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  • Book
    Eric Sowey, Peter Petocz.
    Contents:
    Part I Introduction
    Why is statistics such a fascinating subject?
    How statistics differs from mathematics
    Statistical literacy- essential in the 21st century
    Statistical inquiry on the web
    Part II Statistical description
    Trustworthy statistics are accurate, meaningful and relevant
    Let's hear it for the standard deviation!
    Index numbers- time travel for averages
    The beguiling ways of bad statistics I
    The beguiling ways of bad statistics II
    Part III Preliminaries to inference
    Puzzles and paradoxes in probability
    Some paradoxes of randomness
    Hidden risks for gamblers
    Models in statistics
    The normal distribution: history, computation and curiosities
    Part IV Statistical inference
    The pillars of applied statistics- estimation
    The pillars of applied statistics- hypothesis testing
    'Data snooping' and the significance level in multiple testing
    Francis Galton and the birth of regression
    Experimental design- piercing the veil of random variation
    In praise of Bayes
    Part V Some statistical byways
    Quality in statistics
    History of ideas: statistical personalities and the personalities of statisticians
    Statistical eponymy
    Statistical 'laws'
    Statistical artefacts
    Part VI Answers
    Answers to the chapter questions.
    Digital Access Wiley 2017
  • Article
    Dürsteler MR, Blakemore C, Garey LJ.
    Exp Brain Res. 1977 Sep 28;29(3-4):487-500.
    Micro-injections of horseradish peroxidase (HRP) were made into the visual cortex of the golden hamster. The "projection lines" of labelled neurons in the dorsal lateral geniculate nucleus (LGNd) were three-dimensionally reconstructed, using a computer graphics technique. The lines run rostrally and medially from their origins at the lateral surface of the nucleus. Using an anatomically determined retinotopic map of the LGNd, the positions of all labelled cells near the lateral surface were converted into equivalent visual field co-ordinates and displayed on a physiologically determined retinotopic map of the primary visual cortex. Comparison between the scatter of these equivalent retinotopic loci and an actual reconstruction of the injection site revealed that: 1. there was general agreement between the independent retinotopic maps of LGNd and visual cortex; 2. there was greater retinotopic scatter of labelled LGNd cells than could be accounted for by the area of tissue injury in the cortex; 3. the retinotopic scatter matched more closely the total visible halo of HRP staining in the grey matter; 4. HRP can be taken up from a cytoarchitectonic field into which it diffuses after injection into a neighbouring area; 5. HRP is probably not taken up by undamaged axons in the white matter. These results are compared with those obtained in other animals and other systems. No general rules emerge, but the possibility of uptake from wide areas of diffusion must be considered when interpreting results of HRP injection.
    Digital Access Access Options