Frontiers in Neuroscience (Jul 2020)

MVPANI: A Toolkit With Friendly Graphical User Interface for Multivariate Pattern Analysis of Neuroimaging Data

  • Yanmin Peng,
  • Yanmin Peng,
  • Xi Zhang,
  • Xi Zhang,
  • Yifan Li,
  • Yifan Li,
  • Qian Su,
  • Qian Su,
  • Sijia Wang,
  • Sijia Wang,
  • Feng Liu,
  • Feng Liu,
  • Chunshui Yu,
  • Chunshui Yu,
  • Chunshui Yu,
  • Meng Liang,
  • Meng Liang

DOI
https://doi.org/10.3389/fnins.2020.00545
Journal volume & issue
Vol. 14

Abstract

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With the rapid development of machine learning techniques, multivariate pattern analysis (MVPA) is becoming increasingly popular in the field of neuroimaging data analysis. Several software packages have been developed to facilitate its application in neuroimaging studies. As most of these software packages are based on command lines, researchers are required to learn how to program, which has greatly limited the use of MVPA for researchers without programming skills. Moreover, lacking a graphical user interface (GUI) also hinders the standardization of the application of MVPA in neuroimaging studies and, consequently, the replication of previous studies or comparisons of results between different studies. Therefore, we developed a GUI-based toolkit for MVPA of neuroimaging data: MVPANI (MVPA for Neuroimaging). Compared with other existing software packages, MVPANI has several advantages. First, MVPANI has a GUI and is, thus, more friendly for non-programmers. Second, MVPANI offers a variety of machine learning algorithms with the flexibility of parameter modification so that researchers can test different algorithms and tune parameters to identify the most suitable algorithms and parameters for their own data. Third, MVPANI also offers the function of data fusion at two levels (feature level or decision level) to utilize complementary information contained in different measures obtained from multimodal neuroimaging techniques. In this paper, we introduce this toolkit and provide four examples to demonstrate its usage, including (1) classification between patients and controls, (2) identification of brain areas containing discriminating information, (3) prediction of clinical scores, and (4) multimodal data fusion.

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