A newborn male with Myhre syndrome, hearing loss, and complete syndactyly of fingers 3-4.

Myhre syndrome (OMIM 139210) is a rare developmental disorder inherited as an autosomal dominant trait and caused by a narrow spectrum of missense mutations in the SMAD4 gene. The condition features characteristic face, short stature, skeletal anomalies, muscle pseudohypertrophy, restricted joint mobility, stiff and thick skin, and variable intellectual disability. While most of the clinical features manifest during childhood, the diagnosis may be challenging during the first years of life. We report on the evolution of the clinical features of Myhre syndrome during childhood in a subject with molecularly confirmed diagnosis. The clinical records of 48 affected patients were retrospectively analysed to identify any early clinical signs characterizing this disorder and to better delineate its natural history. We also note that pericarditis and laryngotracheal involvement represent important life-threatening complications of Myhre syndrome that justify the recommendation for cardiological and ENT follow-up for these patients. Short length/stature, short palpebral fissures, and brachydactyly with hyperconvex nails represent signs/features that might lead to the correct diagnosis in the first years of life and direct to the proper molecular analysis. We underline the clinical relevance of pericarditis and laryngotracheal stenosis as life-threatening complications of this disorder and the need for careful monitoring, in relation to their severity. • The clinical and radiological signs of the disease in children older than 7-8years. • Pericarditis, sometimes occurring with constrictive pericardium requiring pericardiectomy, has been reported as a recurrent feature but has not been adequately stressed in previous literature. What is New: • Short length/stature, short palpebral fissures, brachydactyly with hyperconvex nails represent clinical signs that might lead to diagnosis in the first years of life. • Review of the literature showed that pericarditis and laryngotracheal complications represent major recurrent issues in patients with Myhre syndrome.

Myhre syndrome (MIM 139210) is a rare autosomal‐dominant disorder characterised by short stature, brachydactyly, facial dysmorphism (short palpebral fissures, prognathism and short philtrum), developmental delay with mental retardation or/and behavioural troubles, progressive deafness of mixed conductive and sensory type and a trio of thickened skin, generalised muscle hypertrophy and restricted joint mobility. Life‐threatening complications (obesity, arterial hypertension and bronchopulmonary insufficiency) are observed in the course of the disease leading to an early death. In 2011, SMAD4 (SMAD family member 4) has been identified as the disease‐causing gene. All mutations identified so far are de novo heterozygous missense mutations, mainly involving Ile500. While SMAD4 inactivation is reported in juvenile polyposis syndrome with increased colorectal cancer risk, no increased tumoural risk has been observed in Myhre syndrome. SMAD4 is a key mediator of TGF‐β (transforming growth factor beta)/BMP (bone morphogenetic protein) signalling and the understanding of the consequences of SMAD4 mutations during development will decipher new regulatory network related to TGF‐β/BMP signalling. Key Concepts Myhre syndrome is a rare genetic condition of autosomal‐dominant inheritance due to SMAD4 mutations affecting Arg496 or Ile500 residues. Myhre syndrome is characterised by short stature, brachydactyly, facial dysmorphism, developmental delay, progressive deafness and a trio of thickened skin, generalised muscle hypertrophy and restricted joint mobility. Myhre syndrome is associated to a risk of early death due to possibly life‐threatening health conditions (obesity, arterial hypertension, bronchopulmonary insufficiency, laryngotracheal stenosis and pericarditis). Similar to mothers against decapentaplegic family member 4 ( SMAD4 ) encodes the common partner SMAD of the eight‐member family of SMAD proteins. SMAD4 aggregates into heterotrimer with the receptor‐regulated SMADs (R‐SMADs) once they are activated by phosphorylation by transmembrane serine–threonine receptor kinases in response to stimulation of TGF‐β, activin or BMP receptor pathways. The SMAD4 mutations identified in Myhre syndrome are expected to disturb the monoubiquitination of SMAD4 which occurs at Lys519 and also to disturb the function of the SMAD heterotrimer which regulates the expression of target genes. Germline heterozygous mutations in SMAD4 are known to cause juvenile polyposis syndrome (JPS) and JPS‐hereditary hemorrhagic telangiectasia. The SMAD4 mutations observed in JPS and JPS‐HHT include nonsense, missense, splice‐site changes and deletions, consistent with a loss‐of‐function mechanism. Increased tumoural risk has not been observed so far in Myhre syndrome. The development of tissue‐specific mouse models of Smad4 deficiency further highlighted the important role of Smad4 in a wide range of embryonic developmental processes.

