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Cortical Basal Ganglia Network Model during Closed-loop DBS (Fleming et al 2020)
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<html> <p>Network model of the cortico-basal ganglia network with closed-loop DBS to test closed-loop DBS control strategies. </p> <p>This is the readme for the models associated with the paper:<p/> Fleming JE, Dunn E, Lowery MM (2020) Simulation of Closed-Loop Deep Brain Stimulation Control Schemes for Suppression of Pathological Beta Oscillations in Parkinson's Disease. Frontiers in Neuroscience 14:166<br/> <a href="http://dx.doi.org/10.3389/fnins.2020.00166">http://dx.doi.org/10.3389/fnins.2020.00166</a><p/> </p> <p>The model files were contributed by JE Fleming </p> <p>Model Requirements: - Model is simulated using PyNN with NEURON as it's backend simulator, thus follow their installation instructions at: <ol> <li> Neuron - <a href="https://www.neuron.yale.edu/neuron/download">https://www.neuron.yale.edu/neuron/download</a> </li><li> PyNN - <a href="https://pypi.org/project/PyNN/">https://pypi.org/project/PyNN/</a> - <a href="http://neuralensemble.org/docs/PyNN/">http://neuralensemble.org/docs/PyNN/</a> </li></ol> </p> <p>Model Setup: </p> <ol> <li>Copy the included PyNN files from the downloaded model folder to their corresponding location on your computer (i.e. the directory of your PyNN instatllation - Updated PyNN files are needed for correct simulation of the multicompartmental cortical neurons and for loading model simulations from a presimulated steady state. </li><li>Compile the NEURON model mod files using either mknrndll or nrnivmodl, for windows or Linux, respectively. </li><li>Run run_CBG_Model_to_SS.py <dl> <dt>Example</dt> <dd> </dd></dl> </li><li>From the command line/terminal navigate to the folder containing the model. </li><li>Execute "python run_CBG_Model_to_SS.py neuron" <dl> <dt>Explanation</dt> <dd> </dd></dl> </li></ol> <p>There is an initial transient period in the model (~6 seconds). This model simulation runs the model for the transient period and creates a binary file (steady_state.bin) at the end of the simulation. This binary file captures the state of the model at the end of this transient simulation (i.e. after the model has reasched the steady state) </p> <p>Subsequent runs of the model can use either </p><p> run_CBG_Model_Amplitude_Modulation_Controller.py or run_CBG_Model_Frequency_Modulation_Controller.py to load the previously saved model steady state and run a model simulation from this point simulating either amplitude or frequency modeulation, respectively. </p> <p>Running the Model: - Once the steady state of the model has been saved you can run the model by navigating to the model directory in the command line and typing: </p> <p>"python run_CBG_Model_Amplitude_Modulation_Controller.py neuron" </p> <p>Output files of the simulation are then written to a "Simulation_Output_Results" folder when the simulation is finished. Model outputs are structured using the neo file format as detailed in <a href="https://neo.readthedocs.io/en/stable/.">https://neo.readthedocs.io/en/stable/.</a></p> </html>
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