Sandra Walton-Betancourth scite author profile

Sandra Walton-Betancourth

5Publications

10Citation Statements Received

68Citation Statements Given

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Affiliations

Cambridge University Hospitals NHS Foundation Trust, Great Ormond Street Hospital, Royal London Hospital

Publications

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Growth Hormone With Aromatase Inhibitor May Improve Height in CYP11B1 Congenital Adrenal Hyperplasia

Hawton

Walton-Betancourth

Rumsby

et al. 2017

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With an estimated prevalence of 1 in 100 000 births, 11β-hydroxylase deficiency is the second most common form of congenital adrenal hyperplasia (CAH) and is caused by mutations in CYP11B1. Clinical features include virilization, early gonadotropin-independent precocious puberty, hypertension, and reduced stature. The current mainstay of management is with glucocorticoids to replace deficient steroids and to minimize adrenal sex hormone overproduction, thus preventing virilization and optimizing growth. We report a patient with CAH who had been suboptimally treated and presented to us at 6 years of age with precocious puberty, hypertension, tall stature, advanced bone age, and a predicted final height of 150 cm. Hormonal profiles and genetic analysis confirmed a diagnosis of 11β-hydroxylase deficiency. In addition to glucocorticoid replacement, the patient was commenced on growth hormone and a third-generation aromatase inhibitor, anastrozole, in an attempt to optimize his growth. After the initiation of this treatment, the patient’s growth rate improved significantly and bone age advancement slowed. The patient reached a final height of 177.5 cm (0.81 SD score), 11.5 cm above his mid-parental height. This patient is only the second reported case of the use of an aromatase inhibitor in combination with growth hormone to optimize height in 11β-hydroxylase-deficient CAH. This novel treatment proved to be highly efficacious, with no adverse effects. It may therefore provide a promising option to promote growth in exceptional circumstances in individuals with 11β-hydroxylase deficiency presenting late with advanced skeletal maturation and consequent short stature.

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Attitudes toward fertility and reproductive health among transgender adolescents

Walton-Betancourth¹,

Monti²,

Adu-Gyamfi³

et al. 2018

EJEA

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Excellent growth response to growth hormone therapy in a child with PTPN11-negative Noonan syndrome and features of growth hormone resistance

Walton-Betancourth

Martinelli

Thalange

et al. 2007

J Endocrinol Invest

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We report a child with Noonan syndrome, referred with severe short stature (height--5.4 SD) and biochemical features of GH resistance. The Noonan syndrome phenotype was confirmed by a clinical geneticist, however analysis of the protein tyrosine phosphatase nonreceptor type 11 (PTPN11) gene showed no mutation. Baseline serum IGF-I, IGFbinding protein 3 (IGFBP-3) and acid-labile subunit (ALS) were low, and in an IGF-I generation test, IGF-I did not increase into the normal range and IGFBP-3 and ALS did not change. These results are consistent with GH resistance. Treatment with human GH (hGH) was given in a dose of 0.05 mg/kg/day and height velocity increased from 5.6 to 10.7 cm/yr during the first year, and 8.9 cm/yr during the second year of therapy. Height standard deviation score has increased by 1.85 after 2 and a half yr of therapy. Serum IGF-I, IGFBP-3 and ALS values increased well into the normal range. This case shows that the potential value of GH therapy must be evaluated in each patient individually and that an excellent response may occur in a child with a PTPN11-negative genotype.

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Fertility preservation for transgender adolescents: The parent's view

Walton-Betancourth¹,

Monti²,

Adu-Gyamfi³

et al. 2018

EJEA

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Early Postnatal Use of Glibenclamide in Permanent Neonatal Diabetes Secondary to Antenatally Diagnosed <b><i>KJCN11</i></b> Mutation

et al. 2022

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Introduction: Heterozygous activating mutations in KCNJ11 cause both permanent and transient neonatal diabetes. A minority of patients also have neurological features. Early genetic diagnosis has important therapeutic implications as treatment with sulfonylurea provides good metabolic control and exerts a protective effect on neuromuscular function. Case presentation: A term female infant with normal birth weight (2.73 Kg, z-score: -1.69) was admitted to the Neonatal Unit at Addenbrookes Hospital. She had been antenatally diagnosed with KCNJ11 mutation-R201C inherited from her glibenclamide‐treated mother who continued sulfonylurea treatment throughout pregnancy. A continuous glucose monitoring system inserted at 20 hours of age showed progressive rise of blood glucose concentrations, prompting treatment with glibenclamide on day 2 of life. Initial attempts to treat with an extemporaneous solution of glibenclamide (starting dose 0.2mg/kg/day) resulted in inconsistent response and significant hypoglycaemia and hyperglycaemia. A licensed liquid formulation of glibenclamide (Amglidia) at a starting dose of 0.05 mg/kg/day was used with stabilisation of blood glucose profile within 24 hours. Other than a mild transient elevation in transaminase, treatment was well tolerated. At most recent review (age 12 months), the patient remains well with age-appropriate neurodevelopment. Overall glucose control is reasonable with estimated HbA1c of 7.6% (59.9 mmol/mol). Conclusion: Early post-natal glibenclamide treatment of insulin-naïve patients with KATP-dependent neonatal diabetes is safe, provides good metabolic control and has a potential protective effect on neurological function. The formulation of the medicine needs to be carefully considered in the context of the very small doses required in this age group.

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