CC BY-NC-ND 4.0 · Asian J Neurosurg
DOI: 10.1055/s-0044-1791995
Case Report

Intracranial Off-Midline Mature Teratoma and Pneumosinus Dilatans: A Unique Clinical Report

1   Department of Radiology, Bahçeşehir University Göztepe Medical Park Hospital, Istanbul, Türkiye
,
2   Department of Pathology, Bahçeşehir University School of Medicine, Göztepe Medical Park Training and Education Hospital, Istanbul, Türkiye
,
3   Department of Neurosurgery, Bahçeşehir University School of Medicine, Göztepe Medical Park Training and Education Hospital, Istanbul, Türkiye
,
3   Department of Neurosurgery, Bahçeşehir University School of Medicine, Göztepe Medical Park Training and Education Hospital, Istanbul, Türkiye
› Institutsangaben
Funding None.
 

Abstract

Teratomas typically arise as midline lesions in the suprasellar and pineal regions. Pneumosinus dilatans is a rare condition characterized by the expansion of one or more of the paranasal sinuses and thinning of their bony walls with a normal covering mucosa. It usually involves the sphenoid and posterior ethmoid sinuses and has been associated with meningiomas and arachnoid cysts. Off-midline mature teratomas are uncommon, and no reports have described an association with pneumosinus dilatans. We present a rare association between an intracranial off-midline mature teratoma and pneumosinus dilatans in an 18-year-old male patient who presented with a second episode of a left-sided seizure, which has not yet been reported in the literature.


#

Case History

An 18-year-old man was hospitalized for a second episode of left-sided seizure. Magnetic resonance imaging revealed an extra-axial, 35 × 40 × 43 mm off-midline mass in the right frontal region. The mass was heterogeneous and hypointense on the T2-weighted (T2W) images. This included high signals on T1W images. A partial diffusion abnormality was observed on diffusion-weighted image (DWI). Susceptibility-weighted images demonstrated low signal intensity related to calcification and/or hemorrhage. On fat-saturated contrast-enhanced T1W images, there was no enhancement in the mass, but areas of fat saturation ([Fig. 1]). Contrast-enhanced computed tomography examination demonstrated a mass with marked hypodense areas characteristic of fat, calcification, and enhanced solid components. There was asymmetric expansion of the sphenoethmoidal paranasal sinus adjacent to the intracranial tumor without any bone overgrowth ([Fig. 2]). Surgery was performed with total removal of the tumor ([Fig. 3]). The pathological diagnosis was an intracranial mature teratoma ([Fig. 4]).

Zoom Image
Fig. 1 Preoperative brain magnetic resonance imaging (MRI). (A, B) Sagittal and coronal fat-saturated T2-weighted (T2W) images showing an off-midline extra-axial heterogeneous mass (arrows) with mixed signal intensities in the left frontal region. No perifocal edema was observed. (C) Axial TIW image without fat saturation showing prominent hyperintense signals in the mass (arrow), suggesting fat. (D) There is a focal hyperintense diffusion abnormality in the lateral part of the mass (arrow) on diffusion-weighted image. (E) Susceptibility-weighted image clearly shows hypointense signals within the mass due to calcification or hemorrhage (arrow). (F) Axial contrast-enhanced T1-weighted image with fat saturation showing suppression of the fat signal intensity (arrow).
Zoom Image
Fig. 2 Diagnostic preoperative contrast-enhanced sagittal (AC) and coronal (DF) computed tomography (CT) reformatted images show a mass with areas of marked hypoattenuation (mean –77 HU) characteristic of fat, calcification, and enhancing solid components (arrowheads). There is sphenoethmoidal pneumosinus dilatans (PSD) on the right side adjacent to the intracranial tumor (arrows).
Zoom Image
Fig. 3 Selected intraoperative photographs showing an oval or lobulated creamy-yellow mass with a smooth surface (A). The lesion contains heterogeneous solid soft tissues and a cystic area with fat, calcification, and hair shafts (BD).
Zoom Image
Fig. 4 Photomicrographs of the tumors. (A) ×100, hematoxylin and eosin (H&E), showing cyst wall lined by squamous epithelium, hair follicles with sebaceous glands, and smooth muscle fibers (upper right corner). (B) ×200, H&E, showing sebaceous glands (upper left) and smooth muscle fibers (central right). (C) ×400, H&E staining, showing loose keratin flakes. (D) ×100, smooth muscle actin (SMA), confirms the existence of the smooth-muscle cell component.

