Alternative titles; symbols. Treacher Collins syndrome is a disorder of craniofacial development. The features include antimongoloid slant of the eyes, coloboma of the lid, micrognathia, microtia and other deformity of the ears, hypoplastic zygomatic arches, and macrostomia. Conductive hearing loss and cleft palate are often present Dixon, In 2 sisters in an inbred Hutterite kindred, Lowry et al. The palpebral fissures were downward slanting, the outer third of the lower lids showed coloboma, and malar hypoplasia and abnormal pinnae were present.
|Published (Last):||20 April 2010|
|PDF File Size:||4.59 Mb|
|ePub File Size:||17.81 Mb|
|Price:||Free* [*Free Regsitration Required]|
Treacher-Collins syndrome TCS is a rare dominant autosomal craniofacial disorder 1 : 50, characterized by symmetrical bilateral malformations that frequently include hypoplasia of the mandibular-zygomatic complex, palpebral fissures, coloboma of the lower eyelid, and absence of medial eyelashes at the defect, malformation of the middle and external ears, and conductive hearing loss .
The gene penetrance of TCS seems to be high, but the severity of the malformations varies very widely within and between families . TCS forms part of the craniofacial dysostosis group, along with the Goldenhar and Nager syndromes . A prenatal diagnosis of this syndrome may be suspected from two-dimensional ultrasonography 2DUS , through identifying the presence of polyhydramnios,micrognathia, palpebral clefts, and low-set ears [3, 4].
Three-dimensional ultrasonography 3DUS has been used for diagnosing certain fetal abnormalities [5, 6], given that in rendered mode it allows the parents to understand the malformations better.
This facilitates termination in unviable cases, in countries where the law per. Figure 1: a and b Three-dimensional rendering image of the fetal face, showing transverse facial fissure, microphthalmia, and low-set ears. The patient was a year-old primigravida without comorbidities and with adequate levels of prenatal care. A 2DUS examination performed in the 33rd week showed microphthalmia, a transverse facial cleft occupying the lower half of the face and bilateral auricular hypoplasia.
However, there were no other associated cardiac malformations. The 3D image in rendering mode made it possible to clearly view the transverse facial cleft, microphthalmia, and low-set ears Figure 1. In the light of the severe facial malformations, in the absence of other associated malformations, the hypothesis of TCS was raised.
The 3D image was fundamental for allowing the parents to have a better understanding of the poor postnatal prognosis. The patient underwent cesarean delivery at a gestational age of 35 weeks and 3 days because of fetal hemodynamic centralization, giving birth to a live female infant weighing 2, g and presenting Apgar 7 and 8.
Due to respiratory discomfort, the newborn was provided with orotracheal intubation early on. The physical examination conducted after the birth showed micrognathia, hypoplasia of the maxilla, anophthalmia, bilateral auricular appendages, and severe microtia Figure 2. Cranial CT confirmed the findings of the physical examination and also showed the presence of severe hypoplasia of the maxillary bones. These were dysmorphic and covered with skin, and an extensive infraorbital sideto-side cleft was identified Figure 3.
The limbs, spine, and other organs did not present any abnormalities on clinical and radiological assessment. Figure 2: Image of the newborn showing micrognathia, maxillary ypoplasia, anophthalmia, bilateral auricular appendages, and severe microtia. Extubation was not possible because of the severe facial deformity, which affected the respiratory canals, and therefore, the newborn was subjected to tracheostomy and gastrostomy.
Eleven days after birth, the newborn progressed to death due to bronchopneumonia. The autopsy confirmed the physical and imaging findings. Facial dysmorphism, particularly when associated with disorders of the first and second branchial arches, generally results from a combination of migration and inadequate formation of facial mesenchyme . Several syndromes have been described, amongwhich the main ones are Pierre Robin, hemifacial microsomia, Goldenhar, Treacher-Collins, Nager, and velocardiofacial syndromes.
The main classifications of craniofacial malformations were provided by Tessier , who correlated the anatomical site of the abnormality with the medial line axis, and by van der Meulen et al. Goldenhar syndrome is characterized by ear malformations, hemifacial microsomia, a lateral facial cleft, ocular abnormalities, and vertebral abnormalities .
In our specific case, the diagnosis of TCS was defined by the presence of facial malformations in the absence of abnormalities in other segments. In our case, the diagnosis of TCS was made in the 33rd week of pregnancy. Late diagnosis is generally due to latestarting prenatal followup at public healthcare services in developing countries like Brazil.
