Carol Knightly scite author profile

Muenke syndrome is an autosomal dominant disorder characterized by coronal suture craniosynostosis, hearing loss, developmental delay, carpal and tarsal fusions, and the presence of the Pro250Arg mutation in the FGFR3 gene. Reduced penetrance and variable expressivity contribute to the wide spectrum of clinical findings in Muenke syndrome. To better define the clinical features of this syndrome, we initiated a study of the natural history of Muenke syndrome. To date, we have conducted a standardized evaluation of nine patients with a confirmed Pro250Arg mutation in FGFR3. We reviewed audiograms from an additional 13 patients with Muenke syndrome. A majority of the patients (95%) demonstrated a mild-to-moderate, low frequency sensorineural hearing loss. This pattern of hearing loss was not previously recognized as characteristic of Muenke syndrome. We also report on feeding and swallowing difficulties in children with Muenke syndrome. Combining 312 reported cases of Muenke syndrome with data from the nine NIH patients, we found that females with the Pro250Arg mutation were significantly more likely to be reported with craniosynostosis than males (P < 0.01). Based on our findings, we propose that the clinical management should include audiometric and developmental assessment in addition to standard clinical care and appropriate genetic counseling.

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Communication disorders in the 22Q11.2 microdeletion syndrome

Solot

Knightly

Handler

et al. 2000

Journal of Communication Disorders

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Hearing Loss after Cardiac Surgery in Infancy: An Unintended Consequence of Life-Saving Care

Grasty

Ittenbach

Knightly

et al. 2018

The Journal of Pediatrics

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Pediatric Communication Disorders

Gravel¹,

Burstein²,

Donaher³

et al. 2007

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Auditory Brain Stem Responses Recorded With Uncushioned Earphones

Marsh

Knightly²

1992

Am J Audiol

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Although the cushion is essential to accurate pure-tone audiometry with conventional earphones, it may interfere with the auditory brain stem response (ABR) testing of small infants because of its size and the risk of ear canal collapse. To determine the consequences of ABR testing with an uncushioned earphone, adults were tested with and without the cushion, and probe-tube sound measurements were made. Although removing the cushion results in substantial signal attenuation below 1 kHz, there is little effect on the click-elicited ABR.

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Carol Knightly

Muenke syndrome (FGFR3‐related craniosynostosis): Expansion of the phenotype and review of the literature

Communication disorders in the 22Q11.2 microdeletion syndrome

Hearing Loss after Cardiac Surgery in Infancy: An Unintended Consequence of Life-Saving Care

Pediatric Communication Disorders

Auditory Brain Stem Responses Recorded With Uncushioned Earphones

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