<b><i>Introduction:</i></b> Parents (PP) of children in primary care clinics previously reported factors influencing their height-related medical decision making. However, patients seeking height-related care in endocrine subspecialty clinics and their parents (EP) differ demographically from the general population. <b><i>Objective:</i></b> To determine EP height-related medical concerns and expectations, and to compare between EP and PP. <b><i>Methods:</i></b> EP completed a survey assessing their concerns in seeking medical care for their child’s height with identical questions previously asked of PP and two additional questions about growth hormone (GH) treatment. <b><i>Results:</i></b> A greater proportion of the 166 EP (80% response rate) than the 1,820 PP (83% response rate) previously surveyed was Caucasian (75% EP, 41% PP) and privately insured (80% EP, 58% PP). Both groups rated treatment efficacy and risks most as having a <i>big</i>or<i> extreme impact</i> on decision making (65% EP, 58% PP). The second most rated concern for EP was comparison of child’s height to peers or growth chart (60% EP, 32% PP) versus child’s health for PP (54% EP, 56% PP). Of the 166 EP surveyed, 76% rated GH treatment as potentially improving quality of life (QoL), with 88% reporting a minimum 3-inch height increase as necessary to improve QoL. <b><i>Conclusions:</i></b> Height comparisons were more likely to impact EP than PP in seeking height-related medical care for their children. EP had high expectations of QoL improvement with GH treatment, which are unlikely to be met with treatment of idiopathic short stature. Thus, clinicians should be prepared to support families in other ways that promote positive development in children with short stature.
Cofilin-2 is an actin-binding protein that is predominantly expressed in skeletal and cardiac muscles and belongs to the AC group of proteins, which includes cofilin-1 and destrin. In humans, cofilin-2 (CFL2) mutations have been associated with congenital myopathies that include nemaline and myofibrillar myopathy. To understand the pathogenicity of the human CFL2 mutation, p.A35T, that first linked cofilin-2 with the human disease, we created a knock-in mouse model. The Cfl2A35T/A35T (KI) mice were indistinguishable from their wild-type littermates at birth, but they rapidly worsened and died by postnatal day 9. The phenotypic, histopathologic and molecular findings mimicked the constitutive Cfl2-knockout (KO) mice described previously, including sarcomeric disruption and actin accumulations in skeletal muscles and negligible amounts of cofilin-2 protein. In addition, KI mice demonstrated a marked reduction in Cfl2 mRNA levels in various tissues including skeletal muscles. Further investigation revealed evidence of alternative splicing with the presence of two alternate transcripts of smaller size. These alternate transcripts were expressed at very low levels in the wild-type mice and were significantly upregulated in the mutant mice, indicating that pre-translational splicing defects may be a critical component of the disease mechanism associated with the mutation. Evidence of reduced expression of the full-length CFL2 transcript was also observed in the muscle biopsy sample of the patient with p.A35T mutation.
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