Premature ovarian insufficiency and chance of pregnancy after childhood cancer: A population-based study (the Fex-Can study).

Endocrine complications are a common late effect after childhood cancer. Our study assessed the prevalence and predictors of premature ovarian insufficiency (POI) and prospects of pregnancy in young female survivors. This nationwide study combined registry and survey data for female childhood cancer survivors aged 19 to 40 years, identified through the National Quality Registry for Childhood Cancer in Sweden. Of 1989 approached young women, 1333 (67%) participated by completing a survey. Median age at diagnosis 1981 to 2017 was 6 (range 0-17) and at study 28 (19-40) years. There were two indicators of POI, induced puberty reported in 5.3% and estrogen replacement therapy (ERT) in 9.3% at assessment. In separate logistic regression analyses (P < .001), induced puberty and ERT were significantly predicted by hematopoietic stem cell transplantation (HSCT), abdominal irradiation, central nervous system irradiation and chemotherapy. ERT was also associated with older age at diagnosis. Of the 626 women (48% of responders) who had tried to become pregnant, 25% had undergone fertility investigations and 72% reported having a biological child. Treatment with HSCT was associated with 5.4 times the odds of needing fertility investigations (P < .001). Having a biological child was associated with non-HSCT treatment, but also with ever having had a partner and older age at the time of study (all P < .001). In conclusion, the majority of those female childhood cancer survivors who had tried to conceive were able to successfully give birth. However, a small identifiable group of female survivors are at risk of subfertility and early menopause.

Postpubertal spermatogonial stem cell transplantation restores functional sperm production in rhesus monkeys irradiated before and after puberty.

BACKGROUND: Cancer treatment of prepubertal patients impacts future fertility due to the abolition of spermatogonial stem cells (SSCs). In macaques, spermatogenesis could be regenerated by intratesticular transplantation of SSCs, but no studies have involved cytotoxic treatment before puberty and transplantation after puberty, which would be the most likely clinical scenario. OBJECTIVES: To evaluate donor-derived functional sperm production after SSC transplantation to adult monkeys that had received testicular irradiation during the prepubertal period. MATERIALS AND METHODS: We obtained prepubertal testis tissue by unilaterally castrating six prepubertal monkeys and 2 weeks later irradiated the remaining testes with 6.9 Gy. However, because spermatogenic recovery was observed, we irradiated them again 14 months later with 7 Gy. Three of the monkeys were treated with GnRH-antagonist (GnRH-ant) for 8 weeks. The cryopreserved testis cells from the castrated testes were then allogeneically transplanted into the intact testes of all monkeys. Tissues were harvested 10 months later for analyses. RESULTS: In three of the six monkeys, 61%, 38%, and 11% of the epididymal sperm DNA were of the donor genotype. The ability to recover donor-derived sperm production was not enhanced by the GnRH-ant pretreatment. However, the extent of filling seminiferous tubules during the transplantation procedure was correlated with the eventual production of donor spermatozoa. The donor epididymal spermatozoa from the recipient with 61% donor contribution were capable of fertilizing rhesus eggs and forming embryos. Although the transplantation was done into the rete testis, two GnRH-ant-treated monkeys, which did not produce donor-derived epididymal spermatozoa, displayed irregular tubular cords in the interstitium containing testicular spermatozoa derived from the transplanted donor cells. DISCUSSION AND CONCLUSION: The results further support that sperm production can be restored in non-human primates from tissues cryopreserved prior to prepubertal and post-pubertal gonadotoxic treatment by transplantation of these testicular cells after puberty into seminiferous tubules.

Crocetin Mitigates Irradiation Injury in an In Vitro Model of the Pubertal Testis: Focus on Biological Effects and Molecular Mechanisms.

