RU2320259C2 - Differential diagnosis method for diagnosing suprarenal gland tumors - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves carrying out whole-day electrocardiogram monitoring. Cardiac rhythm variability spectral analysis is carried out in general, daytime and nightly mode. Each result is estimated as scores. Generalized index N value is calculated using mathematical formula. The obtained N value is used in diagnosing malignant or benign suprarenal gland tumor.

EFFECT: enhanced effectiveness in differentiating malignant and benign suprarenal gland tumors.

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Description

The invention relates to medicine, namely to cardiology, oncology, endocrinology, surgery, and can be used for the differential diagnosis of malignant and benign tumors of the adrenal gland in patients with hypertension syndrome.

A known method for the diagnosis of malignant tumors, based on the use of aspiration diagnostic puncture with a thin needle under the control of computed tomography, ultrasound or X-ray apparatus of adrenal tumors for preoperative morphological verification (N.V. Smolyaninova. Aspiration puncture biopsy in the preoperative diagnosis of adrenal tumors. / N.V. Smolyaninova, Yu.N. Bogin, V.O. Bondarenko, V. L. Manevich, A. M. Charny, N. A. Shapiro. // Surgery. - 1985. - No. 5. - P.94-97) .

Close to the proposed is a method for the diagnosis of malignant tumors of the adrenal gland, based on a combination of histological and clinical signs, including 7 histological and 5 clinical signs of differential diagnosis of benign and malignant tumors of the adrenal cortex (Surgical endocrinology: guidance. / Ed. By A.P. Kalinin, N .A. Maistrenko, P.S. Vetsheva. - St. Petersburg: Peter, 2004. - S.604-605; V.V. Schetinin, N.A. Maistrenko, V.N. Egiev. Adrenal neoplasms (under the general ed Acad. RAMS, Prof. V.D. Fedorov). - M., Publishing House Medical Practice - M., 2002. - P.123-133).

The disadvantages of the method are:

1. Invasiveness of sampling for histological examination (biopsy, operation).

2. Difficulties in verifying the nature of the process (assessment is carried out by summing up both histological and non-histological features).

The main task to which the invention is directed is the development of a non-invasive, contraindicated, low-cost method for the differential diagnosis of malignant and benign tumors of the adrenal gland with hypertension.

The technical result, which consists in eliminating these disadvantages of the known methods, is achieved by the fact that they conduct daily monitoring of the electrocardiogram. The power values of high-frequency (HF), low-frequency (LF) and very low-frequency (VLF) wave components of the spectral analysis of heart rate variability and their ratios, expressed in points, according to the assigned codes, are used in the calculations according to the formula:

N = 1.93; X1-2.29; X2 + 0.02; X3-0.07; X4-0.88; X5 + 0.56; X6 + 0.65; X7 + 0.69; X8- 0.19 · X9-1.49 · X10-0.9 · X11 + 1.39 · X12-0.15 · X13 + 0.55 · X14 + 0.83.

If N is greater than or equal to 2, a malignant adrenal tumor is diagnosed, and when N is less than 2, a benign adrenal tumor is diagnosed.

The method is as follows. Conduct daily monitoring of the electrocardiogram. The spectral components of the variability of the 5-minute intervals of the R-R sinus rhythm - HF, LF, VLF and their ratios are assigned codes (Table 1).

Table 1 The code Indicator X1 VLF shared X2 Vlf day X3 Vlf night X4 Lf general X5 Lf day X6 Lf night X7 Hf total X8 Hf day X9 Hf night X10 VLF day / VLF night X11 LF day / LF night X12 LF day / HF day X13 LF night / HF night X14 HF day / HF night

The absolute values of all indicators are evaluated on a 5-point scale (Table 2).

table 2 The code Absolute indicator values Score X1-X3 > = 2000 5 1500-1999 four 1000-1499 3 500-999 2 <500 one X4-X6 > = 500 5 400-499 four 300-399 3 200-299 2 <200 one X7-X9 > = 200 5 150-199 four 100-149 3 50-99 2 <50 one X10-X11;
X14 <0.5 5 0.5-0.99 four 1.0-1.49 3 1,5-1,99 2 > = 2.0 one X12 > = 5.0 5 4.0-4.9 four 3.0-3.9 3 2.0-2.9 2 <2.0 one X13 <1.0 5 1.0-1.9 four 2.0-2.9 3 3.0-3.9 2 > = 4.0 one

The values of indicators, expressed in points, according to the assigned codes, are used in the calculations according to the formula:

N = 1.93; X1-2.29; X2 + 0.02; X3-0.07; X4-0.88; X5 + 0.56; X6 + 0.65; X7 + 0.69; X8- 0.19 · X9-1.49 · X10-0.9 · X11 + 1.39 · X12-0.15 · X13 + 0.55 · X14 + 0.83.

If N is greater than or equal to 2, a malignant adrenal tumor is diagnosed, and if N is less than 2, a benign adrenal tumor is diagnosed.

