RU2085119C1 - Method of diagnosing kidney tumors - Google Patents

Abstract

FIELD: medical radiology. SUBSTANCE: essence of invention consists in performing computer tomography involving determination of focus on images and its localization. Once focus detected, disturbance degree of functionality of parenchyma of injured kidney around volume formation is determined. In this case, total number of volume elements and their summary number in image cuts of injured and contralateral kidney is counted. When the former parameter is less than 0.65 and/or the latter less than 0.75, functionality of parenchyma of injured kidney is stated and existence of invasive growth of tumor is diagnosed. EFFECT: optimized procedure.

Description

 The invention relates to medicine, namely to medical radiology, and can be used in urology and oncology.

 Currently, there has been a tendency toward organ-preserving surgery for both benign and malignant tumors of the renal parenchyma.

 The expediency of organ-guarding operations is proved not only in case of a malignant bilateral lesion and a single kidney, but also in case of a limited tumor lesion of one kidney with a healthy counter-kidney. In this regard, preoperative diagnostic evaluation of malignant lesions of the renal parenchyma is of great importance. In this case, the most urgent problem is to identify the presence of infiltrating tumor growth, which determines the choice of tactics of surgical intervention.

 A known method for the diagnosis of kidney tumors by ultrasound (Mukhorlyamov N.M. Clinical ultrasound diagnostics. M. Medicine. V.1, 1987).

 However, the known method allows to establish only the presence of a tumor, to conduct a differential diagnosis between benign and malignant neoplasms, but does not reveal the presence of infiltrating tumor growth.

 A known method for the diagnosis of kidney tumors by computed tomography (Ternovoy S.K. Computed tomography in the differential diagnosis of urological diseases. III conference of urologists of Kazakhstan. Abstracts, Aktyubinsk: 1985, p. 458 459).

 However, this method also does not allow to identify violations of the functional ability of the parenchyma around the volumetric formation, the effect of tumor damage on renal function.

 Known radionuclide method for the diagnosis of kidney tumors, including the use of dynamic scintigraphy (Sivachenko TP Guide to nuclear medicine. Kiev: 1991).

 The method allows to detect the presence or accumulation of a radionuclide preparation in vascularized tumor tissue and to identify a defect in accumulation in avascular formations.

 However, the planar scintigraphy method used for static imaging has several drawbacks.

 The result of planar scintigraphy is a two-dimensional integrated image of the kidneys. The areas of reduced inclusion of the radiopharmaceutical in this image, associated with the presence of both focal and diffusion changes, are screened by radiation from intact tissue. This distorts the actual picture, reduces the resolution of the method, and does not provide an opportunity to obtain information about the ratio of damaged areas to healthy tissue. Neither the increase in the number of projections of scintigraphy, nor the objectification of the information obtained using a computer can eliminate the disadvantages inherent in the method.

 As a prototype adopted a method for the diagnosis of volumetric lesions of the kidneys by emission computed tomography.

The method consists in the fact that the patient is administered intravenously a radiopharmaceutical (DMSA), which accumulates in the kidneys. After 3-5 hours, the data are recorded in a step-by-step mode: a full 360 ^o rotation of the detector around the region of the organ under investigation (rotation step 6 12 ^o , exposure time 20 30 s at one detector position). After reconstructing the data, slices (tomoscintigrams) are constructed. A visual analysis of tomoscintigrams is performed to detect the lesion.

 However, the known method does not allow to detect the presence or absence of invasive growth of kidney tumors, but only allows to detect a volumetric formation, indicating the presence of a tumor.

 The impossibility of an objective assessment of the nature of the tumor process and the development of adequate surgical treatment tactics leads to unreasonably traumatic surgical interventions and various complications.

 The objective of the invention is to provide a highly effective and informative method for the diagnosis of kidney tumors.

 The essence of the invention lies in the fact that in the method for the diagnosis of renal tumors, including emission computed tomography with subsequent identification of the lesion and its localization, the presence of invasive tumor growth is additionally determined by assessing the degree of impaired functional ability of the parenchyma affected almost around the volumetric formation, while determining the functioning volume and the total activity of the affected and counteratal kidneys, then the ratio of the functioning volumes of the lesion is calculated of the actual and the counteratal kidneys and the ratio of the specific activities of the affected and the counteratal kidneys and when the value of the first indicator is 0.65 and (or) the value of the second indicator is less than 0.75, a decrease in the functional ability of the parenchyma of the affected kidney is diagnosed and the presence of invasive tumor growth is diagnosed.

 Using the invention allows to obtain the following technical result.

 The method is highly effective and informative. It allows you to evaluate the functional ability of the affected kidney parenchyma and determine the presence (or absence) of invasive tumor growth.

 The preoperative diagnostic assessment of the nature and degree of damage to the tumor process of the kidney allows the selection of adequate tactics for both preoperative preparation of the patient and surgical intervention, which is especially important in light of the emerging trend towards organ-preserving operations.

 The authors first proposed a method to determine the presence of invasive growth of kidney tumors.

 This is achieved through accurate criteria for assessing the functional ability of the kidney parenchyma around the focus.

 On a large number of statistically processed material obtained as a result of pathological studies, the authors found that in the presence of invasive growth of a kidney tumor, the functional ability of the parenchyma decreases outside the focus.

 The established fact is the basis of the proposed method.

 The method is as follows.

A radiopharmaceutical 148-1 5 MBK _m Te-DM A is administered intravenously to the patient. After 3-5 hours, the patient is placed under the gamma camera detector of the tomograph so that both kidneys enter the field of view. Emission computed tomography is carried out in step mode with a full revolution of the detector (rotation step 6 12 ^o , exposure time 20 30 s at one position of the detector).