Infertility is a potential side effect of radiotherapy and significantly affects the quality of life for adolescent cancer survivors. Very few studies have addressed in pubertal models the mechanistic events that could be targeted to provide protection from gonadotoxicity and data on potential radioprotective treatments in this peculiar period of life are elusive. In this study, we utilized an in vitro model of the mouse pubertal testis to investigate the efficacy of crocetin to counteract ionizing radiation (IR)-induced injury and potential underlying mechanisms. Present experiments provide evidence that exposure of testis fragments from pubertal mice to 2 Gy X-rays induced extensive structural and cellular damage associated with overexpression of PARP1, PCNA, SOD2 and HuR and decreased levels of SIRT1 and catalase. A twenty-four hr exposure to 50 µM crocetin pre- and post-IR significantly reduced testis injury and modulated the response to DNA damage and oxidative stress. Nevertheless, crocetin treatment did not counteract the radiation-induced changes in the expression of SIRT1, p62 and LC3II. These results increase the knowledge of mechanisms underlying radiation damage in pubertal testis and establish the use of crocetin as a fertoprotective agent against IR deleterious effects in pubertal period.

ENDOCRINE REGULATION OF ERYTHROID LINEAGE OF HEMATOPOIESIS IN CHILDREN LIVING UNDER A LOW-DOSE RADIATION EXPOSURE AFTER THE CHORNOBYL NPP ACCIDENT. / ENDOKRYNNA REGULIaTsIIa ERYTROTsYTARNOÏ LANKY GEMOPOEZU V DITEI, IaKI ZhYVUT' NA RADIOAKTYVNO ZABRUDNENYKh TERYTORIIaKh PISLIa AVARIÏ NA ChAES.

OBJECTIVE: Elucidation of relationship between the levels of thyroid-stimulating hormone (TSH), free serum thyroxine, serum and urine cortisol and parameters of erythroid lineage of hematopoiesis to estimate the thyroid functionin children of prepubertal, pubertal, and postpubertal age permanently residing under a low-dose radiation exposureto determine the premorbid state of thyroid function. MATERIALS AND METHODS: Children aged 3 to 18 years old (n = 203) living in the most intensively radionuclide-contaminated regions of Kyiv, Zhytomyr and Chornihiv oblasts of Ukraine after the Chornobyl NPP accident wereenrolled. Complaints of ossalgia, arthralgia, fatigue, bone fractures in the history, bone dysembryogenetic stigmata,hypermobility syndrome degree, and types of somatic diseases were taken into account. Peripheral blood countparameters, biochemical indices of blood serum were studied, namely the levels of total protein, cholesterol, creatinine and alkaline phosphatase activity. Levels of the free thyroxine, pituitary TSH, serum and daily urine cortisol, anddoses of radiation exposure were determined. RESULTS: The radiation dose values in children ranged from (0.35 ± 0.09) mSv to (0.54 ± 0.12) mSv. There was nodifference between the parameters of erythroid lineage of hematopoiesis depending on radiation dose. At the levels of serum TSH up to 1.0 µIU/ml no correlation was found with cortisol levels; at TSH levels of 1.0-3.0 µIU/ml thecorrelation coefficient was r = 0.31; at TSH levels higher than 3.0 µIU/ml the correlation coefficient was r = 0.61probably indicating a compensatory role of adrenal cortex in children at risk of thyroid disease development. In children with joint hypermobility grade II there was a higher incidence of dentofacial anomalies (χ2 = 6.9), deformitiesof lower extremities (χ2 = 6.9), and dental caries (χ2 = 4.3) (p < 0.05). There was a direct correlation between theserum TSH level (over 3 µIU/ml) and micrognathia (brachygnathia) (r = 0.62) indicating the impact of thyroid disease on dentofacial development. The TSH at a level of upper limit of the reference range values may contribute toa decreased RBC count in peripheral blood, increased average volume and hemoglobin content in erythrocyte beingassociated with the initial manifestations of thyroid dysfunction. CONCLUSIONS: Abnormal endocrine regulation of hematopoiesis affects the connective tissue, stromal microenvironment of bone marrow, and accordingly the erythroid branch of hematopoiesis in children, which may be relevant inthe development and course of oncohematological diseases.

Pubertal outcomes of children transplanted with allogeneic stem cells after myeloablative total body irradiation or busulfan: Influence of age and sex is confirmed, while a role of chronic graft-versus-host disease in delayed puberty onset is revealed.

