JPH0636030B2 - Method for correcting sensitivity change with time of ECT device - Google Patents

Description

TECHNICAL FIELD The present invention is to administer a compound labeled with a radioisotope (RI) into a patient's body and detect γ-rays emitted from the body with a detector outside the body, The present invention relates to an ECT device that reconstructs an image of an in-vivo RI distribution from the obtained data, and particularly relates to a method for correcting sensitivity change with time of the ECT device.

2. Description of the Related Art Quantitative measurement of cerebral blood flow and the like may be performed using an ECT device. In this way, when performing quantitative measurement with the ECT apparatus, conventionally, cross calibration is performed to obtain a coefficient (cross calibration coefficient). That is, usually, an image is created by an ECT device using a pool phantom composed of a sample of which RI concentration is known, its value P is obtained, and the same sample is separately measured by a radiation counter to obtain a count value Q. The mutual coefficient R (= P / Q) between them is obtained as a cross calibration coefficient. If the cross-calibration coefficient is obtained in this way, the data obtained by the ECT device when the image of the actual subject is created is multiplied by this coefficient to obtain a quantitative RI concentration image of this subject. Obtainable.

Problems to be Solved by the Invention However, if a cross-calibration like this causes a change in sensitivity over time,
Quantitative cannot be guaranteed.

Therefore, efforts have been made to prevent the sensitivity from changing with time, but it is impossible to eliminate it completely.

In addition, the frequency of cross calibration may be increased so that the cross calibration is performed for each imaging of each subject, but if this is done, it takes a lot of time and labor.
Inefficient.

SUMMARY OF THE INVENTION An object of the present invention is to provide a method for correcting a change in sensitivity of an ECT device over time, which is simple, requires no effort, and can efficiently correct a change in sensitivity over time.

Means for Solving the Problems In the method for correcting the change in sensitivity with time of the ECT apparatus according to the present invention, the total count value of the reference radiation source is obtained by the ECT apparatus in which attention is paid during cross calibration. After that, when the actual quantitative measurement of the subject is performed using this ECT device, the total count value of the reference radiation source is obtained again, and the total count value at the time of cross calibration and the current total count value are calculated. The previously obtained cross calibration coefficient is corrected based on the relationship.

The cross calibration coefficient is corrected using the change over time in the total count value of the working reference source as an index. In other words, it is considered that the total count value of the reference radiation source is mainly caused by the temporal change of the sensitivity of the ECT device. Therefore, if the cross calibration coefficient is corrected according to the change of the total count value, a new value is obtained at that time. The same cross calibration coefficient as that obtained when the cross calibration is performed is obtained. Therefore, if the corrected cross calibration coefficient is used, the quantitativeness of the data obtained by the ECT device is guaranteed.

Example In this example, a positron ECT device in which quantitativeness is important will be described as an example. First, cross calibration is performed. For this purpose, as shown in FIG. 1, the tunnel portion (data collection effective area) 1 of the positron ECT device 1 is used.
Place pool phantom 2 in 1 and collect data. The pool phantom 2 contains a sample containing a positron emitter of known concentration. On the other hand, as shown in FIG. 2, this same sample is put into the test tube 3 and counted by the well counter 4. The cross calibration coefficient R (= P / is determined from the correlation between the data value P obtained by the positron ECT device 1 and the count value Q obtained by the well counter 4.
Find Q). Further, as shown in this time, the third ⁶⁸
The Ge ring radiation source 5 is put in the tunnel portion 11 instead of the pool phantom 2 and the total count value of the ⁶⁸ Ge ring radiation source 5 is measured.

After that, as time elapses, the actual subject is moved to the positron E
It is assumed that the CT device 1 is used for quantitative measurement.
At this time, before the actual measurement of the object or after the measurement of the object, the ⁶⁸ Ge ring radiation source 5 used previously is again replaced with the tunnel portion 1 of the positron ECT apparatus 1 as shown in FIG.
Place it at 1 and get the total count again.

The total count value obtained at this time is stored in the ring radiation source 5.
If it is calibrated in consideration of the attenuation of ⁶⁸ Ge, it should be the same as the value at the time of the previous cross calibration. However, in reality, it fluctuates as shown in FIG. It is considered that this is mainly because the sensitivity of the ECT device 1 (or the well counter 4) changes with time. Therefore, if the cross calibration coefficient R is corrected in accordance with the relationship between the currently obtained total count value and the total count value at the time of cross calibration, the cross calibration coefficient Q of the sensitivity of the ECT device 1 caused by the change over time is calculated. The fluctuation can be corrected. That is, this corresponds to obtaining a cross calibration coefficient by newly performing cross calibration at this point. Therefore, by using the cross-calibration coefficient thus corrected, it is possible to perform quantitative measurement after correcting the sensitivity change with time.

Incidentally, ⁶⁸ from Ge ring-ray source 5 is intended to be used to obtain the total count value which is an index showing the change over time in the sensitivity of ECT device 1, required and ⁶⁸ G is Ring
It is not necessary to use e. However, such a ⁶⁸ Ge ring radiation source 5 is usually used to perform absorption correction for each patient, so if the total count value is also recorded at this time, that is all that is required and no special effort is required. It can be pointed out that it does not take place. Also, R
I is such that attenuation is negligible, but it is sufficient if I can easily correct the attenuation.

EFFECTS OF THE INVENTION According to the method for correcting the sensitivity change with time of the ECT apparatus of the present invention, the sensitivity change with time of the ECT apparatus can be easily corrected without performing a troublesome cross calibration. Moreover, the frequency of cross calibration can be reduced, and the efficiency is improved.

[Brief description of drawings]

1, 2 and 3 are for explaining a method according to one embodiment of the present invention, and FIG. 1 is a schematic view showing a state in which a pool phantom is measured by a positron ECT device, The figure is a schematic diagram showing how a sample placed in a test tube is measured by a well counter, Fig. 3 is a schematic diagram showing how a ⁶⁸ Ge ring source is measured by a positron ECT device, and Fig. 4 is a total count value. 3 is a graph showing the change over time with. 1 ... Positron ECT device, 11 ... Tunnel part 2 ... Pool phantom, 3 ... Test tube 4 ... Well counter, 5 ... ⁶⁸ Ge ring radiation source

Claims (1)

[Claims] 1. A sample with a known radioisotope concentration is ECT
Cross calibration is performed to determine the cross calibration coefficient by the correlation between the data obtained by measuring with the device and the count value obtained by measuring the same sample with a separate radiation counting device. The total count value of the reference radiation source is obtained by the above ECT device, and then the ECT
The apparatus is characterized in that the total count value of the reference radiation source is obtained again by the apparatus, and the above-mentioned cross calibration coefficient is corrected according to the relationship between the total count value at the time of cross calibration and the current total count value. A method for correcting sensitivity change with time of an ECT apparatus.