RU2266710C2 - Ultrasonic diagnosis method for diagnosing extravasal compression of vertebral artery in its canal - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: method involves examining artery in power dopplerography mode using anterolateral horizontal paratracheal access method at the level of vertebral disk. The vertebral artery in the vertebral canal and uncovertebral junction are visualized in one plane. Marginal uncovertebral junction calcinate with compressing extravasal action zone being available, extravasal vertebral artery compression is to be diagnosed.

EFFECT: high accuracy of diagnosis.

3 dwg

Description

The invention relates to medicine, in particular to methods of radiation imaging of the vertebral artery and adjacent motor segments of the cervical spine.

According to published data, the main causes of extravasal compression of the vertebral artery at the level of its canal in the cervical spine are instability of the intervertebral motor segments and compression of the artery at the level of the unco-vertebral joints by osteophytes of the lunate processes of the vertebral bodies (see: Popelyansky Y. Yu. Of the peripheral nervous system. M: Medicine, 1989; Schmidt I.R. Vertebrogenic syndrome of the vertebral artery. Novosibirsk: Publisher, 2001). Diagnosis in the second case is based on simultaneous radiation imaging of the artery and the adjacent intervertebral motor segment with unco-vertebral articulation. A number of methods are known for visualizing the vertebral artery and adjacent segments of the cervical spine, the main of which are X-ray selective angiography and magnetic resonance angiography.

X-ray selective angiography (Grishin I.N., Savchenko A.N. Clinical angiology and angiosurgery. Minsk, Medicine, 1981) allows you to get an image of the vertebral arteries when water-soluble contrast x-ray positive drugs are introduced into the bloodstream. The resulting image of the vertebral arteries is an intravital structural analogue of the internal vascular lumen throughout its entire length. At the same time, adjacent bone structures are visualized and the level and severity of the conflict between them and the vertebral artery can be estimated.

The use of this method in the diagnosis of various lesions of the vertebral arteries has the following disadvantages:

- Radiation dose to the patient.

- The need for a complex invasive procedure for introducing a contrast medium into a selective section of the vascular bed.

- The danger of severe complications associated with the introduction and intolerance of a contrast agent.

- The inability to directly assess the state of soft tissue structural elements of the vascular wall and adjacent extravasal soft tissue structures.

- The inability to conduct research in real time with the observation of the state of blood flow at the moments of motor activity in the studied anatomical region.

The physical quantum phenomenon of nuclear magnetic resonance, which is the basis of the MRI method, allows you to obtain diagnostic images of tissues saturated with water, so the main objects of its application in the study of the spine are soft tissue structures - intervertebral discs, epidural tissue, membranes, spinal nerves and the substance of the spinal cord itself, cerebrospinal fluid spaces, as well as soft tissues surrounding the spine (see: Kholin A.V., Makarov A.Yu., Mazurkevich E.A. Magnetic resonance imaging of the spine and dorsal brain, St. Petersburg, 1995). A specific type of MRI is magnetic resonance angiography (MRA), which is based on the selective detection of resonant signals from moving fluids, such as blood. MRA allows one to obtain clear images of blood vessels, evaluate their course and diameter, and other characteristics similar to those evaluated by selective x-ray angiography. Moreover, the method does not require the use of additional contrasting and related invasive procedures, allows you to get a restored three-dimensional image of any part of the vascular bed in the selected anatomical zone.

The use of this method in the diagnosis of lesions of the vertebral arteries is associated with a number of disadvantages:

- Low bandwidth.

- The high cost of research.

- The patient’s room in a geometrically enclosed space.

- The method is contraindicated for patients with implanted metal clips and prostheses, pacemakers and metal foreign bodies.

- Impossibility of dynamic research in real time.

The closest in technical essence, the achieved effect and selected as a prototype is a method of ultrasound dopplerography of the vertebral artery in its channel (see: Lelyuk V.G., Lelyuk S.E. Ultrasound angiology. M .: Realnoe Vremya, 1999). Doppler ultrasound is based on the physical phenomenon of a change in the wavelength of an ultrasonic signal reflected from a moving object, the degree of change in the wavelength in this case depends on the speed of the located object (for example, moving along the vascular bed of blood). A type of Doppler ultrasound is the scanning method in the color or energy mapping mode, in which, to obtain a better image of the vessel, the speed or kinetic energy of the stream is encoded on the monitor screen in various colors and shades, allowing you to evaluate the direction and nature of the stream, to clarify the course of the vessel.

The method allows real-time to obtain clear images of the vertebral artery, and the use of data on the change in the length of the reflected ultrasonic waves with subsequent computer processing allows you to obtain information not only about the direction, but also about the speed of blood flow, the presence and magnitude of peripheral vascular resistance. The method is not related to the need for invasive procedures for additional contrasting, with a radiation dose to the patient. The use of antero-lateral paravertebral access for ultrasound dopplerography of the vertebral arteries makes it possible to evaluate their size, configuration, and blood flow characteristics along them within the uteri, limited by the cranial and caudal transverse processes of adjacent vertebrae of the cervical spine.

