BSPED2021 Poster Presentations Pituitary and Growth (8 abstracts)
SGA, short stature, brachydactyly and joint stiffness due to SMAD4 variants in Myhre syndrome
Anand Ramakrishnan 1 , Silvia Yakoop 2 , Sharon Lim 2 , Ruben Willemsen 1 , Alistair Calder 3 & Evelien Gevers 1,4
1Department of Paediatric Endocrinology, Royal London Children’s Hospital, Barts Health NHS Trust, London, United Kingdom; 2Department of Paediatrics, Broomfield Hospital, Mid and South Essex NHS Foundation Trust, London, United Kingdom; 3Department of Radiology, Great Ormond Street Hospital for Children NHS Foundation Trust, London, United Kingdom; 4Centre for Endocrinology, Queen Mary University of London, London, United Kingdom
We present 3 children in a single centre with Myhre syndrome (MS) due to a heterozygous SMAD4 Ile500val mutation. Consistent features were brachydactyly, joint restriction, muscular hypertrophy, genital abnormalities, conductive hearing loss and developmental delay. SGA and height were variable. Diagnosis was made by next generation sequencing in patients 1 and 3 and on the skeletal survey in patient 2. Retrospectively, features of Myhre syndrome were present on the skeletal survey in all 3 patients, at young age.
Discussion: MS has been described in under 100 patients. MS is mostly caused by SMAD4 Ile500Val gain-of-function mutations(GOF) resulting in growth retardation and excessive fibrosis leading to keloid formation, cardiac fibrosis and tracheal stenosis after trauma/intervention. Making early diagnosis is important to avoid non-essential invasive procedures. SMAD4 is the central intracellular mediator of TGF β and BMP signalling and inhibits chondrocyte differentiation and hypertrophy, and mice with SMAD4 deletion in chondrocytes are dwarved. Gain-of-function leads to abnormal extracellular matrix formation, although the effect on growth plate chondrocytes is unclear. Neurosecretory dysfunction and variable response to GH has been described, in line with findings in patient 1. The mechanism for the neurosecretory dysfunction is not known.
| Child 1 | Child 2 | Child 3 | |
| Clinical features | |||
| Birth weight | -2.58 SDS | -2.00 SDS | -1.49 SDS |
| Current height | -2.75 SDS (14.3 years) | 0.71 SDS (6.3 years) | -2.2 SDS (5.3 years) |
| Cardiac | - | - | VSD, PDA |
| Genitourinary | Cryptorchidism | Epispadias, megaprepuce | Undescended testis, inguinal hernia |
| Other | Keloid | ||
| Investigations | |||
| IGF-1 (Normal range) | 23mcg/l (6-57.6), GH peak 6.7ng/mL | 243mcg/l (18.1-307) | 85 mcg/l (12-120), IGF-BP3 2.5 mg/l (0.5-2.9). |
| Skeletal survey | Brachydactyly, Prognathism (aged 4 years) | Large vertebral pedicles, Brachydactyly Prognathism (aged 5.5 years) | Large vertebral pedicles, Subtle brachydactyly, Prognathism (aged 6 months) |
| GH treatment | Yes, age 4–9.5 years, 77% increase in HV, stopped due to muscular hypertrophy | None | None |
Conclusion: MS may be more common than previously thought. SGA and height deficit are variable. GH treatment might increase height but can also accentuate muscular hypertropy. Skeletal surveys in our patients showed features at early age, and skeletal survey may therefore aid early diagnosis.
Clinical characteristics were as follows:
Volume 78
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Endocrine Abstracts
ISSN 1470-3947 (print) | ISSN 1479-6848 (online)
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