Myhre syndrome is an increasingly diagnosed rare syndrome that is caused by one of two specific heterozygous gain-of-function pathogenic variants in SMAD4. The phenotype includes short stature, characteristic facial appearance, hearing loss, laryngotracheal stenosis, arthritis, skeletal abnormalities, learning and social challenges, distinctive cardiovascular defects, and a striking fibroproliferative response in the ear canals, airways, and serosal cavities (peritoneum, pleura, pericardium). Confirmation of the clinical diagnosis is usually prompted by the characteristic appearance with developmental delay and autistic-like behavior using targeted gene sequencing or by whole exome sequencing. We describe six patients (two not previously reported) with molecularly confirmed Myhre syndrome and neoplasia. Loss-of-function pathogenic variants in SMAD4 cause juvenile polyposis syndrome and we hypothesize that the gain-of-function pathogenic variants observed in Myhre syndrome may contribute to neoplasia in the patients reported herein. The frequency of neoplasia (9.8%, 6/61) in this series (two new, four reported patients) and endometrial cancer (8.8%, 3/34, mean age 40 years) in patients with Myhre syndrome, raises the possibility of cancer susceptibility in these patients. We alert clinicians to the possibility of detecting this syndrome when cancer screening panels are used. We propose that patients with Myhre syndrome are more susceptible to neoplasia, encourage increased awareness, and suggest enhanced clinical monitoring.

Myhre syndrome is associated with a recognizable pattern of facial differences that develop after early childhood. Patients typically have midface hypoplasia, mandibular prognathism, narrow oral commissures with a short philtrum and thin upper lip vermillion. Other characteristics include deeply set eyes with short palpebral fissures, and small, widely spaced teeth. The aim of this study is to review the concept of prognathism in Myhre syndrome, describe the oral and maxillofacial surgery (OMS) evaluation of three females, and provide some preliminary data to propose more objective guidelines and diagnostic tools for facial evaluation in other patients. In addition to the dysmorphologic examination, maxillofacial imaging is recommended in many patients to evaluate the dentition, midface and mandibular anatomy. An orthopantomogram is useful to visualize the dentition, alveolar portion of the maxilla and the mandible. A lateral cephalogram can assess jaw relationships and allow cephalometric analyses to compare to published norms. With the common characteristics visualized, a checklist has been developed to serve as a guide when evaluating patients. OMS consultation can enhance the care provided by the medical geneticists who usually manage these individuals.

peer reviewed

Myhre syndrome is a rare, distinctive syndrome due to specific gain-of-function mutations in SMAD4. The characteristic phenotype includes short stature, dysmorphic facial features, hearing loss, laryngotracheal anomalies, arthropathy, radiographic defects, intellectual disability, and a more recently appreciated spectrum of cardiovascular defects with a striking fibroproliferative response to surgical intervention. We report four newly described patients with typical features of Myhre syndrome who had (i) a mildly narrow descending aorta and restrictive cardiomyopathy; (ii) recurrent pericardial and pleural effusions; (iii) a large persistent ductus arteriosus with juxtaductal aortic coarctation; and (iv) restrictive pericardial disease requiring pericardiectomy. Additional information is provided about a fifth previously reported patient with fatal pericardial disease. A literature review of the cardiovascular features of Myhre syndrome was performed on 54 total patients, all with a SMAD4 mutation. Seventy percent had a cardiovascular abnormality including congenital heart defects (63%), pericardial disease (17%), restrictive cardiomyopathy (9%), and systemic hypertension (15%). Pericarditis and restrictive cardiomyopathy are associated with high mortality (three patients each among 10 deaths); one patient with restrictive cardiomyopathy also had epicarditis. Cardiomyopathy and pericardial abnormalities distinguish Myhre syndrome from other disorders caused by mutations in the TGF-β signaling cascade (Marfan, Loeys-Dietz, or Shprintzen-Goldberg syndromes). We hypothesize that the expanded spectrum of cardiovascular abnormalities relates to the ability of the SMAD4 protein to integrate diverse signaling pathways, including canonical TGF-β, BMP, and Activin signaling. The co-occurrence of congenital and acquired phenotypes demonstrates that the gene product of SMAD4 is required for both developmental and postnatal cardiovascular homeostasis. © 2016 Wiley Periodicals, Inc.

