Leuprolide Protects Ovarian Reserve in Adolescents Undergoing Gonadotoxic Therapy.

Purpose: Treatment sequelae compromising reproductive health are highly prevalent in childhood cancer survivors, and a main determinant of health and quality of life. Follicular reserve determines ovarian function life span; thus, its preservation is important in the care of female survivors. Anti-Müllerian hormone (AMH) is a biomarker to measure functional ovarian reserve. We aimed to evaluate the effect of leuprolide during gonadotoxic therapy on pubertal females' post-treatment functional ovarian reserve using AMH levels. Methods: We conducted a single-center retrospective study including all pubertal females who had undergone gonadotoxic treatments between January 2010 and April 2020, and had an AMH level after completion of therapy. We used multivariable linear regressions to compare AMH-level beta coefficients in patients stratified by gonadotoxic risk, adjusting for leuprolide use. Results: Fifty-two females meeting study eligibility were included, of which 35 received leuprolide. The use of leuprolide was associated with higher post-treatment AMH levels in the lower gonadotoxic risk group (beta 2.74, 95% CI 0.97-4.51; p = 0.004). This association was lost in the higher gonadotoxic risk groups. Conclusions: Leuprolide may have a protective effect on the functional ovarian reserve. However, this is limited by increasing treatment gonadotoxicity. Larger, prospective studies are needed to elucidate the potential benefits of gonadotropin-releasing hormone agonist on preservation of ovarian reserve among children receiving gonadotoxic therapies, as cancer survivors.

Comparison of hypothyroidism, growth hormone deficiency, and adrenal insufficiency following proton and photon radiotherapy in children with medulloblastoma.

BACKGROUND: Endocrine deficiencies are common following Craniospinal irradiation (CSI) in children with brain tumors, but empirical data comparing outcomes following proton (PRT) and photon radiation therapy (XRT) are limited. METHODS: This retrospective chart review compared the incidence of hypothyroidism, Growth hormone deficiency (GHD), and Adrenal insufficiency (AI) in patients with medulloblastoma treated with XRT and PRT between 1997 and 2016. All patients received CSI and had routine endocrine screening labs to evaluate for thyroid dysfunction, GHD, and AI. We used proportional hazards regression to calculate hazard ratios (HR) and 95% confidence intervals (CI) comparing the development of hypothyroidism, AI, and GHD between radiation modalities, adjusting for age at diagnosis, sex, race/ethnicity, and CSI dose. RESULTS: We identified 118 patients with medulloblastoma who were followed for a median of 5.6 years from the end of radiotherapy. Thirty-five (31%) patients developed hypothyroidism, 71 (66%) GHD, and 20 (18%) AI. Compared to PRT, XRT was associated with a higher incidence of primary hypothyroidism (28% vs. 6%; HR = 4.61, 95% CI 1.2-17.7, p = 0.03). Central hypothyroidism, GHD, and AI incidence rates were similar between the groups. CONCLUSIONS: Primary hypothyroidism occurs less often after PRT CSI, compared to XRT CSI. This suggests that the thyroid and pituitary glands receive less radiation after spine and posterior fossa boost RT, respectively, using PRT.

Comparison of multimodal surgical and radiation treatment methods for pediatric craniopharyngioma: long-term analysis of progression-free survival and morbidity.

