Growth Hormone Deficiency in a Patient with Becker Muscular Dystrophy: A Pediatric Case Report

Objective. To describe a biochemical growth hormone (GH) deficiency and to evaluate therapeutic result in a six-year-old male with Becker muscular dystrophy (BMD). Methods. GH peak was evaluated after response to arginine and insulin. Bone age was evaluated according to Greulich and Pyle method. Results. The GH-supplementary therapy was very effective in terms of growth gain. Conclusion. The possibility of a growth hormone deficiency and treatment with GH in patients with BMD cannot be excluded, especially considering the good therapeutic response.


Introduction
Becker muscular dystrophy (BMD) is a condition due to mutations in the gene that expresses the dystrophin protein, located in X chromosome. Dystrophin is present in the muscle cytoskeleton and its failure causes sarcolemma instability and disruption. is seems to be the main factor of myopathy occurring in DMB, resulting in progressive muscle weakness, especially of the upper districts and dilated cardiomyopathy [1,2].
A gradual slowing down of growth is described in muscular dystrophies, particularly in Duchenne's; however, this does not seem related to growth hormone de�ciency [3][4][5][6].
�e report a case of BMD with GH-de�cient short stature who showed a good growth response to recombinant human GH therapy.

Case Presentation
D. R. was born at 40 weeks' gestation with a birth weight of 3000 g. At 18 months of age, Becker muscular dystrophy was diagnosed (deletion of exons 45-47 in the locus of dystrophin).
At the age of six yr the patient was referred to our Endocrinology Unit for short stature and delayed bone age in relation to chronological age (bone age according to Greulich and Pyle method: 42 months).
Initial laboratory studies revealed the following: IGF 53 ng/mL (25th percentile for age and gender), normal thyroid function with absence of autoantibodies, negativity of anti-endomisium and anti-tissue tranglutaminase, normal adrenal function. e evaluation of GH secretion showed a partial GH de�ciency (GH peak response to arginine: 4.0 ng/mL; GH peak response to insulin: 8.7 ng/mL). Aer oral glucose test a normal tolerance was found. Magnetic resonance imaging of the hypothalamic-pituitary region was normal. At the age of six yr and four months, GH replacement therapy was started at the dose of 0.027 mg/kg/day. e GHsupplementary therapy was very effective in terms of growth gain (Table 1).
During followup the child maintained stability of the clinical frame (characterized by mild weakness, fatigue, myalgias, and hypertrophy of the calves), neuro-and cardio-respiratory functions, and metabolic parameters.

Conclusion
Becker muscular dystrophy is a neuromuscular recessive disease related to X chromosome caused by qualitative and quantitative alterations of the dystrophin. BMD affects about 5/100,000 newborns; however, the high premature mortality explains why the disease has such a low incidence (2.4/100,000) [1,2]. From a clinical point of view, affected patients present a progressive loss of strength, which is more marked in charge of proximal districts, particularly in the proximal pelvic girdle, and dilated cardiomyopathy, which oen plays a decisive role in the evolution of the disease. Clinical evolution shows sural triceps pseudohypertrophy; femoral quadriceps can occur to be both hypo-and hypertrophied. Compared to the Duchenne muscular dystrophy, the BMD hardly presents respiratory compromisation.
In muscular dystrophies, especially in DMD, a peculiar pattern of growth has been described, which is characterized by regular weight and length at birth and a slow progressive statural slowdown in the �rst years of life [3,4]. Short stature does not seem to be related to GH de�ciency or GH-IGF axis alterations [5]; instead, it might be related to several other factors such as reduced physical activity [4], abnormal response to GH [5], SHOX (short stature homeobox-containing) gene alterations, which is mapped to chromosome Xq22, therefore potentially involved in the anomalies of the nearly region Xq21, which contains the coding gene for the dystrophin [3,4,6].
In our report, short stature is related to GH de�ciency. GH de�ciency may be total or partial, isolated, or associated with other abnormalities of pituitary hormones. In childhood the disease is usually idiopathic but may be secondary to morphological abnormalities, malformations, or brain tumors. Our patient presents a partial GH secretion de�ciency, which is not associated with other secretory anomalies and is not secondary to alterations of the hypothalamic-pituitary region. e growth hormone therapy had a bene�cial effect in terms of growth gain, with stability of the neuromuscular disease, but we cannot de�ne any speci�c positive effects on muscle. In the literature, the association between BMD and GH-de�ciency has not been previously reported; other studies will help to determine if this association is casual or if in BMD growth hormone secretion and response to treatment are different from Duchenne Muscular Dystrophy.
In conclusion, the possibility of growth hormone de�ciency and treatment with GH in patients with BMD cannot be excluded, also considering the bene�cial effect of the therapy.