Title :
Quantitative dynamic imaging of biological processes with solid state radiation detector
Author :
Abate, L. ; Bertolucci, E. ; Conti, M. ; Di Cosmo, A. ; Di Cristo, C. ; Mettivier, G. ; Montesi, M.C. ; Russo, P.
Author_Institution :
Dipartimento di Sci. Fisiche, Naples Univ., Italy
fDate :
12/1/2000 12:00:00 AM
Abstract :
The authors have developed a technique and a prototype for β-ray quantitative imaging of biological samples which have been radioactively labeled. The prototype is based on a solid state pixel detector, bump-bonded to a low threshold, single particle counting chip: the detector the authors used is 200-μm thick GaAs, with pixel size 170 μm. Here, they describe an experiment that shows the capability of monitoring a dynamic process. Specifically, [14C]L-Leucine uptake by eggs of mollusk cephalopod Octopus culgaris and the consequent migration of marker into the ooplasm was followed
Keywords :
beta-ray detection; biological techniques; gallium arsenide; radioisotope imaging; 170 mum; 200 mum; 200-μm thick GaAs; C; GaAs; [14C]L-Leucine uptake; biological processes; biophysical technique; bump-bonding; dynamic process monitoring; eggs; low threshold single particle counting chip; marker migration; mollusk cephalopod Octopus culgaris; ooplasm; pixel size; quantitative dynamic imaging; radioactively labeled biological samples; solid state pixel detector; solid state radiation detector; Biological processes; Gallium arsenide; Linearity; Monitoring; Optical imaging; Proteins; Prototypes; Radiation detectors; Solid state circuits; Spatial resolution;
Journal_Title :
Nuclear Science, IEEE Transactions on