#

Discussion

Intracranial teratomas account for less than 0.6% of all intracranial tumors.[1] They usually arise in midline structures such as the suprasellar and pineal regions.[2] Mature teratomas are benign tumors that consist of completely differentiated ectodermal, mesodermal, and endodermal elements.[3] Only 13 cases of intracranial off-midline mature teratomas have been reported in the literature. Six of the patients were male, and seven were female. The mean age at presentation was 27.7, with a range of 0.1 to 70. Nine of the masses were located to the left and four to the right of the midline. There were two intra-axial masses. Clinical presentations were dependent on mass location and size and, as a result, were variable. An overview of pertinent findings in intracranial off-midline mature teratoma patients is summarized in [Table 1].[4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [16]

Table 1

Intracranial off-midline mature intracranial teratomas

Authors, year/reference

Age (y)

Sex

Presenting symptoms

Preoperative diagnosis

Intracranial location

Treatment

Nishigaya et al, 1994[6]

67

Male

No

NA

Left Sylvian fissure

NA (found at autopsy)

Lee et al, 1996[7]

35

Male

Dysphagia

Teratoma

Left middle cranial fossa

Surgical resection

Phadke et al, 2004[8]

25

Male

Bony swelling, paresis of cranial nerves

Aneurysmal bone cyst, giant cell tumor, or epidermoid cyst

Right middle cranial fossa

Surgical resection

Khan et al, 2013[9]

11

Female

Left-sided facial weakness

Large temporal bone mass, epidermoid cyst

Left temporal bone and cerebellopontine angle

Surgical resection

Dimov et al, 2013[10]

24

Male

Headache, nausea, vomiting, and fatigue, right-sided weakness, proptosis of the eye

NA

Left fronto-temporo-basal and left orbital

Surgical resection

Hoyer et al, 2013[11]

38

Male

Generalized seizure

NA

Left frontal and temporal lobes

NA (found at autopsy)

Zhang et al, 2012[12]

70

Female

Headache, vomiting, and gait disturbance

Enhancing mass with calcification, fat, and hemorrhage

Right cerebellopontine angle

Surgical resection

Waters et al., 1986[13]

0.1

Female

İntermittent headaches and neck stiffness

A cerebellopontine mass with soft tissue, calcium, and fat densities

Right cerebellopontine angle

Surgical resection

Yin and Guo, 2021[14]

10

Female

Poor appetite, sleep disorder, and poor defecation

Irregular cystic patches of mixed long and short T1 signals and mixed long and short T2 signals - teratoma

Left cerebellopontine angle

Surgical resection

Rijal et al, 2022[5]

17

Male

Abnormal movement of the lips and tongue

Cystic septated mass with restricted diffusion (epidermoid cyst, ganglioglioma, DNET)

Right temporal lobe

Surgical resection

Marques et al, 2023[15]

36

Female

Chronic periorbital headache associated with photophobia, nausea, and vomiting

Meningioma

Left temporal fossa

Surgical resection

Inojie et al, 2021[4]

26

Female

Asymptomatic-incidental

Fat-containing nonenhancing mass

Over the left anterior clinoid process

Surgical resection

Sharma et al., 2019[16]

0.9

Female

A progressively increasing swelling in the left supra-auricular region

A heterogeneous relatively well-defined mass with macroscopic fat content and a few hypodense areas with fluid attenuation and chunky peripheral calcification

Left petrous temporal bone

Surgical resection

Abbreviations: DNET, dysembryoplastic neuroepithelial tumor; NA, not applicable.


