Slipped Capital Femoral Epiphysis Associated With Hypogonadism: A Case Report And Literature Review

Background: Slipped capital femoral epiphysis (SCFE) is a displacement of the femoral head epiphysis that is sometimes associated with endocrinopathies. We report the case of a 12-year-old girl with hypergonadotropic hypogonadism (HH) who developed SCFE during growth hormone therapy (GHT). We also performed a systematic review of the cases of SCFE and hypogonadism in the literature. Case presentation: The patient was diagnosed with HH based on the absence of ovaries and a uterus. Her medical history included GHT for 9 years as she was small for gestational age. Chromosomal and genetic analyses revealed no pathogenic abnormalities. Radiographs revealed a left SCFE with a 28.7° posterior tilt angle. GHT was discontinued, and bilateral in situ screw fixation was performed. Sex hormone therapy (SHT) was initiated. Two years later, the patient recovered.Methods: We reviewed the cases of hypogonadism complicated with SCFE. The guidelines of the Preferred Reporting Items for Systematic Reviews and Meta-Analyses 2020 statement were followed. Case reports of patients were retrieved using PubMed on November 17, 2021.Results: A total of 44 cases of SCFE and hypogonadism were identified, including this case. Endocrinological complications included growth hormone deficiency (n = 18), being overweight (n = 9), and hypothyroidism (n = 25). Hormone replacement was administered before (SHT, n = 6; GHT, n = 12) and after surgery (SHT, n = 21; GHT, n = 11). SCFE surgery was invasive (minimal, n = 19; moderate, n = 10; high, n = 8). Orthopedic complications were observed in four cases. Conclusions: If hypogonadism occurs during GHT, SCFE should be noted. Hypogonadism should be studied to determine the effects of hormonal replacement on SCFE.

Individualized Growth Hormone Treatment - Using Two Different Prediction Models in a Clinical Setting

BackgroundDiagnosing growth hormone deficiency (GHD) can be challenging; hence, prediction models on growth outcome from growth hormone (GH) treatment have shown to be useful. We aim to compare the accuracy of the more readily available KIGS (Pfizer International Growth Study) prediction model to the previously clinically validated Gothenburg model.MethodsPrepubertal children with GHD who started GH treatment at Queen Silvia Children’s Hospital between 2004 and 2016 were considered for the study. Exclusion criteria were short stature due to syndrome, chronic disease, oncology disease, or known bad adherence. Growth predictions were made according to the Gothenburg model and the KIGS model. Growth data from birth until one year after start of GH treatment were collected from medical charts. Predicted height and observed height were then compared. ResultsA total of 123 children, 47 girls (38%) and 76 boys (62%) were included, with a mean age of 5.71 (±1.81 SD) years at start of GH treatment. The Pearson correlation of predicted first-year growth versus growth outcome were r = 0.990 for the Gothenburg model and r = 0.991 for the KIGS model. Studentized residuals were 0.10 ± 0.81 SD and 0.03 ± 0.96 SD, respectively, for the models. The comparison between the two models showed r = 0.995.ConclusionThe Gothenburg model and the KIGS model are equally accurate at predicting height outcome from GH treatment for our study cohort. We therefore promote the use of either model in clinical settings.

Long-Term Outcomes of Patients with Acromegaly - A Report from the Swedish Pituitary Register

Objective: To describe treatment and long-term outcomes of patients with acromegaly from all health-care regions in Sweden. Design and Methods: Analysis of prospectively reported data from the Swedish Pituitary Register of 698 patients (51% females) with acromegaly diagnosed from 1991-2011. The latest clinical follow-up date was December, 2012, while mortality data were collected for 28.5 years until June, 2019. Results: The annual incidence was 3.7/million; 71% of patients had a macroadenoma, 18% had visual field defects, and 25% had at least one pituitary hormone deficiency. Eighty-two percent had pituitary surgery, 10% radiotherapy and 39% medical treatment. At the 5- and 10-year follow-ups, IGF-I levels were within the reference range in 69% and 78% of patients, respectively. In linear regression the proportion of patients with biochemical control including adjuvant therapy at 10 year follow-up increased over time with 1.23 % per year. The SMR (95% CI) for all patients was 1.29 (1.11-1.49). For patients with biochemical control at the latest follow-up, SMR was not increased, neither among patients diagnosed 1991-2000, SMR 1.06 (0.85-1.33) or 2001-2011, SMR 0.87 (0.61-1.24). In contrast, non- controlled patients at the latest follow up from both decades had elevated SMR, 1.90 (1.33-2.72) and 1.98 (1.24-3.14), respectively. Conclusions: The proportion of patients with biochemical control increased over time. Patients with biochemically controlled acromegaly have normal life expectancy while non-controlled patients still have increased mortality. The high rate of macroadenomas and unchanged age at diagnosis illustrates the need for improvements in the management of patients with acromegaly.

