Anatomy of optic nerve radiations as assessed by static perimetry and MRI after tailored temporal lobectomy
- aDepartment of Neuro-ophthalmology, P Wertheimer Neurological Hospital, Lyons, France, bDepartment of Neuro-surgery, cDepartment of Epileptology
- P Krolak-Salmon, Service de Neuro-ophtalmologie, Hopital Neurologique et Neuro-chirurgical P Wertheimer, 59 Boulevard Pinel, 69394 Lyon cedex 03, Francepkrolak{at}club-internet.fr
- Accepted 25 February 2000
Abstract
AIMS To determine the course of optic nerve radiations in the temporal lobe, especially their retinotopic organisation and the anterior limit of the Meyer's loop.
METHODS 18 adult patients who had undergone a tailored temporal lobectomy for epilepsy were included in this study between 1994 and 1998. The rostrocaudal extent of the lateral temporal lobe resection assessed intraoperatively by the surgeon and by postoperative MRI was compared with the postoperative visual fields determined by automated static perimetry (ASP).
RESULTS 15 patients (83%) presented a postoperative visual field deficit (VFD) confined to the superior homonymous field contralateral to the side of the resection. All degrees from a minimal upper field loss to a complete quadrantanopia were observed. The VFDs were somewhat stereotyped, predominating along the vertical meridian. The smallest anteroposterior resection resulting in a VFD was limited to 20 mm from the tip of the temporal lobe. A relation was observed between the extent of the lateral resection in front of the second and third convolutions and the occurrence and extent of postoperative VFDs. No patient reported persisting subjective visual impairment.
CONCLUSION The high frequency of postoperative VFDs appears to be due to the greater sensitivity of ASP. The characteristics of the stereotyped VFDs allow new conclusions about the course and retinotopy of optic nerve radiations. The anterior limit of Meyer's loop is likely to be located more rostrally than previously believed.
