7.6. Adding Parcellations¶
Before you start adding your own parcellations, check whether junifer
has
the parcellation in-built already. Perhaps, what is available
there will suffice to achieve your goals. However, of course junifer
will not
have every parcellation available that you may want to use, and if so, it will
be nice to be able to add it yourself using a format that junifer
understands.
Similarly, you may even be interested in creating your own custom parcellations
and then adding them to junifer
, so you can use junifer
to obtain
different Markers to assess and validate your own parcellation. So, how can you do
this?
Since both of these use-cases are quite common, and not being able to use your
favourite parcellation is of course quite a buzzkill, junifer
actually
provides the easy-to-use register_parcellation()
function to do just that.
Let’s try to understand the API reference and then use this function to register our
own parcellation.
From the API reference, we can see that it has 4 positional arguments
(name
, parcellation_path
, parcels_labels
and space
) as well as
one optional keyword argument (overwrite
).
The name
of the parcellation is up to you and will be the name that
junifer
will use to refer to this particular parcellation. You can think of
this as being similar to a key in a Python dictionary, i.e. a key that is used to
obtain and operate on the actual parcellation data. This name
must always
be a string. For example, we could call our parcellation
"my_custom_parcellation"
(Note, that in a real-world use case this is
likely not a good name, and you should try to choose a meaningful name that
conveys as much relevant information about your parcellation as necessary).
The parcellation_path
must be a str
or Path
object indicating a
path to a valid NIfTI image, which contains integer labels indicating the
individual regions-of-interest (ROIs) of your parcellation. The background in
this parcellation should be indicated by 0, and the labels of ROIs should go
from 1 to N (where N is the total number of ROIs in your parcellation). Now,
we nearly have everything we need.
We also want to make sure that we can associate each integer label with a human readable name (i.e. the name for each ROI). This serves naming the features that parcellation-based markers produce in an unambiguous way, such that a user can easily identify which ROIs were used to produce a specific feature (multiple ROIs, because some features consist of information from two or more ROIs, as for example in functional connectivity). Therefore, we provide junifer with a list of strings, that contains the names for each ROI. In this list, the label at the i-th position indicates the i-th integer label (i.e. the first label in this list corresponds to the first integer label in the parcellation and so on).
Lastly, we specify the space
that the parcellation is in, for example,
"MNI152NLin2009cAsym"
or "native"
(scanner-native space).
7.6.1. Step 1: Prepare code to register a parcellation¶
Now we know everything that we need to know to make sure junifer
can use our
own parcellation to compute any parcellation-based Marker. A simple example could
look like this:
from junifer.data import register_parcellation
from pathlib import Path
import numpy as np
# these are of course just example paths, replace it with your own:
path_to_parcellation = (
Path("..") / ".." / "parcellations" / "my_custom_parcellation.nii.gz"
)
path_to_labels = (
Path("..") / ".." / "labels" / "my_custom_parcellation_labels.txt"
)
my_labels = list(np.loadtxt(path_to_labels, dtype=str))
register_parcellation(
name="my_custom_parcellation",
parcellation_path=path_to_parcellation,
parcels_labels=my_labels,
space="MNI152NLin2009cAsym",
)
We can run this code and it seems to work, however, how can we actually
include the custom parcellation in a junifer
pipeline using a
code-less YAML configuration?
7.6.2. Step 2: Add parcellation registration to the YAML file¶
In order to use the parcellation in a junifer
pipeline configured by a YAML
file, we can save the above code in a Python file, say
registering_my_parcellation.py
. We can then simply add this file using the
with
keyword provided by junifer
:
with:
- registering_my_parcellation.py
Afterwards continue configuring the rest of the pipeline in this YAML file, and
you will be able to use this parcellation using the name you gave the
parcellation when registering it. For example, we can add a
ParcelAggregation
Marker to demonstrate how this can be done:
markers:
- name: CustomParcellation_mean
kind: ParcelAggregation
parcellation: my_custom_parcellation
method: mean
Now, you can simply use this YAML file to run your pipeline.
Important
It’s important to keep in mind that if the paths given in
registering_my_parcellation.py
are relative paths, they will be interpreted
by junifer
as relative to the jobs directory (i.e. where junifer
will
create submit files, logs directory and so on). For simplicity, you may just
want to use absolute paths to avoid confusion, yet using relative paths is
likely a better way to make your pipeline directory / repository more portable
and therefore more reproducible for others. Really, once you understand how
these paths are interpreted by junifer
, it is quite easy.