Method and solid phase calibration sample for calibration of...

Chemistry: analytical and immunological testing – Composition for standardization – calibration – simulation,...

Reexamination Certificate

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C436S169000, C436S173000, C436S181000, C422S051000, C422S051000, C422S069000, C250S281000, C250S282000, C250S288000

Reexamination Certificate

active

06627444

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to the field of analytical chemistry and in particular to a method and calibration sample for calibrating analytical instruments with a standard solution.
BACKGROUND OF THE INVENTION
Analytical instruments, such as ion mobility spectrometers, gas chromatographs, mass spectrometers, and the like, are used to measure chemical properties or chemical composition of an analyte sample or of an analyte component in a sample. Calibration of analytical instruments is necessary to ensure the continued accuracy of measurements performed by such devices. The present invention provides a novel and useful means of calibrating a large class of analytical instruments, including ion mobility spectrometers, gas chromatographs, mass spectrometers, and the like, which operate internally in the vapor phase, but are capable of analyzing volatile solids and liquids because they are provided with inlet means in which solid or liquid samples can be heated and the volatile analytes therein converted to vapour which is then drawn into the instrument for analysis. Many of the foregoing class of instruments are used outside the laboratory, and in such cases, it is customary to collect samples using a specialized inert device, such as a wipe, filter or the like, and then to insert the entire collection device, containing the sample, into the instrument for analysis. These sample collection methods are employed because they allow non-technical personnel to easily and rapidly collect and analyze representative, uncontaminated, samples. In one embodiment, the present invention provides calibration standards which closely mimic these sampling devices in appearance and mode of use, with similar advantages to the operator.
The calibration procedures commonly used in the prior art require the use of one or more standard solutions to calibrate the measurement of unknown analyte concentrations. These standard solutions, which are carefully made up, under controlled laboratory conditions, so as to contain precisely known concentrations of an analyte.
Several methods of calibrating instruments using standard solutions are well known. The working curve calibration method, for example, effectively creates a plot of the analytical signal from the instrument as a function of analyte concentration, i.e. the response of the instrument. This plot is obtained by measuring the signal from a series of standards of known concentrations. The working curves may then be used to determine the concentration of an unknown analyte sample. Similarly, the standard addition calibration procedure is performed by dividing an unknown sample into two portions, and adding a known amount of the analyte under measurement to one of the portions (also known as “spiking” that portion). Both portions of the unknown sample are then analyzed and the difference in responses is due to the additional amount of analyte added to the one portion. This difference thereby provides a calibration point to determine the analyte concentration in the original sample.
Some analytical instruments, particularly those intended for field use by non-technical personnel, do not provide a numeric measure of the amount of analyte in the sample, but only an “Absent/Present” indication. That is, they determine only that the amount of analyte in a sample is greater or less than a threshold value. Such instruments may erroneously indicate “Absent” when the amount of analyte is above the threshold (False Negative) or “Present” when the amount is below threshold (False Positive). False Negatives occur when the sensitivity of the instrument decreases. False Positives can be caused by electrical or similar disturbances in the instrument, and also by other components in the sample being mis-classified as analyte. Acceptable performance for instruments of this type is usually defined by specifying two quantities, namely, the smallest amount of analyte (often called the “Minimum Detectable Amount”) which should give no False Negatives, and the maximum tolerable fraction of False Positive responses to samples which contain no analyte. A set of calibration standards for such instruments consist of two types of sample, one known to contain the Minimum Detectable Amount of analyte, and a “blank”, containing no analyte. Advantageously, the blank contains typical amounts of the other materials normally accompanying the analyte, and of any materials which are known to be potential sources of False Positives.
In prior art calibration procedures, the standard solutions of known analyte concentrations (or calibration solutions) are produced, maintained, and eventually supplied to the instruments in liquid form. During calibration, the premixed standard liquid solutions are either injected directly into an instrument using syringes or are spotted on to substrates and thermally desorbed into instruments.
Analytical instruments must often be taken into the field to perform in situ measurements. For example, this may be required for soil or water environmental analyses at contaminated sites, for environmental control in oil refineries, for petrochemical processes, for checking contamination at land fill sites, or for checking for drugs and explosives at customs or border stations. In these situations, a more practical and robust calibration means suitable for operation in these environments is highly desirable. Furthermore, field based analytical instrumentation is being increasingly used by environmental specialists, site cleanup and remedial teams, security or customs agents engaged in drug and explosive interdiction, and other similar individuals. In addition to the absence of controlled laboratory environment, this means that sensitive analytical instruments must be operated and calibrated by individuals who are not trained as analytical technicians or chemists (e.g. customs officers, law enforcement, or security agents screening for drugs and explosives). As a result, a simple and easy calibration technique is also required.
In all these circumstances, conditions are not suitable for the storage, transportation, handling, and accurate dispensing of solutions in liquid form. Consequently, there is a genuine need for a simple, practical, and quick calibration technique which provides a high level of measurement accuracy, especially for instruments which are operated under field conditions away from laboratories and by individuals who are, chemically or analytically speaking, unskilled.
SUMMARY OF THE INVENTION
It is an object of the present invention to provide an improved method and apparatus for calibration of analytical instruments, particularly instruments which operate under field conditions away from laboratories or other controlled environments and which may be used by persons without significant skills for carrying out such calibrations by the methods of the prior art.
In a first aspect, the present invention provides a method of providing a calibration sample comprising the steps of:
(a) providing a standard solution containing at least an analyte in a known concentration and a chromatographic phase material; and
(b) impregnating a substrate with the standard solution so that the substrate contains the analyte in a solid phase.
Step (a) can include providing a standard solution containing an explosive analyte material. The explosive analyte material can be selected from the group consisting of: 2,4,6-trinitrotoluene, cyclotrimethylenetrinitramine, pentaerythritol tetranitrate, nitroglycerine, ammonium nitrate, cyclo-tetramethylene-tetranitramine, and tetryl.
Alternatively, step (a) can include providing a standard solution containing an analyte which is a drug or a chromatographic phase material which is a polymer. Such a polymer can be selected from the group consisting of: polydimethylsilane, polymethylsilane, polymethylphenylsilane, polyphenylsilane, and Tenac®.
Preferably, step (a) includes providing a standard solution containing at least one of a dopant, a reactant, and a cleansing agent for an ion mobility spectrometer.
The

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