On imaging, the majority of intracranial mature teratomas tend to be heterogeneous due to their extremely variable histological components. They usually have solid and cystic components, with some fat, calcifications, and multilocularities. Due to the existence of tumors with capsules and an intact blood–brain barrier, the lesions typically do not show perilesional cerebral edema on imaging studies. Solid components may show enhancement on contrast-enhanced examination.[17] These lesions may show restricted diffusion on DWI.[5] [9] Mature cystic teratomas of the temporal lobe may resemble epidermoid tumors, gangliogliomas, or dysembryoplastic neuroepithelial tumor.[5]

Pneumosinus dilatans (PSD) is characterized by the expansion of one or more paranasal sinuses beyond their normal anatomic limits and was first named by Benjamins in 1918.[18] To date, there have been reports that PSD is associated with meningiomas and arachnoid cysts.[19] [20] [21] PSD can be divided into two categories: primary, in which no underlying structural abnormalities are present; and secondary, in which other underlying causes may be identified. It is proposed that PSD should always be thoroughly investigated for skull base meningiomas and that bone remodeling is caused by focused dural tension on an adjacent sinus.[22] [23] [24] [25] Thus, we considered lipomatous meningioma as a differential imaging diagnosis in the current case due to the knowledge of the relationship between PSD and meningioma. Lipomatous meningioma is an extremely rare subtype of meningioma and is classified as a metaplastic meningioma according to the World Health Organization classification, which may involve all mesenchymal tissues, including osseous, cartilaginous, lipomatous, and myxoid tissues.[26]


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Conclusion

This is the first time that an intracranial off-midline mature teratoma with PSD has been reported, highlighting this unexpected association. The recognition of an extra-axial location, macroscopic fat, calcification, and a solid-enhancing component of an off-midline tumor with PSD association should also suggest a mature teratoma in the differential diagnosis besides a meningioma.


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Conflict of Interest

None declared.

