Optics: measuring and testing – Sample – specimen – or standard holder or support – Fluid containers
Reexamination Certificate
2002-02-15
2003-09-30
Rosenberger, Richard A. (Department: 2877)
Optics: measuring and testing
Sample, specimen, or standard holder or support
Fluid containers
C356S440000
Reexamination Certificate
active
06628382
ABSTRACT:
FIELD OF INVENTION
This invention relates to the fields of photometry, spectrophotometry, fluorometry, spectrofluorometry and the like and their use in optically quantitating and or characterizing liquids and solutions.
BACKGROUND OF INVENTION
This invention relates to the field of spectrophotometers and related instruments. More particularly the invention relates to ultra low volume instruments working in the volume range of 2 microliters or less. Such devices are particularly useful in quantitation of biotechnology samples including nucleic acids or proteins where it is desirable to keep sample loss and/or cross-contamination to a minimum.
The prior art contains examples of attempts to supply low volume spectrophotometers. World Precision Instruments of Sarasota, Fla. offers parts from which an instrument handling less than 20 microliters can be built for around $3000. This uses a fiber optic dipping probe with a tip diameter of 1.5 mm (DipTip®), their miniature fiber optic spectrometer and F-O-Lite H light source. With a deuterium lights source (D2Lux) a UV spectrophotometer can be constructed.
U.S. Pat. No. 4,643,580 to Gross et al. discloses a photometer head in which there is a housing for receiving and supporting small test volumes. A fiber optic transmitter and receiver are spaced within the housing so that a drop can be suspended between the two ends.
McMillan, in U.S. Pat. No. 4,910,402, discloses apparatus in which a syringe drops liquid into the gap between two fixed fibers and an IR pulse from a LED laser is fed through the droplet. The output signal is analyzed as a function of the interaction of the radiation with the liquid of the drop.
Ocean Optics, of Dunedin, Fla. 34698 supplies a SpectroPipetter for microliter-volume samples using a sample volume of about 2 microliters. The optics not only carry light to and from the samples but act as a plunger to load the sample. The tip of the pipette includes the sample cell.
Liquids, mixtures, solutions and reacting mixtures are often characterized using optical techniques such as photometry, spectrophotometry, fluorometry, or spectrofluorometry. In order to characterize samples of these liquids, the liquid is usually contained in a vessel referred to as a cell or cuvette two or more of whose sides are of optical quality and permit the passage of those wavelengths needed to characterize the liquid contained therein. When dealing with very small sample volumes of say from 1 to 2 microliters, it is difficult to create cells or cuvettes small enough to to be filled and permit the industry standard 1 cm optical path to be used. It is also difficult and/or time consuming to clean these cells or cuvettes for use with another sample. In the case of photometry or spectrophotometry, the value most commonly sought is the sample absorbance A defined by
A
=−log
T
Where T is the transmittance, or
A
=log(
I/I
0
)
where I
0
is the level of light transmitted through a blank sample (one containing all components except the one being measured or one whose absorbance is known to be negligible and with optical properties identical to those of the sample being measured), and I the level of light transmitted through the sample being measured. Most commonly the absorbance value is measured in a cell or cuvette with a 1 cm path length. However, Lambert's Law states that for a collimated (all rays approximately parallel) beam of light passing through a homogeneous solution of uniform concentration the absorbance is proportional to the path length through the solution. For two path lengths X and Y,
(Absorbance
x
)/(Absorbance
y
)=(Pathlength
x
)/(Pathllength
y
)
Thus it is reasonable that absorbance can be measured with path lengths other than 1 cm and corrected for path length to the equivalent value for a 1 cm path which can be more easily compared to data from other spectrophotometers. The sample path lengths in the range of 0.2 to 2 mm used in this invention can be used to generate absorbance values that can be easily corrected to the 1 cm path equivalent.
Although liquids confined by surface tension and an optical surface are well known, e.g. raindrops on the window, establishing a collimated optical light path of known length through such confined liquids has been perceived as difficult. The recent advent of small spectrometers designed to be used with fiber optics has made it possible to consider spectrophotometric geometries not readily possible before.
It is the object of the instant invention to make use of the surface tension of a microliter or submicroliter sample of liquid to provide suficient means to confine it within the analysis region of an optical analysis instrument and to carry out the requisite measurement.
STATEMENT OF INVENTION
The invention is an optical instrument for photometric, spectrophotometric, fluorometric or spectrofluorometric analysis of liquids contained between two substantially parallel surfaces on anvils spaced apart a known distance, wherein the sample liquid is confined by the surfaces and the surface tension of the liquid. Each of these surfaces contain an optical fiber mounted coaxially with each and perpendicular to the parallel confining surfaces The shape and nature of the surfaces serve to confine the liquid so as to center the confined droplet in the optical path of the optical fibers embedded in the surfaces. An apparatus supporting the surfaces permits the surfaces to be controllably separated to allow loading of the sample and cleaning of the surfaces after sample analysis.
For some applications, the optical fibers can be replaced by miniature sources like light emitting diodes (LEDs) and detectors or detectors with optical filters. The LEDs with their characteristically small emitting area would replace the source fiber and small solid state detectors with associated filters like those used in color charge coupled devices (CCDs) for imaging would replace the receiving fiber and spectrometer.
REFERENCES:
patent: 4286881 (1981-09-01), Janzen
patent: 4643580 (1987-02-01), Gross et al.
patent: 4910402 (1990-03-01), McMillan
patent: 5739432 (1998-04-01), Sinha
patent: 5926262 (1999-07-01), Jung et al.
patent: WO01/14855 (2001-03-01), None
“Laboratory Equipment”, 1998, World Precision Instruments, Sarasota, FL, pp 114-115, 117-118.
“Cuvette Holders for I-cm Cuvettes”, Ocean Optics June 29, 1999, Dunedin, FL.
Kaliski Edward J.
Rosenberger Richard A.
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