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WS 2021
LehrveranstaltungTypSWSECTS-CreditsLV-Nummer
Multimodales Management und Innovationen in der Radiologie ILV 2,0 2,0 B3.06700.50.040
TitelAutorJahr
TitelAutorJahr
Die klinische Wertigkeit der MR-Protonenspektroskopie in der Neuroradiologie
  • Katrin Natalie Markowitz
  • 2014
    Suszeptibilitätsgewichtete MR-Bildgebung nach mechanischer Rekanalisation einer intrakraniellen Arterie: Ist das "kortikale Gefäßzeichen" ein Prädiktor für irreversible Hirnischämie?
  • Tina Maria Rosskopf
  • 2013
    TitelAutorJahr
    Die klinische Wertigkeit der MR-Protonenspektroskopie in der Neuroradiologie
  • Katrin Natalie Markowitz
  • 2014
    TitelAutorJahr
    Suszeptibilitätsgewichtete MR-Bildgebung nach mechanischer Rekanalisation einer intrakraniellen Arterie: Ist das "kortikale Gefäßzeichen" ein Prädiktor für irreversible Hirnischämie?
  • Tina Maria Rosskopf
  • 2013
    LaufzeitJuni/2015 - November/2018
    Projektleitung
  • Günther Grabner
  • Projektmitarbeiter*innen
  • Andreas Schober
  • Max Prihoda
  • Julia Wachter
  • Medea Biebl-Rydlo
  • Thomas Kau
  • René Schranzer
  • ForschungsschwerpunktDiagnostik in der Medizin
    Studiengang
  • Gesundheitsberufe
  • ForschungsprogrammSubventionsvereinbarung im Rahmen des ÖNB-Projekts 16153
    Förderinstitution/Auftraggeber
  • Medizinische Universität Wien
  • Brain iron is according to many studies related to neurodegenerative disease such as Alzheimer’s disease and Parkinson’s disease. Quantitative susceptibility mapping (QSM) and R2* mapping are promising tools to image and analyze areas of increased iron levels within the human brain by using magnetic resonance imaging (MRI). Both QSM and R2* are well established methods for isotropic deep gray matter, but the situation is more complex for white matter regions. The aim of this project is to create a 3D iron atlas and a myelin atlas of a whole human brain in order to evaluate QSM and R2* mapping. The iron atlas and the myelin map will be based on 2D histological analysis (iron and myelin staining) and the ferrozine assay will be used to calculate a quantitative iron map. In order to create a 3D map of the iron and myelin concentrations, the 2D iron and myelin stains will be reconstructed to a 3D volume referred to as atlas.

    • Medizinische Universität Wien (Fördergeber/Auftraggeber)
    LaufzeitJuni/2015 - November/2018
    Projektleitung
  • Günther Grabner
  • Projektmitarbeiter*innen
  • Andreas Schober
  • Max Prihoda
  • Julia Wachter
  • Medea Biebl-Rydlo
  • Thomas Kau
  • René Schranzer
  • ForschungsschwerpunktDiagnostik in der Medizin
    Studiengang
  • Gesundheitsberufe
  • ForschungsprogrammSubventionsvereinbarung im Rahmen des ÖNB-Projekts 16153
    Förderinstitution/Auftraggeber
  • Medizinische Universität Wien
  • Brain iron is according to many studies related to neurodegenerative disease such as Alzheimer’s disease and Parkinson’s disease. Quantitative susceptibility mapping (QSM) and R2* mapping are promising tools to image and analyze areas of increased iron levels within the human brain by using magnetic resonance imaging (MRI). Both QSM and R2* are well established methods for isotropic deep gray matter, but the situation is more complex for white matter regions. The aim of this project is to create a 3D iron atlas and a myelin atlas of a whole human brain in order to evaluate QSM and R2* mapping. The iron atlas and the myelin map will be based on 2D histological analysis (iron and myelin staining) and the ferrozine assay will be used to calculate a quantitative iron map. In order to create a 3D map of the iron and myelin concentrations, the 2D iron and myelin stains will be reconstructed to a 3D volume referred to as atlas.