  • References

  • 1 Kuratsu J, Ushio Y. Epidemiological study of primary intracranial tumors: a regional survey in Kumamoto Prefecture in the southern part of Japan. J Neurosurg 1996; 84 (06) 946-950
  • 2 Abdelmuhdi AS, Almazam AE, Dissi NA, Albastaki UM, Pierre-Jerome C. Intracranial teratoma: imaging, intraoperative, and pathologic features: AIRP best cases in radiologic-pathologic correlation. Radiographics 2017; 37 (05) 1506-1511
  • 3 Echevarría ME, Fangusaro J, Goldman S. Pediatric central nervous system germ cell tumors: a review. Oncologist 2008; 13 (06) 690-699
  • 4 Inojie MO, Suzuki Y, Tamada H. et al. Rare sphenoid ridge intracranial mature teratoma in an adult female. Nagoya J Med Sci 2021; 83 (02) 379-386
  • 5 Rijal Y, Shah OB, Shrestha S. et al. Mature cystic teratoma of the temporal lobe: a rare tumor with an unusual location. Clin Case Rep 2022; 10 (02) e05340
  • 6 Nishigaya K, Ueno T, Satou E, Nukui H, Kobayashi M. Mature teratoma incidentally found in the sylvian fissure: a report of an autopsy case. Noshuyo Byori 1994; 11 (02) 131-134
  • 7 Lee WS, Kim EY, Park YG, Kim TS, Chung SS. A case of huge mature teratoma developed in the middle cranial fossa: a case report. J Korean Neurosurg Soc 1996; 25 (04) 878-881
  • 8 Phadke RS, Shenoy AS, Hosangadi A, Nadkarni TD. Mature teratoma arising from the middle cranial fossa. Ann Diagn Pathol 2004; 8 (01) 28-31
  • 9 Khan N, Klimo Jr P, Harreld J, Armstrong GT, Michael II LM. Mature teratoma of the petrous bone with extension into the cerebellopontine angle: case report. J Neurol Surg Rep 2013; 74 (02) 96-100
  • 10 Dimov I, Tasic D, Stojanovic I. et al. Mature intracranial teratoma. Acta Facultatis Medicae Naissensis. 2013; 30 (02) 97-102
  • 11 Hoyer CB, Ulhoi BP, Charles AV. The unexpected findings of a benign mature teratoma in a forensic pathology autopsy: a rare cause for sudden, unexpected death. Am J Forensic Med Pathol 2013; 34 (04) 302-305
  • 12 Zhang S, Wang X, Liu X, Hui X. Mature teratoma in cerebellopontine angle in a 70-year-old female: a rare tumor with exceptional location, age, and presentation. Neurol India 2012; 60 (06) 660-661
  • 13 Waters DC, Venes JL, Zis K. Childhood cerebellopontine angle teratoma associated with congenital hydrocephalus. Neurosurgery 1986; 18 (06) 784-786
  • 14 Yin K, Guo F. Rare teratoma involving of the cerebellopontine angle: a case report and literature review. Childs Nerv Syst 2021; 37 (10) 3277-3279
  • 15 Marques NK, Haag K, Buffara LT. et al. Intracranial teratoma in young adult female: case report. Braz Neurosurg 2023; 42 (01) e68-e72
  • 16 Sharma R, Kumar A, Borkar SA. Mature teratoma of petrous temporal bone in an infant: a rare clinical entity. World Neurosurg 2019; 128: 209-210
  • 17 Liu Z, Lv X, Wang W. et al. Imaging characteristics of primary intracranial teratoma. Acta Radiol 2014; 55 (07) 874-881
  • 18 Benjamins LE. Pneumosinus frontalis dilatans. Acta Otolaryngol (Stoch) 1918; 1: 412-422
  • 19 Sweatman J, Beltechi R. Pneumosinus dilatans: an exploration into the association between arachnoid cyst, meningioma and the pathogenesis of pneumosinus dilatans. Clin Neurol Neurosurg 2019; 185: 105462
  • 20 Gibbons BA, Miele WR, Florman JE, Heilman CB, Horgan MA. Pneumosinus dilitans and meningioma: a case series and review of the literature. Neurosurg Focus 2011; 30 (05) E13
  • 21 Dross PE, Lally JF, Bonier B. Pneumosinus dilatans and arachnoid cyst: a unique association. AJNR Am J Neuroradiol 1992; 13 (01) 209-211
  • 22 Mai A, Karis J, Sivakumar K. Meningioma with pneumosinus dilatans. Neurology 2003; 60 (11) 1861
  • 23 Parizel PM, Carpentier K, Van Marck V. et al. Pneumosinus dilatans in anterior skull base meningiomas. Neuroradiology 2013; 55 (03) 307-311
  • 24 Scuotto A, Saracino D, Rotondo M. et al. Sphenoidal pneumosinus dilatans due to anterior skull base meningiomas - CT and MRI aspects: report of two new cases and literature review. Neuroradiol J 2016; 29 (04) 295-297
  • 25 Aage BM, Temkar P, Chemate S, Mangaleswaran B. Co-existence of atypical meningioma, intratumoral lipometaplasia and extensive hyperostosis of calvarium: a rare entity. World Neurosurg X 2018; 1: 100001
  • 26 Roncaroli F, Scheithauer BW, Laeng RH, Cenacchi G, Abell-Aleff P, Moschopulos M. Lipomatous meningioma: a clinicopathologic study of 18 cases with special reference to the issue of metaplasia. Am J Surg Pathol 2001; 25 (06) 769-775