OBJECTIVE: The authors compared survival and multiple comorbidities in children diagnosed with craniopharyngioma who underwent gross-total resection (GTR) versus subtotal resection (STR) with radiation therapy (RT), either intensity-modulated radiation therapy (IMRT) or proton beam therapy (PBT). The authors hypothesized that there are differences between multimodal treatment methods with respect to morbidity and progression-free survival (PFS). METHODS: The medical records of children diagnosed with craniopharyngioma and treated surgically between February 1997 and December 2018 at Texas Children's Hospital were reviewed. Surgical treatment was stratified as GTR or STR + RT. RT was further stratified as PBT or IMRT; PBT was stratified as STR + PBT versus cyst decompression (CD) + PBT. The authors used Kaplan-Meier analysis to compare PFS and overall survival, and chi-square analysis to compare rates for hypopituitarism, vision loss, and hypothalamic obesity (HyOb). RESULTS: Sixty-three children were included in the analysis; 49% were female. The mean age was 8.16 years (95% CI 7.08-9.27). Twelve of 14 children in the IMRT cohort underwent CD. The 5-year PFS rates were as follows: 73% for GTR (n = 31), 54% for IMRT (n = 14), 100% for STR + PBT (n = 7), and 77% for CD + PBT (n = 11; p = 0.202). The overall survival rates were similar in all groups. Rates of hypopituitarism (96% GTR vs 75% IMRT vs 100% STR + PBT, 50% CD + PBT; p = 0.023) and diabetes insipidus (DI) (90% GTR vs 61% IMRT vs 85% STR + PBT, 20% CD + PBT; p = 0.004) were significantly higher in the GTR group. There was no significant difference in the HyOb or vision loss at the end of study follow-up among the different groups. Within the PBT group, 2 patients presented a progressive vasculopathy with subsequent strokes. One patient experienced a PBT-induced tumor. CONCLUSIONS: GTR and CD + PBT presented similar rates of 5-year PFS. Hypopituitarism and DI rates were higher with GTR, but the rate of HyOb was similar among different treatment modalities. PBT may reduce the burden of hypopituitarism and DI, although radiation carries a risk of potential serious complications, including progressive vasculopathy and secondary malignancy. Further prospective study comparing neurocognitive outcomes is necessary.

Prevalence of Adrenal Insufficiency and Glucocorticoid Use in Pediatric Pseudotumor Cerebri Syndrome.

BACKGROUND: The pathophysiology underlying pseudotumor cerebri syndrome (PTCS) is complex and not well understood. There are clear differences between PTCS in adults and pediatrics. Few and isolated case reports have suggested that adrenal function may be involved, yet no large cohort study has examined this relationship. METHODS: We conducted a retrospective single-center study of children who presented with a diagnosis of PTCS and had cortisol testing measured between January 2010 and September 2019. We included all subjects meeting the revised PTCS diagnostic criteria after the chart review. Based on morning, random or 1-µg cosyntropin stimulated cortisol levels, adrenal functioning was classified as: (1) insufficient (peak cortisol <16 µg/dL and AM cortisol <5 µg/dL), (2) at risk (peak cortisol 16-20 µg/dL, AM cortisol 5-13 µg/dL, or random <13 µg/dL), or (3) sufficient (peak cortisol >20 µg/dL and AM or random cortisol >13 µg/dL). RESULTS: A total of 398 individuals were reviewed, and 64 were included for analysis. Of these, 40.6% were men, of mixed race and ethnicity with a mean age of 10.5 (SD 4.7) years. Of these, 23% and 52% had insufficient or at-risk cortisol levels. The majority of those in the insufficient (70%) or at-risk (80%) groups were exposed to topical, nasal, or inhaled glucocorticoids but not systemic. Only 60% and 12% of those with PTCS with insufficient or at-risk cortisol testing, respectively, underwent definitive testing with a stimulation test. CONCLUSIONS: Glucocorticoid use and hypocortisolism are prevalent in PTCS and need consideration as a potential underlying cause. Most children had insufficient or at-risk cortisol levels, and many did not undergo further testing/workup. Children who present with PTCS, particularly young, males should be evaluated for adrenal insufficiency and its risk factors, including nonsystemic steroids. Prospective studies are necessary to further evaluate the effect of cortisol in relation to pediatric PTCS.

Association of Adrenal Insufficiency With Pediatric Pseudotumor Cerebri Syndrome.

