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Surround Optical Fiber Immunoassay
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Surround Optical Fiber Immunoassay : ウィキペディア英語版
Surround Optical Fiber Immunoassay

Surround optical fiber immunoassay (SOFIA) is an ultrasensitive, ''in vitro'' diagnostic platform incorporating a surround optical fiber assembly that captures fluorescence emissions from an entire sample. The technology's defining characteristics are its extremely high limit of detection, sensitivity, and dynamic range. SOFIA’s sensitivity is measured at the attogram level (10−18g), making it about one billion times more sensitive than conventional diagnostic techniques. Based on its enhanced dynamic range, SOFIA is able to discriminate levels of analyte in a sample over 10 orders of magnitude, facilitating accurate titering.
As a diagnostic platform, SOFIA has a broad range of applications. Several studies have already demonstrated SOFIA’s unprecedented ability to detect naturally occurring prions in the blood and urine of disease carriers.〔〔〔 This is expected to lead to the first reliable ''ante mortem'' screening test for vCJD, BSE, scrapie, CWD, and other transmissible spongiform encephalopathies.〔(【引用サイトリンク】 title=National Prion Research Program )〕 Given the technology’s extreme sensitivity, additional unique applications are anticipated, including ''in vitro'' tests for other neurodegenerative diseases, such as Alzheimer's and Parkinson's.〔
SOFIA was developed as a result of a joint-collaborative research project between Los Alamos National Laboratory and State University of New York, and was supported by the Department of Defense's National Prion Research Program.
== Background==
The conventional method of performing laser-induced fluorescence, as well as other types of spectroscopic measurements, such as infrared, ultraviolet-visible spectroscopy, phosphorescence, etc., is to use a small transparent laboratory vessel, a cuvette, to contain the sample to be analyzed.
To perform a measurement, the cuvette is filled with the liquid to be investigated and then illuminated with a laser focused through one of the cuvette’s faces. A lens is placed in line with one of the faces of the cuvette located at 90° from the input window to collect the laser-induced fluorescent light. Only a small volume of the cuvette is actually illuminated by the laser and produces a detectable spectroscopic emission. The output signal is significantly reduced because the lens picks up only about 10% of the spectroscopic emission due to solid angle considerations. This technique has been used for at least 75 years; even before the laser existed, when conventional light sources were used to excite the fluorescence.
SOFIA solves the problem of low collection efficiency, as it collects nearly all of the fluorescent light produced from the sample being analyzed, increasing the amount of fluorescence signal by around a factor of 10 over conventional apparatus.

抄文引用元・出典: フリー百科事典『 ウィキペディア(Wikipedia)
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