# Reading and processing NIRS data with MNE-Python ```python import mne import warnings import numpy as np import matplotlib.pyplot as plt from itertools import compress from almirah import Layout mne.set_log_level(False) warnings.filterwarnings('ignore') ``` ```python lay = Layout(root="/path/to/data", specification_name="bids") print(lay) ``` ```python files = lay.query(datatype="nirs", extension=".snirf") len(files) ``` 1315 ```python file = lay.query(subject="D0019", task="rest", datatype="nirs", extension=".snirf")[0] print(file.rel_path) ``` sub-D0019/ses-111/nirs/sub-D0019_ses-111_task-rest_run-01_nirs.snirf ```python file.download() ``` ```python raw = mne.io.read_raw_snirf(file.path) raw.load_data() ```
General
Measurement date November 12, 1917 00:00:00 GMT
Experimenter Unknown
Participant mne_anonymize
Channels
Digitized points 21 points
Good channels 36 fNIRS (CW amplitude)
Bad channels None
EOG channels Not available
ECG channels Not available
Data
Sampling frequency 15.62 Hz
Highpass 0.00 Hz
Lowpass 7.81 Hz
Filenames sub-D0019_ses-111_task-rest_run-01_nirs.snirf
Duration 00:10:03 (HH:MM:SS)
```python print(raw.info) ``` ```python picks = mne.pick_types(raw.info, meg=False, fnirs=True) dists = mne.preprocessing.nirs.source_detector_distances(raw.info, picks=picks) raw.pick(picks[dists > 0.01]) raw.plot(n_channels=len(raw.ch_names), duration=500, show_scrollbars=False) plt.show() ``` ![png](../images/nirs/raw-plot.png) ```python raw_od = mne.preprocessing.nirs.optical_density(raw) raw_od.plot(n_channels=len(raw_od.ch_names), duration=500, show_scrollbars=False) plt.show() ``` ![png](../images/nirs/optical-density-plot.png) ```python sci = mne.preprocessing.nirs.scalp_coupling_index(raw_od) fig, ax = plt.subplots() ax.hist(sci) ax.set(xlabel="Scalp Coupling Index", ylabel="Count", xlim=[0, 1]) plt.show() ``` ![png](../images/nirs/scalp-coupling-index-plot.png) ```python raw_od.info["bads"] = list(compress(raw_od.ch_names, sci < 0.5)) ``` ```python raw_haemo = mne.preprocessing.nirs.beer_lambert_law(raw_od, ppf=0.1) raw_haemo.plot(n_channels=len(raw_haemo.ch_names), duration=500, show_scrollbars=False) plt.show() ``` ![png](../images/nirs/raw-haemo-plot.png) ```python fig = raw_haemo.compute_psd().plot(average=True, amplitude=False) fig.suptitle("Before filtering", weight="bold", size="x-large") raw_haemo = raw_haemo.filter(0.05, 0.7, h_trans_bandwidth=0.2, l_trans_bandwidth=0.02) fig = raw_haemo.compute_psd().plot(average=True) fig.suptitle("After filtering", weight="bold", size="x-large") plt.show() ``` ![png](../images/nirs/raw-haemo-psd-before-filtering.png) ![png](../images/nirs/raw-haemo-psd-after-filtering.png) ```python epochs = mne.make_fixed_length_epochs(raw_haemo, duration=30, preload=False) ``` ```python epochs.plot_image(combine="mean", vmin=-30, vmax=30, ts_args=dict(ylim=dict(hbo=[-15, 15], hbr=[-15, 15]))) plt.show() ``` ![png](deoxyhemoglobin-plot.png) ![png](oxyhemoglobin-plot.png)