Medical images I/O python package
Project description
medio
Medical images I/O python package
This package unifies the io engines of itk, nibabel, and pydicom (including dicom-numpy) packages in a simple and comprehensive interface.
It includes conversion between the metadata conventions, reorientations, affine matrix computation for itk and pydicom and saving dicom series or file.
Installation
First, make sure you have the latest pip version (better to close PyCharm or any other program that uses the environments):
(<env-name>) >pip install -U pip
Install medio with:
(<env-name>) >pip install -U medio
This will install the medio python package and its dependencies in your environment.
Requirements
The dependencies are:
- python (at least 3.6)
- numpy
- itk
- nibabel
- pydicom
- dicom-numpy
A conda environment .yml file is in the project's root. Some dicom images may require installation of additional packages, gdcm for example.
Usage
There are 3 main functions in medio: read_img
, save_img
and save_dir
.
from medio import read_img, save_img
# read a dicom series from a folder
array, metadata = read_img('data/dicom-folder/', desired_ornt='IAR')
# do your stuff and save in any format
save_img('ct.nii.gz', array, metadata, backend='nib')
Documentation
Reading and Saving Images
read_img
medio.read_img(input_path, desired_ornt=None, backend=None, dtype=None, header=False, channels_axis=-1, coord_sys='itk', **kwargs)
input_path
: path-like
Path for the data to be read (str or pathlib.Path object for example). It can be a file or a folder (in the case of a dicom series). It is the only required parameter. If the input path is a folder, it should contain a single dicom series. If there is more than a single series, the optional parameterseries
can help.- Returns: array, metadata
array of type numpy.ndarray and metadata of type medio.MetaData. The first is a numpy array of the image, and the second is a metadata object of the image (see MetaData class documentation).
Optional parameters:
desired_ornt
: orientation string or None
The desired orientation of the returned image array, e.g. 'RAI'. If None, no reorientation is performed. The desired orientation is in the standard defined bycoord_sys
(itk by default). See also Orientation).
Ifdesired_ornt
is the same as the original image's orientation, no reorientation is performed.backend
: 'nib', 'itk', 'pydicom', 'pdcm', or None
The backend IO engine to use: 'nib' (nibabel), 'itk' or 'pydicom' (also 'pdcm'). If None, the backend is chosen automatically: 'nib' for nifti files (e.g. '.nii' or '.nii.gz' suffix), otherwise 'itk'.dtype
: numpy data-type or None
If not None, equivalent toarray.astype(dtype)
on the returned image array.header
: bool
If True, the returned metadata includes also ametadata.header
attribute that stores the raw metadata of the file as a dictionary.
This is not implemented for series of files (folderinput_path
), and not used during saving.channels_axis
: int or None
If not None and the image has more than a single channel / component (e.g. RGB or RGBA), the channels axis ischannels_axis
. If None, the backend's original convention is used.coord_sys
: 'itk', 'nib', or None
The coordinate system (or convention) of thedesired_ornt
parameter and the returned metadata. None means that the backend will determinecoord_sys
, but it can lead to a backend-dependent array and metadata.
**kwargs
are additional per-backend optional parameters:
-
'itk' backend:
pixel_type=itk.SS
: itk pixel-type or None
Itk pixel type of the image file/folder. The default value is int16 (itk.SS
- Signed Short). Other common pixel types are:itk.UC
- uint8,itk.US
- uint16.
You can use the functionitk.ctype
in order to convert C-types to itk types. For example:
itk.ctype('unsigned short') == itk.US
fallback_only=True
: bool
If True, the pixel type is automatically found and if failed thenpixel_type
is used (pixel_type
must not be None in this case).
Note: ifitk.imread(input_path)
fails, usingfallback_only=True
will result in a slightly inferior performance. If you know what is pixel-type of the image beforehand, you can set it withpixel_type
and usefallback_only=False
.series=None
: str, int or None
Ifinput_path
is a directory that contains multiple dicom series, selecting a specific one is possible with theseries
argument. It can be the exact series instance UID (str), an int between 0 and n-1, where n is the number of series in the directory, or None.
Ifseries
is None and there are multiple series in the directory, a detailed error message is raised.
-
'pydicom' backend
globber='*'
: str
Relevant for a directory - glob pattern for selecting the series files (all the files in the directory by default).allow_default_affine=False
: bool
Relevant for a multiframe dicom file - if True and the dicom misses some physical tags for the affine calculation, use a default affine value.series=None
: str, int or None
The counterpart ofseries
in itk backend, see the explanation above.
save_img
medio.save_img(filename, np_image, metadata, use_original_ornt=True, backend=None, dtype=None, channels_axis=None, mkdir=False, parents=False, **kwargs)
filename
: path-like
The file to be saved, including the format suffix.np_image
: numpy.ndarray
The image array.metadata
: medio.MetaData
The corresponding metadata, frommedio.read_img
for example. In the absence of a known metadata, a default one can be constructed withmedio.MetaData(np.eye(4))
.
Optional parameters:
use_original_ornt
: bool
Whether to save in the original orientation stored inmetadata.orig_ornt
or not.backend
: 'nib', 'itk' or None
The backend to use: 'nib' or 'itk'. If None, 'nib' is chosen for nifti files and 'itk' otherwise.dtype
: numpy data-type or None
If not None, equivalent to passingnp_image.astype(dtype)
. Note that not every dtype is supported in saving, so make sure what is the dtype of the image array you want to save.channels_axis
: int or None
If not None, the image has channels (e.g. RGB) along the axischannels_axis
ofnp_image
.mkdir
: bool
If True, creates the directory offilename
.parents
: bool
To be used withmkdir=True
. If True, creates also the parent directories.
