RU2297185C2 - Method for differential diagnostics of orbital neoplasms of different histogenesis - Google Patents

Abstract

FIELD: medicine, ultrasound diagnostics.

SUBSTANCE: one should determine an echostructure, size and localization of neoplasms in retrobulbar space at applying ultrasound dopplerographic techniques. Moreover, it is important to register the quantity of pathological newly-formed vessels in the neoplasm to calculate the index of vascularization (IV) according to the following formula: IV = N_chr.l./S_tum. X 100%, where N_chr.l. - the quantity of chromatic loci in tumor tissue; S_tum. - the tumor's ultrasound sectional area. At IV being 50%, not more one should diagnose malignant neoplasms, and at IV being 100% - capillary orbital hemangioma should be state upon. The innovation widens the number of preparations for predicting orbital neoplasms.

EFFECT: higher accuracy and efficiency of diagnostics.

Description

The invention relates to medicine, in particular to ultrasound diagnostics, can be used in the complex diagnosis of neoplasms of the orbit and is intended to provide differential diagnosis of neoplasms of the orbit of various histogenesis.

To diagnose orbit neoplasms and study vascularization, radiation methods are used: computed, magnetic resonance and positron emission tomography with contrast. However, the complexity of operation, the high cost of the examination, high radiation loads, specific contraindications that are available limit the use of these methods (Dolmatova I.A. Importance of computed and magnetic resonance imaging in the differential diagnosis of orbital neoplasms. Collection of scientific articles and abstracts based on scientific and practical materials. Conf., dedicated to the 60th anniversary of RAMS. - M., 2004. - P. 49-52 .; Dolgushin BI, Labetskiy II, Kochergina NV Radiation diagnosis of malignant tumors at the present stage. Academy of Medical sciences. - 2001. - No. 9. - S.56-61).

A known method for the differential diagnosis of neoplasms of the orbit using Doppler technology (RU No. 2213594 A61N 7/00 from 10.10.2003), taken as a prototype.

The method is based on dopplerographic studies: first a live-scaled ultrasonic scanning was performed to determine the echo structure, size and localization of the orbit formation. Then, in the modes of energy Doppler mapping, the presence and nature of neoplasm vascularization was visually assessed. When a vascular network was detected using pulsed Doppler ultrasound, arterial blood flow was recorded as a Doppler frequency shift curve. The authors determined the characteristic features of intratumoral hemodynamics: high rates of hemodynamic resistance of blood flow and a decrease in diastolic velocity are characteristic for pseudotumors; for hemangiomas - an increase in speed indicators and a decrease in hemodynamic resistance indices; for malignant neoplasms, there is a tendency to increase speed parameters with reduced resistance to blood flow.

However, the authors studied the nature of blood flow in the vessels of neoplasms only with the determination of quantitative hemodynamic characteristics. They found that both malignant neoplasms and benign processes, for example, capillary hemangiomas, are characterized by high rates of systolic velocity and low parameters of resistance and pulsation indices. And also in a number of cases, the authors noted that it is not always possible to determine the quantitative parameters of the intratumoral blood flow. Only an analysis of the quantitative characteristics of hemodynamics does not allow differential diagnosis of this pathology. The authors have not studied the features of angioarchitectonics, namely the number (density) of pathological vessels in the tumor tissue.

We set the task - to increase the efficiency of non-invasive diagnosis of orbital neoplasms, reduce radiation exposure to the patient and differentiate benign vascular tumors (in particular, capillary hemangiomas) from malignant orbital tumors of similar localization.

To solve this problem, a method for differential diagnosis of orbital neoplasms is proposed, which includes determining the echostructure, size and localization of neoplasms of the retrobulbar space using ultrasonic Dopplerographic technologies, characterized in that the number of pathological neoplasms in the neoplasm is recorded and the vascularization index is calculated by the formula:

Vascularization index = N _col.l / S _op × 100%;

where N _tsvl - the number of pathological newly formed vessels in the tumor tissue;

S _op - the area of the ultrasound section of the tumor;

and with a vascularization index not exceeding 50%, a malignant neoplasm is diagnosed, and with a vascularization index of 100%, capillary orbital hemangioma is diagnosed.