Importance: Pediatric pseudotumor cerebri syndrome pathophysiology is complex and not well delineated. Therefore, it is important to identify potential contributors or targets underlying the primary pathogenesis for its development. Objective: To report cases highlighting the association of pediatric pseudotumor cerebri syndrome with adrenal insufficiency. Design, Setting, and Participants: This noncontrolled, observational case series included pediatric patients diagnosed with pseudotumor cerebri syndrome and adrenal insufficiency at an urban academic children's hospital in Houston, Texas, from June 2015 to October 2019. Main Outcomes and Measures: Monitoring optic nerve edema by clinical examination, fundus photography, and optical coherence topography images of the optic nerve. Results: Data were collected from 5 pediatric patients (age range, 5-10 years) diagnosed with pseudotumor cerebri syndrome and adrenal insufficiency. One was a girl; all were White and prepubertal. Three patients had unrecognized glucocorticoid exposure. All patients had bilateral optic nerve edema that was initially treated with acetazolamide or topiramate, but cortisol functional testing by either 8 am cortisol or cosyntropin stimulation tests revealed a diagnosis of central adrenal insufficiency. Treatment with physiological doses of hydrocortisone resulted in resolution of optic nerve edema and clinical symptoms of pseudotumor cerebri syndrome, as well as a shorter time receiving medical therapy. Conclusions and Relevance: In this case series, adrenal insufficiency was associated with both primary and secondary prepubertal pediatric pseudotumor cerebri syndrome. As a potential target specific to causative mechanism, physiologic hydrocortisone therapy resolved the condition. To date, there remains a global unawareness among clinicians about the suppressive outcome that glucocorticoids may have on the developing hypothalamic-pituitary-adrenal axis, resulting in adrenal insufficiency and so-called episodic pseudotumor cerebri syndrome in young children. Ophthalmologists and pediatric subspecialists should implement cortisol testing via either 8 am cortisol or cosyntropin stimulation tests at initial evaluation of all children with pseudotumor cerebri syndrome and risk factors for adrenal insufficiency, no predisposing causes, or nonresponse to conventional treatment. Further management and treatment should be in combination with ophthalmology and endocrine services.

Methylphenidate improves weight control in childhood brain tumor survivors with hypothalamic obesity.

BACKGROUND: Hypothalamic obesity causes unrelenting weight gain for childhood brain tumor survivors. No single therapy has proven effective for treatment. We aimed to evaluate effectiveness of long-term methylphenidate therapy on body mass index (BMI) change in children with hypothalamic obesity. METHODS: A retrospective analysis included children with a history of brain tumor and hypothalamic obesity receiving methylphenidate (10-60 mg/day) for hypothalamic obesity. Subjects were evaluated for BMI trajectory before and after methylphenidate start. Given that z-scores can be skewed in severely obese children, we calculated BMI as a percent of the BMI at the 95th percentile for the child's age and gender (BMI% 95th). RESULTS: Twelve patients with hypothalamic obesity completed methylphenidate therapy for at least 6 months (median 3.1 years, range 1.0-5.8 years). All subjects had a suprasellar tumor (nine [75%] with craniopharyngioma) and pituitary dysfunction. Pretreatment median BMI percent of the 95th percentile was 125.6% (interquartile range [IQR] 25-75: 115.3-138.3%) with BMI z-score of 2.4 (IQR 25-75: 2.1-2.6). Following methylphenidate treatment, there was a 69.9% reduction in the median slope of BMI change. Eleven of 12 patients (92%) had a reduction in the slope of their BMI change on methylphenidate treatment. Postmethylphenidate median BMI percent of the 95th percentile decrease to 115.2% (IQR 25-75: 103.6-121.2%) with median BMI z-score of 2.1 (IQR 25-75: 1.8-2.2). Mild side effects were noted in six patients. CONCLUSIONS: Methylphenidate use reduced and sustained BMI change in children with hypothalamic obesity. Stimulant therapy is an effective first-line agent for treatment of hypothalamic obesity.

Hypothalamic-pituitary function following childhood brain tumors: Analysis of prospective annual endocrine screening.

