Nouri M, Azarhomayoun A. Three-dimensional Anaglyph Indocyanine Green Video Angiography: A New Technology for Cerebrovascular Surgeries. Iran J Neurosurg 2021; 7 (1) :31-36
URL:
http://irjns.org/article-1-261-en.html
1- Department of Neurosurgery, Jamaica Hospital Medical Center, New York, USA. , mnouri@jhmc.org
2- Stone Lion Clinic, Gundishapour Academy of Neuroscience, Ahvaz, Iran.
Abstract: (2199 Views)
Background and Aim: Indocyanine Green (ICG) angiography has become the standard of practice in many centers managing cerebrovascular diseases. Though 3D stereoscopic recording of the surgeries has received widespread attention, there is a need for a technology to display and record real-time 3D ICG angiographies. In this study, we designed and constructed an ICG angiography camera to display the real-time 3D ICG angiographies.
Methods and Materials/Patients: Our project had three phases. In phase I, a handmade ICG camera was designed and constructed in our laboratory. The second phase included creating a 3D camera to display real-time images in 3D anaglyph format. In the last phase, we developed a 3D ICG camera to demonstrate 3D ICG angiographies in real-time.
Results: We successfully completed all three phases of the project and could display real-time 3D ICG angiography of a mouse mesenteric arteries, recorded it, and took pictures.
Conclusion: We proposed a method and proved its feasibility for producing a 3D ICG angiography camera to be mounted on the next generation of neurosurgical microscopes.
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● Real-time 3D hand-made ICG angiography is applicable for displaying vessels.
● Real-time 3D ICG angiography helps with a better understanding of the vascular anatomy.
● Our constructed device achieved acceptable 3D image quality and is highly promising for further development.
Plain Language Summary
Indocyanine Green (ICG) angiography has become the standard of practice in many centers. we designed and constructed an ICG angiography camera to display real-time 3D ICG angiographies. Our project had three phases. We developed a 3D ICG camera to demonstrate 3D ICG angiographies in real-time. We successfully completed all three phases of the project. We proposed a method and proved its feasibility for producing a 3D ICG angiography camera to be mounted on the next generation of neurosurgical microscopes.