RU2471422C1 - Method of estimating efficiency of organ-preserving treatment of uveal melanoma - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention relates to ophthalmology and is intended for estimation of efficiency of organ-preserving treatment of uveal melanoma. Ultrasound examination is performed. Acoustic density and state of vascular network of prominent focus are additionally assessed by means of high-frequency duplex scanning. In case of determining that indices of acoustic density in uveal melanoma tissue are higher than 110 conditional units, colour cartograms of flow in tumour are absent and focus dimensions are reduced, organ-preserving treatment is estimated as efficient.

EFFECT: method makes it possible to estimate efficiency of performed local therapy of uveal melanoma and determine further tactics of patient management.

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Description

The present invention relates to ophthalmology and is intended to assess the effectiveness of organ-preserving treatment of uveal melanoma.

Evaluation of the effectiveness of local treatment of uveal melanoma is one of the most difficult tasks of modern ophthalmology and is extremely important for practical ophthalmology. It is based on data from a comprehensive clinical and instrumental study of patients at various stages after therapy. Despite the high therapeutic efficacy of organ-preserving treatment methods, in some cases it is not possible to achieve complete regression of the tumor focus and often the clinician is faced with the question of determining the nature of the “residual” lesion — tumor tissue or hyperplasia of retinal pigment epithelium with cicatricial changes in the eye membranes. It is the correct determination of the nature of the residual focus that will determine the further tactics of maintaining these patients - to conduct a second stage of treatment or dynamic monitoring. Clinical diagnosis consists in a thorough examination of the fundus with its mandatory photographic registration. Clinical signs of the effectiveness of local treatment of uveal melanoma are a visual assessment of changes in the size of the lesion, the appearance of chorio-retinal cicatricial changes around the lesion, followed by the formation of a flat chorioretinal scar in place of the tumor tissue. Despite the high significance of the clinical picture in assessing the effectiveness of organ-preserving treatment, it may not always be sufficiently informative, due to the development of a number of secondary changes that impede the thorough visualization of the fundus. In this regard, the importance of instrumental research methods, allowing to obtain additional information about the state of the intraocular tumor, is increasing.

The closest analogue of the present invention is a method of the same purpose, including two-dimensional seroscale ultrasound imaging (B-method) (Friedman F.E., Fishkin Yu.G., Brovkina AF // Ultrasound diagnosis of intraocular tumors. A manual for doctors. M. , 1996, 17 pp.).

The method is characterized by non-invasiveness, high information content, painlessness, does not require special preparation of patients, allows multiple studies by a patient of any age without fear of complications. The method has high diagnostic value with insufficient transparency of the optical media of the eye and is the only objective method for assessing the condition of the fundus when ophthalmoscopic imaging is impossible. Using this method, it is possible to determine a tumor with a prominence of up to 1 mm. To evaluate the effectiveness of the organ-preserving treatment, it is necessary to evaluate the following echographic signs: the size of the tumor (its size and diameter of the base), its shape, prevalence in the fundus, the relationship to the structures of the eye (in particular, the optic nerve head), the condition of the membranes of the eye (presence or the absence of secondary retinal detachment, the condition of the underlying sclera - thinning, defect, the formation of an extrabulbar node), a visual assessment of the structure of the tumor. However, despite the high diagnostic indicator, the method is not absolute and does not allow to judge the state of tumor tissue. In particular, it does not allow a quantitative characterization of the acoustic density of the tumor tissue, nor does it allow one to judge the state of its own hemodynamics. At the same time, it is known that adequate vascularization is a prerequisite for the development and activity of a tumor, which can be determined and evaluated using modern ultrasound systems, and, therefore, can be considered as one of the criteria for an active tumor process. Evaluation of these indicators is extremely important both for the initial diagnosis of uveal melanoma (in its differential diagnosis with other intraocular tumors), and in the process of monitoring this group of patients.

High-resolution ultrasonography of the eye, including various scanning modes (two-dimensional seroscale ultrasound imaging and Doppler modes), significantly expands the amount of non-invasively obtained information about the state of the tumor focus and surrounding tissues.

The task of the invention is to improve the ultrasonic method for evaluating the effectiveness of organ-preserving treatment of uveal melanoma.

The technical result of the invention is the ability to determine the nature of the residual tumor tissue and the determination of further management tactics for patients of this profile.

The technical result is achieved by combining the evaluation of the results of high-frequency duplex scanning with densitometric analysis based on tissue histograms and color flow charts, as well as spectral Doppler characteristics of the blood flow in the promising focus.

The method consists in conducting ultrasound using high-frequency (15-17 MHz) two-dimensional gray-scaled scanning (B-method) in combination with Doppler ultrasound modes - color Doppler coding of streams (CDC) and spectral Doppler analysis of flows, allowing real-time non-invasive way using color overlay on a two-dimensional image, obtain a color cartogram of flows in the studied area (ultrasonic angioarchitectonics), that is, in the area of tumor prominence.

The proposed method for evaluating the effectiveness of treatment of uveal melanoma, in contrast to conventional two-dimensional scanning, is characterized by the use of linear-format ultrasonic sensors with a higher scanning frequency, which significantly improves the quality of image visualization. On the ultrasound scan, an image is formed in the form of a slice of the eyeball and optic nerve. This image quality allows you to visualize all the structures of the eye at one time in real time and, therefore, give a “clear” tumor topometry. In this aspect, the method is comparable to computed tomography.

When evaluating a tumor site using tissue histograms based on densitometric characteristics, it is possible to determine the acoustic density of various sections of uveal melanoma. When identifying indicators of acoustic tissue density of more than 110 srvc. units more data for inactive residual tumor tissue.

