Accepted on 10 Feb 2023 Submitted on 29 Dec 2022
IntroductionRathke’s cleft cysts (RCCs) are benign sellar lesions arising from epithelial remnants of Rathke’s pouch that originate between the anterior and posterior lobes of the pituitary gland with a peak in third to fifth decades of life [1]. The residual lumen of the pouch is reduced to a narrow Rathke’s cleft, which generally regresses, and the persistence and enlargement of this cleft is believed to be the origin of an RCC [2].
Most RCCs are small and asymptomatic, but larger cysts may compress adjacent neurovascular structures and symptoms may arise, such as headache, endocrine dysfunction, and occasionally visual disturbances.
Diagnosis of RCC is strongly suggested at magnetic resonance imaging (MRI). Typical imaging findings include a nonenhancing, noncalcified cyst located between the anterior and posterior lobes of the pituitary gland with sharp contours as well as close contact with the posterior lobe and strict midline location [3]. RCCs may show various signal intensities on T1- and T2-weighted images, depending on its cystic content.
Routine clinical follow-up with MRI is sufficient for incidental asymptomatic cysts. For rare cases with symptomatic lesions, treatment most often consists of surgery, usually an endonasal transsphenoidal approach.
Although considered to be benign lesions, RCCs commonly recur. The recurrence rate may depend on the size of the cyst, presence of squamous metaplasia, or partial excision of the paper-thin wall of the cyst, leaving in place the secretions that may re-accumulate or even result in intraoperative cerebral spinal fluid leak and leading to need for an abdominal fat graft or sellar packing [1].
Presentation of the Cases Classical Cystic RCCA 67-year-old woman presenting with tiredness and weight gain was diagnosed with a pituitary insufficiency. MRI evaluation revealed a large cystic intrasellar and suprasellar lesion with superior displacement of the optic chiasm, posterior displacement of the neurohypophysis, and extension to the cavernous sinuses (Figure 1).
Figure 1Intrasellar and suprasellar lesion in a 67-year-old female patient, which is hyperintense in on coronal T2WI (A), hypointense on coronal T1WI (B), and no enhancement is observed on contrast-enhanced T1WI (C) diagnosed as Rathke’s cleft cyst pathologically.
Patient underwent transsphenoidal surgical resection, which confirmed the diagnosis of RCC. Immediate post-operative follow-up revealed a sphenoidal breach with CSF flow leading to intracranial hypotension which was followed up by MRI (Figure 2) and a surgical revision a few months later to clog it.
Figure 2MRI after first surgery: Coronal T1WI (A), Coronal post-contrast T1WI (B) and coronal T2WI revealed signs of intracranial hypotension: right and left subdural collections and pachymeningeal thickening and enhancement.
The postoperative follow-up revealed headaches that were not present before her first operation, persistent pituitary insufficiency requiring hormone substitution therapy: gonadotropic (LH FSH abnormally low for menopause), thyrotropic (low T4 and low TSH), somatotropic (collapsed GH), and corticotropic (low cortisol and ACTH), and slightly elevated but stable prolactin probably related to pituitary stem lesion. No other problems were reported, including no recurrence so far.
RCC with High Protein ContentA 22-year-old woman who presented with chronic headaches underwent an MRI examination, which showed a cystic intrasellar lesion with high protein content. No mass affect was observed (Figure 3). Patient underwent transsphenoidal surgical resection with complete resection of the RCC and resolution of headaches in her follow-up. No post-operative complication and no recurrence so far were reported.
Figure 3Intrasellar lesion in a 22-year-old female patient with a hypointense component on coronal T2WI (A), which is hyperintense on coronal (B) and sagittal (D) T1WI, and without enhancement on coronal contrast-enhanced substracted T1WI (C) diagnosed as Rathke’s cleft cyst pathologically.
RCC with a Mural NoduleA 73-year-old woman presented with an incidental cystic pituitary lesion discovered in context of malaise with loss of consciousness. The hormonal assessment during hospitalization revealed a pituitary insufficiency affecting the gonadotropic, thyrotropic, corticotropic, and somatotropic functions as well as hyperprolactinemia compatible with a compression of the pituitary stem.