BACKGROUND: Outcomes for childhood brain tumors are now associated with a five-year survival rate of 75%. Endocrine effects of brain tumors are common, occurring in 43% of patients by 10 years from tumor diagnosis. Optimal timing of screening for endocrinopathies remains undefined. We aim to identify incidence and timing of endocrinopathies following brain tumor diagnosis, to better refine screening guidelines. METHODS: Retrospective chart review of patients referred to our hospital's neuro-oncology clinic for evaluation and treatment of brain tumors. Inclusion criteria were a positive history for brain tumor diagnosis and evaluation at our center. Data collection included demographics, tumor diagnosis, tumor therapy, and endocrinopathy diagnosis and timing. Laboratory data and clinical documentation were reviewed. RESULTS: Four hundred nineteen subjects were included for analysis. Tumor locations included supratentorial 158 (38%), posterior fossa 145 (35%), suprasellar 96 (23%), and upper spinal cord 20 (5%). Only 61% had undergone endocrine screening. Forty-five percent of screened patients had endocrinopathies. Endocrinopathy diagnosis typically occurred within six years after tumor diagnosis. Tumor recurrence and repeated therapies increased the risk for endocrinopathies within the subsequent six years after tumor therapy. Higher rates of endocrinopathies were identified in patients who had received cranial irradiation for posterior fossa, supratentorial, or suprasellar tumors. CONCLUSION: Endocrine screening should occur in childhood brain tumor survivors, particularly those who have received irradiation. Our study suggests that in children with brain tumors, the highest yield for finding a pituitary deficiency is within the first six years after tumor diagnosis and treatment. Screening should continue annually beyond six years, but with special attention in the subsequent six years after therapy for tumor recurrence. Prospective screening and endocrinology referral should be implemented in childhood brain tumor survivors.

Hypothalamic Obesity: 4 Years of the International Registry of Hypothalamic Obesity Disorders.

OBJECTIVE: Hypothalamic obesity (HyOb) is a rare cause of rapid weight gain and early metabolic comorbidities. Effective treatment strategies are limited. The registry collected participant data and compared treatment approaches. METHODS: The International Registry of Hypothalamic Obesity Disorders (IRHOD) was created as a registry portal to provide education. Data collected from the initial 4 years were evaluated. RESULTS: Eighty-seven participants were included for analysis (median age: 27 years, range: 3-71 years). A total of 96.5% had obesity, and 3.5% had overweight at maximal weight. Seventy-five had brain tumors (86%)-the majority were craniopharyngiomas (72% of those with tumors). Nontumor etiologies included congenital brain malformation (4.6%), traumatic brain injury (3.4%), and genetic anomaly (2.3%). Ninety percent received obesity treatments including nutritional counseling (82%), pharmacotherapy (59%), bariatric surgery (8%), and vagal nerve stimulation (1%). Forty-six percent reported follow-up BMI results after obesity treatment. Surgery was most effective (median BMI decrease: -8.2 kg/m2 , median interval: 2.6 years), with lifestyle intervention (BMI: -3.4 kg/m2 , interval: 1.2 years) and pharmacological therapy (BMI: -2.3 kg/m2 , interval: 0.8 years) being less effective. Eighty percent of participants reporting follow-up weight remained in the obesity range. CONCLUSIONS: IRHOD identified a large cohort with self-reported HyOb. Surgical therapy was most effective at weight reduction. Nutritional counseling and pharmacotherapy modestly improved BMI. Stepwise treatment strategy for HyOb (including nutritional, pharmacological, and surgical therapies in an experienced center) may be most valuable.

Growth Hormone Therapy for a Child With Severe Cognitive Impairment.

The expansion of growth hormone therapy over the last 3 decades has allowed for treatment of short stature for more children, resulting in increased height for many. However, treatment of idiopathic short stature remains controversial. Treatment decisions for disabled children with idiopathic short stature are even more complicated. We discuss a specific case of short stature in a disabled child and grapple with the ethical issues involved in the use of growth hormone.

Late endocrine effects of childhood cancer.

The cure rate for paediatric malignancies is increasing, and most patients who have cancer during childhood survive and enter adulthood. Surveillance for late endocrine effects after childhood cancer is required to ensure early diagnosis and treatment and to optimize physical, cognitive and psychosocial health. The degree of risk of endocrine deficiency is related to the child's sex and their age at the time the tumour is diagnosed, as well as to tumour location and characteristics and the therapies used (surgery, chemotherapy or radiation therapy). Potential endocrine problems can include growth hormone deficiency, hypothyroidism (primary or central), adrenocorticotropin deficiency, hyperprolactinaemia, precocious puberty, hypogonadism (primary or central), altered fertility and/or sexual function, low BMD, the metabolic syndrome and hypothalamic obesity. Optimal endocrine care for survivors of childhood cancer should be delivered in a multidisciplinary setting, providing continuity from acute cancer treatment to long-term follow-up of late endocrine effects throughout the lifespan. Endocrine therapies are important to improve long-term quality of life for survivors of childhood cancer.