INTRODUCTION: Myeloablative conditioning before allogeneic HSCT during childhood exposes to serious long-term complications, especially gonadal dysfunction. Pubertal issues are less described than other post-HSCT sequelae in childhood. METHODS: Pubertal development and biological gonadal parameters were assessed in a retrospective monocentric cohort of prepubertal patients who underwent HSCT after myeloablative conditioning with TBI or busulfan between 1981 and 2017. RESULTS: Seventy-four patients (28 girls and 46 boys) were included. No spontaneous pubertal development was found in 50% of girls and 10% of boys (P < .001), and delayed puberty or no spontaneous pubertal development was found in 57% of girls and 24% of boys (P = .009). HRT was used in 82% of girls and 24% of boys (P < .001). In univariate analysis, TBI conditioning (P = .05), female sex (P < .001), acute GVHD (P = .05), extensive chronic GVHD (P = .021), steroid treatment >6 months (P = .016), and malignant diseases (P = .016) were associated with no spontaneous pubertal development, whereas TBI conditioning (P = .003) and extensive chronic GVHD (P = .005) were associated with delayed puberty. In multivariate analysis, factors independently associated with no spontaneous puberty onset were female sex (P = .001) and age >10 years (P = .033). Factors independently associated with delayed puberty were extensive chronic GVHD (P = .041) and age >10 years (P = .031). CONCLUSION: This study highlighted the toxicity of MAC in prepubescent children: TBI did worse, but this was especially true for the most susceptible patients (girls, leukemic patients, and patients older than 10 years). It suggests a possible role of GVHD in delayed puberty.

Effect of radioactive iodine-induced hypothyroidism on longitudinal bone growth during puberty in immature female rats.

Thyroid cancer in children, the most common endocrine malignancy, shows aggressive behavior and has a high recurrence rate after surgical ablation. Radioactive iodine (RAI) treatment is the most effective primary modality for medical ablation of juvenile thyroid cancer, and leads to intentional hypothyroidism. Although several negative impacts of hypothyroidism have been reported in children in response to other antithyroid agents, the combined effects of RAI exposure and hypothyroidism, on growing bones specifically, are unknown. In this study, we investigated the effect of RAI-induced hypothyroidism on the long bones during the pubertal growth spurt using immature female rats. Female Sprague-Dawley rats were randomly divided into a control group, and an RAI-treated group fed with RAI (0.37 MBq/g body weight) twice via gavage. After 4 weeks, we observed a significantly-reduced serum free thyroxine level in the RAI group. The latter group also displayed decreased body weight gain compared to the control. In addition, the lengths of long bones, such as the leg bones and vertebral column, as well as bone mineral content, were reduced in the RAI-treated animals. Our results confirm the negative impacts of RAI-induced thyroid deficiency during puberty on longitudinal bone growth and bone mineralization.

Testicular damage in children and adolescents treated for malignancy: a short review.

Significant advances have been made over recent decades in the treatment of childhood malignancies. These advances had an incredible cost, as an increasing number of young survivors suffer subfertility or infertility, because of the high sensitivity of testicular cells, especially the rapidly dividing germ cells, to cytotoxic drugs and irradiation. Therefore, the impact of treatment on future fertility is of significant concern, both to parents and patients. Assessment of fertility damage in childhood remains problematic. For post-pubertal males, semen analysis represents a good indicator of spermatogenesis and testicular function, and allows for sperm cryopreservation. The available method for prepubertal children is only gonadal tissue cryopreservation. This method is still experimental and raises ethical concerns. Ideally, a multidisciplinary team approach needs to be used in addressing the needs of fertility preservation for this population. Precise knowledge of these issues would help pediatric oncologists and endocrinologists to counsel their patients and inform them for factors and resources that may protect or preserve parenthood options in the future.

Alteraciones puberales en adolescentes con leucemia en fase de vigilancia.