Myhre syndrome (MS) is a rare genetic condition that presents with multiple genetic anomalies including cleft lip and palate and Eustachian tube dysfunction. These patients are at a high risk for airway scarring from intubation and mucosal inflammation. Hearing loss (conductive or mixed, of varying severity) is a common comorbidity in these patients, the exact etiology of which is still unclear. We present the cases of 2 unrelated children with MS who suffered progressive mixed hearing loss from fibrosis and obliteration of the middle ear spaces. Both patients had multiple sets of ear tubes that demonstrated early extrusion. The older patient underwent bone conduction implantation at age 11 which resulted in dramatic improvement of speech recognition and interactive skills. The other younger patient demonstrates a similar trajectory but has not yet undergone implantation. Otolaryngologists should take a cautious approach to surgery of the eardrum and middle ear to avoid unnecessary induction of fibrosis in this susceptible patient population. These cases highlight a newly described etiology for hearing loss and suggest a benefit to bone conduction implantation.

Myhre syndrome is an ultrarare genetic disease characterized by short stature, distinct craniofacial features, cardiovascular and respiratory fibrosis and stenosis, neurodevelopmental delays, autism, intellectual disability, and hearing loss. The natural history of Myhre syndrome is still not fully understood due to a small patient population with a heterogeneity of symptoms. Myhre Syndrome Foundation created the Myhre Syndrome Patient Registry with Coordination of Rare Diseases at Sanford to capture disease symptoms and quality of life data of the global Myhre syndrome community. Here we describe the self-reported questionnaire data from 105 people with Myhre syndrome from 24 countries. This data expands the knowledge of Myhre syndrome manifestations and documents patient and caregiver concerns.

Myhre syndrome is a rare multisystem disorder characterized by distinctive facial features, hearing loss, and progressive fibrosis affecting the skin, joints, lungs, and cardiovascular system. It is caused by heterozygous pathogenic variants in the SMAD4 gene. In this review, we detail the cutaneous manifestations observed in two previously reported patients with genetically confirmed Myhre syndrome. While skin biopsies demonstrated pan-dermal thickening of collagen bundles, the immunohistochemical staining patterns were distinct from those seen in other inflammatory sclerosing disorders. Additionally, we conducted a comprehensive literature review of the cutaneous features associated with Myhre syndrome, identifying 175 patients with confirmed SMAD4 pathogenic variants. The most reported cutaneous finding was thickened or stiff skin (76%), followed by keratosis pilaris (22%) and impaired wound healing or abnormal scarring (18%). Genotype-phenotype analysis suggested a diagnostic delay in patients with the codon 496 variant, who were more frequently diagnosed in adulthood. This variant may also be associated with a milder cutaneous phenotype, highlighting the clinical heterogeneity of Myhre syndrome. These findings underscore the importance of recognizing cutaneous features as potential early diagnostic clues in patients with suspected Myhre syndrome.

ObjectivesMyhre Syndrome is a complex multi-system disorder that frequently presents in childhood with developmental delay and failure to thrive.1 It is caused by specific heterozygous missense variants in SMAD4, a...

Myhre syndrome is a rare genetic autosomal dominant connective tissue disorder, characterized by developmental delay, characteristic facial features, various bone and joint abnormalities, distinctive cardiovascular, ophthalmological and ear, nose and throat (ENT) manifestations, in association with mild to moderate intellectual disability and autism or autism spectrum disorder-like behaviour. The diagnosis of Myhre syndrome is established corroborating the clinical findings with SMAD4 heterozygous mutation identified in the majority of the patients. SMAD4 gene mutations result in abnormal TGF-β signalling in several cell types, which affects the development of several body systems and leads to the specific phenotype of Myhre syndrome. We herein report the case of an 18-year-old female patient who was diagnosed at the age of 17 years with Myhre syndrome, the first documented case of this syndrome in Romania. Sequence analysis of protein-coding genes using whole-exome analysis identified a ‘de novo’, heterozygous missense variant of SMAD4, c.1498A>G, p. (Ile500Val), which is pathogenic for Myhre syndrome. Although this condition is rare, a series of particularities were identified in the present case, consisting of severe allergic reactions, recurrent ENT tumour development and delayed dental eruption, which have not been described in Myhre syndrome to date, to the best of the authors' knowledge.

