A 37-year-old pregnant woman was referred to our hospital at 9 weeks of gestation with a history of previous medical termination of pregnancy in the context of prenatal diagnosis of trisomy 21. In the third pregnancy, first-trimester ultrasound (US) revealed a fetus with a gestational age of 12 weeks and 6 days with a suspicion for fetal micrognathia but no other morphologic abnormalities [Figures 1 and 2]. The first-trimester combined screening had reduced the risk for aneuploidies. The performance of invasive testing was offered, but the couple refused. At the mid-trimester US scan, performed at 20 weeks and 5 days of gestation, the fetus had normal amniotic fluid index and adequate biometric parameters. Fetal facial profile was abnormal, suggesting mandibular hypoplasia and glossoptosis [Figures 3 and 4]. Morphology of the upper lip was normal [Figure 5]. There were no other sonographic anomalies identified. Screening for gestational diabetes was negative, and there was no evidence for maternal TORCH (Toxoplasmosis, Other [syphilis, varicella-zoster, parvovirus B19], Rubella, Cytomegalovirus, and Herpes infections) seroconversion. Detailed fetal echocardiography was normal. At 32 weeks and 5 days, US revealed a mild polyhydramnios that progressively increased in severity. At 36 weeks, the fetus had an amniotic fluid index of 35.2 cm (deepest pool of 10.3 cm [Figure 6]) and was growing in the 61st centile. A detailed review of fetal anatomy highlighted a prominent upper lip and receding chin in the midsagittal view of the face [Figures 7-9]. A controlled induction of labor was initiated at 37 weeks. An emergent C-section was performed because of placental abruption, and a male newborn with 2760 g, Apgar index 5/7/8 was delivered.
Figure 1
First-trimester ultrasound: midsagittal section of the fetal head raising suspicion for subtle retrognathia
Figure 2
First-trimester ultrasound: parasagittal section of the fetal head with receding chin
Figure 3
Mid-trimester ultrasound: inferior facial angle of 39° suggesting micrognathia
Figure 4
Mid-trimester ultrasound: glossoptosis as the tongue is displaced posteriorly
Figure 5
Mid-trimester ultrasound: integrity of the upper lip excluding cleft lip
Figure 6
Third-trimester ultrasound: Polyhydramnios
Figure 7
Third-trimester ultrasound: midsagittal section showing abnormal receding position of the chin in relation to the upper lip
Figure 9
Third-trimester ultrasound: 3D reconstruction of the abnormal fetal profile highlighting the prominent upper lip and receding chin
First-trimester ultrasound: midsagittal section of the fetal head raising suspicion for subtle retrognathiaFirst-trimester ultrasound: parasagittal section of the fetal head with receding chinMid-trimester ultrasound: inferior facial angle of 39° suggesting micrognathiaMid-trimester ultrasound: glossoptosis as the tongue is displaced posteriorlyMid-trimester ultrasound: integrity of the upper lip excluding cleft lipThird-trimester ultrasound: PolyhydramniosThird-trimester ultrasound: midsagittal section showing abnormal receding position of the chin in relation to the upper lipThird-trimester ultrasound: midsagittal section showing prominent upper lipThird-trimester ultrasound: 3D reconstruction of the abnormal fetal profile highlighting the prominent upper lip and receding chin
INTERPRETATION
The early sonographic diagnosis of isolated microretrognathia in association with the US finding of severe polyhydramnios in the third trimester of pregnancy presented in this clinical case is highly suggestive of Pierre Robin sequence (PRS). PRS is a rare condition that affects between 1/8500 and 1/14,000 births and its prenatal diagnosis by US is difficult, with detection rates ranging from 7% to 22%. PRS is a heterogeneous condition with multiple different definitions used, being classically defined by a clinical triad including micrognathia (or retrognathia), glossoptosis, and posterior cleft palate.[1]Micrognathia is a rare US finding in which there is a small mandible. Retrognathia is defined as the abnormal receding position of the mandible in relation to the maxilla. In the majority of the situations, micrognathia and retrognathia are associated (microretrognathia) as a small mandible has, by definition, a receding position.[2] Fetal micrognathia can be subjectively suspected in the midsagittal view of the face, but many studies have been published reporting multiple methods for its objective US diagnosis.[3] Of notice, the inferior facial angle (IFA) is measured in a midsagittal view of the fetal profile at the cross section of a line orthogonal to the vertical part of the forehead at the level of the nasofrontal suture and a line from the tip of the mentum to the anterior border of the more protrusive lip, being its normal value 65°.[4] In this case, the finding of an IFA of 39° at the second-trimester US confirmed the first-trimester suspicion of microretrognathia.Micrognathia may be triggered by adverse environmental factors (such as neuromuscular conditions, for example, fetal akinesia deformation sequence) or genetic factors. Chromosomal abnormalities, mainly trisomy 18 and triploidy, are found in 25%–35% of cases. Nonchromosomal genetic syndromes associated with micrognathia include PRS, Treacher Collins syndrome, and otocephaly.[245]The definite diagnosis of PRS should be suspected if micrognathia is an isolated finding with no cleft palate identified and especially if glossoptosis is also found and in the absence of chromosomal defects.[6] Both micrognathia and macroglossia concur to cause the tongue to move upwards (glossoptosis), preventing the closure of the soft palate (resulting in cleft palate). Polyhydramnios is also frequently found in consequence of swallowing difficulty secondary to the obstruction caused by micrognathia and glossoptosis, however, it is nonspecific, as it is present in many other conditions.[7] PRS can be an “isolated” in about 50% of the cases, having a low mortality rate and good developmental prognosis, “syndromic” (that is, associated with several malformations as part of a syndrome, especially central nervous system and skeletal anomalies), with higher mortality rate and poorer outcome or “associated” when the associated defects cannot be categorized as a syndrome and having a heterogeneous prognosis.[18]
CONCLUSION
Microretrognathia remains the best hallmark for suspecting PRS in prenatal US, and the presence of glossoptosis is sufficient to confirm PRS even if the cleft palate is not clearly evident. Polyhydramnios is common in PRS, and its presence should prompt the evaluation of the fetal profile, palate, and tongue.[1] In this case, no other malformations were identified and the postnatal cytogenetic testing was normal, allowing the diagnosis of isolated PRS.This case highlights the importance of routine examination of the fetal profile from the first-trimester US.
Declaration of patient consent
The authors certify that they have obtained all appropriate patient consent forms. In the form the patient has given her consent for her images and other clinical information to be reported in the journal. The patient understands that her name and initials will not be published and due efforts will be made to conceal the identity, but anonymity cannot be guaranteed.
Authors: Doerte W Luedders; Michael K Bohlmann; Ute Germer; Roland Axt-Fliedner; Ulrich Gembruch; Jan Weichert Journal: Prenat Diagn Date: 2011-01-04 Impact factor: 3.050
Authors: Matthew G Kaufman; Christopher I Cassady; Charles H Hyman; Wesley Lee; Mehernoor F Watcha; Helena K Hippard; Olutoyin A Olutoye; David Y Khechoyan; Laura A Monson; Edward P Buchanan Journal: Fetal Diagn Ther Date: 2015-05-08 Impact factor: 2.587
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