# A Longitudinal Study of the Effects of Ketogenic Diet on Seizures, Cardiorespiration, Sleep Architecture and Mortality in the Kv1.1 Knockout Mouse Model of Sudden Unexpected Death in Epilepsy (SUDEP)

**Authors:** Shruthi H. Iyer, Stephanie A. Matthews, Jodi Hallgren, Lauren Netzel, Timothy A. Simeone, Kristina A. Simeone

PMC · DOI: 10.3390/nu18050809 · Nutrients · 2026-03-01

## TL;DR

This study shows that a ketogenic diet can extend lifespan and reduce seizures and breathing issues in a mouse model of SUDEP, but sleep problems still remain.

## Contribution

The study provides novel preclinical evidence that the ketogenic diet can reduce SUDEP-related biomarkers like bradycardia, apnea, and hypoxemia.

## Key findings

- Ketogenic diet treatment increased longevity and reduced seizures in the SUDEP mouse model.
- Ketogenic diet attenuated bradycardia, apnea, and hypoxemia in the last 10-20 days of life.
- Sleep deficiencies persisted despite ketogenic diet treatment.

## Abstract

Background: Sudden unexpected death in epilepsy (SUDEP) causes significant mortality, affecting approximately 1 in 1000 people with epilepsy. Clinical and preclinical studies have identified severe seizures, bradycardia, apnea, severe postictal hypoxia, and sleep deficiency that emerge prior to SUDEP and thus may represent temporal biomarkers. The metabolic ketogenic diet (KD) therapy increases longevity in preclinical SUDEP models. Here, the hypothesis that KD therapy would determine whether the emergent sleep deficiency, bradycardia, apnea and/or hypoxemia persist as temporal biomarkers in preclinical SUDEP was tested. Methods: Kv1.1 knockout (KO) mice, a preclinical SUDEP model, and wild-type littermates were weaned onto a standard diet (SD) or treated with KD. In separate cohorts, approximately every 10 days, seizures and sleep architecture were recorded with electroencephalography–electromyography (EEG-EMG), heart rate was measured with noninvasive ECGenie, apnea was assessed with noninvasive airway mechanics, and blood O2 saturation was measured with pulse oximetry. Data were aligned from the day of sudden death and analyzed retrospectively. Results: KD treatment significantly increased longevity and reduced seizures, reproducing previous studies. Using retrospective analyses from the day of death, KD treatment attenuated the emergence of (i) interictal intermittent bradycardia in the last 20 days of life, (ii) apnea, and (iii) intermittent hypoxemia in the last 10 days of life. In contrast, (iv) KD treatment did not rescue REM and NREM sleep deficiencies during the last 10 days of life. Conclusions: Our findings provide novel preclinical support for KD as a candidate therapy to attenuate seizure frequency and burden, bradycardia, apnea, and hypoxemia in SUDEP. In addition, sleep deficiency persisted as a potential temporal biomarker of preclinical SUDEP; however, causality will need to be tested in future studies.

## Linked entities

- **Genes:** KCNA1 (potassium voltage-gated channel subfamily A member 1) [NCBI Gene 3736]
- **Diseases:** epilepsy (MONDO:0005027)
- **Species:** Mus musculus (taxon 10090)

## Full-text entities

- **Genes:** Kcna1 (potassium voltage-gated channel, shaker-related subfamily, member 1) [NCBI Gene 16485] {aka Kca1-1, Kv1.1, MBK1, Mk-1, Shak, mceph}
- **Diseases:** hypoxemia (MESH:D000860), Seizures (MESH:D012640), bradycardia (MESH:D001919), epilepsy (MESH:D004827), emergent sleep deficiency (MESH:D004630), death (MESH:D003643), SUDEP (MESH:D000080485), apnea (MESH:D001049), sudden death (MESH:D003645), NREM sleep deficiencies (MESH:D012893)
- **Chemicals:** O2 (-)
- **Species:** Mus musculus (house mouse, species) [taxon 10090]

## Full text

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## Figures

8 figures with captions in the complete paper: https://tomesphere.com/paper/PMC12986616/full.md

## References

84 references — full list in the complete paper: https://tomesphere.com/paper/PMC12986616/full.md

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Source: https://tomesphere.com/paper/PMC12986616