Examples of specific performance.

Example 1. In a patient, 37 years old, suffering from arterial hypertension for 5 years, a CT scan revealed a tumor of the right adrenal gland. The daily monitoring of the electrocardiogram was carried out with the processing of the results obtained by the proposed method. N is 4.36, which indicates that the patient has a malignant tumor of the right adrenal gland. The patient underwent adrenalectomy. Histological conclusion: low-grade cancer.

Example 2. A patient, 40 years old, suffers from an increase in blood pressure for 3 years. Ultrasound revealed a volumetric formation of 7 × 4 cm of the right adrenal gland. After daily monitoring of the electrocardiogram and processing of the results by the proposed method, N was 2.06, which is typical for a malignant tumor of the adrenal gland. Subsequently, the patient underwent computed tomography and complex angiographic examination (adrenal gland phlebography, right adrenal gland and right kidney arteriography, mesentericography, celiacography), which established signs of a malignant tumor of the right adrenal gland with invasive growth in neighboring organs.

The proposed method allows for differential diagnosis of malignant and benign tumors of the adrenal gland in patients with hypertension syndrome.

Claims (1)

A method for the differential diagnosis of adrenal tumors in patients with arterial hypertension, including daily ECG monitoring, spectral analysis, determining the power of the wave components of the heart rhythm, calculating the N indicator by the formula N = 1.93 X1-2.29 X2 + 0.02 X3-0.07 X4-0.88 X5 + 0.56 X6 + 0.65 X7 + 0.69 X8- 0.19 · X9-1.49 · X10-0.9 · X11 + 1.39 · X12-0.15 · X13 + 0.55 · X14 + 0.83, where X1 is the total power of the very low-frequency wave component spectral analysis of heart rate variability, X2 is the value of the daily power of the very low-frequency wave component spectral analysis of heart rate variability, X3 is the value of the night power of the very low-frequency wave component spectral analysis of heart rate variability, X4 is the value of the total power of the low-frequency wave component of the spectral anal because of heart rate variability, X5 is the value of the daily power of the low-frequency wave component of the spectral analysis of heart rate variability, X6 is the value of the night power of the low-frequency wave component of the spectral analysis of heart rate variability, X7 is the value of the total power of the high-frequency wave component of the spectral analysis of heart rate variability, X8 is the value daily power of the high-frequency wave component of the spectral analysis of heart rate variability, X9 - the value of night power the high-frequency wave component of the spectral analysis of heart rate variability, X10 is the ratio of the daily power value of a very low-frequency wave component of the spectral analysis of heart rate variability and the night power of the very low-frequency wave component of the spectral analysis of heart rate variability, X11 is the ratio of the daily power of the low-frequency wave component of the spectral analysis of variability heart rate and night power values of the low-frequency wave for spectral analysis of heart rate variability, X12 is the ratio of the daily power value of the low-frequency wave component of the spectral analysis of heart rate variability and the value of the daily power of the high-frequency wave component of the spectral analysis of heart rate variability, X13 is the ratio of the night power of the low-frequency wave component of the spectral analysis of heart rate variability and value the night power of the high-frequency wave component of the variab spectral analysis heart rate, X14 - the ratio of the value of the daily power of the high-frequency wave component of the spectral analysis of heart rate variability and the night power of the high-frequency wave component of the spectral analysis of heart rate variability, and the absolute values of the indicators X1-X14 are evaluated in points, while the values of the indicators X1-X3 are evaluated as follows:> = 2000 corresponds to 5 points, 1500-1999 corresponds to 4 points, 1000-1499 corresponds to 3 points, 500-999 corresponds to 2 points, <500 corresponds to 1 point; values of indicators X4-X6:> = 500 corresponds to 5 points, 400-499 corresponds to 4 points, 300-399 corresponds to 3 points, 200-299 corresponds to 2 points, <200 corresponds to 1 point; values of indicators X7-X9:> = 200 corresponds to 5 points, 150-199 corresponds to 4 points, 100-149 corresponds to 3 points, 50-99 corresponds to 2 points, <50 corresponds to 1 point; values of indicators X10-X11; X14: <0.5 corresponds to 5 points, 0.5-0.99 corresponds to 4 points, 1.0-1.49 corresponds to 3 points, 1.5-1.99 corresponds to 2 points,> = 2.0 corresponds to 1 point, the value of the indicator X12:> = 5.0 corresponds to 5 points, 4.0-4.9 corresponds to 4 points, 3.0-3.9 corresponds to 3 points, 2.0-2.9 corresponds to 2 points, <2 , 0 corresponds to 1 point; values of the indicator X13: <1.0 corresponds to 5 points, 1.0-1.9 corresponds to 4 points, 2.0-2.9 corresponds to 3 points, 3.0-3.9 corresponds to 2 points,> = 4.0 corresponds to 1 point, and with N greater than or equal to 2, a malignant tumor of the adrenal gland is diagnosed, and with N less than 2, a benign tumor of the adrenal gland is diagnosed.