Adenosine-induced Flow Arrest to Facilitate Control of a Basilar Artery Injury during Craniotomy for Petroclival Meningioma: A Case Report
DOI:
https://doi.org/10.47895/Keywords:
adenosine, basilar artery, meningioma, case reportAbstract
Intraoperative hemorrhage is a life-threatening complication during neurosurgery, especially in posterior fossa surgery, where critical vasculature and brain structures are present. Adenosine has been used in neurovascular surgery, particularly in the management of intraoperative aneurysm rupture and hemorrhage for its ability to produce transient flow arrest. This case report describes a novel application for adenosine, in which adenosine-induced flow arrest was used to facilitate control of a vascular injury sustained during meningioma surgery.
A 46-year-old female diagnosed with a petroclival meningioma after presenting with a several-month history of headache, dizziness, and loss of balance underwent craniotomy and excision of the meningioma. The patient received general endotracheal anesthesia, and was maintained on remifentanil, propofol, and low-dose sevoflurane. During posterior excision of the meningioma, the basilar artery was inadvertently lacerated, resulting in significant blood loss. Adenosine was given through a subclavian catheter, and produced severe bradycardia, hypotension, then asystole for approximately 50 seconds. Adenosine-induced flow arrest allowed for initial control of the vascular injury through coagulation, while further hemostasis was achieved through hemostatic agents and muscle tamponade.
This case report demonstrates the usefulness of adenosine-induced flow arrest in the management of intraoperative hemorrhage from an intracranial vascular injury. Adenosine-induced flow arrest has documented safety and efficacy in other neurosurgical applications. As the management of intraoperative hemorrhage is an essential component of neuroanesthesia, this technique may be considered in similar circumstances of major vascular injury to facilitate hemostasis.
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Copyright (c) 2026 Carlo D. Monteblanco, MD, Karl Matthew C. Sy Su, MD, Geraldine Raphaela B. Jose, MD
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
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