UNLABELLED: Authors from the Netherlands studied the use of a casting technique, cryomicrotome imaging and three-dimensional computer analysis to visualise and reconstruct the arterial anatomy in a porcine kidney model. They found that this could be done satisfactorily to a resolution of 50 microm. OBJECTIVE: To assess the combined use of a casting technique, cryomicrotomy imaging, and three-dimensional (3D) computer analysis as a method for visualizing and reconstructing the arterial vascular tree in a porcine renal model. MATERIAL AND METHODS: The arterial branches of two porcine kidneys were filled with a fluorescent cast, after which they were cut into slices of 50 microm in an imaging cryomicrotome. From each section, digital images of the cutting plane of the sample were taken and stored in the computer, after which stacks of images were rendered in 3D. RESULTS: A 3D computerized reconstruction of the arterial vascular tree was constructed and showed the complete arterial anatomy up to arterioles of 50 microm. CONCLUSION: With visualization by fluorescence imaging cryomicrotomy, the anatomical and 3D reconstruction of the renal arterial blood supply in a pig kidney is possible up to a resolution of 50 microm.
UNLABELLED: Authors from the Netherlands studied the use of a casting technique, cryomicrotome imaging and three-dimensional computer analysis to visualise and reconstruct the arterial anatomy in a porcine kidney model. They found that this could be done satisfactorily to a resolution of 50 microm. OBJECTIVE: To assess the combined use of a casting technique, cryomicrotomy imaging, and three-dimensional (3D) computer analysis as a method for visualizing and reconstructing the arterial vascular tree in a porcine renal model. MATERIAL AND METHODS: The arterial branches of two porcine kidneys were filled with a fluorescent cast, after which they were cut into slices of 50 microm in an imaging cryomicrotome. From each section, digital images of the cutting plane of the sample were taken and stored in the computer, after which stacks of images were rendered in 3D. RESULTS: A 3D computerized reconstruction of the arterial vascular tree was constructed and showed the complete arterial anatomy up to arterioles of 50 microm. CONCLUSION: With visualization by fluorescence imaging cryomicrotomy, the anatomical and 3D reconstruction of the renal arterial blood supply in a pig kidney is possible up to a resolution of 50 microm.
Authors: Richard P Visconti; Vladimir Kasyanov; Carmine Gentile; Jing Zhang; Roger R Markwald; Vladimir Mironov Journal: Expert Opin Biol Ther Date: 2010-03 Impact factor: 4.388
Authors: Simone Rivolo; Lucas Hadjilucas; Matthew Sinclair; Pepijn van Horssen; Jeroen van den Wijngaard; Roman Wesolowski; Amedeo Chiribiri; Maria Siebes; Nicolas P Smith; Jack Lee Journal: Am J Physiol Heart Circ Physiol Date: 2016-07-08 Impact factor: 4.733