Phenotypic spectrum of patients with mutations in CHD7: clinical implications of endocrinological findings

Objective: Heterozygous CHD7 mutations cause a broad spectrum of clinical phenotypes ranging from typical CHARGE syndrome to self-limited delayed puberty. This study aimed to investigate the clinical characteristics of endocrine dysfunction in patients with CHD7 mutations. Methods: The clinical features and endocrine findings from 30 patients with CHD7 variants were retrospectively reviewed. A diagnosis of CHARGE syndrome was based on the Verloes diagnostic criteria. Results: Seventeen patients fulfilled the criteria for typical CHARGE syndrome, one patient for partial/incomplete CHARGE, and the remaining 11 patients had atypical CHARGE syndrome. One patient was diagnosed with Kallmann syndrome and unilateral deafness. The most frequently observed features were inner ear anomalies (80.0%), intellectual disability (76.7%), and external ear anomalies (73.3%). The mean height and weight SDSs at diagnosis were -2.6 ± 1.3 and -2.2 ± 1.8, respectively. Short stature was apparent in 18 patients (60%), and one patient was diagnosed with growth hormone deficiency. Seventeen males showed genital hypoplasia, including micropenis, cryptorchidism, or both. Seven patients after pubertal age had hypogonadotropic hypogonadism with hyposmia/anosmia and olfactory bulb hypoplasia. Truncating CHD7 mutations were the most common (n = 22), followed by missense variants (n = 3), splice-site variants (n = 2), and large deletion (n = 2). Conclusions: A diverse phenotypic spectrum was observed in patients with CHD7 variants, and endocrine defects such as short stature and delayed puberty occurred in most patients. Endocrine evaluation, especially for growth and pubertal impairment, should be performed during diagnosis and follow-up to improve the patient’s quality of life.

Balanced assessment of growth disorders using clinical, endocrinological, and genetic approaches

Determining the pathogenesis of pediatric growth disorders is often challenging. In many cases, no pathogenesis is identified, and a designation of idiopathic short stature is used. The investigation of short stature requires a combination of clinical, endocrinological, and genetic evaluation. The techniques used are described, with equal importance being given to each of the 3 approaches. Clinical skills are essential to elicit an accurate history, family pedigree, and symptoms of body system dysfunction. Endocrine assessment requires hormonal determination for the diagnosis of hormone deficiency and initiation of successful replacement therapy. Genetic analysis has added a new dimension to the investigation of short stature and now uses next-generation sequencing with a candidate gene approach to confirm probable recognizable monogenic disorders and exome sequencing for complex phenotypes of unknown origin. Using the 3 approaches of clinical, endocrine, and genetic probes with equal status in the hierarchy of investigational variables provides the clinician with the highest chance of identifying the correct causative pathogenetic mechanism in a child presenting with short stature of unknown origin.

Prader-Willi syndrome: an update on obesity and endocrine problems

Prader-Willi syndrome (PWS) is a rare complex genetic disorder that results from a lack of expression of the paternally inherited chromosome 15q11-q13. PWS is characterized by hypotonia and feeding difficulty in early infancy and development of morbid obesity aggravated by uncontrolled hyperphagia after childhood and adolescent. Dysmorphic facial features, delayed motor and language development, various degrees of cognitive impairment, and behavioral problems are common in PWS. Without early, intensive nutritional therapy along with behavioral modification, PWS patients develop severe obesity associated with type 2 diabetes, obstructive sleep apnea, right-side heart failure, and other obesity-related metabolic complications. Hypothalamic dysfunction in PWS can lead to several endocrine disorders, including short stature with growth hormone deficiency, hypothyroidism, central adrenal insufficiency, and hypogonadism. In this review, we discuss the natural history of PWS and the mechanisms of hyperphagia and obesity. We also provide an update on obesity treatments and recommendations for screening and monitoring of various endocrine problems that can occur in PWS.

Gonadal Hormone Trigger Traf6-mediated Dynamic Microglial Alterations That Correlate With Depressive Symptomatology

Backgrounds: Gonadal hormone deficiency is associated with the development of depression, but what mediates this association is unclear. To test the possibility that it reflects neuroimmune and neuroinflammatory processes, we analyzed how gonadal hormone deficiency and replacement affect microglial activation and inflammatory response during the development of depressive symptomatology in gonadectomized male mice. Methods: Adult male ICR mice received gonadectomy. Gonadal hormone levels, neuroinflammation, mciroglial activation and depressive behaviors were evaluated 7 days, 14 days, and 30 days later. Furthermore, the neuroprotective mechanism of treatment with testosterone and estradiol on depressive symptomatology were also observed.Results: Testosterone level and the ratio of testosterone to estradiol in the serum and brain tissue of mice exposed to 3-35 days of chronic unpredictable stress were much lower than in control animals. Gonadal hormone sustained deficiency in gonadectomized mice and subsequent led to acute inflammation at day 7 following castration. Activating microglia in mice exposed to 7 days of castration subsequently suppressed the proliferation of microglia, such that their numbers in hippocampus and cortex were lower than the numbers in sham-operated mice after 30 days of castration. Here, we showed that gonadal hormone deficiency induces Traf6-mediated microglia activation, a type of inflammatory mediator. Microglia treated in this way for long time showed down-regulation of activation markers, abnormal morphology and depressive-like behaviors. Restoration and maintenance of a fixed ratio of testosterone to estradiol significantly suppressed microglial activation, neuronal necroptosis, dramatically inducing hippocampal neurogenesis and reducing depressive behaviors via the suppression of Traf6/TAK1 pathway. Conclusions: These findings suggest that activated or immunoreactive microglia contribute to gonadal hormone deficiency-induced depression, as well as testosterone and estradiol exert synergistic anti-depressant effects via suppressing microglial activaton in gonadectomized male mice, possibly through Traf6 signaling.