How to cite the R package msma
msma is a popular R package that is available at https://cran.r-project.org/web/packages/msma/index.html. By citing R packages in your paper you lay the grounds for others to be able to reproduce your analysis and secondly you are acknowledging the time and work people have spent creating the package.
APA citation
Formatted according to the APA Publication Manual 7th edition. Simply copy it to the References page as is.
The minimal requirement is to cite the R package in text along with the version number. Additionally, you can include the reference list entry the authors of the msma package have suggested.
Example of an in-text citation
Analysis of the data was done using the msma package (v2.1; Kawaguchi & Yamashita, 2017).
Reference list entry
Kawaguchi, A., & Yamashita, F. (2017). Supervised multiblock sparse multivariable analysis with application to multimodal brain imaging genetics. Biostatistics (Oxford, England), 18(4), 651–665.
Vancouver citation
Formatted according to Vancouver style. Simply copy it to the references section as is.
Example of an in-text citation
Analysis of the data was done using the msma package v2.1 (1).
Reference list entry
1.Kawaguchi A, Yamashita F. Supervised multiblock sparse multivariable analysis with application to multimodal brain imaging genetics. Biostatistics. 2017 Oct 1;18(4):651–65.
BibTeX
Reference entry in BibTeX format. Simply copy it to your favorite citation manager.
@ARTICLE{Kawaguchi2017-aj,
title = "Supervised multiblock sparse multivariable analysis with
application to multimodal brain imaging genetics",
author = "Kawaguchi, Atsushi and Yamashita, Fumio",
abstract = "SUMMARYThis article proposes a procedure for describing the
relationship between high-dimensional data sets, such as
multimodal brain images and genetic data. We propose a
supervised technique to incorporate the clinical outcome to
determine a score, which is a linear combination of variables
with hieratical structures to multimodalities. This approach is
expected to obtain interpretable and predictive scores. The
proposed method was applied to a study of Alzheimer's disease
(AD). We propose a diagnostic method for AD that involves using
whole-brain magnetic resonance imaging (MRI) and positron
emission tomography (PET), and we select effective brain regions
for the diagnostic probability and investigate the genome-wide
association with the regions using single nucleotide
polymorphisms (SNPs). The two-step dimension reduction method,
which we previously introduced, was considered applicable to
such a study and allows us to partially incorporate the proposed
method. We show that the proposed method offers classification
functions with feasibility and reasonable prediction accuracy
based on the receiver operating characteristic (ROC) analysis
and reasonable regions of the brain and genomes. Our simulation
study based on the synthetic structured data set showed that the
proposed method outperformed the original method and provided
the characteristic for the supervised feature.",
journal = "Biostatistics",
publisher = "Oxford University Press (OUP)",
volume = 18,
number = 4,
pages = "651--665",
month = oct,
year = 2017,
url = "http://dx.doi.org/10.1093/biostatistics/kxx011",
language = "en",
issn = "1465-4644, 1468-4357",
doi = "10.1093/biostatistics/kxx011"
}
RIS
Reference entry in RIS format. Simply copy it to your favorite citation manager.
TY - JOUR
AU - Kawaguchi, Atsushi
AU - Yamashita, Fumio
AD - Center for Comprehensive Community Medicine, Faculty of Medicine, Saga
University, 5-1-1 Nabeshima, Saga 849-8501, Japan akawa@cc.saga-u.ac.jp;
Division of Ultrahigh Field MRI, Institute for Biomedical Sciences, Iwate
Medical University, Yahaba, Iwate 028-3694, Japan for the Alzheimer’s
Disease Neuroimaging Initiative
TI - Supervised multiblock sparse multivariable analysis with application to
multimodal brain imaging genetics
T2 - Biostatistics
VL - 18
IS - 4
SP - 651-665
PY - 2017
DA - 2017/10/1
PB - Oxford University Press (OUP)
AB - SUMMARYThis article proposes a procedure for describing the relationship
between high-dimensional data sets, such as multimodal brain images and
genetic data. We propose a supervised technique to incorporate the
clinical outcome to determine a score, which is a linear combination of
variables with hieratical structures to multimodalities. This approach is
expected to obtain interpretable and predictive scores. The proposed
method was applied to a study of Alzheimer’s disease (AD). We propose a
diagnostic method for AD that involves using whole-brain magnetic
resonance imaging (MRI) and positron emission tomography (PET), and we
select effective brain regions for the diagnostic probability and
investigate the genome-wide association with the regions using single
nucleotide polymorphisms (SNPs). The two-step dimension reduction method,
which we previously introduced, was considered applicable to such a study
and allows us to partially incorporate the proposed method. We show that
the proposed method offers classification functions with feasibility and
reasonable prediction accuracy based on the receiver operating
characteristic (ROC) analysis and reasonable regions of the brain and
genomes. Our simulation study based on the synthetic structured data set
showed that the proposed method outperformed the original method and
provided the characteristic for the supervised feature.
SN - 1465-4644
DO - 10.1093/biostatistics/kxx011
UR - http://dx.doi.org/10.1093/biostatistics/kxx011
ER -
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msma R package release history
| Version | Release date |
|---|---|
| 2.0 | 2019-09-01 |
| 1.2 | 2019-06-02 |
| 1.1 | 2018-05-04 |
| 1.0 | 2018-03-01 |
| 0.7 | 2016-01-01 |