Karl Hartmann1, Klaus-Peter Stein2, Belal Neyazi2, I Erol Sandalcioglu2. 1. Universitätsklinik für Neurochirurgie, Otto-von-Guericke-Universität Magdeburg, Leipziger Str. 44, 39120 Magdeburg, Germany. Electronic address: karl.hartmann@med.ovgu.de. 2. Universitätsklinik für Neurochirurgie, Otto-von-Guericke-Universität Magdeburg, Leipziger Str. 44, 39120 Magdeburg, Germany.
Abstract
PURPOSE: This technical note illustrates microscope integrated optical coherence tomography (iOCT) as an imaging technique to delineate concealed micro anatomical structures not displayable by conventional intraoperative imaging methods in the context of a cerebral arachnoid cyst. METHODS: iOCT was used for the first time to scan a cerebral arachnoid cyst in vivo. Scanning sites were defined at the outer membrane of the arachnoid cyst, the inner membrane at the temporal cortex as well as at the fenestration site to the basal cisterns - a point out of reach and resolution for conventional intraoperative imaging methods like e. g. ultrasound or neuroendoscopy. RESULTS: iOCT was feasible during microsurgical fenestration of an arachnoid cyst. A clear delineation of the arachnoid cyst membrane was possible. The differentiation of the arachnoid cyst membrane and underlying arachnoid barrier cell membrane was possible. Trans cystic scanning at the temporal cortex could delineate the content of the subarachnoid space like subarachnoid blood vessels, trabecular sytem and vessel wall morphology of a M4 middle cerebral artery branch. Scanning of the inner membrane of the arachnoid cyst at site of fenestration to the basal cisterns excluded underlying micro anatomical structures. CONCLUSION: This case demonstrates that iOCT achieved to delineate concealed micro anatomical structures which are occult to conventional intraoperative imaging methods. Further studies are necessary to value iOCT as a tool to improve intraoperative security.
PURPOSE: This technical note illustrates microscope integrated optical coherence tomography (iOCT) as an imaging technique to delineate concealed micro anatomical structures not displayable by conventional intraoperative imaging methods in the context of a cerebral arachnoid cyst. METHODS: iOCT was used for the first time to scan a cerebral arachnoid cyst in vivo. Scanning sites were defined at the outer membrane of the arachnoid cyst, the inner membrane at the temporal cortex as well as at the fenestration site to the basal cisterns - a point out of reach and resolution for conventional intraoperative imaging methods like e. g. ultrasound or neuroendoscopy. RESULTS: iOCT was feasible during microsurgical fenestration of an arachnoid cyst. A clear delineation of the arachnoid cyst membrane was possible. The differentiation of the arachnoid cyst membrane and underlying arachnoid barrier cell membrane was possible. Trans cystic scanning at the temporal cortex could delineate the content of the subarachnoid space like subarachnoid blood vessels, trabecular sytem and vessel wall morphology of a M4 middle cerebral artery branch. Scanning of the inner membrane of the arachnoid cyst at site of fenestration to the basal cisterns excluded underlying micro anatomical structures. CONCLUSION: This case demonstrates that iOCT achieved to delineate concealed micro anatomical structures which are occult to conventional intraoperative imaging methods. Further studies are necessary to value iOCT as a tool to improve intraoperative security.