Address for correspondence

Mustafa Kemal Demir, MD
BAU Goztepe Medical Park Hastanesi
11. kisim, Yasemin Apt, D blok. Daire 35 Ataköy, Istanbul 34158
Türkiye   

Publikationsverlauf

Artikel online veröffentlicht:
28. Oktober 2024

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  • References

  • 1 Kuratsu J, Ushio Y. Epidemiological study of primary intracranial tumors: a regional survey in Kumamoto Prefecture in the southern part of Japan. J Neurosurg 1996; 84 (06) 946-950
  • 2 Abdelmuhdi AS, Almazam AE, Dissi NA, Albastaki UM, Pierre-Jerome C. Intracranial teratoma: imaging, intraoperative, and pathologic features: AIRP best cases in radiologic-pathologic correlation. Radiographics 2017; 37 (05) 1506-1511
  • 3 Echevarría ME, Fangusaro J, Goldman S. Pediatric central nervous system germ cell tumors: a review. Oncologist 2008; 13 (06) 690-699
  • 4 Inojie MO, Suzuki Y, Tamada H. et al. Rare sphenoid ridge intracranial mature teratoma in an adult female. Nagoya J Med Sci 2021; 83 (02) 379-386
  • 5 Rijal Y, Shah OB, Shrestha S. et al. Mature cystic teratoma of the temporal lobe: a rare tumor with an unusual location. Clin Case Rep 2022; 10 (02) e05340
  • 6 Nishigaya K, Ueno T, Satou E, Nukui H, Kobayashi M. Mature teratoma incidentally found in the sylvian fissure: a report of an autopsy case. Noshuyo Byori 1994; 11 (02) 131-134
  • 7 Lee WS, Kim EY, Park YG, Kim TS, Chung SS. A case of huge mature teratoma developed in the middle cranial fossa: a case report. J Korean Neurosurg Soc 1996; 25 (04) 878-881
  • 8 Phadke RS, Shenoy AS, Hosangadi A, Nadkarni TD. Mature teratoma arising from the middle cranial fossa. Ann Diagn Pathol 2004; 8 (01) 28-31
  • 9 Khan N, Klimo Jr P, Harreld J, Armstrong GT, Michael II LM. Mature teratoma of the petrous bone with extension into the cerebellopontine angle: case report. J Neurol Surg Rep 2013; 74 (02) 96-100
  • 10 Dimov I, Tasic D, Stojanovic I. et al. Mature intracranial teratoma. Acta Facultatis Medicae Naissensis. 2013; 30 (02) 97-102
  • 11 Hoyer CB, Ulhoi BP, Charles AV. The unexpected findings of a benign mature teratoma in a forensic pathology autopsy: a rare cause for sudden, unexpected death. Am J Forensic Med Pathol 2013; 34 (04) 302-305
  • 12 Zhang S, Wang X, Liu X, Hui X. Mature teratoma in cerebellopontine angle in a 70-year-old female: a rare tumor with exceptional location, age, and presentation. Neurol India 2012; 60 (06) 660-661
  • 13 Waters DC, Venes JL, Zis K. Childhood cerebellopontine angle teratoma associated with congenital hydrocephalus. Neurosurgery 1986; 18 (06) 784-786
  • 14 Yin K, Guo F. Rare teratoma involving of the cerebellopontine angle: a case report and literature review. Childs Nerv Syst 2021; 37 (10) 3277-3279
  • 15 Marques NK, Haag K, Buffara LT. et al. Intracranial teratoma in young adult female: case report. Braz Neurosurg 2023; 42 (01) e68-e72
  • 16 Sharma R, Kumar A, Borkar SA. Mature teratoma of petrous temporal bone in an infant: a rare clinical entity. World Neurosurg 2019; 128: 209-210
  • 17 Liu Z, Lv X, Wang W. et al. Imaging characteristics of primary intracranial teratoma. Acta Radiol 2014; 55 (07) 874-881
  • 18 Benjamins LE. Pneumosinus frontalis dilatans. Acta Otolaryngol (Stoch) 1918; 1: 412-422
  • 19 Sweatman J, Beltechi R. Pneumosinus dilatans: an exploration into the association between arachnoid cyst, meningioma and the pathogenesis of pneumosinus dilatans. Clin Neurol Neurosurg 2019; 185: 105462
  • 20 Gibbons BA, Miele WR, Florman JE, Heilman CB, Horgan MA. Pneumosinus dilitans and meningioma: a case series and review of the literature. Neurosurg Focus 2011; 30 (05) E13
  • 21 Dross PE, Lally JF, Bonier B. Pneumosinus dilatans and arachnoid cyst: a unique association. AJNR Am J Neuroradiol 1992; 13 (01) 209-211
  • 22 Mai A, Karis J, Sivakumar K. Meningioma with pneumosinus dilatans. Neurology 2003; 60 (11) 1861
  • 23 Parizel PM, Carpentier K, Van Marck V. et al. Pneumosinus dilatans in anterior skull base meningiomas. Neuroradiology 2013; 55 (03) 307-311
  • 24 Scuotto A, Saracino D, Rotondo M. et al. Sphenoidal pneumosinus dilatans due to anterior skull base meningiomas - CT and MRI aspects: report of two new cases and literature review. Neuroradiol J 2016; 29 (04) 295-297
  • 25 Aage BM, Temkar P, Chemate S, Mangaleswaran B. Co-existence of atypical meningioma, intratumoral lipometaplasia and extensive hyperostosis of calvarium: a rare entity. World Neurosurg X 2018; 1: 100001
  • 26 Roncaroli F, Scheithauer BW, Laeng RH, Cenacchi G, Abell-Aleff P, Moschopulos M. Lipomatous meningioma: a clinicopathologic study of 18 cases with special reference to the issue of metaplasia. Am J Surg Pathol 2001; 25 (06) 769-775

