PhDExtracellular oxygen concentrations affect cellular metabolism and influence tissue function. Detection methods for these extracellular oxygen concentrations currently have poor spatial resolution and are frequently invasive. Fluorescence Lifetime Imaging Microscopy (FLIM) offers a non-invasive method for quantifying local oxygen concentrations. However, existing FLIM methods also show limited spatial resolution >1 μm and low time-resolved accuracy and precision, due to widefield time-gate. This study describes a new optimised approach using FLIM to quantity extracellular oxygen concentration with high accuracy (±7 μmol/kg) and spatial resolution ( ≅ 0.3 μm). An oxygen sensitive fluorescent dye, tris(2,2′-bipyridyl)ruthenium(II) ...
The tissue metabolic rate of oxygen consumption (tMRO2) is a clinically relevant marker for a number...
The goal of this research was to quantitate and extend oxygen measurements in the tissue of living o...
Fluorescence lifetime imaging microscopy (FLIM) can measure and discriminate endogenous fluorophores...
Fluorescence lifetime measurements of long excited-state lifetime, oxygen-quenched ruthenium dyes ar...
AbstractThe measurement of tissue and cell oxygenation is important for understanding cell metabolis...
The ability to resolve the spatio-temporal complexity of intracellular O2 distribution is the "Holy ...
This thesis describes experiments and analyses which push the frontier per what one can learn from o...
A newly developed water-soluble phosphor suitable for measuring oxygen pressure in the blood (Green ...
Oxygen concentrations vary between tissues of multicellular organisms and change under certain physi...
Solid tumours display varied oxygen levels and this characteristic can be exploited to develop new d...
O2 PLIM microscopy was employed in various studies, however current platforms have limitations in se...
AbstractWe present what is, to our knowledge, a new methodology for high-resolution three-dimensiona...
In recent years, significant progress has been achieved in the sensing and imaging of molecular oxyg...
Cell research is transitioning from planar 2D cell cultures towards 3D culture models. 3D cell cultu...
The usefulness of the fluorescent probe ruthenium tris(2,2′-dipyridyl) dichloride hydrate (RTDP) for...
The tissue metabolic rate of oxygen consumption (tMRO2) is a clinically relevant marker for a number...
The goal of this research was to quantitate and extend oxygen measurements in the tissue of living o...
Fluorescence lifetime imaging microscopy (FLIM) can measure and discriminate endogenous fluorophores...
Fluorescence lifetime measurements of long excited-state lifetime, oxygen-quenched ruthenium dyes ar...
AbstractThe measurement of tissue and cell oxygenation is important for understanding cell metabolis...
The ability to resolve the spatio-temporal complexity of intracellular O2 distribution is the "Holy ...
This thesis describes experiments and analyses which push the frontier per what one can learn from o...
A newly developed water-soluble phosphor suitable for measuring oxygen pressure in the blood (Green ...
Oxygen concentrations vary between tissues of multicellular organisms and change under certain physi...
Solid tumours display varied oxygen levels and this characteristic can be exploited to develop new d...
O2 PLIM microscopy was employed in various studies, however current platforms have limitations in se...
AbstractWe present what is, to our knowledge, a new methodology for high-resolution three-dimensiona...
In recent years, significant progress has been achieved in the sensing and imaging of molecular oxyg...
Cell research is transitioning from planar 2D cell cultures towards 3D culture models. 3D cell cultu...
The usefulness of the fluorescent probe ruthenium tris(2,2′-dipyridyl) dichloride hydrate (RTDP) for...
The tissue metabolic rate of oxygen consumption (tMRO2) is a clinically relevant marker for a number...
The goal of this research was to quantitate and extend oxygen measurements in the tissue of living o...
Fluorescence lifetime imaging microscopy (FLIM) can measure and discriminate endogenous fluorophores...