Back to the Future: Dynamic Contrast-Enhanced Photon-Counting Detector CT for the Detection of Pituitary Adenoma in Cushing Disease

DISCUSSION

In this report, we describe an imaging protocol for dynamic postcontrast imaging of the pituitary gland on PCD-CT. Pituitary lesions were identified on PCD-CT in 3 patients with Cushing disease.

Traditional EID-CT converts x-ray photons to visible light and subsequently converts the light to electrical signals. PCD-CT, on the other hand, simplifies this process by directly converting each photon to an electrical signal and recording its energy information. PCD-CT has shown an advantage for increased spatial resolution compared with typical clinical protocols on MR imaging and EID-CT.⁵ In addition to improved spatial resolution and the potential to lower the radiation dose, PCD-CT has a higher iodine signal than EID-CT due to higher weighting of low-energy photons during photon detection, which increases the conspicuity of iodine-enhanced soft-tissue structures.⁶ While it is a new application only receiving FDA approval in 2021, PCD-CT has already been shown to have multiple useful applications, including evaluation of multiple myeloma involving the spine,⁷ CSF-venous fistula,⁸ and temporal bone⁹ among many other applications. None of these, however, have been applied to pituitary imaging.

Dynamic contrast-enhanced EID-CT imaging of the sella was previously described in the 1980s¹⁰ and 1990s^10,11 A study published in 2015, including patients imaged beginning in 2004, found that dynamic EID-CT was more effective than MR imaging without dynamic contrast-enhanced imaging.¹² Modern imaging, however, has abandoned CT in favor of MR imaging.¹ Neuroimaging of the pituitary gland in patients with Cushing disease continues to serve an imperative function in its diagnosis and management. Cushing disease is caused by a pituitary adenoma that secretes corticotropin, subsequently leading to an increase in the production of cortisol from the adrenal cortex. Hypercortisolism leads to the development of features of overt Cushing syndrome on examination (skin fragility, bruising, striae, supraclavicular and dorsocervical pads, facial rounding, proximal myopathy); comorbidities such as hypertension, diabetes, obesity, fractures, infections, and pulmonary embolism; and an increase in mortality.¹³ While inferior petrosal sinus sampling can help to distinguish Cushing disease from ectopic Cushing syndrome, it has not been shown to reliably localize a lesion within the pituitary gland.¹⁴ This finding is particularly important because surgical resection is the standard-of-care treatment for Cushing disease. If MR imaging is unable to locate an adenoma, surgical resection is associated with a higher rate of complications and decreased cure rates.¹³

Our experience is too limited to advocate for PCD-CT as a replacement for MR imaging; however, there are several situations in which CT has advantages over MR imaging. CT tables generally have higher weight limits than MR imaging tables to accommodate larger patients, and the larger bore size of CT could help patients who cannot tolerate MR imaging due to claustrophobia. As shown in patient 3, the faster acquisition time of CT can be helpful in patients who are unable to lie still long enough for diagnostic-quality MR images to be acquired. Additionally, PCD-CT could help in patients who are unable to undergo MR imaging secondary to metal safety concerns, nonconditional implants, or gadolinium-based contrast reactions. Finally, in cases in which patients have overpneumatized sphenoid sinuses that produce problematic artifacts over the sella on MR imaging, CT image quality is not confounded by this problem. Specific to PCD-CT, the imaging technique allows thin, submillimeter section thickness. In our experience, the primary benefit of this technique is outlining the peripheral margin of the adenoma relative to the normal pituitary gland, allowing greater confidence in identifying a hypoenhancing lesion as an adenoma.

At our institution, patients scheduled for pituitary surgery undergo a preoperative skull base CTA to help with surgical planning. Thus, as is the case with all CT scans, this technique increases the radiation dose to the patient. Further work studying a larger number of patients could further refine the imaging technique to decrease the number of imaging passes of the sella and help decrease the radiation dose. Given the clear advantages of PCD-CT over EID-CT and the importance of preoperative adenoma identification in patients with Cushing disease, we believe that this technique should be thoroughly studied, and we will continue to use it as our institutional preference.