Add to ORKGMicro-computed tomography (μCT) has been successfully used to study the cardiovascular system of mouse embryos in situ. With the use of barium as a suitable contrast agent, blood vessels have been imaged and analysed quantitatively such as blood volume and vessel sizes on embryos of ages 14.5 to 16.5 days old. The advantage of using this imaging modality is that it has provided three dimensional information whilst leaving samples intact for further study
The yolk sac is the initial site of hematopoiesis in the mammalian embryo. As the embryo develops, b...
<div><p>Non-bone <i>in vivo</i> micro-CT imaging has many potential applications for preclinical eva...
AbstractIn this work, we report the use of iodine-contrast microCT to perform high-throughput 3D mor...
Abstract: The mouse is the most appropriate biomedical model organism for researching the mechanisti...
Vascular system development involves a complex, three-dimensional branching process that is critical...
We present a method to generate quantitative embryonic cardiovascular volumes at extremely high reso...
Considerable progress has been made in adapting existing and developing new technologies to enable i...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
The small size of the adult and developing mouse heart poses a great challenge for imaging in precli...
Early embryonic imaging of cardiovascular development in mammalian models requires a method that can...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
Cardiovascular development is a process that involves the timing of multiple molecular events, and n...
Summary A phase-contrast X-ray microtomography system using the Talbot imaging has been built at the...
The yolk sac is the initial site of hematopoiesis in the mammalian embryo. As the embryo develops, b...
The yolk sac is the initial site of hematopoiesis in the mammalian embryo. As the embryo develops, b...
<div><p>Non-bone <i>in vivo</i> micro-CT imaging has many potential applications for preclinical eva...
AbstractIn this work, we report the use of iodine-contrast microCT to perform high-throughput 3D mor...
Abstract: The mouse is the most appropriate biomedical model organism for researching the mechanisti...
Vascular system development involves a complex, three-dimensional branching process that is critical...
We present a method to generate quantitative embryonic cardiovascular volumes at extremely high reso...
Considerable progress has been made in adapting existing and developing new technologies to enable i...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
The small size of the adult and developing mouse heart poses a great challenge for imaging in precli...
Early embryonic imaging of cardiovascular development in mammalian models requires a method that can...
The vasculature of body tissues is continuously subject to remodeling processes originating at the m...
Cardiovascular development is a process that involves the timing of multiple molecular events, and n...
Summary A phase-contrast X-ray microtomography system using the Talbot imaging has been built at the...
The yolk sac is the initial site of hematopoiesis in the mammalian embryo. As the embryo develops, b...
The yolk sac is the initial site of hematopoiesis in the mammalian embryo. As the embryo develops, b...
<div><p>Non-bone <i>in vivo</i> micro-CT imaging has many potential applications for preclinical eva...
AbstractIn this work, we report the use of iodine-contrast microCT to perform high-throughput 3D mor...