Myhre syndrome is a rare disorder characterized by pre- and postnatal short stature, brachydactyly, facial dysmorphism (short palpebral fissures, maxillary hypoplasia, prognathism and short philtrum), thick skin, muscular-appearing body build, decreased joint mobility, mixed hearing loss, and cleft lip and palate. Other clinical features include skeletal dysplasia, developmental delay with intellectual disability and/or behavioral disturbance, cardiac defects, cryptorchidism, and bone anomalies. The disease is caused by recently identified SMAD4 mutations. Here we describe a 7-year-old boy with a molecularly proven Myhre syndrome who presented life-threatening recurrent pericarditis and systemic inflammatory symptoms that required treatment with steroid and recombinant interleukin-1 receptor antagonist.

Myhre syndrome is a rare disorder characterized by pre- and postnatal short stature, brachydactyly, facial dysmorphism (short palpebral fissures, maxillary hypoplasia, prognathism and short philtrum), thick skin, muscular-appearing body build, decreased joint mobility, mixed hearing loss, and cleft lip and palate. Other clinical features include skeletal dysplasia, developmental delay with intellectual disability and/or behavioral disturbance, cardiac defects, cryptorchidism, and bone anomalies. The disease is caused by recently identified SMAD4 mutations. Here we describe a 7-year-old boy with a molecularly proven Myhre syndrome who presented life-threatening recurrent pericarditis and systemic inflammatory symptoms that required treatment with steroid and recombinant interleukin-1 receptor antagonist.

This study identified an association between cholesteatoma and progressive sensorineural hearing loss using a large pediatric longitudinal audiologic dataset. Cholesteatoma is a potential sequela of chronic otitis media with effusion, a commonly observed auditory pathology that can contribute to hearing loss in children. The purpose of this report is to (i) describe the process of identifying the association between cholesteatoma and progressive sensorineural hearing loss in a large pediatric dataset and (ii) describe the audiologic data acquired over time in patients identified with cholesteatoma-associated progressive sensorineural hearing loss. Records of patients included in the Audiologic and Genetics Database (n = 175,215 patients) were examined using specified criteria defining progressive hearing loss. A linear regression model examined the log frequency of all diagnostic codes in the electronic health record assigned to patients for a progressive hearing loss cohort compared with a stable hearing loss group. Based on findings from the linear regression analysis, longitudinal audiometric air (AC) and bone conduction (BC) thresholds were extracted for groups of subjects with cholesteatoma-associated progressive (n = 58 subjects) and stable (n = 55 subjects) hearing loss to further analyze changes in hearing over time. The linear regression analyses identified that diagnostic codes for cholesteatoma were associated with progressive sensorineural hearing loss in children. The longitudinal audiometric data demonstrated within-subject changes in masked BC sensitivity consistent with progressive sensorineural hearing loss in children diagnosed with cholesteatoma. Additional analyses showed that mastoidectomy surgeries did not appear to contribute to the observed progressive hearing loss and that a high number of cholesteatoma patients with progressive hearing loss had normal-hearing thresholds at their first test. The statistical analyses demonstrated an association between cholesteatoma and pediatric progressive sensorineural hearing loss. These findings inform clinical management by suggesting that children with cholesteatoma diagnoses may be at increased risk for progressive sensorineural hearing loss and should receive continued monitoring even after a normal masked BC baseline has been established.

Advocacy support groups grow into national and international organizations, but they all begin with personal experiences. As the parents to a newly diagnosed two-year-old son with Myhre syndrome, my husband and I were overwhelmed with the journey ahead. Thanks to networking, primarily through social media, we located other families living with Myhre syndrome and were quickly immersed in the challenges and joy of this community. Myhre syndrome, caused by pathogenic missense variants in SMAD4, is a rare connective tissue disease characterized by short stature, hearing loss, neurodevelopmental challenges, and fibroproliferation.This personal essay, written with physician partners, describes the development of a global advocacy group for patients with Myhre syndrome. I have the honor of serving as the founding Executive Director and reflect proudly on the great strides that our marvelous support group has made. We empower the global community impacted by this rare condition by providing meaningful and accessible data, educational opportunities, and connections with others going through similar experiences. Utilizing the expertise of our Board of Directors and my corporate expertise, we discuss how we have been able to elevate our ultra-rare community into a broader, more comprehensive network.