Orbital teratoma in the foetus: a rare case without proptosis

Congenital orbital teratoma is relatively rare. These lesions are classified as mature or immature teratomas based on their degree of cellular differentiation. Orbital teratomas have been detected at birth or, more commonly, early in life due to clinical proptosis [1]. Nevertheless, foetal information is limited. Here, we report a prenatal case of mature orbital teratoma without proptosis at 24 + 2 weeks of gestation, with an initial diagnosis of microphthalmia. We present the ultrasound characteristics, gross specimens, and histopathological appearance.

A 25-year-old pregnant woman, gravida 1, para 0, at 24 + 2 weeks of gestation was referred to our department for prenatal ultrasound examination. Prenatal ultrasound examination revealed that the foetus’ eyes were asymmetrical. The right and left eye globes measured 10.9 × 8.3 mm and 6.8 × 6.0 mm, respectively. The mean normal foetal orbital diameter is 11.0 mm at 24 weeks of gestation [2]. An initial diagnosis of microphthalmia was made. A hyperechoic lesion was detected in the left retro-orbital space. The lesion was crescent shaped, with a maximum thickness of about 1.6 mm (Fig. 1b); it was confined to the orbit and showed no proptosis. No shadowing calcifications were detected. Colour Doppler ultrasound examination demonstrated significant angiogenesis in the lesion (Fig. 1a). Prenatal ultrasound examinations showed no structural abnormalities other than asymmetry of the eyes, and the intracranial structure did not appear to be deformed. The head circumference, abdominal circumference and femur length were consistent with the gestational age.

After consultation, the patient and her husband indicated that they wanted to induce labour. Autopsy demonstrated a normal facial appearance (image could be available upon reasonable request from the corresponding author).

Histopathological examination showed a mature orbital teratoma in the retro-orbital space (Fig. 2). The teratoma was predominantly benign, with mature tissue originating in the ectoderm (epidermis and its derivatives), mesoderm (fatty tissue, blood vessels), and endoderm (gastrointestinal epithelium) (Fig. 2a). On immunohistochemical examination, the gland origin was confirmed by cytokeratin (CK) immunopositivity (Fig. 2b). The mesenchymal tissue showed diffuse and strong positive immunostaining for vimentin (Fig. 2c). In the mature parts of the teratoma, the cell proliferation rate determined using Ki-67 as a marker was about 10%, similarly to the level of normal tissue (Fig. 2d). Glypican-3 (GPC-3) and neuron specific enolase (NSE) staining were negative.

Congenital orbital teratomas are quite rare. They are often reported in female infants and children with characteristic proptosis [1‐3]. However, information on foetal cases is very limited (see Table 1). In our case, orbital teratoma was detected at 24 + 2 weeks of gestation, and the lesion was confined to the orbit without proptosis. To our knowledge, this is the first report of a foetal orbital teratoma without proptosis. Anami et al. [4] reported a large orbital teratoma with proptosis at 27 weeks and intrauterine foetal death at 32 weeks of gestation. We suspect that the absence of proptosis in our case was because the disease was in its early stage. Although orbital teratoma is often associated with rapid enlargement soon after birth [3, 5], the absence of proptosis can lead to confusion and a delay in diagnosis. Therefore, screening of the retro-orbital space is essential for diagnosis of orbital teratoma, especially in cases without proptosis.

Firstly, as this case had no proptosis and asymmetrical eyes, it was initially misdiagnosed as microphthalmia, the most likely cause of small eyes. Orbital teratoma and microphthalmia can be distinguished by three differences. First, microphthalmia is more commonly bilateral. The exception appears to be isolated microphthalmia, which is usually unilateral. Microphthalmia shows no predominance with regards to gender, while orbital teratomas are usually unilateral and more often seen in females. Second, microphthalmia results in a small orbit volume compared to age-matched controls [10], whereas orbital teratoma results in enlarged, remodelled, or destroyed orbit [11]. Finally, in microphthalmia, ultrasound examination does not show blood flow signals in the orbit. In contrast, colour Doppler ultrasound shows a clear blood flow signal in the lesion in the present case of orbital teratoma [4]. In microphthalmia patients, the potential for visual development depends on the degree of retinal development and other ocular characteristics. Therapy aims to maximise existing vision and enhance cosmetic appearance rather than improve sight [10]. In orbital teratoma patients, timely and accurate diagnosis enables early surgical resection of the orbital teratoma with satisfactory cosmetic results, consisting of preservation of the eyeball and visual function [12]. The prenatal orbital diagnosis of teratoma is important to allow timely counselling of the parents and as an aid in obstetric decision making.

In addition, retinoblastoma as the most common intraocular malignancy of infancy and childhood demonstrates a mass more echogenic than the vitreous, with fine calcifications by ultrasonography. Retinal detachment may also be observed in exophytic forms [13]. While the orbital was always in normal values scale without mass effecting the retro-orbital space [14, 15].

Finally, intracranial teratoma invading the orbit may not cause proptosis. Arslan et al. [16] reported a large intracranial immature teratoma extending into the retro-orbital space. In the present case, the lesion was located in the retro-orbital space, and the foetal intracranial structure was normal.

In conclusion, screening of the retro-orbital space is essential for diagnosis of orbital teratoma. And it is important to perform colour Doppler ultrasound and screening of intracranial structures in cases of abnormal orbital lesions. These findings suggest that prenatal ultrasound examination should play a critical role in the diagnosis and differential diagnosis of orbital teratoma.