    • Medizinische Universität Wien (Fördergeber/Auftraggeber)
    LaufzeitJuni/2015 - November/2018
    Projektleitung
  • Günther Grabner
  • Projektmitarbeiter*innen
  • Andreas Schober
  • Max Prihoda
  • Julia Wachter
  • Medea Biebl-Rydlo
  • Thomas Kau
  • René Schranzer
  • ForschungsschwerpunktDiagnostik in der Medizin
    Studiengang
  • Gesundheitsberufe
  • ForschungsprogrammSubventionsvereinbarung im Rahmen des ÖNB-Projekts 16153
    Förderinstitution/Auftraggeber
  • Medizinische Universität Wien
  • Brain iron is according to many studies related to neurodegenerative disease such as Alzheimer’s disease and Parkinson’s disease. Quantitative susceptibility mapping (QSM) and R2* mapping are promising tools to image and analyze areas of increased iron levels within the human brain by using magnetic resonance imaging (MRI). Both QSM and R2* are well established methods for isotropic deep gray matter, but the situation is more complex for white matter regions. The aim of this project is to create a 3D iron atlas and a myelin atlas of a whole human brain in order to evaluate QSM and R2* mapping. The iron atlas and the myelin map will be based on 2D histological analysis (iron and myelin staining) and the ferrozine assay will be used to calculate a quantitative iron map. In order to create a 3D map of the iron and myelin concentrations, the 2D iron and myelin stains will be reconstructed to a 3D volume referred to as atlas.

    • Medizinische Universität Wien (Fördergeber/Auftraggeber)
    LaufzeitJuni/2015 - November/2018
    Projektleitung
  • Günther Grabner
  • Projektmitarbeiter*innen
  • Andreas Schober
  • Max Prihoda
  • Julia Wachter
  • Medea Biebl-Rydlo
  • Thomas Kau
  • René Schranzer
  • ForschungsschwerpunktDiagnostik in der Medizin
    Studiengang
  • Gesundheitsberufe
  • ForschungsprogrammSubventionsvereinbarung im Rahmen des ÖNB-Projekts 16153
    Förderinstitution/Auftraggeber
  • Medizinische Universität Wien
  • Brain iron is according to many studies related to neurodegenerative disease such as Alzheimer’s disease and Parkinson’s disease. Quantitative susceptibility mapping (QSM) and R2* mapping are promising tools to image and analyze areas of increased iron levels within the human brain by using magnetic resonance imaging (MRI). Both QSM and R2* are well established methods for isotropic deep gray matter, but the situation is more complex for white matter regions. The aim of this project is to create a 3D iron atlas and a myelin atlas of a whole human brain in order to evaluate QSM and R2* mapping. The iron atlas and the myelin map will be based on 2D histological analysis (iron and myelin staining) and the ferrozine assay will be used to calculate a quantitative iron map. In order to create a 3D map of the iron and myelin concentrations, the 2D iron and myelin stains will be reconstructed to a 3D volume referred to as atlas.

    • Medizinische Universität Wien (Fördergeber/Auftraggeber)
    LaufzeitJuni/2015 - November/2018
    Projektleitung
  • Günther Grabner
  • Projektmitarbeiter*innen
  • Andreas Schober
  • Max Prihoda
  • Julia Wachter
  • Medea Biebl-Rydlo
  • Thomas Kau
  • René Schranzer
  • ForschungsschwerpunktDiagnostik in der Medizin
    Studiengang
  • Gesundheitsberufe
  • ForschungsprogrammSubventionsvereinbarung im Rahmen des ÖNB-Projekts 16153
    Förderinstitution/Auftraggeber
  • Medizinische Universität Wien
  • Brain iron is according to many studies related to neurodegenerative disease such as Alzheimer’s disease and Parkinson’s disease. Quantitative susceptibility mapping (QSM) and R2* mapping are promising tools to image and analyze areas of increased iron levels within the human brain by using magnetic resonance imaging (MRI). Both QSM and R2* are well established methods for isotropic deep gray matter, but the situation is more complex for white matter regions. The aim of this project is to create a 3D iron atlas and a myelin atlas of a whole human brain in order to evaluate QSM and R2* mapping. The iron atlas and the myelin map will be based on 2D histological analysis (iron and myelin staining) and the ferrozine assay will be used to calculate a quantitative iron map. In order to create a 3D map of the iron and myelin concentrations, the 2D iron and myelin stains will be reconstructed to a 3D volume referred to as atlas.

    • Medizinische Universität Wien (Fördergeber/Auftraggeber)

    Verwenden Sie für externe Referenzen auf das Profil von Thomas Kau folgenden Link: www.fh-kaernten.at/mitarbeiter-details?person=t.kau