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  • Journal
    Digital Access Full text via HathiTrust, Began publication with the volume for 1886/87.
  • Book
    Hannsjörg Schröder, Natasha Moser, Stefan Huggenberger.
    Summary: This textbook describes the basic neuroanatomy of the laboratory mouse. The reader will be guided through the anatomy of the mouse nervous system with the help of abundant microphotographs and schemata. Learning objectives and summaries of key facts at the beginning of each chapter provide the reader with an overview on the most important information. As transgenic mice are one of the most widely used paradigms when it comes to modeling human diseases, a basic understanding of the neuroanatomy of the mouse is of considerable value for all students and researchers in the neurosciences and pharmacy, but also in human and veterinary medicine. Accordingly, the authors have included, whenever possible, comparisons of the murine and the human nervous system. The book is intended as a guide for all those who are about to embark on the structural, histochemical and functional phenotyping of the mouse's central nervous system. It can serve as a practical handbook for students and early researchers, and as a reference book for neuroscience lectures and laboratories. -- Provided by publisher.

    Contents:
    Rodent taxonomic and biological data
    Basic neurohistology
    Rodent basic neuroanatomy/coverings of the CNS/cerebrospinal fluid system
    Macroscopic anatomy of the mouse brain
    The mouse spinal cord (Medulla spinalis)
    The mouse brainstem (Truncus encephali)
    The mouse cerebellum
    The mouse thalamus
    The mouse hypothalamus
    The mouse cerebral cortex
    The mouse hippocampus
    The mouse amygdaloid body
    The mouse caudate putamen, motor system, and nucleus accumbens
    The mouse olfactory system
    The mouse circle of Willis.
    Digital Access Springer 2020
  • Article
    Kutti J, Safai-Kutti S.
    Scand J Rheumatol. 1978;7(1):17-20.
    Using a recently described platelet factor 3 (PF3) immunoinjury technique designed for the detection of antiplatelet antibody, sera from 62 patients were analysed. 30 of the subjects had systemic lupus erythematosus and the remaining 32 had other clinical disorders. Platelet survival studies were also carried out in every subject. The PF3 test proved positive in 10 of our patients. However, only 1 of these 10 subjects had shortened platelet survival. It is concluded that the PF3 test does not appear to be of use in the detection of circulating antiplatelet antibody.
    Digital Access Access Options