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Do Seizures Damage the Brain?

From a slow drip in chronic epilepsy to a flood during status epilepticus.

For 150 years clinicians have debated whether seizures harm the brain. Longitudinal imaging now lets us measure it directly, across the whole spectrum, from the subtle atrophy of chronic epilepsy to the dramatic injury of prolonged status epilepticus. The answers shape how urgently we treat, when we operate, and whether the brain can be protected.

Grey matter lost per year, by condition
Healthy controlsEpilepsyAutoimmune enceph.Subarachnoid haem.Mild cognitive impair.Alzheimer’s diseaseNORSE
≈ 80× normal ageing
1101001000

ml of grey matter lost per year, logarithmic scale

During status epilepticus (NORSE), grey matter is lost around 80 times faster than in normal ageing and 20 times faster than in Alzheimer’s disease. Redrawn from our preprint.

The slow drip

In chronic focal epilepsy the brain shrinks about twice as fast as in normal ageing. The loss concentrates in regions wired to the seizure focus, a network process, and it does not simply track how many seizures a person has.

The sudden flood

During prolonged status epilepticus, and especially NORSE, grey matter is lost rapidly and largely irreversibly. Blood and CSF markers of neurodegeneration rise in parallel and fall once the seizures stop, and histology confirms neuronal loss.

It can be halted

Successful epilepsy surgery stops the progressive atrophy in its tracks. That is strong evidence the damage is driven by the disease itself, and that removing the source can protect the brain.

Not only loss

The picture is not all decline. The brain also compensates, with hypertrophy of structures such as the contralateral amygdala and hippocampus, hinting at reorganization that might one day be harnessed.

The infrastructure we lead

Two studies, both open to collaborators.

Answering this question at scale takes shared data. We lead two multicentre imaging efforts, and both actively welcome new sites.

Status epilepticus imaging

IMPOSE

We lead this study

IMPOSE pools serial MRI and fluid biomarkers from people who had status epilepticus, to find who is vulnerable to brain injury, by how much, where, and what protects them. Our pilot showed grey-matter loss during NORSE far beyond any other condition. We are inviting centres to contribute their cases.

Longitudinal imaging in epilepsy

ENIGMA-Longitudinal

We lead this analysis within ENIGMA-Epilepsy

We are assembling the largest multicentre longitudinal MRI cohort in epilepsy, to map how the brain changes over time and to test the impact of treatment. We welcome cohorts with repeated MRI in people with epilepsy to take part.

Selected contributions

Our work on this topic, in the literature.

2025 medRxiv (preprint)

Brain damage during new-onset refractory status epilepticus

Rapid, largely irreversible grey-matter loss during NORSE, around 80 times normal ageing, mirrored by fluid biomarkers and confirmed on histology.

2025 Neurology

Brain hypertrophy in mesial temporal lobe epilepsy

Showed that epilepsy does not only shrink the brain, some structures enlarge, pointing to compensation and reorganization.

2025 Brain Communications

Longitudinal hippocampal morphology around temporal lobe surgery

Tracked how hippocampal shape changes before and after epilepsy surgery, refining what is disease and what is treatment.

2025 Epilepsia Open

Seizures beget more than seizures

A synthesis of the cellular, structural, individual and societal toll of seizures, the conceptual backbone for this whole question.

2023 Brain

Different MRI atrophy progression trajectories in epilepsy

Used subtype and stage inference to reveal distinct trajectories of brain change across people with epilepsy.

2023 Epilepsia

Neuronal antibodies in cryptogenic NORSE

A systematic search found no hidden antibody cause in most cryptogenic NORSE, sharpening where to look next.

2020 Brain

Resective surgery prevents progressive cortical thinning

Successful surgery halted the ongoing atrophy of temporal lobe epilepsy, evidence that the damage may be preventable.

2019 JAMA Neurology

Progressive cortical thinning in focal epilepsy

The foundational study, brain atrophy in epilepsy runs at roughly twice the rate of normal ageing.