Title :
Novel microscopy system for imaging brain tissue structure and function
Author :
Johnson, Lee ; Chung, William ; Hanley, Daniel ; Thakor, Nitish V.
Author_Institution :
Dept. of Biomed. Eng., Johns Hopkins Univ. Sch. of Med., Baltimore, MD, USA
fDate :
29 Oct-1 Nov 1998
Abstract :
The authors developed a novel microscope system to image changes in light scatter that occur within a hippocampal slice. The system is based on Mie scatter theory predictions for light scatter as well as empirical observations. The authors evaluated the imaging system with two types of samples, a thin layer of microspheres, radius 450 nm, suspended in water and a brain tissue slice. The variation of the dilution of the microspheres revealed two regimes in which the system responds differently. The authors believe the transition from one regime to the other occurs when single scatter begins to dominate. The authors also tested the system on 350 micron thick hippocampal slices. They detected increases in light scatter of up to 50% in 100 μM NMDA treated slices. Thus, optical scatter imaging captures changes in brain tissue morphology that occur with brain injury
Keywords :
biological techniques; brain; light scattering; neurophysiology; optical microscopy; 350 mum; 450 nm; Mie scatter theory predictions; NMDA treated slices; biological research instrumentation; brain injury; brain tissue function; brain tissue structure imaging; hippocampal slices; light scatter increases; microspheres; optical scatter imaging; Biomedical imaging; Brain; Injuries; Light scattering; Microscopy; Mie scattering; Optical imaging; Optical scattering; Particle scattering; Riccati equations;
Conference_Titel :
Engineering in Medicine and Biology Society, 1998. Proceedings of the 20th Annual International Conference of the IEEE
Conference_Location :
Hong Kong
Print_ISBN :
0-7803-5164-9
DOI :
10.1109/IEMBS.1998.745588
