Background: Ruptured intracranial aneurysms remain the subject of debate in their management, but the management of lesions located at high-risk locations, such as the hypophyseal artery, continue to prove to be a challenge in anatomical orientation and proximity to vascular structures. While endovascular therapies have changed the treatment paradigms, microsurgical clipping is the gold standard for wide-necked aneurysms for which endovascular techniques may be suboptimal. The successful treatment of a ruptured hypophyseal artery aneurysm in an elderly patient is described in this report, which highlights the importance of advanced imaging, careful technique, and new understanding of personalized aneurysm management. Methods: An 82-year-old woman was admitted with a thunderclap headache, alteration of consciousness and meningeal signs, suggestive of subarachnoid hemorrhage (SAH). A non-contrast computed tomography (CT) and digital subtraction angiography (DSA) confirmed a saccular 12 × 10 mm aneurysm with a broad 3.13 mm neck arising from the hypophyseal artery. The location and morphology of the aneurysm required microsurgical clipping, which was performed through a right pterional craniotomy. Results: Correct clip placement, complete exclusion of the aneurysm, and resorption of the subarachnoid blood were both observed on postoperative imaging. The neurological examination was completely normal, with no complications. Follow-up imaging at three months demonstrated stable, marked cerebral atrophy with compensatory ventricular enlargement without evidence of recurrence. Conclusions: This case illustrates the important role of micro-surgical clipping in anatomically complex aneurysms and its sustainable outcome and accuracy in cases where endovascular practices would have limitations. Advanced imaging, like three-dimensional DSA and intraoperative tools, have revolutionized precision surgery, allowing achievement of optimal outcomes, even for more-complicated cases. With an evolving, dynamic field and exciting new technologies coming to the fore-such as artificial intelligence to predict rupture risk and augmented reality navigation-decision-making and treatment of complex aneurysms will be optimized along secure pathways towards tailored, high-resolution treatment in the sense of personalized and yet high-precision care.
Keywords: advanced neuroimaging; cerebrovascular surgery; hypophyseal artery aneurysm; microsurgical clipping; subarachnoid hemorrhage.