OBJECTIVE: To evaluate which factors are associated with alterations in pubertal development in pediatric patients with leukemia in the surveillance phase. METHOD: A case-control study was carried out, including patients aged 8-14 years with diagnosis of acute lymphoblastic leukemia under surveillance. Demographic data were collected, age at diagnosis, type of leukemia, risk of leukemia, duration and type of treatment received, time of surveillance phase; and pubertal development was assessed by Tanner stage, bone age, pelvic ultrasound for women, and LH levels. Fisher's exact test and Mann-Whitney U-test were used. RESULTS: Twenty-five pediatric patients with a diagnosis of acute lymphoblastic leukemia between 8 and 14 years of age with a median of 8 were included, only 4 (16%) presented pubertal alterations, 1 had pubertal delay and 3 advanced puberty. The history of radiotherapy was related to pubertal alterations (p = 0.03). CONCLUSIONS: The antecedent of having received radiotherapy as part of the treatment in patients with acute lymphoblastic leukemia is a risk factor for developing pubertal abnormalities.

Ovarian function after allogeneic hematopoietic stem cell transplantation in childhood and adolescence.

OBJECTIVE: The aim of the study was to evaluate long-term ovarian function after allogeneic hematopoietic stem cell transplantation (HSCT) in childhood and adolescence. SUBJECTS AND METHODS: Predictive factors for ovarian function were evaluated among 92 adult or pubertal female survivors transplanted at Huddinge and Helsinki University Hospital during 1978-2000, at a mean age of 9±4.3 years (range 1-19). At the time of the study a mean±s.d. of 13±5.5 years (range 6-27) had elapsed since the HSCT and the mean age of the participants was 22±6.3 years (range 9-41). RESULTS: Spontaneous puberty based on breast development occurred in 40 and menarche in 30 of the 70 girls who were prepubertal at transplantation. Six out of 20 girls who received HSCT after initiation of pubertal development recovered their ovarian function. Younger age at HSCT, conditioning without total body irradiation (TBI), and a non-leukemia diagnosis predicted the spontaneous menarche. The incidence of menarche was higher after fractioned vs single fraction TBI (P<0.05), cyclophosphamide (Cy) vs busulfan (Bu)-based conditioning (P<0.05), and among leukemia patients transplanted at first remission vs later remissions (P<0.01) and with no cranial irradiation (cranial radiotherapy, CRT) vs given CRT (14-24 Gy) (P<0.01). The majority of recipients conditioned with only Cy vs TBI (P<0.001) or vs Bu-based regimens (P<0.01) showed preserved ovarian function and required no estrogen replacement at their latest follow-up visit at a mean age of 23±6.3 years (range 15-41). Ten women became pregnant. CONCLUSIONS: Patients conditioned with TBI or Bu-based regimes are at high risk of ovarian failure. Intensive anti-leukemia therapy before HSCT including CRT especially among relapsed patients may further decrease the possibility of spontaneous menarche.

[Normal tissue tolerance to external beam radiation therapy: testicles]. / Dose de tolérance à l'irradiation des tissus sain: les testicules.

Although there is very little evidence for direct irradiation of the testes, they may receive significant doses, especially in the treatment of pelvic tumors in adults and in pediatrics. The exocrine function of the testis seems to be more sensitive to radiotherapy. There is a risk of sterility, even after low doses of radiation. In the adult or the child who has reached puberty, we should propose a self-preservation of semen prior to radiotherapy. In pre-pubescent children, the problem is more delicate. In all cases, it is necessary to limit the dose to the testicles without affecting the coverage of tumour volume. Patients and/or their caregivers should be systematically informed of the risk of infertility related to irradiation.

Fertility and pregnancy outcome after abdominal irradiation that included or excluded the pelvis in childhood tumor survivors.