MRI examination demonstrated a cystic sellar and suprasellar lesion with a non-enhanced intracystic nodule (Figure 4). An intracystic nodule can be identified, which is virtually pathognomonic of a RCC with an incidence of 37.5–45% [4] and can show various signal intensities depending on the signal of the surrounding fluid visibility.
Figure 4Coronal T2WI (A), coronal T1WI (B), coronal contrast-enhanced T1WI (C) and axial FLAIR (D) images in a 73-year-old female patient show cystic intrasellar and suprasellar lesion with a non-enhancing intracystic nodule hyperintense to surrounding fluid on T1 and hypointense on T2.
In the course of her follow-up, a significant radiological progression of the cyst was observed at the end of the ten-year follow up. MRI revealed an increase in the size of both the cystic lesion and the intracystic nodule showing chiasmatic mass affect and without extension to the cavernous sinuses (Figure 5).
Figure 5Ten-year follow-up of the same patient: Coronal T2WI (A), T1WI (B), post-contrast T1WI (C) and sagittal T1WI (D) show an increase in size of the lesion as well as the intracystic nodule.
Considering the radiological progression of the cyst and given the context, the patient underwent surgical resection after discussion at a multidisciplinary oncology meeting. In the postoperative course, persistence of a relatively important pituitary insufficiency was revealed, justifying the continuation of hormone substitution therapy. No post-operative complication or recurrence has been observed so far.
RCC with Heterogeneous Texture and Peripheral EnhancementA 11-year-old female patient who presented with failure to thrive and diabetes insipidus underwent an MRI examination, which revealed a cystic intrasellar and suprasellar lesion with heterogeneous content with an irregular solid component and peripheral enhancement coming into contact with the optic chiasm (Figure 6).
Figure 6Coronal T2WI (A), T1WI (B), post-contrast T1WI (C), sagittal T1WI (D) and axial FLAIR (E) images demonstrate a sellar and suprasellar lesion with heterogeneous content in the lower part of the lesion and peripheric enhancement.
Patient underwent transsphenoidal surgical resection without immediate post-operative complication, and no recurrence has been observed so far. During her postoperative follow-up, a nice recovery of her growth curve was reported. Initially, a decrease in her growth hormone level was reported, for which a substitution treatment was continued for a few months in addition to the antidiuretic hormone therapy.
DiscussionAlthough the recurrence rate of RCCs appears to be relatively high, none of our patients have demonstrated postoperative recurrence to date. This can be explained probably by their short follow-up period after surgery, ranging from a few months to three years, which can be considered a limitation in our case series.
There is currently no clinical consensus on the best strategy to treat recurrences, but radiotherapy seems to be a good emerging alternative to surgery in RCC treatment, according to Chalif, especially for the cases that tend to recur [5].
In our study, all patients underwent transsphenoidal surgical resection, but it should be kept in mind that surgery exposes the patient to a risk of postoperative complications and RCC treatment remains controversial for some authors. Based on Truong’s study, surgery would appear to be particularly suitable for treating visual disturbances, and regular follow-up is more appropriate than surgery regarding headaches, hyperprolactinemia, endocrine disruptions, and diabetes insipidus [6]. This was confirmed in our clinical cases, except for case 2, where the surgery demonstrated a beneficial effect on the patient’s headaches.
Diagnosis of RCCs might be challenging because they can mimic other intra- or suprasellar lesions, such as cystic pituitary adenoma and cystic craniopharyngioma, or less frequently, arachnoid cyst, epidermoid cyst, mucocele, abscess, or pituitary apoplexy [7]. RCC is sometimes indistinguishable from cystic pituitary adenoma on MRI. In the literature the presence of a fluid-fluid level (presumably related to intracystic hemorrhage), septation, an off-midline location, suprasellar extension with typically a ‘figure of eight’ appearance and the absence of an intracystic nodule are important imaging features in favor of a pituitary adenoma [4, 8].
