The complex anatomy of the skull and face arises from the requirement to support multiple sensory and structural functions. During embryonic development, the diverse component elements of the neuro- and viscerocranium must be generated independently and subsequently united in a manner that sustains and promotes the growth of the brain and sensory organs, while achieving a level of structural integrity necessary for the individual to become a free-living organism. While each of these individual craniofacial components is essential, the cranial and facial midline lies at a structural nexus that unites these disparately derived elements, fusing them into a whole. Defects of the craniofacial midline can have a profound impact on both form and function, manifesting in a diverse array of phenotypes and clinical entities that can be broadly defined as frontonasal dysplasias (FNDs). Recent advances in the identification of the genetic basis of FNDs along with the analysis of developmental mechanisms impacted by these mutations have dramatically altered our understanding of this complex group of conditions.
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Article Synopsis
- - Frontonasal dysplasia (FND) is a rare congenital condition characterized by facial anomalies, such as a deformed nose and wide-set eyes (ocular hypertelorism), and can be associated with other issues like cleft lip/palate.
- - A 33-year-old pregnant woman was diagnosed at 20 weeks with FND and additional complications, including limb anomalies and brain underdevelopment, using 3D ultrasound; despite extensive genetic testing, no new gene variants were identified.
- - This case highlights the spectrum of FND and demonstrates that 3D ultrasound is effective in identifying associated deformities during prenatal assessments.
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