Add to ORKGA commercial confocal microscope WITec AlphaSNOM is modified by including a sample path electronically controlled lens to achieve no-moving parts axial scanning microscopy. Shown are three dimensional imaging results of a blood vessel. © 2007 Optical Society of America
Various optical microscopy techniques have been developed for micrometer level imaging of biological...
Abstract. Progress in the development of confocal microscopy and the advantages of this technique ov...
Optical tissue clearing (OTC) methods render tissue transparent by matching the refractive index wit...
To the best of our knowledge, for the first time, biological Three Dimensional (3-D) imaging has bee...
The performance of the 3D confocal imaging of a blood vessel sample using axial scans implemented th...
Three-dimensional (3-D) imaging is demonstrated using an electronically controlled liquid crystal (L...
The structure of the blood vessel wall has historically been studied using thin cut sections using s...
The structure and composition of living small blood vessels can be studied in great detail in three ...
Blood vessels are capable of structural changes in a dynamic process called ‘vascular remodelling', ...
The paper first highlights the use of multiple electronically controlled optical lenses, specificall...
Confocal microscope permits the generation of three-dimensional images of biological and nonbiologic...
Blood vessels are capable of continuous structural changes in response to varying conditions and fun...
The vascular system of the ocular surface plays a central role in infectious, autoimmune, inflammato...
nive r: me; acc 102 tral ion, ese h s a s d a m 3, N 0. cal or multiphoton microscopy coupled with a...
Background and aims Elevated uptake of plasma macromolecules by the arterial wall is an early event ...
Various optical microscopy techniques have been developed for micrometer level imaging of biological...
Abstract. Progress in the development of confocal microscopy and the advantages of this technique ov...
Optical tissue clearing (OTC) methods render tissue transparent by matching the refractive index wit...
To the best of our knowledge, for the first time, biological Three Dimensional (3-D) imaging has bee...
The performance of the 3D confocal imaging of a blood vessel sample using axial scans implemented th...
Three-dimensional (3-D) imaging is demonstrated using an electronically controlled liquid crystal (L...
The structure of the blood vessel wall has historically been studied using thin cut sections using s...
The structure and composition of living small blood vessels can be studied in great detail in three ...
Blood vessels are capable of structural changes in a dynamic process called ‘vascular remodelling', ...
The paper first highlights the use of multiple electronically controlled optical lenses, specificall...
Confocal microscope permits the generation of three-dimensional images of biological and nonbiologic...
Blood vessels are capable of continuous structural changes in response to varying conditions and fun...
The vascular system of the ocular surface plays a central role in infectious, autoimmune, inflammato...
nive r: me; acc 102 tral ion, ese h s a s d a m 3, N 0. cal or multiphoton microscopy coupled with a...
Background and aims Elevated uptake of plasma macromolecules by the arterial wall is an early event ...
Various optical microscopy techniques have been developed for micrometer level imaging of biological...
Abstract. Progress in the development of confocal microscopy and the advantages of this technique ov...
Optical tissue clearing (OTC) methods render tissue transparent by matching the refractive index wit...