Title :
Quantitative Radio-Labeled Biomolecule Detection Using a Functionalized CMOS Sensor
Author :
Griffin, R.H. ; Mozenson, O. ; Beking, M.A. ; DeRosa, M.C. ; Lopinski, G. ; Tarr, N.G.
Author_Institution :
Dept. of Electr. & Comput. Eng., Carleton Univ., Ottawa, ON, Canada
Abstract :
For the first time, a CMOS imager has been used to detect the presence of radio-labeled target biomolecules captured on a functionalized surface. A CMOS image sensor from an SLR camera was used. Using aptamer functionalization the system successfully detected 32P labeled adenosine triphosphate (ATP) at concentrations well below those typically associated with fluorescence-based sensor architectures. The system has also demonstrated its amenability to multiplexed/spotted biomolecule detection. GEANT4, a Monte Carlo toolkit for simulating the passage of radiation through matter, was used to analyze the detector. Radiolabel detection offers the potential for direct quantitative measurement of bound biomolecules which is advantageous compared to the use of fluorescent tags.
Keywords :
CMOS image sensors; Monte Carlo methods; biochemistry; biological techniques; biology computing; biomedical imaging; biosensors; enzymes; medical computing; molecular biophysics; phosphorus; radioactive tracers; 32P; 32P labeling; ATP concentrations; CMOS image sensor; CMOS imager; CMOS sensor functionalization; GEANT4; Monte Carlo toolkit; SLR camera; adenosine triphosphate detection; aptamer functionalization; bound biomolecule measurement; detector analysis; direct quantitative measurement; fluorescence-based sensor architectures; fluorescent tags; multiplexed/spotted biomolecule detection; quantitative radiolabeled biomolecule detection; radiation passage simulation; radiolabel detection; radiolabeled target biomolecule capture; surface functionalization; Biomedical imaging; CMOS integrated circuits; Cameras; Glass; Spatial resolution; Substrates; Temperature measurement; ATP; Aptamer; CMOS imager; Geant4; biomolecule detection; radiolabel;
Journal_Title :
Nuclear Science, IEEE Transactions on
DOI :
10.1109/TNS.2014.2311588
