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@ARTICLE{Hoffmann2006,
  author = {Thomas Hoffmann and Christoph Lange},
  title = {P2BAT: a massive parallel implementation of PBAT for genome-wide
	association studies in R.},
  journal = {Bioinformatics},
  year = {2006},
  volume = {22},
  pages = {3103--3105},
  number = {24},
  month = {Dec},
  abstract = {The software tool P2BAT provides a massive parallel and user friendly
	implementation of the PBAT-analysis tools for family-based association
	tests (FBATs) in large-scale studies, including genome-wide association
	studies with several thousand subjects. Built on the original PBAT-implementation
	of the Lange-Van Steen algorithm to bypass the multiple testing problem
	in family-based association studies, P2BAT integrates all PBAT-analysis
	tools for binary and complex traits into R and makes them accessible
	through a user-friendly GUI. The genome-wide analysis tools are fully
	automated and can be ran massively parallel directly through the
	GUI. P2BAT is fully documented and contains graphical output tools
	for time-to-onset analysis. P2BAT also features the ability to test
	for gene and environment/drug interaction. AVAILABILITY: The P2BAT
	package is available as the R package 'pbatR' which can be downloaded
	from http://cran.r-project.org/. The PBAT-software is available at
	http://www.biostat.harvard.edu/~clange/.},
  doi = {10.1093/bioinformatics/btl507},
  keywords = {Algorithms; Chromosome Mapping; Computer Graphics; Computing Methodologies;
	Genetics, Population; Programming Languages; Quantitative Trait Loci;
	Software; User-Computer Interface},
  pii = {btl507},
  pmid = {17021156},
  url = {http://dx.doi.org/10.1093/bioinformatics/btl507}
}

@TECHREPORT{Hoffmann2005,
  author = {Thomas J Hoffmann},
  title = {Subpixel morphometric analysis of corpus callosum with application
	to autism},
  institution = {University of Wisconsin - Madison},
  year = {2005},
  number = {1101},
  abstract = {Autism is a neurodevelopmental disorder that affects the structure
	of the corpus callosum. Using the Wittleson paritition, there has
	been a consistent finding on an abnormal reduction of the anterior,
	midbody, and posterior of the corpus callosum. We look at a different
	method of deforming the boundary of one corpus callosum, similar
	to that of Sebastian, only with a metric of affine distance and curvature
	rather than arc-length and curvature. We also look at the effect
	of different curvature estimates on these results. We see portions
	of the midbody and splenium in the corpus callosum with more significant
	results, but only after a high degree of smoothing. The deformation
	field analysis shows no significant results.},
  url = {http://www.stat.wisc.edu/Department/techreports/tr1101.pdf}
}

@comment{jabref-meta: selector_publisher:19;}