Prenatally, TCS diagnosed by means of 2DUS is well established through findings of severe facial abnormalities, generally in association with polyhydramnios, which is an indirect sign of upper airway obstruction. Therefore, adequate prenatal diagnosis enables followup for the pregnant woman at a tertiary-level service, so as to provide better support for the newborn.
With regard to 3DUS, there are only two reports in the literature of prenatal diagnosing of TCS, and both of these cases were also diagnosed at a late stage [7, 8]. Both of the previous cases were described 10 years ago, at a time when the resolution of the rendering 3D images Voluson , Kretztechnik, Zipf, Austria was still relatively poor. On the other hand, there were no descriptions of use of 3DUS to allow the parents to understand the situation better.
In comparison with 2DUS, 3D images have been proven to increase the maternal-fetal interaction . This greater interaction may facilitate the decision to terminate the pregnancy in cases of severe fetal malformation. In our specific case, the 3D image was of fundamental importance in helping the parents to better recognize the severe facialmalformation.
Nonetheless, because of the advanced gestational age, it was decided to continue with followup of the gestation, although this was subsequently terminated through cesarean delivery because of fetal distress. In summary, we presented here a case of TCS diagnosed in the third trimester by means of 3DUS, which was confirmed postnatally by means of CT on the face and anatomopathological analysis. We believe that 3DUS should be used in cases of severe fetal abnormalities, so that the parents can understand the malformations better.
Figure 3: Computed tomography of the cranium, in the axial plane, showing severe hypoplasia of the maxillary bones a , which were dysmorphic and covered with skin b. Gorlin, M. Cohen, and R. Dixon, H. Marres, S. Edwards, J.
Dixon, and C. Meizner, R. Carmi, and M. Ochi, K. Ito, and Y. Zanforlin Filho, H. Pires, L. Nardozza, and A. Araujo, R. Mattar et al. Hsu, J. Hsu, S. Chang, and M. Tanaka, T. Miyazaki, K. Kanenishi, H. Yanagihara, and T. Johnson, G. Moonis, G. Green, R. Carmody, and H. Mazzola, and C. Kumar, J. Friedman, G. Taylor, and M. Paladini, A. Tartaglione, A. Lamberti, C.
Lapadula, and P. Ji, D. Pretorius, R. Newton et al. Baixe o PDF deste artigo. Converse sobre os cursos!
Treacher Collins syndrome
Treacher-Collins syndrome TCS is a rare dominant autosomal craniofacial disorder 1 : 50, characterized by symmetrical bilateral malformations that frequently include hypoplasia of the mandibular-zygomatic complex, palpebral fissures, coloboma of the lower eyelid, and absence of medial eyelashes at the defect, malformation of the middle and external ears, and conductive hearing loss . The gene penetrance of TCS seems to be high, but the severity of the malformations varies very widely within and between families . TCS forms part of the craniofacial dysostosis group, along with the Goldenhar and Nager syndromes . A prenatal diagnosis of this syndrome may be suspected from two-dimensional ultrasonography 2DUS , through identifying the presence of polyhydramnios,micrognathia, palpebral clefts, and low-set ears [3, 4]. Three-dimensional ultrasonography 3DUS has been used for diagnosing certain fetal abnormalities [5, 6], given that in rendered mode it allows the parents to understand the malformations better.
Síndrome de Treacher Collins
Evolution of a child with Treacher Collins syndrome undergoing physiotherapeutic treatment. Rodrigues [a]. Treacher Collins syndrome, or mandibulofacial dysostosis, is a hereditary disorder and is manifested by craniofacial malformations. The incidence is close to one case per 40, live births, without relation to gender or race. The infant carrier may present neurological development. This rare syndrome requires documentation of its main clinical and kinetic-functional consequences. The purpose of this study was to describe the clinical and kinetic-functional findings for a child who has Treacher Collins syndrome and receives treatment in the Physiotherapy Department at the Pestalozzi Association in Goiania, and to present the evolution of motor function and psychomotor development during rehabilitation.
Treacher Collins syndrome is a condition that affects the development of bones and other tissues of the face. The signs and symptoms of this disorder vary greatly, ranging from almost unnoticeable to severe. Most affected individuals have underdeveloped facial bones, particularly the cheek bones, and a very small jaw and chin micrognathia. Some people with this condition are also born with an opening in the roof of the mouth called a cleft palate.