Glucocorticoid therapy is an important component of the treatment regimen for childhood acute lymphoblastic leukaemia and lymphoblastic lymphoma by inducing apoptosis of lymphoblastic cells. However, the use of supraphysiological doses of glucocorticoids can lead to hypothalamic-pituitary-adrenal axis suppression. This suppression can result in a reduced cortisol response, leading to impaired stress response and inadequate host defence against infections, which can ultimately result in morbidity and mortality. To date, there is insufficient high-quality research to inform evidence-based guidelines for glucocorticoid replacement therapy in this populatioon.

Hence, in this prospective multicenter study, we aim to analyze the patterns of suppression of the hypothalamic-pituitary-adrenal axis suppression in children receiving glucocorticoid therapy for acute lymphoblastic leukaemia and lymphoblastic lymphoma.

Thyroid hormones are critical for normal brain development, growth, and puberty. Hypo-/hyperthyroidism manifests at birth or during childhood. Thus, prompt, adequate medical treatment is crucial to protect cognitive and physiological development in affected children. Current guidelines recommend standard dosing regimens, despite a wide spectrum of disease variability in terms of severity, activity and receptivity. Over- and under-dosing is frequent, making a decision support tool for optimal and fine-tuned personalised dosing essential for adequate medical care.

The aim of this project is to provide personalised treatment plans for children with a thyroid disease. The consortium will build upon their existing work on an intelligent decision support tool that optimises and computes personalised treatment dosing. The researchers will use computer models that consider individual disease characteristics obtained from observational studies in combination with optimal dosing algorithms to develop an intelligent clinical decision support tool “OptiThyDose” to personalise and optimize dosing regimens. OptiThyDose iteratively computes individual dose regimens based on the patient's age, weight and disease severity to restore and maintain thyroid hormone balance.