 At the next stage, reconstruction of the initial data is performed, as a result of which an array is created representing the volumetric distributions of the indicator in the tissues of the organ. The reconstructed image is a series of horizontal (sagittal) sections of an organ. Determine the presence of a lesion in the images and its localization.

 If there is a focus, the degree of impairment of the functional ability of the parenchyma around the volumetric formation is determined. To do this, they calculate the total number of volumetric elements and their total count in slices of the image of the diseased and counteratal kidneys.

.The values of the functioning volume (cm ³ ) of V pores and the total activity (imp) N of the _{pores of the} affected kidney and the values of the functioning volume of V _to and the total activity of N _{to the} counteratal kidney are obtained. The indicator of the ratio of the functioning volumes of the affected and the counteratal kidney K _{1 is} determined by the formula:

.

.The ratio of the specific activities of the affected and counteratal kidneys K _{2 is} also determined by the formula:

.

 The value of specific activity is equal to the total activity per unit of functioning volume.

When the value of the ratio of the functioning volumes of the diseased and the counteratal kidney K _{1 is} less than 0.65 and (or) the values of the ratio of specific activities K ₂ less than 0.75, the presence of invasive tumor growth is diagnosed.

 With the values of these indicators, respectively, more than 0.65 and (or) more than 0.75, a decrease in the functional ability of the affected kidney parenchyma is judged and the absence of invasive tumor growth is diagnosed.

 The proposed method has passed clinical trials at the Department of Clinical Radiology at the Radiological Center of RMAPO. A total of 42 patients with a kidney tumor were examined for invasive tumor growth. In 20 patients, the proposed method revealed the presence of invasive tumor growth, in 18 patients the absence of tumor invasion. 4 patients were diagnosed with a tumor.

 The result of histological examination of the surgical material showed the presence of invasive tumor growth in 22 patients, including all 20 patients examined by ECT.

 In 20 patients, the presence of invasive growth has not been established.

Thus, the accuracy of the proposed method was 90.5% sensitivity 90.9% specificity 90%
Example 1. Patient K. was admitted to the urology department of the hospital named after S.P. Botkin with complaints of paroxysmal pain in the right half of the lower back, fever, great weakness, high blood pressure 180/140 mm Hg Pasternatsky's symptom on the right is sharply positive. Excretory urography revealed no pathology. Ultrasound revealed a volumetric formation originating from the upper pole of the left kidney of the tissue structure. On planar scintigraphy focal changes were not detected. A patient underwent ECT 3 hours after intravenous injection of a radiopharmaceutical 185 MBx ⁹⁹ m- ^T with DM A with a step recording mode, with a hollow angle of rotation of the gamma camera detector 360 ^o , rotation step 6 ^o , exposure time 30 s at one position of the detector.

 After reconstruction of the initial data, a series of horizontal slices of an organ image was obtained. A threshold score of 45% was established. When analyzing sections in the coronary section, the presence of a tumor originating from the middle pole of the left kidney (CPD) was clearly established.

.The presence of invasive tumor growth was determined by assessing the degree of impaired functional ability of the affected kidney parenchyma around the volumetric formation. For this, the functioning volume and total activity of the left and right kidneys were determined. The functioning volume of the left (affected kidney) V _pore was 135 cm ³ , and the right (contra-thral) kidney was 163 cm ³ . The total activity of the left kidney (affected) was 681 thousand imp. and the right 987 thousand. The ratio of the functioning volumes of the diseased and the counteratal kidney K _{1 was} calculated by the formula:

.

.The ratio of the specific activities of the affected and counteratal kidneys K _{2 was} calculated by the formula:

.

 According to the value of the indicators, it was found that the functional ability of the parenchyma of the affected kidney around the focus is not impaired.

 The absence of invasive tumor growth was diagnosed.

 In accordance with the diagnosis, the tactics of preoperative preparation of the patient and the tactics of the operation were chosen. During the operation, data on ECT were confirmed: the tumor came from the middle pole of the left kidney and was located in its own capsule. Histological examination: light cell cancer. There is no invasion of the tumor beyond the capsule.

 Example 2. Patient N. was admitted to the Department of Urology of the S.P. Botkin Hospital with complaints of aching pain in the lumbar region.

An ultrasound revealed a volumetric formation in the right kidney. The proposed method determines the functioning volume and total activity of the left and right (affected) kidneys. The functioning volume of the right (affected) kidney was 103 cm ³ and the left (counter-kidney) 256 cm ³ .

 The total activity of the right (affected) kidney was 84 thousand imp, and the left (counter-kidney) 356 thousand imp.

.The indicator of the ratio of the functioning volumes of the diseased and counteratal kidneys was calculated by the formula:

.

.The ratio of the specific activities of the affected and counteratal kidneys was calculated by the formula:

.

 A decrease in the functional ability of the parenchyma of the affected kidney has been established. Diagnosis: the presence of invasive tumor growth.

 According to the histological examination of the surgical material, hyperpephroid cancer with invasive growth was established.

Claims (1)

 A method for diagnosing kidney tumors, including emission computed tomography with subsequent identification of the lesion and its localization, characterized in that it further determines the presence of invasive tumor growth by assessing the degree of impaired functional ability of the affected kidney parenchyma around the volumetric formation, while determining the volume and total activity of the affected and contralateral kidney, then calculate the ratio of the functioning volumes of the affected and contralateral kidneys and pok An indicator of the ratio of specific activities of the affected and contralateral kidneys and with a value of the first indicator less than 0.65 and (or) a value of the second indicator less than 0.75 judge the decrease in the functional ability of the parenchyma of the affected kidney and diagnose the presence of invasive tumor growth.