PURPOSE: To evaluate fertility after abdominal and/or pelvic irradiation in long-term female survivors. METHODS AND MATERIALS: Puberty and pregnancy outcome were analyzed in female survivors of childhood cancer (aged <18 years) treated with abdominal and/or pelvic radiotherapy (RT) at one of two French centers (Nancy and Lyon) between 1975 and 2004. Data were obtained from medical records and questionnaires sent to the women. RESULTS: A total of 84 patients who had received abdominal and/or pelvic RT during childhood and were alive and aged more than 18 years at the time of the study made up the study population. Of the 57 female survivors treated with abdominal RT that excluded the pelvis, 52 (91%) progressed normally through puberty and 23 (40%) had at least one recorded pregnancy. Of the 27 patients treated with pelvic RT, only 10 (37%) progressed normally through puberty and 5 (19%) had at least one recorded pregnancy. Twenty-two women (seventeen of whom were treated with pelvic RT) had certain subfertility. A total of 50 births occurred in 28 women, with one baby dying at birth; one miscarriage also occurred. There was a high prevalence of prematurity and low birth weight but not of congenital malformations. CONCLUSIONS: Fertility can be preserved in patients who undergo abdominal RT that excludes the pelvis, taking into account the other treatments (e.g., chemotherapy with alkylating agents) are taken into account. When RT includes the pelvis, fertility is frequently impaired and women can have difficulty conceiving. Nevertheless, pregnancies can occur in some of these women. The most important factor that endangers a successful pregnancy after RT is the total dose received by the ovaries and uterus. This radiation dose has to be systematically recorded to improve our ability to follow up patients.

Risk of ovarian failure and fertility preserving methods in girls and adolescents with a malignant disease.

Girls and young women suffering from a malignant disease that requires treatment with chemo- and/or radiotherapy are at risk of losing fertility. The most significant risk factors are age and type of treatment given. Preserving fertility is of high priority to both the young patient and her parents. This article reviews the effect of chemo- and radiotherapy on gonadal function, and thus fertility, and offers different fertility preserving methods based on the literature. Cryopreservation of ovarian tissue is a possible way of preserving fertility in this group of patients in the future.

Alterations in pubertal timing following therapy for childhood malignancies.

The onset of puberty marks a time of rapid linear growth, sexual development, and transition from childhood to maturity. The diagnosis and treatment of a childhood malignancy prior to the onset of puberty has the potential to profoundly affect the timing and the tempo of puberty. CNS tumors located in the hypothalamic-pituitary (H-P) region, surgical resection in this location, and exposure to CNS radiotherapy are all associated with both precocious and delayed puberty. Also, chemotherapy and radiation can directly damage the gonads, which can result in absent, arrested, or delayed puberty. As a consequence of these alterations of pubertal timing, both male and female survivors of childhood cancer may be at risk of adult short-stature, decreased bone-mineral density, absent or incomplete sexual development, and ultimately, reduced rates of fertility. Appropriate and timely assessment of survivors at high risk of alterations in pubertal development will enable the identification of patients who would benefit from early medical intervention.

Having children after surviving cancer in childhood or adolescence - results of a Berlin survey.

OBJECTIVE: To assess the desire to have children, the actual number of children, and children's health in a survey of 752 adult survivors of paediatric or adolescent cancer in Berlin, Germany. PATIENTS: The German Childhood Cancer Registry ( Deutsches Kinderkrebsregister, DKKR) listed 752 paediatric cancer patients who had been treated in 1 of the 2 paediatric oncology centres in Berlin since 1980 and were 18 years of age or older at the time of the survey. METHODS: A 4-page questionnaire assessing pubertal development, fertility, the desire to have children, the actual number of children, and children's health was sent to 574 former patients located using data from the DKKR and German Residents' Registration Office. RESULTS: In total, 45% (n=260) of patients (140 women, 120 men) returned the questionnaire. The mean age was 10.9 years at the time of diagnosis and 24.3 years at the time of the present survey. Various aspects of puberty were assessed to evaluate pubertal development. Of all study participants, 77% indicated a general desire to have children. Reasons given for not having children included 'Still too early to have children' (67%), 'Fear that my child will develop cancer' (9%), and 'Fear that cancer will recur' (6%). Transient amenorrhoea, lasting from 1 to 30 months, occurred in 25 of 74 patients after chemo- and radiotherapy. Five of 136 participants indicated that they had already reached menopause. Seventeen per cent of all participants or their partners had already been pregnant. The miscarriage rate was 13%. Thirty participants gave birth to or fathered a total of 41 children, of whom 40 were healthy and 1 was born with a foot deformity (Pes equinovarus). Among participants' children, mean weight at birth was 3 458 g, and mean head circumference was 35 cm. DISCUSSION: The desire to have children was lower among our survey participants than in the general population of the same age (77% vs. 90%). Participants' fears that their children might develop cancer or that their own cancer might recur are often unfounded. Paediatric cancer survivors, relatives, and attending physicians should be well informed about this issue by paediatric oncologists. The proportion of miscarriages, mean weight at birth, and mean head circumference at birth in our study were comparable to the German general population. OUTLOOK: We intend to conduct a nationwide survey entitled 'Fertility after Chemo- and Radiotherapy in Paediatric and Adolescent Patients' (FeCt). The aim is to gain valuable data with a larger number of participants and more statistical power to determine whether specific cytotoxic drugs or radiation increase the risk of infertility, and if so, at what doses. For the study, the DKKR has the addresses of more than 5 000 former patients in Germany who are now adults. The results will be used to plan future treatment optimisation studies, and to assess the need for prophylactic measures in cases where fertility-compromising therapies are unavoidable. This nationwide survey 'FeCt' will be supported by the Deutsche Kinderkrebsstiftung.