'itk' backend optional parameters (**kwargs
):
allow_dcm_reorient=False
: bool
When saving a dicom file ('.dcm' or '.dicom' suffix) the image orientation should be right-handed. If it is left-handed, the image can be reoriented to a right-handed orientation by setting this parameter to True, which flips the last axis direction.compression=False
: bool
Whether to use compression in itk writer. Using a '.nii.gz' suffix infilename
also compresses the image.
save_dir
medio.save_dir(dirname, np_image, metadata, use_original_ornt=True, dtype=None, channels_axis=None, parents=False, exist_ok=False, allow_dcm_reorient=False, **kwargs)
Save a 3d numpy array np_image
as a dicom series of 2d slices in the directory dirname
(itk
backend).
dirname
: path-like
The directory to save the files in (str or pathlib.Path). If it exists, it must be empty (unlessexist_ok
is True).
The other parameters: np_image
, metadata
, use_original_ornt
, dtype
, channels_axis
,
parents
and allow_dcm_reorient
are equivalent to those of save_img.
Additional optional parameters (**kwargs
):
exist_ok
: bool
If True, non-empty existing directory will not raise an error.pattern='IM{}.dcm'
: str
Pattern for the filenames to save, including a placeholder ('{}
') for the slice number. For example, one can use:pattern={:03d}
.metadata_dict=None
: dict or None
Dictionary of metadata for adding tags or overriding the default values. For example,metadata_dict={'0008|0060': 'US'}
will override the default 'CT' modality and set it to 'US' (ultrasound).
Metadata Objects
Affine
medio.Affine
The affine of an image is a transformation between the index space of the array to the physical 3d
space. The Affine class is a subclass of numpy.ndarray with some special properties (attributes):
spacing
, origin
, and direction
, which can be accessed and set. The method index2coord
maps
the indices to the physical space, clone
clones the affine.
This class includes also some static methods for affine construction from its components (spacing, origin and direction) and also the inverse methods for getting the spacing, origin and direction matrix from a general affine matrix.
For a mathematical explanation about the affine matrix see NiBabel's affine documentation.
Some usage examples:
>>> import numpy as np
>>> from medio import Affine
>>> affine1 = Affine(np.eye(4))
>>> affine2 = Affine(direction=np.eye(3), spacing=[0.33, 1, 0.33], origin=[-90.3, 10, 1.44])
>>> index = [4, 0, 9]
>>> coord = affine2.index2coord(index)
>>> print(coord)
[-88.98 10. 4.41]
MetaData
medio.MetaData
Together with the image's numpy array, the MetaData object is a necessary component for the I/O functions.
A MetaData object 'metadata' is mainly comprised of:
metadata.affine
: the affine (of class Affine)metadata.coord_sys
: coordinate system ('itk' or 'nib')metadata.orig_ornt
: the original orientation of the image (used for saving)metadata.header
: a dictionary that includes additional metadata properties whenheader=True
inread_img
, otherwise None
Other properties of the metadata are derived from the affine:
metadata.spacing
: voxels spacing (a reference tometadata.affine.spacing
)metadata.ornt
: the current image orientation (depends on the coordinate systemcoord_sys
)
All these properties can be viewed easily in the console:
>>> import medio
>>> array, metadata = medio.read_img('avg152T1_LR_nifti.nii.gz', header=False)
>>> print(metadata)
Affine:
[[ -2. 0. 0. 90.]
[ 0. 2. 0. -126.]
[ 0. 0. 2. -72.]
[ 0. 0. 0. 1.]]
Spacing: [2. 2. 2.]
Coordinate system: nib
Orientation: LAS
Original orientation: LAS
Header: None
The MetaData method metadata.is_right_handed_ornt()
checks for a right handed orientation
according to the determinant of the direction matrix (metadata.affine.direction
). This method can
be useful before saving a dicom file or series, which should have a right-handed orientation.
The method clone
clones the metadata object, convert
converts the metadata in-place to the
given coordinate system.
Orientation
The orientation of a 3d image is string of length 3 that is derived from its affine and coordinate
system (the convention). It denotes along which physical axis we move when we increase a single
index out of i, j, k
in the expression np_image[i, j, k]
.
For example, 'RAS' orientation in itk:
- Right to Left, Anterior to Posterior, Superior to Inferior
'RAS' in nib - also 'RAS+':
- Left to Right, Posterior to Anterior, Inferior to Superior
Note that the conventions are opposite. For stability reasons, we use itk convention by default
for read_img
's argument desired_ornt
, although one can choose otherwise with the parameter
coord_sys
.
For further discussion see NiBabel's image orientation documentation.
Array and Metadata Operations
Some operations on an image affect also its metadata, for example resizing, rotations and cropping.
The class MedImg (medio.medimg.medimg.MedImg
) holds an image array with its metadata, and
supports some of these operations through the indexing syntax:
>>> from medio.medimg.medimg import MedImg
>>> mimg = MedImg(np_image, metadata)
>>> new_mimg = mimg[:, 4:-4, ::3]
>>> print(new_mimg.metadata)
Ellipsis ('...') syntax is also supported. This indexing allows cropping and basic down-sampling, along with correct metadata update.
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