TY - JOUR
T1 - Development of Alzheimer-disease neuroimaging-biomarkers using mouse models with amyloid-precursor protein-transgene expression
AU - Teipel, Stefan J.
AU - Buchert, Ralph
AU - Thome, Johannes
AU - Hampel, Harald
AU - Pahnke, Jens
N1 - Funding Information:
Part of this work was supported by grants of from the Interdisciplinary Faculty, Department “Aging Science and Humanities”, University of Rostock to S.J.T. and J.P., the Alzheimer Forschung Initiative e.V. and the Exzellenz Initiative Mecklenburg-Vorpommern to J.P., and of the Hirnliga e.V. (Nürmbrecht, Germany) to S.J.T. The work was further supported by the Science Foundation Ireland (SFI) investigator program award 08/IN.1/B1846 to H.H. Partly supported by the “Landesoffensive zur Entwicklung wissenschaftlich-ökonomischer Exzellenz” (LOEWE) neuroimaging-neurophysiology research program award “Neuronale Koordination Forschungsschwerpunkt Frankfurt” (NeFF) Neuronal coordination, Neurodegeneration and Alzheimer's disease project (to HH).
PY - 2011/12
Y1 - 2011/12
N2 - There are important recent developments in Alzheimer's disease (AD) translational research, especially with respect to the imaging of amyloid pathology in vivo using MRI and PET technologies. Here we exploit the most widely used transgenic mouse models of amyloid pathology in order to relate the imaging findings to our knowledge about the histopathological phenotype of these models. The development of new diagnostic criteria of AD necessitates the use of biological markers to diagnose AD even in the absence of overt dementia or early symptomatic mild cognitive impairment. The validity of the diagnosis will depend on the availability of an in vivo marker to reflect underlying neurobiological changes of AD. Transgenic models with essential features of AD pathology and mechanisms provide a test setting for the development and evaluation of new biological imaging markers. Among the best established imaging markers of amyloid pathology in transgenic animals are high-field MRI of brain atrophy, proton spectroscopy of neurochemical changes, high-field MRI of amyloid plaque load, and in vivo plaque imaging using radio-labelled ligands with PET. We discuss the implications of the findings as well as the methodological limitations and the specific requirements of these technologies. We furthermore outline future directions of transgene-imaging research. Transgene imaging is an emerging area of translational research that implies strong multi- and interdisciplinary collaborations. It will become ever more valuable with the introduction of new diagnostic standards and novel treatment approaches which will require valid and reliable biological markers to improve the diagnosis and early treatment of AD patients.
AB - There are important recent developments in Alzheimer's disease (AD) translational research, especially with respect to the imaging of amyloid pathology in vivo using MRI and PET technologies. Here we exploit the most widely used transgenic mouse models of amyloid pathology in order to relate the imaging findings to our knowledge about the histopathological phenotype of these models. The development of new diagnostic criteria of AD necessitates the use of biological markers to diagnose AD even in the absence of overt dementia or early symptomatic mild cognitive impairment. The validity of the diagnosis will depend on the availability of an in vivo marker to reflect underlying neurobiological changes of AD. Transgenic models with essential features of AD pathology and mechanisms provide a test setting for the development and evaluation of new biological imaging markers. Among the best established imaging markers of amyloid pathology in transgenic animals are high-field MRI of brain atrophy, proton spectroscopy of neurochemical changes, high-field MRI of amyloid plaque load, and in vivo plaque imaging using radio-labelled ligands with PET. We discuss the implications of the findings as well as the methodological limitations and the specific requirements of these technologies. We furthermore outline future directions of transgene-imaging research. Transgene imaging is an emerging area of translational research that implies strong multi- and interdisciplinary collaborations. It will become ever more valuable with the introduction of new diagnostic standards and novel treatment approaches which will require valid and reliable biological markers to improve the diagnosis and early treatment of AD patients.
UR - http://www.scopus.com/inward/record.url?scp=82755193805&partnerID=8YFLogxK
U2 - 10.1016/j.pneurobio.2011.05.004
DO - 10.1016/j.pneurobio.2011.05.004
M3 - Scientific review articles
C2 - 21601614
AN - SCOPUS:82755193805
SN - 0301-0082
VL - 95
SP - 547
EP - 556
JO - Progress in Neurobiology
JF - Progress in Neurobiology
IS - 4
ER -