We conducted studies in which, in addition to assessing densitometric characteristics and the presence of their own vasculature, the effectiveness of organ-preserving treatment was clinically evaluated (the condition of the fundus was evaluated) - the presence of cicatricial changes around the tumor site, the presence of signs of fragmentation, and also using two-dimensional ultrasound reduction of the size of the focus (prominence and diameter of the base). In a number of cases (with transparency of the optical media of the eye, with central location of the tumor and in the absence of contraindications to the study), fluorescence angiography was performed, which also made it possible to assess the residual focus by the degree and nature of its fluorescence. After all this, densitometric analysis and color Doppler coding of the tumor were performed. Comparative studies have revealed the boundary indicators of tissue acoustic density (110 conventional units), which characterize inactive residual tumor tissue.

When scanning in the CDK mode, a qualitative assessment of the vascular network of the uveal melanoma is possible. By the nature of vascularization, uveal melanoma can be echographically avascular, hypovascular (single color cartograms of flows in the projection of the tumor) and hypervascular (multiple color cartograms of flows in the projection of the tumor).

In the spectral Doppler analysis mode, the Doppler blood flow characteristics were recorded in the vessels of the residual after local treatment of uveal melanoma.

The method is as follows.

The study is carried out in standardized conditions: in the patient's supine position, in a state of complete relaxation. The duration of the study is from 5 to 10 minutes.

The study can be carried out, for example, on a multifunction ultrasound scanner Voluson 730 Pro (Kretz, Austria) using multi-frequency linear format sensors with a scanning frequency of 15-17 MHz. The sensor is installed perpendicular to the closed eyelids through a gel pad. As a gel, use a conventional gel for ultrasound studies.

The study begins with a survey sonography in the mode of two-dimensional seroscale ultrasound imaging (B-method). Determine, as is customary, the presence of tumor tissue, evaluate its shape, structure (homogeneous, heterogeneous), determine the localization on the fundus, the size of the tumor (prominence and diameter of the base), the presence of secondary retinal detachment and its severity, the state of the vitreous body (destruction hemophthalmus). Further, based on densitometric indices, using the seroscale histograms with simultaneous two-dimensional visualization of the lesion, the acoustic density of uveal melanoma in various regions of the lesion is determined (as a rule, three separate tumor regions were considered).

The method allows to obtain a picture of the angioarchitectonics of the studied area (according to color cartograms of flows), that is, to obtain a qualitative characteristic of blood flow in the survey window. When revealing color cartograms of flows in the CDC mode, one can think about the residual (living) tumor tissue.

All obtained data was archived on the hard disk of an ultrasound scanner for comparative evaluation at the next examinations. High densitometric parameters of the tumor (more than 110 conventional units), the absence of signs of its own vascularization (avsacular tumors) simultaneously with a decrease in the size of the lesion after organ-preserving treatment and cicatricial changes in the fundus indicate the effectiveness of the treatment and such patients need only dynamic observation .

Clinical example 1. A patient 51 years old, two years ago received organ-preserving treatment (brachytherapy) in the department of ophthalmology and radiology of the Moscow Research Institute of GB named after Helmholtz about uveal melanoma. The initial dimensions of the formation: the prominence is 5.7 mm, the maximum diameter of the base is 15.2 mm. The next two years, the patient was under dynamic observation in the clinic of the institute. The first 1.5 years showed a decrease in tumor prominence to 2.1 mm and base diameter to 8.9 mm, the formation of cicatricial changes in the fundus. The last six months, the size of the focus without dynamics. The patient underwent a comprehensive high-frequency ultrasound examination with densitometric analysis and color Doppler coding of flows. Acoustically homogeneous tissue with densitometric indices of 115-135 conv. units, which indicated the presence of cicatricial changes in the focus, and therefore, the assessment of organ-preserving treatment as effective in combination with the fact that in the CDC regime it was not possible to identify signs of its own neovascular network, i.e. the tumor was echographically avascular.

Based on a comprehensive clinical and instrumental examination, dynamic observation is recommended for the patient.

Clinical example 2. A patient 49 years old, 1 year and 10 months ago received organ-preserving treatment (brachytherapy) in the department of ophthalmology and radiology of the Moscow Research Institute of GB named after Helmholtz about uveal melanoma. The initial dimensions of the formation: 4.9 mm prominence, maximum base diameter 14.8 mm. After treatment, the patient was observed at the institute. Positive dynamics was noted in the form of a decrease in the size of the tumor 2.2 mm and the diameter of the base to 7.6 mm, the formation of cicatricial changes in the fundus. The last six months, the size of the focus without dynamics. The patient underwent a comprehensive high-frequency ultrasound examination with densitometric analysis and color Doppler coding of flows. Acoustically heterogeneous tissue with densitometric indices of 68-87 conv. units, which testified to a more "friable" tissue, with no signs of scarring in it. In the CDC mode, it was possible to identify single color cartograms of the flows of one's own vasculature (hypovascular tumor) with a maximum linear systolic blood flow velocity of 5 cm / s in them. Based on a comprehensive clinical and instrumental examination, the patient recommended a second stage of organ-preserving treatment - transpupillary thermotherapy of residual tumor tissue, since treatment cannot be characterized as quite effective. Thus, the proposed method allows to clarify the nature of the residual tumor tissue and to determine the further tactics of management of patients of this profile.

Claims (1)

A method for evaluating the effectiveness of organ-preserving treatment of uveal melanoma by ultrasound, characterized in that the echography is performed by means of a high-frequency two-dimensional gray-scaled scan with a scanning frequency of 15-17 MHz, the acoustic density and condition of the vasculature of the prophylactic focus are additionally evaluated using high-frequency duplex scanning and when detecting acoustic parameters density more than 110 srvc units, the absence of color cartograms of flows and a decrease in tumor size evaluate organ-preserving treatment as effective.