JP2007017218A - Display method of mass-chromatogram - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a display method of a mass-chromatogram useful for grouping of components in a case that a sample, which contains a plurality of components having similar structures, is continuously measured. <P>SOLUTION: The display method of the mass-chromatogram is equipped with a mass-chromatogram forming means for forming the mass-chromatogram, a peak detecting means for detecting a peak from the mass-chromatogram, a means for storing a holding time range, a mass to charge ratio range and a peak display color or a peak display mark and a means for displaying a peak by the display color or mark corresponding to a case that a part of the peak of an inspection target is contained in the holding time range and the mass to charge ratio range. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a method for displaying a mass chromatogram as a quantitative means in a high performance liquid chromatograph (HPLC), a gas chromatograph (GC) or the like.

  Mass spectral analysis (mass chromatography) as a detection means in HPLC and GC has high detection sensitivity and is widely used as a trace analysis means. When analyzing a sample having a plurality of components having similar structures, it may be necessary to group them. For example, in the analysis of surfactants obtained using fatty acids derived from natural products, it is a mixture of a plurality of surfactants that differ only in the number of carbon atoms in the fatty acid portion. There is a need to group the active agents. For example, when analyzing a surfactant having a fatty acid having 16 to 20 carbon atoms having a similar structure and a surfactant having a fatty acid having 18 to 22 carbon atoms, it is necessary to classify them into the same group. Also occurs.

  Conventionally, the measurer individually determines the chromatogram of a sample having a plurality of components having such a similar structure based on the analysis result obtained for each sample.

Further, a technique for color-coding the peaks on the individual chromatograms (Patent Document 1) is known, but in this case as well, it is merely a color-coded display of individual data, and a sample having a plurality of components having similar structures. This could not be applied to continuous measurement.
JP 2004-53283 A

  Accordingly, an object of the present invention is to provide a method for displaying a mass chromatogram useful for grouping components when a sample having a plurality of components having a similar structure is continuously measured.

  Therefore, as a result of various studies on the grouping, the present inventor displays the peaks in the retention time range and the mass-to-charge ratio range with the same color or mark, or obtains a relational expression between the retention time and the mass-to-charge ratio. If the relation is satisfied and the peak is displayed with the same color or mark, the components belonging to the same group can be grouped on the screen with the same color or mark. It was.

That is, the present invention stores mass chromatogram creation means for creating a mass chromatogram, peak detection means for detecting a peak from the mass chromatogram, retention time range, mass-to-charge ratio range, peak display color or peak display mark. And a means for displaying the peak with a display color or a display mark corresponding to a case where a part of the peak of the subject is included in the retention time range and the mass to charge ratio range (first chromatogram display method) Invention).
The present invention also includes a mass chromatogram creating means for creating a mass chromatogram, a peak detecting means for detecting a peak from the mass chromatogram, a relational expression between a retention time and a mass to charge ratio, a peak display color or a peak display mark. A mass chromatogram display method (second invention) comprising means for storing and means for displaying a peak with a display color or a display mark corresponding to a case where a part of the peak of the subject satisfies the relational expression. To do.
Furthermore, the present invention stores mass chromatogram creation means for creating a mass chromatogram, peak detection means for detecting a peak from the mass chromatogram, a retention time range, a mass-to-charge ratio range, and a peak display color or peak display mark. Means for obtaining a relational expression from the retention time and mass-to-charge ratio, means for correcting the relational expression based on input data, and a display color corresponding to a case where a part of the peak of the subject satisfies the relational expression or The present invention provides a mass chromatogram display method (third invention) comprising means for displaying a peak with a display mark.

  According to the display method of the present invention, when a sample having a plurality of components having a similar structure such as a surfactant prepared using a natural product-derived raw material is continuously measured, the similar components can be easily measured. And it can be displayed correctly grouped.

  In the first invention, the mass chromatogram creating means for creating a mass chromatogram creates a mass chromatogram based on the mass spectrum data of the sample flowing out from the column. A method for creating a mass chromatogram is performed by sequentially collecting mass spectra from a sample flowing out from a column and plotting the intensity with respect to a time axis.

  The peak detecting means detects a peak from the obtained mass chromatogram according to a predetermined standard. As this reference, a conventionally known threshold method or gradient method (differential method) can be used.

  In the holding time range, a lower deviation (tL) and an upper deviation (tU) with respect to the holding time (tC) are obtained from the data of the holding time (t). A range from (tC + tL) to (tC + tU) is defined as a holding time range [tC + tL, tC + tU]. On the other hand, in the mass to charge ratio range, the lower deviation (mL) with respect to the mass to charge ratio (mC) is determined as the upper deviation (mU) from the data of the mass to charge ratio (m). The range of (mC + mL) to (mC + mU) is defined as a mass-to-charge ratio range [mC + mL, mC + mU]. The peak display color is for displaying the same substance or substances belonging to the same group in the same color. For example, the peak is changed to red, blue, yellow, green or the like. The peak display mark is used to display the same substance or substances belonging to the same group with the same mark. For example, the display is a square, a circle, a triangle, etc., or a combination of this and a color. The present invention has means for storing them.