On the other hand, suprasellar localization, the presence of calcification or a solid enhancing component is characteristic for craniopharangioma [3]. Histologically craniopharyngiomas present as two types: squamous-papillary and adamantinous. The first type is mostly a solid suprasellar tumor in adults with the presence of intensely enhancing and small necrotic areas on MRI. The second type is a predominantly cystic tumor with peripheral calcifications, found in children [8].
Cystic portions of both pituitary adenoma and craniopharyngioma can show an enhancing thick wall which can be attributed to squamous metaplasia, inflammation, deposition of haemosiderin, or cholesterol crystals in the cyst wall [8].
ConclusionWe describe a wide spectrum of radiological features that are dependent on cystic content and that a radiologist should be aware of to make a correct diagnosis. Although radiological findings can be nonspecific, some MRI features may be helpful in differentiating it from other well-circumscribed intrasellar processes; nonetheless sometimes surgery is necessary to lead to the definitive diagnosis.
It is also important to point out that even though RCCs are benign changes pathologically every RCC case should have serious and rigorous multidisciplinary follow-up, primarily because of its location regarding compression effects and multiple important pituitary functions. Indeed, according to the literature, one RCC case reported by Sawano resulted in cardiac arrest induced by a lack of cortisol [9].
Ethics and consentThe authors declare that they obtained informed consent from the patients included in the article and that this report does not contain any personal information that could lead to their identification.
Competing InterestsThe authors have no competing interests to declare.
ReferencesLarkin S, Karavitaki N, Ansorge O. Chapter 17- Rathke’s cleft cyst. In: Handbook of Clinical Neurology. 2014; 124: 255–269. DOI: https://doi.org/10.1016/B978-0-444-59602-4.00017-4
Byun WM, Kim OL, Kim D. MR imaging findings of Rathke’s cleft cysts: Significance of intracystic nodules. AJNR Am J Neuroradiol. 2000; 21(3): 4858. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8174989.
Farrash FA, Hassounah M, Helmi HA, et al. Rathke’s cleft cyst presentation mimicking craniopharyngioma: Case report. Int J Surg Case Rep. 2020; 68: 104–106. DOI: https://doi.org/10.1016/j.ijscr.2020.01.035
Park M, Lee SK, Choi J, et al. Differentiation between cystic pituitary adenomas and Rathke cleft cysts: A diagnostic model using MRI. AJNR Am J Neuroradiol. 2015; 36(10): 1866–73. DOI: https://doi.org/10.3174/ajnr.A4387
Chalif EJ, El Shatanofy M, Mozaffari K, et al. Rapidly recurrent recalcitrant Rathke cleft cyst: Case report and review of the literature. Neurochirurgie. 2022; 68(5): 535–539. DOI: https://doi.org/10.1016/j.neuchi.2022.01.002
Truong LUF, Bazin C, Gomis P, et al. Surgery versus conservative care for Rathke’s cleft cyst. Neurochirurgie. 2021; 67(2): 104–111. DOI: https://doi.org/10.1016/j.neuchi.2020.12.010
Meyer JR, Quint DJ, McKeever PE, Boland M, Ross DA. Giant Rathke cleft cyst. AJNR Am J Neuroradiol. 1994; 15(3): 533–536. https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8334323/pdf/8197953.pdf.
Choi SH, Kwon BJ, Na DG, Kim JH, et al. Pituitary adenoma, craniopharyngioma, and Rathke cleft cyst involving both intrasellar and suprasellar regions: Differentiation using MRI. Clin Radiol. 2007; 62(5): 453–62. DOI: https://doi.org/10.1016/j.crad.2006.12.001
Sawano S, Nakayama A, Morita H, Komuro I. Rathke’s cleft cyst induced cardiac arrest. Eur Heart J. 2020; 42(6): 714. DOI: https://doi.org/10.1093/eurheartj/ehaa913
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