H. K. Hahn scite author profile

H. K. Hahn

5Publications

30Citation Statements Received

0Citation Statements Given

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118

Affiliations

Fraunhofer Institute for Digital Medicine

Publications

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MR-basierte Methoden der funktionellen Bildgebung des zentralen Nervensystems

Giesel¹,

Wüstenberg²,

Bongers³

et al. 2005

Rofo Fortschr Geb Rontgenstr N

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This review presents the basic principles of functional imaging of the central nervous system utilizing magnetic resonance imaging. The focus is set on visualization of different functional aspects of the brain and related pathologies. Additionally, clinical cases are presented to illustrate the applications of functional imaging techniques in the clinical setting. The relevant physics and physiology of contrast-enhanced and non-contrast-enhanced methods are discussed. The two main functional MR techniques requiring contrast-enhancement are dynamic T1- and T2*-MRI to image perfusion. Based on different pharmacokinetic models of contrast enhancement diagnostic applications for neurology and radio-oncology are discussed. The functional non-contrast enhanced imaging techniques are based on "blood oxygenation level dependent (BOLD)-fMRI and arterial spin labeling (ASL) technique. They have gained clinical impact particularly in the fields of psychiatry and neurosurgery.

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A Fast and Robust Graph-Based Approach for Boundary Estimation of Fiber Bundles Relying on Fractional Anisotropy Maps

Bauer

Egger

O'Donnell

et al. 2010

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Accuracy Analysis of Vessel Segmentation for a Litt Dosimetry Planning System

Drexl

Knappe

Hahn

et al. 2004

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Parametrische biomedizinische Bildgebung - was macht die Qualität quantitativer radiologischer Verfahren aus?

Glüer

Barkmann

Hahn

et al. 2006

Fortschr Röntgenstr

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Quantitative parametric imaging approaches provide new perspectives for radiological imaging. These include quantitative 2D, 3D, and 4D visualization options along with the parametric depiction of biological tissue properties and tissue function. This allows the interpretation of radiological data from a biochemical, biomechanical, or physiological perspective. Quantification permits the detection of small changes that are not yet visually apparent, thus allowing application in early disease diagnosis and monitoring therapy with enhanced sensitivity. This review outlines the potential of quantitative parametric imaging methods and demonstrates this on the basis of a few exemplary applications. One field of particular interest, the use of these methods for investigational new drug application studies, is presented. Assessment criteria for judging the quality of quantitative imaging approaches are discussed in the context of the potential and the limitations of these methods. While quantitative parametric imaging methods do not replace but rather supplement established visual interpretation methods in radiology, they do open up new perspectives for diagnosis and prognosis and in particular for monitoring disease progression and therapy.

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MR-Volumetrie der Hypophyse: In-vitro- and In-vivo-Resultate einer neuen semiautomatischen interaktiven Segmentationstechnik

Böttcher¹,

Hahn²,

Reichenbach³

et al. 2005

Fortschr Röntgenstr

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H. K. Hahn

MR-basierte Methoden der funktionellen Bildgebung des zentralen Nervensystems

A Fast and Robust Graph-Based Approach for Boundary Estimation of Fiber Bundles Relying on Fractional Anisotropy Maps

Accuracy Analysis of Vessel Segmentation for a Litt Dosimetry Planning System

Parametrische biomedizinische Bildgebung - was macht die Qualität quantitativer radiologischer Verfahren aus?

MR-Volumetrie der Hypophyse: In-vitro- and In-vivo-Resultate einer neuen semiautomatischen interaktiven Segmentationstechnik

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