The proposed method allows for non-invasive differential diagnosis of malignant neoplasms from capillary hemangioma of the orbit, thereby contributing to increased diagnostic efficiency.

The method is as follows.

Diagnostics is carried out using multifunctional ultrasound systems having various combinations of modes and equipped with a color Doppler module. The transpalpebral method of scanning retrobulbar space using an electronic linear sensor with an operating frequency of 5.0-7.5 MHz is used.

The study is carried out in the following sequence:

- first, a seroscale live ultrasound scan is performed to determine the echostructure, size and localization of the orbit formation.

Then, in the regimes of energy or color Doppler mapping in order to assess vascularization of a tumor in orbit, a vascular pattern inside the pathological tissue is studied. The study of angioarchitectonics of pathological structures begins with an assessment of the localization and counting of pathological blood vessels. Since several small vessels with multidirectional blood flow can simultaneously enter the test volume, when describing color Dopplerograms, the term “color locus” (CL) is used. According to the nature of the distribution of blood vessels in the tumor, central, peripheral and mixed (diffuse) types of localization of CL are distinguished. According to the degree of vascularization, tumors are divided into four groups: 1) avascular - absence of CL, 2) with moderate vascularization - not more than 3 CL, 3) with moderate vascularization - 3-5 CL, 4) with severe vascularization - more than 5 CL (multiple) .

Count the number of color loci and the area of the longitudinal section of the tumor and calculate the vascularization index by the formula: vascularization index = N _col.L / S _op × 100%.

When studying in the energy Doppler mode, the following was revealed: with capillary hemangioma, the diffuse arrangement of multiple color loci was visualized. The vascularization index was 100%. In malignant neoplasms, no more than 5 color loci were found on the longitudinal section of the tumor. The vascularization index did not exceed 50%.

We conducted an ultrasound study of the proposed method in 45 patients with orbital neoplasm. The results of ultrasound diagnostics were compared with the data of morphological studies. 25 cases were represented by capillary hemangioma, and 20 - malignant neoplasms of the orbit.

In all cases, with seroscale ultrasound scanning, neoplasms of various localization, contours, and sizes were determined in the orbit. The area of the longitudinal section of the tumor varied from 10 mm ² to 20 mm ² . The number of pathological color loci ranged from 3 to multiple. The vascularization index ranged from 30 to 100%.

Of the 25 cases of capillary hemangioma in 23 (92%), multiple color loci were detected, in 2 - single pathological vascular neoplasms were recorded. In 20 patients with malignant neoplasm of the orbit - in 10 cases - CL was visualized in the amount of 5, in 5 cases - 1 CL, 3 cases - 3 CL, in 2 cases - the absence of CL. The effectiveness of the method for capillary hemangioma was 92%, and for malignant neoplasms of the orbit - 90%. The proposed method for the differential diagnosis of neoplasms of the orbit of various histogenesis is correct for capillary hemangiomas in 23 of 25 patients, in 18 of 20 for malignant neoplasms, which was reliable in 92 and 90%, respectively.

Thus, the application of the proposed method improves the diagnosis of neoplasms of the orbit and non-invasive differentiation depending on the morphological substrate and improves the efficiency of the diagnostic process for this pathology.

Claims (1)

A method for the differential diagnosis of neoplasms of the orbit of various histogenesis, including determining the echostructure, size and localization of tumors of the retrobulbar space using ultrasonic Dopplerographic technologies, characterized in that the number of pathological newly formed vessels in the tumor is recorded and the vascularization index is calculated by the formula: vascularization index = N _col.l / S _op · 100%, where N _tsvl - the number of pathological neoplasms in the tumor tissue; S _op - the area of the ultrasonic section of the tumor, and with a vascularization index not exceeding 50%, a malignant neoplasm is diagnosed, and with a vascularization index of 100%, capillary orbital hemangioma is diagnosed.