Add to ORKGThe direct NMR detection of 17O benefits particularly from higher field strengths and is a promising tool in the study of cerebral oxygen metabolism. The aim of this study was to acquire anatomical MRS images of H2O17 at natural abundance concentration in the rat head at 16.4 T. Intra-cortical contrast and differences in tissue-specific relaxation of brain and muscle tissue were found, enabling optimizations in contrast and sensitivity. Based on these results implications on the spatial specificity of oxygen consumption (CMRO2) measurements using 17O2-enriched gas are discussed
Despite the importance of oxygen metabolism in health and disease, there are currently no clinically...
Introduction: Oxygen consumption rate and blood flow are important parameters for the physiological ...
17O magnetic resonance imaging (MRI) using a conventional pulse sequence was explored as a method of...
The direct NMR detection of 17O benefits particularly from higher field strengths and is a promising...
The measurement of cerebral metabolic rate of oxygen (CMRO2) via direct NMR detection of the stable ...
Purpose Measurement of the cerebral metabolic rate of oxygen (CMRO2) by means of direct imaging of t...
PURPOSE: Measurement of the cerebral metabolic rate of oxygen (CMRO2 ) by means of direct imaging of...
In this study, we exploit the feasibility of the 17O MRSI technique for simultaneous measurement of ...
The cerebral metabolic rate of oxygen of small animals can be reliably imaged using the in vivo 17O ...
Purpose: Oxygen-17 (17O) MRS imaging, successfully used in the brain, is extended by imaging the oxy...
17O, a stable isotope of oxygen with a spin of 5/2, is utilized as a 1H-MRI contrast agent for measu...
Purpose: Oxygen-17 (17 O) MRS imaging, successfully used in the brain, is extended by imaging the ox...
In vivo 17O MRS imaging (MRSI) approach at high/ultra-high field has been established for non-invasi...
This article provides a comprehensive overview of oxygen (17O) magnetic resonance spectroscopy and i...
17O, a stable, spin 5/2 isotope of oxygen, is a nuclear magnetic resonance (NMR) tracer of potential...
Despite the importance of oxygen metabolism in health and disease, there are currently no clinically...
Introduction: Oxygen consumption rate and blood flow are important parameters for the physiological ...
17O magnetic resonance imaging (MRI) using a conventional pulse sequence was explored as a method of...
The direct NMR detection of 17O benefits particularly from higher field strengths and is a promising...
The measurement of cerebral metabolic rate of oxygen (CMRO2) via direct NMR detection of the stable ...
Purpose Measurement of the cerebral metabolic rate of oxygen (CMRO2) by means of direct imaging of t...
PURPOSE: Measurement of the cerebral metabolic rate of oxygen (CMRO2 ) by means of direct imaging of...
In this study, we exploit the feasibility of the 17O MRSI technique for simultaneous measurement of ...
The cerebral metabolic rate of oxygen of small animals can be reliably imaged using the in vivo 17O ...
Purpose: Oxygen-17 (17O) MRS imaging, successfully used in the brain, is extended by imaging the oxy...
17O, a stable isotope of oxygen with a spin of 5/2, is utilized as a 1H-MRI contrast agent for measu...
Purpose: Oxygen-17 (17 O) MRS imaging, successfully used in the brain, is extended by imaging the ox...
In vivo 17O MRS imaging (MRSI) approach at high/ultra-high field has been established for non-invasi...
This article provides a comprehensive overview of oxygen (17O) magnetic resonance spectroscopy and i...
17O, a stable, spin 5/2 isotope of oxygen, is a nuclear magnetic resonance (NMR) tracer of potential...
Despite the importance of oxygen metabolism in health and disease, there are currently no clinically...
Introduction: Oxygen consumption rate and blood flow are important parameters for the physiological ...
17O magnetic resonance imaging (MRI) using a conventional pulse sequence was explored as a method of...