Abstract
Yearly, around 600 Dutch children are diagnosed with cancer. Advancements in treatment strategies and supportive care have resulted in a current 5-year survival rate of approximately 83%. However, intensive treatment affects the musculoskeletal system with negative consequences for physical abilities in both the short and long term. This thesis focuses
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on early identification of musculoskeletal impairments and physical vulnerability in children with cancer, as well as the prevalence of frailty-related impairments and participation ability in survivors of childhood cancer.
Children with acute lymphoblastic leukemia (ALL) have an increased risk of sustaining fractures, which is linked to low lumbar spine bone mineral density (LSBMD). To identify patients at risk, we developed prediction models for LSBMD at diagnosis and at the end of treatment using a Dutch multicenter cohort of newly diagnosed ALL patients, and validated these externally in a Canadian multicenter cohort. The models demonstrated accurate predictions by using weight Z-scores and age.
Besides the risk of bone deterioration, children with cancer are at risk of muscle impairment, such as sarcopenia. Given the serious consequences of sarcopenia leading to increased infections and disability, it is important to identify at-risk patients early. We examined the diagnostic accuracy of the pediatric version of the SARC-F questionnaire, and demonstrated that it is an excellent tool for identifying patients with sarcopenia.
Assessing skeletal muscle mass in children remains challenging due to limited non-invasive methods. In this thesis, we demonstrated that muscle ultrasound is feasible as a non-invasive tool for muscle assessment in children with ALL. Moreover, correlations between muscle size with overall skeletal muscle mass, as well as a relationship between higher intramuscular fat infiltration and reduced muscle function revealed that it may be a valid approach for detecting early muscle deterioration.
Prior to this thesis, it was well-known that dexamethasone treatment could lead to muscle wasting, but it had never been studied in children with ALL. We observed a 13.5% increase in the occurrence of frailty following a 5-day dexamethasone course. Importantly, lower muscle function at the onset of a dexamethasone course, seemed predictive of developing frailty following the course.
Although frailty in pediatric cancer patients can be attributed to the disease itself and/or as acute side-effects of treatment, frailty has also been recognized as a long-term side effect. In Dutch long-term childhood cancer survivors we observed that frailty occurred. Notably, survivors of acute myeloid leukemia, particularly those who underwent radiation therapy, appeared to be at a higher risk of frailty.
All the previous mentioned side effects can have a significant impact on everyday life participation. Specifically, survivors of pediatric brain tumors who have been exposed to cranial radiation and brain surgery. This thesis revealed that over 50% of brain tumor survivors experienced limited participation compared to their age-expected level. Remarkably, these participation limitations did not appear to diminish over time and were associated with physical impairment and reported fatigue.
This thesis enhanced the understanding of the musculoskeletal impact of childhood cancer (treatment) and we have made the initial steps towards early identification.
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