Zoom Image
Fig. 1 Preoperative brain magnetic resonance imaging (MRI). (A, B) Sagittal and coronal fat-saturated T2-weighted (T2W) images showing an off-midline extra-axial heterogeneous mass (arrows) with mixed signal intensities in the left frontal region. No perifocal edema was observed. (C) Axial TIW image without fat saturation showing prominent hyperintense signals in the mass (arrow), suggesting fat. (D) There is a focal hyperintense diffusion abnormality in the lateral part of the mass (arrow) on diffusion-weighted image. (E) Susceptibility-weighted image clearly shows hypointense signals within the mass due to calcification or hemorrhage (arrow). (F) Axial contrast-enhanced T1-weighted image with fat saturation showing suppression of the fat signal intensity (arrow).
Zoom Image
Fig. 2 Diagnostic preoperative contrast-enhanced sagittal (AC) and coronal (DF) computed tomography (CT) reformatted images show a mass with areas of marked hypoattenuation (mean –77 HU) characteristic of fat, calcification, and enhancing solid components (arrowheads). There is sphenoethmoidal pneumosinus dilatans (PSD) on the right side adjacent to the intracranial tumor (arrows).
Zoom Image
Fig. 3 Selected intraoperative photographs showing an oval or lobulated creamy-yellow mass with a smooth surface (A). The lesion contains heterogeneous solid soft tissues and a cystic area with fat, calcification, and hair shafts (BD).
Zoom Image
Fig. 4 Photomicrographs of the tumors. (A) ×100, hematoxylin and eosin (H&E), showing cyst wall lined by squamous epithelium, hair follicles with sebaceous glands, and smooth muscle fibers (upper right corner). (B) ×200, H&E, showing sebaceous glands (upper left) and smooth muscle fibers (central right). (C) ×400, H&E staining, showing loose keratin flakes. (D) ×100, smooth muscle actin (SMA), confirms the existence of the smooth-muscle cell component.