and neuropsychological examination after median follow-up time of 20.6 years (range 5.0 – 33.1 years) since radiotherapy. Associations between imaging markers of cerebrovascular disease, white matter hyperintensities and the results of neuropsychological examination were investigated. RESULTS Majority (65 %) of the survivors was diagnosed with cerebrovascular disease at median age of 27.1 years (range16.2 – 43.8 years). The presence of imaging markers of cerebrovascular disease or white matter hyperintensities was associated with poorer performance in verbal (VIQ) and performance (PIQ) intelligent quotient, working and semantic memory, executive functions, visuospatial ability, and immediate and general auditive memory (P &lt; 0.05). Survivors with microbleeds performed worse in PIQ, processing speed, executive functions, and visuospatial ability (P &lt;0.05). Lacunar infarcts were associated with difficulties in visuospatial ability (P &lt;0.05). Survivors with white matter hyperintensities in MRI had higher impairment of working and semantic memory, visuospatial ability, and general auditive memory (P &lt; 0.05). Cerebrovascular and small-vessel disease burden associated with poorer neurocognitive performance. CONCLUSION The imaging markers of cerebrovascular disease and white matter hyperintensities were related to poorer cognitive performance in radiation-treated long-term survivors of childhood brain tumor. Longitudinal studies are urgently needed to investigate how cerebrovascular disease and related cognitive impairment progress in the survivors.

Treatment and Long-Term Sequelae in Childhood Brain Tumors

In children treated for brain tumors, important deficits in cognitive development have been described. The reduction of Intelligence Quotient (IQ) is correlated with multiple conditions such as tumor location, obstructive hydrocephalus, surgical intervention, and above all, the use of radiotherapy, especially in young children. Demyelinization represents the most striking microscopic alteration following radiation: cerebral white matter’s loss and failure to white matter development could partly account for changes in IQ score. Recently, combined chemo-radiotherapeutic approaches and the improvement of radiotherapy techniques have enabled the reduction of neurocognitive symptoms and improved the standard of life of childhood brain tumor survivors.