Association of focal epilepsy in Alzheimer’s disease with tau, amyloid, and neurodegeneration

• Published in: Alzheimer's & dementia Vol. 19; no. S16
• Main Authors: Lam, Alice D, Jacobs, Heidi I.L., Thibault, Emma G., Mayblyum, Danielle V., Hsieh, Stephanie, Pellerin, Kyle R, Buss, Stephanie S., Sarkis, Rani A, Johnson, Keith A., Sperling, Reisa A.
• Format: Journal Article
• Language: English
• Published: 01.12.2023
• ISSN: 1552-5260; 1552-5279
• DOI: 10.1002/alz.079245

Background Network hyperexcitability has emerged as an important contributor to cognitive dysfunction and clinical progression in Alzheimer’s disease (AD), with work in animal AD models supporting a mechanistic, feed‐forward link between neuronal hyperexcitability and amyloid and tau pathology. Seizures are a quintessential manifestation of network hyperexcitability in AD. AD is associated with a 2‐3‐fold increased risk of developing epilepsy, and epilepsy in AD is most often a focal, unilateral temporal lobe epilepsy. We hypothesized that if network hyperexcitability is mechanistically linked to AD pathology, then focal unitemporal hyperexcitability in individuals with AD and epilepsy would be associated with increased deposition of tau and/or amyloid within the epileptogenic hemisphere. Method We studied eight individuals with early clinical stages of AD who developed focal epilepsy early in the course of AD. All individuals underwent overnight scalp EEG, 3T structural brain MRI, and PET imaging with 11C‐PiB and 18F‐MK‐6240. We performed region‐of‐interest based imaging analyses and calculated asymmetry indices (AI) as: 200 * (Ipsilateral ‐ Contralateral) / (Ipsilateral + Contralateral), where ipsilateral and contralateral are relative to the epileptogenic hemisphere. Result Tau deposition was asymmetrically increased within the epileptogenic hemisphere. Individuals with a higher global tau burden showed asymmetrically increased tau in the lateral temporal lobe, medial and lateral parietal lobes, and frontal lobes of the epileptogenic hemisphere, while those with a lower global tau burden demonstrated a highly focal, discrete tau accumulation within the lateral temporal lobe. Amyloid deposition was also increased within the epileptogenic hemisphere, particularly in the lateral temporal, medial and lateral parietal, and frontal regions, though the magnitude of amyloid AI was lower than that of tau AI. We also found increased cortical atrophy in the lateral temporal and lateral parietal regions of the epileptogenic hemisphere. Conclusion Our study reveals a spatial association between focal epilepsy and asymmetries in tau and amyloid deposition and cortical atrophy in early clinical stages of AD. While historically, individuals with AD and epilepsy have been excluded from most studies in AD, our findings demonstrate that studying these individuals can provide unique insights on mechanisms that underlie the clinical and pathologic heterogeneity of AD.