  When a part of the peak of the subject is included in the retention time range and the mass-to-charge ratio range, the apparatus has means for displaying the peak with a corresponding display color or display mark based on the storage. The case where a part of the peak of the subject is included in the retention time range refers to the case where a part from the peak start time (pL) to the peak end time (pR) of the subject is included in the retention time range. . The case where a part of the peak of the subject is included in the mass-to-charge ratio range refers to the case where the mass-to-charge ratio of the subject is included in the mass-to-charge ratio range. In the present invention, when a part of the peak of the subject is included in the retention time range and the mass to charge ratio range, the same display color or mark is displayed based on the stored information.

  If the same display color or mark is displayed based on the stored information, mass chromatograms having the same display color or mark can be obtained for the subject having a similar structure.

  The mass chromatogram creation means and the peak detection means in the second invention are the same as those in the first invention.

  In the second invention, there is provided means for storing the relational expression between the retention time and the mass-to-charge ratio and the peak display color or peak display mark. The relational expression between the retention time and the mass-to-charge ratio is, for example, an expression represented by peak retention time (t) = (slope) × (peak mass-to-charge ratio (m)) + (intercept). In this case, the relationship between the retention time and the mass to charge ratio is determined by (slope) and (intercept). For the relational expression, a second or higher order polynomial of the mass-to-charge ratio of the peak can be used. The storage means for the peak display color or peak display mark is the same as in the first invention. In the present invention, these are stored in advance.

  And means for displaying a peak with a display color or a display mark corresponding to a case where a part of the peak of the subject satisfies the relational expression. The case where a part of the peak of the subject satisfies the relational expression means a case where a part from the peak start time (pL) of the subject to the peak end time (pR) satisfies the relational expression. In the present invention, when a part of the subject satisfies the relational expression, the same display color or mark is displayed based on the stored information.

  As described above, also in the second aspect of the present invention, if the same display color or mark is displayed based on the stored information, the mass chromatogram having the same display color or mark is applied to the subject having a similar structure. Grams are obtained.

  In the second aspect of the present invention, it is preferable to have means for correcting the relational expression based on input data. Here, the means for correcting the relational expression based on the input data is, for example, that the lower deviation (bL) and the upper deviation (bU) of (intercept) (bC) are determined in advance, and the (intercept) b of the relational expression is expressed as ( It is a means that changes (bC + bL) to (bC + bU) in a constant step d, and adopts (intercept) b * that maximizes the total intensity at the holding time that satisfies the relational expression. By correcting the relational expression, peaks belonging to the same group can be classified even if the holding time in the input data has a deviation.

  The mass chromatogram creation means, peak detection means, and means for preliminarily storing the retention time range, mass-to-charge ratio range, peak display color or peak display mark in the third invention are the same as in the first invention.

  As described in the second aspect, the means for obtaining the relational expression from the retention time and the mass to charge ratio is based on the retention time and mass to charge ratio data in the mass chromatogram of a plurality of samples, and the peak retention time (t ) = (Slope) × (peak mass-to-charge ratio (m)) + (intercept). This relational expression can be calculated by measuring a plurality of samples for different components having a similar structure.

  The means for correcting the relational expression in the third invention and the means for displaying the peak with a display color or display mark corresponding to the case where a part of the peak satisfies the relational expression are the same as in the second invention.

  Furthermore, in the third aspect of the invention, the graph representing the relationship between the retention time and the mass-to-charge ratio and the mass chromatogram are displayed so as to confirm the consistency between the relational expression and the peak display color or display mark. be able to. Here, the graph showing the relationship between the retention time and the mass-to-charge ratio is a graph connecting the peaks obtained by the relational expression, that is, a straight line.

  Thus, according to the present invention, components having a similar structure can be displayed with the same display color, display mark, and / or a straight line connecting them.

FIG. 1 shows an outline of a high performance liquid chromatograph (HPLC) -mass spectrometer which is an embodiment of the present invention.
The sample liquid to be analyzed is injected by the injector 13 into the eluent (mobile phase) sucked by the pump 12 from the eluent tank 11 and sent to the separation column 14. Since the time (holding time) for each component in the sample to pass through the separation column 14 varies depending on the component, each component in the sample is separated in terms of time and eluted in the eluent that has passed through the separation column 14. The eluate containing the eluted sample is sent to the mass analyzer 15. In the mass analyzer 15, the eluate is sent to the ion source 151 and ionized. The ions are separated by a mass separator 152 such as a quadrupole, and the intensity for each mass number is detected by a detector 153 such as a secondary electron multiplier. The detection signal of the mass analyzer 15 is amplified by the amplifier 16, converted into a digital signal by the A / D converter 17, and input to the computer 18.

  FIG. 2 is a block diagram showing functions of the computer 18 in this embodiment.

Reference example 1
Sample mixed with components of X- (CH ₂ ) _n -CH ₃ (Group 1), Y- (CH ₂ ) _n -CH ₃ (Group 2) and Z- (CH ₂ ) _n -CH ₃ (Group 3) The results of the HPLC-MS analysis of FIG. 1 are shown in FIG.

