ABSTRACT
Progress in medicine has increased the survival time of children suffering from cancer; >80% of patients survive for at least 5 years from the end of treatment. However, there are late effects of anticancer therapy, which accompany this success. Two-thirds of childhood cancer survivors (CCSs) have at least one late effect (any side effects or complications of anticancer treatment that appear months to years after the completion of treatment), e.g. endocrinopathies, cardiovascular diseases or subsequent cancers, and half of these late effects are serious or life threatening. These late consequences of childhood cancer treatment pose a serious health, social and economic problem. A common mechanism for developing a number of late effects is the onset of premature biological aging, which is associated with the early onset of chronic diseases and death. Cellular senescence in cancer survivors is caused by therapy that can induce chromosomal aberrations, mutations, telomere shortening, epigenetic alterations and mitochondrial dysfunctions. The mechanisms of accelerated aging in cancer survivors have not yet been fully clarified. The measurement of biological age in survivors can help improve the understanding of aging mechanisms and identify risk factors for premature aging. However, to the best of our knowledge, no single marker for the evaluation of biological or functional age is known, so it is therefore necessary to measure the consequences of anticancer treatment using complex assessments. The present review presents an overview of premature aging in CCSs and of the mechanisms involved in its development, focusing on the association of senescence and late effects.
ABSTRACT
BACKGROUND: Cancer treatment can cause various long-term side effects, including those that impact ultrasound findings. During follow-up of childhood cancer survivors (CCSs), we often detected sporadic renal angiomyolipomas without histological confirmation (SAMLs), which is why we initiated this study. We compared the occurrence of SAML in CCSs to the previously reported data from a non-cancer population and correlated SAML with cancer treatment-related factors. METHODS: The cohort included 1098 CCSs (median age at cancer diagnosis (dg) 4.3 years) who had ultrasound follow-up (2014-2019). Of the CCSs, 525 (48%) were female, 132 (12%) had subsequent neoplasms (SNs), and 110 (10%) had genetic syndromes. CCSs were treated for lymphomas 269 (24%) and solid tumors 829 (76%). None of the CCSs had tuberous sclerosis complex (TSC). RESULTS: SAML developed in 48 (4.4%) CCSs; of these, 20 (42%) had SNs. The coincidence of SAMLs and SNs was found in CCSs with a follow-up period exceeding 20 years. The median age at SAML dg was 27.9 years (interquartile range (IQR) 22.3-34.1), and the median time to SAML dg was 22.6 years (IQR 17.4-27.6). Twenty-one (44%) CCSs developed multiple or bilateral SAMLs lesions; of these, six (12%) were in the radiotherapy field. SAML occurrence correlated with radiotherapy of the retroperitoneum (1.65-fold higher with 95% CI 0.90-3.02). The correlations with other cancer treatment factors and with female sex were less clear. CONCLUSION: This study revealed the occurrence of SAMLs in CCSs to be 10 times higher than that in non-cancer studies. The current characteristics of CCSs with SAMLs: younger age, and more bilateral or multiple lesions are more similar to TSC associated angiomyolipoma. Moreover, we observed a coincidence of SAMLs with SNs. Our results support the hypothesis that SAML development in CCSs is not simply a late effect of therapy, and indicates other factors are involved in SAML development.
ABSTRACT
OBJECTIVES: The aim of the study was to characterize subsequent neoplasm (SN) (malignant (SMN), benign (BSNs), and non-melanoma skin cancer (NMSC)) treated previously for a childhood solid malignant tumor at the Department of Pediatric Hematology and Oncology, Motol University Hospital, Prague. METHOD: We evaluated a cohort of 4059 childhood cancer survivors treated between 1975 and 2018. RESULTS: From 4059 survivors, 170 (4.3 %) developed at least one SMN - 193 SMNs in 170 survivors, 21 of them (0.5 % of all survivors) had two or more SMNs and 34 of them (0.8 %) had one SMN and one or more BSNs. Mortality for an SMN was 38.2 % i.e. 1.6 % of all survivors. The most frequent SMNs were thyroid carcinoma (37, 19.2 %), tumors of the central nervous system (25, 13.0 %), soft tissue sarcoma (23, 11.9 %), breast carcinoma (19, 9.8 %), and leukemia (11, 5.7 %). Genetic syndromes were present in 25 patients with SMNs (14.7 %) and in 16 patients with only BSNs (13.4 %). SMNs usually developed in second decade or later after finishing of therapy. We observed some not well known risk factors of SNs e.g. spinal irradiation or131-I metaiodobenzylguanidine radiotherapy in 2 cases of secondary thyroid cancer, cyclophosphamide therapy in all 8 cases of secondary urinary bladder sarcoma or 4 from 7 SNMSC developed SMN. CONCLUSIONS: We confirmed data from previous studies of SNs and observed some not so well known risk factors. Our results and the literature show that the incidence of SMNs is 3-10 % of survivors and is associated with high mortality.
Subject(s)
Cancer Survivors/statistics & numerical data , Neoplasms, Second Primary/epidemiology , Neoplasms/complications , Adolescent , Adult , Child , Cohort Studies , Czech Republic/epidemiology , Female , Humans , Incidence , Male , Neoplasms/pathology , Neoplasms/therapy , Neoplasms, Second Primary/etiology , Neoplasms, Second Primary/pathology , Prognosis , Risk Factors , Survival RateABSTRACT
The treatment of children with posterior fossa brain tumours (PFBT) impacts their long term functional and imaging outcomes. This study aimed to evaluate academic achievement correlated with long-term sequelae after different PFBT treatment modalities. The study cohort consisted of 110 survivors (median age at diagnosis 10.1 years and median time of follow up 13.2 years) who completed hearing questionnaires, neurological assessment and MRI of the brain ≥5 years after the end of treatment. There were three treatment groups. A cisplatin group which underwent cisplatin chemotherapy, radiotherapy and surgery (medulloblastoma N = 40), a radiotherapy group which underwent radiotherapy and surgery (astrocytoma/ependymoma N = 30), and a surgery group (astrocytoma N = 40). Academic achievement was correlated to the age at diagnosis, ototoxicity, Karnofsky score (KS), and MRI findings (Fazekas Score (FS)- treatment related parenchymal changes). For a modelled age at diagnosis of five years, the cisplatin group had lower academic achievements compared to the radiotherapy (p = 0.028) and surgery (p = 0.014) groups. Academic achievements evaluated at a modelled age of 10 years at diagnosis did not significantly differ among the treatment groups. The cisplatin group exhibited a higher occurrence of ototoxicity than the radiotherapy (p<0.019) and surgery groups (p<0.001); however, there was no correlation between ototoxicity and academic achievements (p = 0.722) in older age at diagnosis. The radiotherapy group exhibited lower KS than the surgery group (p<0.001). KS significantly influenced academic achievements in all groups (p<0.000). The cisplatin group exhibited higher FS than the surgery group (p<0.001) while FS did not correlate with academic achievement (p = 0.399). Older age is a protective factor for academic achievements irrespective of a treatment modality.