Congenital anterolateral bowing of the tibia with ipsilateral polydactyly of the great toe associated with cerebral cyst: a new entity?

Breckpot, Jeroen; Thienpont, Bernard; Vanhole, Christine; Rossem, Els Van; Schoubroeck, Dominique Van; Fryns, Jean‐Pierre; Lagae, Lieven; Buyse, Gunnar; Devriendt, Koenraad

doi:10.1097/mcd.0b013e32832d06d7

Cited by 6 publications

(7 citation statements)

References 28 publications

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“…Case 19 presented a rare and challenging situation for estimation of the prognosis because sonography and further characterization by 3D techniques showed medial deviation of an enlarged first toe in a rectangular position (Figure 8, A and B), with toe duplication not excluded, anterior bowing of the right tibia with possible pseudarthrosis (Figure 8D), and unilateral pes equinovarus without other sonographic findings in the 22nd week of pregnancy. Although the findings might suggest an isolated complex local malformation, an association with cerebral malformations and developmental impacts has been described 17 . Postmortem examination confirmed prenatal findings (Figure 8, C, E, and F), and histologic examination after pregnancy termination revealed duplication of the bone marrow cavity of the right tibia, matching previous morphologic findings obtained during surgery in a similar case 18 .…”

Section: Discussionsupporting

confidence: 77%

“…Although the findings might suggest an isolated complex local malformation, an association with cerebral malformations and developmental impacts has been described. 17 Postmortem examination confirmed prenatal findings (Figure 8, C, E, and F), and histologic examination after pregnancy termination revealed duplication of the bone marrow cavity of the right tibia, matching previous morphologic findings obtained during surgery in a similar case. 18 In general, 3D sonography is not mandatory for assessing fetal limbs but, as in this situation, has shown advantages in characterizing limb anomalies.…”

Section: Filges Et Al-fetal Polydactyly On Prenatal Sonographysupporting

confidence: 83%

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Fetal Polydactyly

Filges

Kang

Hench

et al. 2011

J of Ultrasound Medicine

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A Study of 24 Cases Ascertained by Prenatal Sonographyongenital malformations of the limbs are among the most frequent congenital anomalies in humans. They are clinically and genetically heterogeneous and preferentially affect the distal parts of limbs: the hands and feet. 1,2 The presence of an abnormal number of digits is the most frequent limb anomaly and is a consequence of a disturbance in the genetic program of embryonic limb development. Polydactyly implies the occurrence of supernumerary digits and toes, whereas oligodactyly indicates fewer than 5 digits. An anomaly in the number of digits can appear as an isolated condition or be part of a syndrome including additional malformations, cognitive impairment, or both.Improvements in sonographic techniques and improved training of specialists in fetal sonography have increased early detection of structural defects, including polydactyly, in the first trimester of pregnancy. 3,4 Counseling of parents in a case of fetal polydactyly is challenging because there is a potential risk of occurrence in a syndromic context, including a prognosis of developmental disability for the child. It is sometimes difficult to draw the line between isolated and syndromic polydactyly. Therefore, it is extremely important to obtain information as completely as possible on the family history, familial occurrence of polydactyly, detailed clinical information on the fetus by sonography, and genetic testing by invasive diagnosis if necessary, especially for chromosomal anomalies. We describe our experience with 24 pregnancies in our tertiary antenatal center, which handles routine examinations as well as high-risk pregnancies and is a referral center for genetic sonography. CASE SERIESRecords of 24 pregnancies with fetal polydactyly were reviewed for the type of polydactyly, family history, associated sonographic findings, genetic testing, and postnatal/postmortem examination findings. The importance of fetal polydactyly can be mainly elucidated by the family history and absent or associated anomalies on a specialized malformation scan. Fetal karyotyping diagnoses frequent chromosomal anomalies in about half of cases with additional malformations, and array comparative genomic hybridization may be a future means of detecting cryptic chromosomal aberrations. Syndromic disorders of monogenic origin demand a careful interdisciplinary clinical assessment for establishing a clinical diagnosis and prognosis for the outcome of the child.

