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The matlab models available from the paper:

Martinet LE, Fiddyment G, Madsen JR, Eskandar EN, Truccolo W, Eden UT,
Cash SS, Kramer MA (2017) Human seizures couple across spatial scales
through travelling wave dynamics. Nat Commun 8:14896
<a href="http://dx.doi.org/10.1038/ncomms14896">http://dx.doi.org/10.1038/ncomms14896</a>

are available from the repository:
<a href="https://github.com/Mark-Kramer/Seizure-Waves">https://github.com/Mark-Kramer/Seizure-Waves</a>

The Readme.md in the modeling folder contains the instructions:

---
Seizure-Waves

Run the function runseizingcortical_field.m to generate a simulation
of a seizure.

Two simulation scenarios are implemented which differ in the source of
seizure activity: a fixed cortical source, and an ictal wavefront.

The results are visualized as a series of maps, as in Figure 5c of the
manuscript.

A 10 s interval of the ECoG data are saved for wave analysis.

Please see comments inside of the file runseizingcortical_field.m for
more details.

---

As the runseizingcortical_fields.m model runs a matlab figure:

<img src="./screenshot5min.png" alt="screenshot 5" width="550">

displays (a movie) of wave phenomena and other activity.

Under the analysis folder running the main_seizure_waves.m program
generates these images:

<img src="./screenshot1.png" alt="screenshot 1" width="550">
<img src="./screenshot2.png" alt="screenshot 2" width="550">
<img src="./screenshot3.png" alt="screenshot 3" width="550">
<img src="./screenshot4.png" alt="screenshot 4" width="550">
<img src="./screenshot5.png" alt="screenshot 5" width="550">
<img src="./screenshot6.png" alt="screenshot 6" width="550">
<img src="./screenshot7.png" alt="screenshot 7" width="550">

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