MRI-guided voxel-based partial volume effect correction in brain PET: Assessment of the impact of 3 MR image segmentation algorithms

Abstract Recent emerging hybrid technology of positron emission tomography/magnetic resonance (PET/MR) imaging has generated a great need for an accurate MR image-based PET attenuation correction. MR image segmentation, as a robust and simple method for PET attenuation correction, has been clinically adopted in commercial PET/MR scanners. The general approach in this method is to segment the MR image into different tissue types, each assigned an attenuation constant as in an X-ray CT image. Machine learning techniques such as clustering, classification and deep networks are extensively used for brain MR image segmentation. However, only limited work has been reported on using deep learning in brain PET attenuation correction. In addition, there is a lack of clinical evaluation of machine learning methods in this application. The aim of this review is to study the use of machine learning methods for MR image segmentation and its application in attenuation correction for PET brain imaging. Furthermore, challenges and future opportunities in MR image-based PET attenuation correction are discussed.

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Diminishing the impact of the partial volume effect in cardiac SPECT perfusion imaging

Medical Physics ◽

10.1118/1.3031110 ◽

2008 ◽

Vol 36 (1) ◽

pp. 105-115 ◽

Cited By ~ 33

Author(s):

P. Hendrik Pretorius ◽

Michael A. King

Keyword(s):

Perfusion Imaging ◽

Volume Effect ◽

Partial Volume Effect ◽

Cardiac Spect ◽

Partial Volume ◽

The Impact

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Anatomically guided voxel-based partial volume effect correction in brain PET: Impact of MRI segmentation

Computerized Medical Imaging and Graphics ◽

10.1016/j.compmedimag.2012.09.001 ◽

2012 ◽

Vol 36 (8) ◽

pp. 610-619 ◽

Cited By ~ 27

Author(s):

Daniel Gutierrez ◽

Marie-Louise Montandon ◽

Frédéric Assal ◽

Mohamed Allaoua ◽

Osman Ratib ◽

...

Keyword(s):

Volume Effect ◽

Partial Volume Effect ◽

Mri Segmentation ◽

Partial Volume ◽

Brain Pet ◽

Partial Volume Effect Correction

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Impact of Different Analytic Approaches on the Analysis of the Breast Fibroglandular Tissue Using Diffusion Weighted Imaging

BioMed Research International ◽

10.1155/2017/1094354 ◽

2017 ◽

Vol 2017 ◽

pp. 1-11 ◽

Cited By ~ 1

Author(s):

Yoon Jung Choi ◽

Jeon-Hor Chen ◽

Hon J. Yu ◽

Yifan Li ◽

Min-Ying Su

Keyword(s):

Region Of Interest ◽

Volume Effect ◽

Partial Volume Effect ◽

Normal Breast ◽

Unilateral Breast Cancer ◽

Partial Volume ◽

Apparent Diffusion ◽

Adc Values ◽

Highly Correlated ◽

The Impact

Purpose. This study investigated the impact of the different region of interest (ROI) approaches on measurement of apparent diffusion coefficient (ADC) values in the breast firbroglandular tissue (FT). Methods. Breast MR images of 38 women diagnosed with unilateral breast cancer were studied. Percent density (PD) and ADC were measured from the contralateral normal breast. Four different ROIs were used for ADC measurement. The measured PD and ADC were correlated. Results. Among the four ROIs, the manually placed small ROI on FT gave the highest mean ADC (ADC = 1839 ± 343 [×10−6 mm2/s]), while measurement from the whole breast gave the lowest mean ADC (ADC = 933 ± 383 [×10−6 mm2/s]). The ADC measured from the whole breast was highly correlated with PD with r=0.95. In slice-to-slice comparison, the central slices with more FT had higher ADC values than the peripheral slices did, presumably due to less partial volume effect from fat. Conclusions. Our results indicated that the measured ADC heavily depends on the composition of breast tissue contained in the ROI used for the ADC measurements. Women with low breast density showing lower ADC values were most likely due to the partial volume effect of fatty tissues.

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