Magnetic resonance imaging apparatus and irradiation frequency adjusting method

The invention claimed is: 1. A magnetic resonance imaging apparatus for collecting echo signals generated by applying a high-frequency magnetic field and a gradient magnetic field to an object placed in a static magnetic field according to a predetermined pulse sequence and reconstructing an image from the echo signals, comprising: an irradiation frequency adjustment unit to reduce a difference between a selective excitation irradiation frequency, which is an irradiation frequency of a two-dimensional selective excitation magnetic field when executing a two-dimensional selective excitation type pulse sequence, and a resonance frequency of magnetization within a focus region in a columnar region excited by the two-dimensional selective excitation magnetic field; and a control unit to execute the two-dimensional selective excitation type pulse sequence using a result obtained in the irradiation frequency adjustment unit. 2. The magnetic resonance imaging apparatus according to claim 1 , wherein the irradiation frequency adjustment unit includes: a region setting section to set the focus region; a signal collection section to collect echo signals from the focus region using an initial irradiation frequency set in advance; and a frequency setting section to calculate an irradiation frequency from the echo signal when the signal collection section collects the echo signals and sets the calculated irradiation frequency as the selective excitation irradiation frequency. 3. The magnetic resonance imaging apparatus according to claim 2 , wherein the initial irradiation frequency is calculated from a prescan result of an imaging region of main imaging. 4. The magnetic resonance imaging apparatus according to claim 2 , wherein the frequency setting section calculates a frequency indicating a maximum peak on a histogram, which is obtained by performing a Fourier transform of the echo signals in a time direction, as the irradiation frequency. 5. The magnetic resonance imaging apparatus according to claim 2 , wherein according to an orthogonal three cross-section excitation type pulse sequence in which a rectangular parallelepiped region including at least a part of the focus region is set as an intersection region, the signal collection section collects echo signals of the intersection region without encoding. 6. The magnetic resonance imaging apparatus according to claim 2 , wherein the signal collection section collects echo signals of the focus region without encoding, according to a pulse sequence based on a combination of two-dimensional selective excitation of which the columnar region in which the focus region is inscribed is set as an excitation region and one-dimensional selective excitation of which the cross-section in which the focus region is inscribed and is orthogonal to the columnar region is set as an excitation region. 7. The magnetic resonance imaging apparatus according to claim 2 , wherein the signal collection section collects echo signals of the focus region without encoding, according to a pulse sequence based on a combination of (i) a suppression pulse for suppressing a signal from a region other than a cross section which is perpendicular to the columnar region in which the focus region is inscribed, and (ii) two-dimensional selective excitation of which the columnar region in which the focus region is inscribed is set as an excitation region. 8. The magnetic resonance imaging apparatus according to claim 6 , wherein the frequency setting section calculates an absolute value of a difference between the selective excitation irradiation frequency and the initial irradiation frequency after the irradiation frequency is calculated and compares the absolute value with a threshold value set in advance, and when a comparison result indicating that the absolute value is larger than the threshold value is obtained, the signal collection section collects echo signals from the focus region with the irradiation frequency as the initial irradiation frequency. 9. The magnetic resonance imaging apparatus according to claim 2 , wherein the signal collection section acquires volume data from a region including the focus region, and the frequency setting section calculates an average value of static magnetic field distribution of the volume data and determines the irradiation frequency based on the calculated average value. 10. The magnetic resonance imaging apparatus according to claim 2 , further comprising: a shim gradient magnetic field generation means that corrects non-uniformity of a static magnetic field of an imaging region, wherein the signal collection section acquires a shim image of a region including the focus region, and the frequency setting section calculates as the irradiation frequency an average value of static magnetic field distribution obtained by the shim image. 11. The magnetic resonance imaging apparatus according to claim 2 , wherein the irradiation frequency adjustment unit sets the initial irradiation frequency for a two-dimensional selective excitation magnetic field of a pulse sequence other than the two-dimensional selective excitation type pulse sequence. 12. The magnetic resonance imaging apparatus according to claim 1 , further comprising: a shim image acquisition unit that acquires a shim image of a region including the focus region; and a shim gradient magnetic field generation unit that corrects non-uniformity of a static magnetic field of an imaging region, wherein the irradiation frequency adjustment unit sets the initial irradiation frequency for the two-dimensional selective excitation magnetic field of the two-dimensional selective excitation type pulse sequence and also controls the shim gradient magnetic field generation unit to make static magnetic field distribution in the focus region uniform according to static magnetic field distribution obtained by the shim image when the two-dimensional selective excitation type pulse sequence is executed. 13. The magnetic resonance imaging apparatus according to claim 11 , wherein the irradiation frequency adjustment unit includes an adjustment unit that adjusts a gain of the two-dimensional selective excitation magnetic field and the gradient magnetic field strength after matching a resonance frequency in the focus region to the initial irradiation frequency. 14. The magnetic resonance imaging apparatus according to claim 2 , wherein the region setting section collects echo signals from a two-dimensional selection region designated by an operator according to the two-dimensional selective excitation type pulse sequence, and determines and sets the focus region on the basis of a projection image obtained by a Fourier transform of the echo signals. 15. An irradiation frequency adjusting method of adjusting an irradiation frequency of a two-dimensional selective excitation magnetic field when executing a two-dimensional selective excitation type pulse sequence in a magnetic resonance imaging apparatus, comprising: setting a focus region in a columnar region excited by a two-dimensional selective excitation magnetic field; collecting echo signals from the focus region using an initial irradiation frequency set in advance; and calculating an irradiation frequency from the echo signals collected from the focus region and setting the calculated irradiation frequency as a selective excitation irradiation frequency which is an irradiation frequency of the two-dimensional selective excitation magnetic field.