Growth and development after hematopoietic cell transplant in children.

Hematopoietic cell transplantation (HCT) following high-dose chemotherapy or chemoradiotherapy for children with malignant or nonmalignant hematologic disorders has resulted in an increasing number of long-term disease-free survivors. The preparative regimens include high doses of alkylating agents, such as CY with or without BU, and may include TBI. These agents impact the neuroendocrine system in growing children and their subsequent growth and development. Children receiving high-dose CY or BUCY have normal thyroid function, but those who receive TBI-containing regimens may develop thyroid function abnormalities. Growth is not impacted by chemotherapy-only preparative regimens, but TBI is likely to result in growth hormone deficiency and decreased growth rates that need to be treated with synthetic growth hormone therapy. Children who receive high-dose CY-only have normal development through puberty, whereas those who receive BUCY have a high incidence of delayed pubertal development. Following fractionated TBI preparative regimens, approximately half of the patients have normal pubertal development. These data demonstrate that the growth and development problems after HCT are dependent upon the preparative regimen received. All children should be followed for years after HCT for detection of growth and development abnormalities that are treatable with appropriate hormone therapy.

Growth and puberty after treatment for acute lymphoblastic leukemia.

UNLABELLED: Over the last 20 years, after combining treatment of chemotherapy and radiotherapy, there has been an improvement in the survival rate of acute lymphoblastic leukemia patients, with a current cure rate of around 70%. Children with the disease have been enrolled into international treatment protocols designed to improve survival and minimize the serious irreversible late effects. Our oncology unit uses the international protocol: GBTLI LLA-85 and 90, with the drugs methotrexate, cytosine, arabinoside, dexamethasone, and radiotherapy. However, these treatments can cause gonadal damage and growth impairment. PATIENTS AND METHOD: The authors analyzed 20 children off therapy in order to determine the role of the various doses of radiotherapy regarding endocrinological alterations. They were divided into 3 groups according to central nervous system prophylaxis: Group A underwent chemotherapy, group B underwent chemotherapy plus radiotherapy (18 Gy), and group C underwent chemotherapy plus radiotherapy (24 Gy). Serum concentrations of LH, FSH, GH, and testosterone were determined. Imaging studies included bone age, pelvic ultrasound and scrotum, and skull magnetic resonance imaging. RESULTS: Nine of the patients who received radiotherapy had decreased pituitary volume. There was a significant difference in the response to GH and loss of predicted final stature (Bayley-Pinneau) between the 2 irradiated groups and the group that was not irradiated, but there was no difference regarding the radiation doses used (18 or 24 Gy). The final predicted height (Bayley-Pinneau) was significantly less (P = 0.0071) in both groups treated with radiotherapy. Two girls had precocious puberty, and 1 boy with delayed puberty presented calcification of the epididymis. CONCLUSION: Radiotherapy was been responsible for late side effects, especially related to growth and puberty.

Endocrine consequences of brain irradiation.

