Abstract
.Significance: Laser speckle contrast imaging (LSCI) has emerged as a promising tool for intraoperative cerebral blood flow (CBF) monitoring because it produces real-time full-field blood flow maps noninvasively and label free.Aim: We aim to demonstrate the ability of LSCI to continuously visualize blood flow during neurovascular procedures.Approach: LSCI hardware was attached to the surgical microscope and did not interfere with the normal operation of the microscope. To more easily visualize CBF in real time, LSCI images were registered with the built-in microscope white light camera such that LSCI images were overlaid on the white light images and displayed to the neurosurgeon continuously in real time.Results: LSCI was performed throughout each surgery when the microscope was positioned over the patient, providing the surgeon with real-time visualization of blood flow changes before, during, and after aneurysm clipping or arteriovenous malformation (AVM) resection in humans. LSCI was also compared with indocyanine green angiography (ICGA) to assess CBF during aneurysm clipping and AVM surgery; integration of the LSCI hardware with the microscope enabled simultaneous acquisition of LSCI and ICGA.Conclusions: The results suggest that LSCI can provide continuous and real-time CBF visualization without affecting the surgeon workflow or requiring a contrast agent. The results also demonstrate that LSCI and ICGA provide different, yet complementary information about vessel perfusion.
Highlights
Cerebral blood flow (CBF) monitoring is routine during cerebrovascular surgery to inform decision-making.[1]
This paper demonstrates the potential of Laser speckle contrast imaging (LSCI) for human CBF monitoring in two ways: LSCI was performed continuously during cerebral aneurysm clipping and arteriovenous malformation (AVM) resection surgeries without affecting the surgical workflow, including real-time visualization of CBF during aneurysm clip placement, and LSCI and indocyanine green angiography (ICGA) were performed simultaneously to visualize CBF for n 1⁄4 5 neurovascular cases
These results demonstrate that LSCI can monitor CBF continuously during neurovascular procedures when the LSCI device is integrated into the surgical microscope and that LSCI and ICGA provide different yet complementary information about vessel perfusion
Summary
Cerebral blood flow (CBF) monitoring is routine during cerebrovascular surgery to inform decision-making.[1]. In cerebral aneurysm clipping cases, various technologies are routinely used to confirm patency in vessels and determine successful aneurysmal obliteration. Current intraoperative tools for CBF monitoring and visualization include indocyanine green angiography (ICGA),[2–7] Doppler[8–10] and transit-time[11,12] ultrasound, and percutaneous transfemoral digital subtraction angiography (DSA).[13–17]. ICGA records the fluorescence wash in of a bolus of indocyanine green (ICG) after intravenous injection. DSA images are acquired by obtaining multiple time-controlled x-rays as contrast medium is injected intra-arterially.
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