Example 1 (first invention)
(1) Preliminary storage of peak display color In accordance with the criteria in Table 1 below, group 1 was stored as red, group 2 as yellow, and group 3 as green. That is, for the holding time, the reference value ± 0.8 was set as the holding time range. Regarding the mass-to-charge ratio, the reference value ± 0.5 was set as the mass-to-charge ratio range. When a part of the peak was included in this range, it was stored so that it was displayed in red, yellow or green.

(2) Sample measurement Table 2 shows the measurement results of the test sample used in Reference Example 1.

  The case where a part of the peak from the start to the end of the peak is included in the range is indicated as belonging to each group, and the same color is displayed. The result is shown in FIG.

Example 2 (second invention)
(1) Preliminarily storing relational expressions In accordance with the criteria shown in Table 3 below, the slopes and intercepts of the relational expressions for each group were stored.

(2) Sample measurement The measurement results of the test sample used in Reference Example 1 are the same as those in Table 2. FIG. 5 shows a graph connecting a graph (straight line) representing a relational expression and a display color based on the second invention.

Example 3 (including means for correcting the relational expression)
(1) Preliminarily storing relational expressions and correction means According to the criteria shown in Table 4 below, the slopes and intercepts of the relational expressions for each group were stored. In addition, the deviation of the standard value of the intercept was set to ± 0.8, and the correction was made by moving the graph showing the relational expression in increments of 0.1 within the range. That is, the same display color is used when the intercept has the maximum sum of the intensity at the holding time that satisfies the relational expression within the range of the standard value ± 0.8 and a part of the peak satisfies the corrected relational expression. Or it is displayed as the same mark.

(2) Sample measurement The measurement results of the test sample used in Reference Example 1 are the same as those in Table 2. FIG. 6 and FIG. 7 show the results of correcting the display color and the relational expression before correction based on the third invention.

Example 4 (display color and relational expression)
(1) Preliminary storage of peak display color In accordance with the criteria shown in Table 5 below, group 1 was stored as red, group 2 as yellow, and group 3 as green. The holding time range was ± 0.8.

(2) Means for Obtaining Relational Expression Using the values shown in Table 5, the above formula; peak retention time (t) = (slope) × (peak mass-to-charge ratio (m)) + intercept The slope and intercept in Table 6 were determined by the least square method. In addition, the relational expression was corrected by setting the deviation to ± 0.8 and the increment to ± 0.1.

(3) Measurement of Sample In the third invention, the result of displaying the obtained display color and the graph representing the relational expression in an overlapping manner (FIG. 8) is shown.

It is the schematic of the structural example of a high performance liquid chromatograph (HPLC) -mass spectrometry (MS) apparatus. It is a block diagram showing the function in a present Example of the computer. The chromatograph of Reference Example 1 is shown. Group 1 showing the mass chromatogram obtained in Example 1 is red, group 2 is yellow, and group 3 is green. The mass chromatogram obtained in Example 2 is shown. The mass chromatogram (before correction) obtained in Example 3 is shown. The mass chromatogram (after correction) obtained in Example 3 is shown. The mass chromatogram obtained in Example 4 is shown (only the display color on the left, and the mass chromatogram after the graphs are superimposed on the right).

Explanation of symbols

11: Eluent tank 12: Pump 13: Injector 14: Separation column 15: Mass analyzer 151: Ionizer 152: Mass separator 153: Detector 16: Amplifier 17: A / D converter 18: Computer 19: Display 20 :mouse

Claims (5)

  A mass chromatogram creating means for creating a mass chromatogram; a peak detecting means for detecting a peak from the mass chromatogram; a means for storing a retention time range, a mass to charge ratio range and a peak display color or a peak display mark; A mass chromatogram display method comprising: means for displaying a peak with a display color or a display mark corresponding to a case where a part of the peak is included in a retention time range and a mass-to-charge ratio range.   A mass chromatogram creating means for creating a mass chromatogram; a peak detecting means for detecting a peak from the mass chromatogram; a relational expression between a retention time and a mass-to-charge ratio; a means for storing a peak display color or a peak display mark; A mass chromatogram display method comprising: means for displaying a peak with a display color or a display mark corresponding to a case where a part of the peak of the sample satisfies the relational expression.   The mass chromatogram display method according to claim 2, further comprising means for correcting the relational expression based on input data.   Mass chromatogram creation means for creating a mass chromatogram, peak detection means for detecting a peak from the mass chromatogram, means for storing a retention time range, mass-to-charge ratio range, peak display color or peak display mark, and retention time A means for obtaining a relational expression from the mass-to-charge ratio, a means for correcting the relational expression based on the input data, and a peak with a display color or a display mark corresponding to a case where a part of the peak of the subject satisfies the relational expression A mass chromatogram display method comprising: means for displaying.   5. A mass chromatogram display according to claim 4, further comprising means for displaying a graph representing the relationship between the retention time and the mass-to-charge ratio and a peak with a mass chromatogram displayed with a display color or a display mark in an overlapping manner. Method.