Cranial radiation is routinely used to manage pituitary tumours, craniopharyngiomas, primary brain tumours, tumours of the head and neck and, in the past, for the prophylaxis of intracranial disease in patients with acute lymphoblastic leukaemia. If the hypothalamic-pituitary axis falls within the radiation fields, the patient is at risk of developing hypopituitarism. The effect of radiation is determined by the dose and the time that has elapsed since treatment. Classically, growth hormone (GH) is the most sensitive of the anterior pituitary hormones to irradiation, followed by gonadotrophins, adrenocorticotrophic hormone (ACTH) and thyroid-stimulating hormone (TSH). Low-dose irradiation in prepubertal children can initially cause early or precocious puberty and subsequently gonadotrophin deficiency. Higher doses may cause gonadotrophin deficiency and pubertal delay. The ACTH and TSH axes are relatively resistant to the effects of irradiation, but minor abnormalities may occur. Patients who receive cranial irradiation that affects the hypothalamic-pituitary axis remain at risk of developing multiple hormone deficiencies for many years and require long-term follow-up by an endocrinologist.

Growth and puberty after treatment for acute lymphoblastic leukemia

Nos últimos 20 anos, após o tratamento de pacientes portadores de leucemia linfoblástica aguda, com quimioterapia e radioterapia, houve melhora na taxa de sobrevivência e cura em torno de 70 por cento. Crianças portadoras da doença foram envolvidas em protocolos de tratamento internacionais que visavam melhorar a sobrevida e minimizar os graves e irreversíveis efeitos tardios. A nossa unidade utiliza o protocolo internacional GBTLI LLA-85 e 90, com as drogas metrotexate, citosina, arabinoside, dexametasona e radioterapia .Entretanto, estes tratamentos podem causar insuficiências gonadais e prejuízo no crescimento. PACIENTES E MÉTODO: Os autores analisaram 20 crianças fora de terapia a fim de determinar o papel das várias doses de radioterapia sobre alterações endocrinológicas. Foram divididos em três grupos baseados na profilaxia do sistema nervoso central: o grupo A foi submetido à quimioterapia, o grupo B à quimioterapia mias radioterapia (18Gy) e o grupo C à quimioterapia mais radioterapia (24 Gy). Foram avaliadas as concentrações séricas de LH, FSH, GH e testosterona. Os estudos de imagem incluiram idade óssea, ultrassonografia pélvica, escrotal e ressonância nuclear magnética do crânio. RESULTADOS: Houve diferenças significativas nas respostas do hormônio de crescimento e prejuízo na estatura final (Bayley-Pinneau) entre os dois grupos irradiados e o grupo que não foi irradiado, mas não houve diferenças quando se compararam as doses de radiação utilizadas (18 ou 24 Gy). A previsão da altura final (Bayley-Pinneau) foi menor (p= 0,0071) nos dois grupos tratados com radioterapia. Duas meninas apresentaram puberdade precoce e um menino teve atraso puberal associado a calcificação do epidídimo. CONCLUSÃO: A radioterapia é responsável por efeitos colaterais especialmente quanto ao crescimento e puberdade.

Radiation-induced growth hormone deficiency.

Deficiency of one or more anterior pituitary hormones may follow treatment with external irradiation when the hypothalamic-pituitary axis falls within the fields of irradiation. Hypopituitarism occurs in patients who receive radiation therapy for pituitary tumours, nasopharyngeal cancer and primary brain tumours, as well as in children who undergo prophylactic cranial irradiation for acute lymphoblastic leukaemia, or total body irradiation for a variety of tumours and other diseases. The degree of pituitary hormonal deficit is related to the radiation dose received by the hypothalamic-pituitary axis. Thus, after lower radiation doses isolated growth hormone deficiency ensues, whilst higher doses may produce hypopituitarism. The timing of onset of the radiation-induced pituitary hormone deficit is also dose-dependent. The main site of radiation damage is the hypothalamus rather than the pituitary, although the latter may be affected directly.

Puberty in children with cancer.

Cancer may impinge on puberty either directly through a mass lesion effect on the reproductive axis or indirectly through hormones secreted by tumours, for example human chorionic gonadotrophin, or weight loss, or the actual presence of a chronic disease process per se. The more frequent pubertal problems faced by children with cancer are due to the impact of treatment either on the central nervous system, the hypothalamic-pituitary axis or the gonad; in this review, we concentrate on these complications and their potential management.