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Section: Discussionsupporting

confidence: 77%

Section: Filges Et Al-fetal Polydactyly On Prenatal Sonographysupporting

confidence: 83%

Fetal Polydactyly

Filges

Kang

Hench

et al. 2011

J of Ultrasound Medicine

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“…The associated deformities are summarized in Table I. Ten cases had abnormality of the hand, one had mild equinovarus, two had duplicated metatarsal bones (including our patient 1), one had a duplicated navicular and cuneiform, and two had major cerebral malformations [Newell and Durbin, 1976; Adamsbaum et al, 1991; Watanabe et al, 1992; Weaver et al, 1996; Kitoh et al, 1997; Bressers and Castelein, 2001; Manner et al, 2005; Lemire, 2007; Breckpot et al, 2009]. All of our patients and several published cases had no associated deformities.…”

Section: Discussionmentioning

confidence: 93%

“…Furthermore, all cases were unilateral and related to the tibial field [Lewin and Opitz, 1986; Al‐Awadi et al, 1987; Khoury et al, 1999]. Given the skewed sex ratio in both acrocallosal syndromes and CABTP, and their marked clinical overlap, Breckpot et al [2009] suggested that the two conditions are manifestations of a single disorder with variable expression. We agree with the opinion of Adamsbaum et al [1991], Weaver et al [1996], and Lemire [2007] that the deformity is more likely to be a developmental abnormality than a genetically transmitted disorder.…”

Section: Discussionmentioning

confidence: 99%

“…It is characterized by spontaneous correction of bowing, the absence of any neurocutaneous signs and a relative favorable prognosis. About 17 cases of CABTP were described in the literature [Newell and Durbin, 1976; Adamsbaum et al, 1991; Weaver et al, 1996; Kitoh et al, 1997; Bressers and Castelein, 2001; Manner et al, 2005; Lemire, 2007; Breckpot et al, 2009]. Some previously reported cases and two of our patients were first thought to have conventional congenital anterolateral bowing characteristic of NF1, and multiple examinations for neurocutaneous disorders or protective leg braces were employed [Bressers and Castelein, 2001; Lemire, 2007].…”

Section: Introductionmentioning

confidence: 99%

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A benign form of congenital anterolateral bowing of the tibia associated with ipsilateral polydactyly of the hallux: Case report and literature review

Han

et al. 2012

American J of Med Genetics Pt A

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Congenital anterolateral bowing of the tibia is generally considered a precursor of congenital pseudarthrosis of the tibia (CPT), which is usually associated with neurofibromatosis type 1 (NF1), a common autosomal dominant genetic disorder. In many cases, NF1 is initially suspected following the presentation of a child with anterolateral tibial bowing. The prognosis of CPT is poor, and amputation may be required. Congenital anterolateral bowing of the tibia combined with ipsilateral polydactyly of the hallux (CABTP) is a rare entity that resembles the anterolateral tibial bowing that occurs in association with CPT, and may be misdiagnosed as NF1. However, spontaneous correction of the tibial bowing with an almost normal fibula has been described in all previously reported cases. Here, we report three patients with CABTP and discuss the physical and imaging characteristics and follow-up results. We suggest that given the spontaneous resolution of bowing, the absence of neurocutaneous signs and the relatively favorable prognosis, CABTP is a distinct entity that merits its own place within the field of anterolateral bowing of the tibia and has no association with CPT or NF1. This should help avoid unnecessary investigations and interventions for NF1. This article shows for the first time tibial duplication in the area of bowing, with two medullary canals surrounded by well-defined cortex on CT.

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Imaging characteristics and neurosurgical outcome in subjects with agenesis of the corpus callosum and interhemispheric cysts

Severino

Tortora

Reid³

et al. 2022

Neuroradiology

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Congenital anterolateral bowing of the tibia with ipsilateral polydactyly of the great toe associated with cerebral cyst: a new entity?

Abstract: We present two patients with congenital anterolateral bowing of the tibia with polydactyly who had, in addition, cerebral malformations including agenesis of the corpus callosum and a large cerebral cyst. We discuss phenotypic overlap with the acrocallosal syndrome.

Cited by 6 publications

References 28 publications

Fetal Polydactyly

Fetal Polydactyly

A benign form of congenital anterolateral bowing of the tibia associated with ipsilateral polydactyly of the hallux: Case report and literature review

Imaging characteristics and neurosurgical outcome in subjects with agenesis of the corpus callosum and interhemispheric cysts

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