TY - JOUR T1 - Does Performing Image Registration and Subtraction in Ictal Brain SPECT Help Localize Neocortical Seizures? JF - Journal of Nuclear Medicine JO - J Nucl Med SP - 1619 LP - 1626 VL - 41 IS - 10 AU - Petra J. Lewis AU - Alan Siegel AU - Adrian M. Siegel AU - Colin Studholme AU - Jitka Sojkova AU - David W. Roberts AU - Vijay M. Thadani AU - Karen L. Gilbert AU - Terrance M. Darcey AU - Peter D. Williamson Y1 - 2000/10/01 UR - http://jnm.snmjournals.org/content/41/10/1619.abstract N2 - Ictal brain SPECT (IS) findings in neocortical epilepsy (patients without mesiotemporal sclerosis) can be subtle. This study is aimed at assessing how the seizure focus identification was improved by the inclusion of individual IS and interictal brain SPECT (ITS)–MRI image registration as well as performing IS − ITS image subtraction. Methods: The study involved the posthoc analysis of 64 IS scans using 99mTc–ethyl cysteinate dimer that were obtained in 38 patients without mesiotemporal sclerosis but with or without other abnormalities on MRI. Radiotracer injection occurred during video-electroencephalographic (EEG) monitoring. Patients were injected 2–80 s (median time, 13 s) after clinical or EEG seizure onset. All patients had sufficient follow-up to correlate findings with the SPECT results. All patients had ITS and MRI, including a coronal volume sequence used for registration. Image registration (IS and ITS to MRI) was performed using automated software. After normalization, IS − ITS subtraction was performed. The IS, ITS, and subtraction studies were read by 2 experienced observers who were unaware of the clinical data and who assessed the presence and localization of an identifiable seizure focus before and after image registration and subtraction. Correlation was made with video-EEG (surface and invasive) and clinical and surgical follow-up. Results: Probable or definite foci were identified in 38 (59%) studies in 33 (87%) patients. In 52% of the studies, the image registration aided localization, and in 58% the subtraction images contributed additional information. In 9%, the subtraction images confused the interpretation. In follow-up after surgery, intracranial EEG or video-EEG monitoring (or both) has confirmed close or reasonable localization in 28 (74%) patients. In 6 (16%) patients, SPECT indicated false seizure localization. Conclusion: Image registration and image subtraction improve the localization of neocortical seizure foci using IS, but close correlation with the original images is required. False localizations occur in a minority of patients. ER -