The disadvantages of Doppler ultrasound are:

- The inability to simultaneously visualize from the anterolateral paravertebral access of the artery and the anterior elements of the intervertebral motor segment, in particular the unco-vertebral joints, which are of the greatest interest from the point of view of the causes of vessel compression.

- A high degree of reflection of sound waves of the most commonly used range from bone structures, making it difficult or impossible to make a detailed examination of the entire affected area in relation to the anatomy of the canals of the vertebral arteries.

The objective of the present invention is to develop a method for visualizing vertebral arteries using a new anterolateral horizontal paratracheal access, which allows using the energy Doppler ultrasound mode to simultaneously visualize the vertebral artery, intervertebral disc, unco-vertebral joint and spinal canal with an assessment of the immediate cause and level of vessel compression.

The technical result of this invention is the ability to improve the quality of diagnosis of extravasal compression of the vertebral artery in its paravertebral canal using a widely available, non-invasive, dose-free ultrasound method.

This task is realized due to the fact that in the known method for ultrasonic diagnosis of extravasal compression of the vertebral artery in its channel according to the invention, the artery is examined in the energy Doppler mode from the anterolateral horizontal paratracheal access at the level of the intervertebral disc in such a way that the vertebral artery is visualized in one plane bone canal, unco-vertebral joint, intervertebral disc and spinal canal.

The method is reproducible, non-invasive, not associated with radiation dose, which allows multiple reuse.

Studies on patents and scientific and technical sources of information showed that the proposed method is unknown and does not follow explicitly from the studied prior art, that is, meets the criteria of "novelty" and "inventive step".

The proposed method can be applied in any medical institution equipped with an ultrasonic diagnostic scanner operating in B-mode and in real-time color Doppler energy mode, with an integrated processor that allows you to determine the size of the visualized objects. Therefore, the method is “practically applicable”.

The claimed method is as follows.

The study is carried out on an ultrasonic diagnostic scanner operating in B-mode and in real-time color Doppler energy mode with an integrated processor that allows you to determine the size of the visualized objects, the most effective sensors with a small working surface of convex or phased type with operating frequencies of ultrasonic and Doppler analyzers lying in the range of 5.0-6.5 MHz.

The study does not require specialized measures for the preparation of the patient.

The study is performed in the patient's position, "lying" on his back on the couch. After applying an acoustically transparent gel to the surface of the skin of the neck, the ultrasound device sensor is initially installed on the anterolateral surface of the neck sagittally paratracheally until an image of the shadows of the cervical vertebrae and intervertebral discs located between them is obtained. The anatomical landmark is the body of the 7th cervical vertebra, which is the lowest located of the available for visualization. Then the scanning plane is successively at the level of each disk is changed to horizontal so that it coincides with the plane of the location of the intervertebral disk at a selected level. At the same time, the visualization of the area of the location of the vertebral artery adjacent to the sensor is carried out using the energy Doppler mapping mode. Next, the image is captured and analyzed. The study is performed on both sides of the trachea in series.

In the horizontal image obtained, the intervertebral discs are defined as oval forms of formation of medium or reduced echogenicity, limited in the lateral sections by the continuous contours of the protruding semilunar processes. In this case, the protruding front edge of the lunate process is clearly visualized. Laterally to the images of the unco-vertebral joints, directly adjacent to them, the images of the vertebral arteries are determined as areas of dark orange staining in the mode of color Doppler energy. The size of the vertebral arteries, the direction of the arteries at the level of the disk (vertical, oblique or horizontal, caused by deformation), the color intensity that determines the speed characteristics of the blood flow and its symmetry, as well as the distance between the artery wall and the anterior edge of the lunate process forming the unco-vertebral joint are evaluated In addition, the anatomical shape and dimensions of the lunate processes are evaluated. At the same time, the condition of the intervertebral disc, the size and shape of the spinal canal at its level, visualized in the form of anechogenic space behind the disc, are assessed from this access, which allows to identify the presence and assess the severity of the degenerative-dystrophic process underlying the development of unco-vertebral arthrosis and extravasal compression vertebral artery.

Clinical Examples

Example No. 1 (figure 1).

Patient G., 47 years old. Clinical diagnosis: Osteochondrosis of the cervical spine. Ultrasound scanning was performed by a linear transducer with a frequency of 7 MHz using the color coding mode of Doppler energy in the axial plane by anterolateral horizontal paratracheal access at the level of the intervertebral disc C _V-VI . The ultrasonogram shows the absence of signs of the presence of vertebrogenic extravasal compressive elements in the area of the visualized area of the left vertebral artery. Designations: 1 - intervertebral disc; 2 - spinal canal; 3 - lateral margin of the left unco-vertebral articulation; 4 - vertebral artery.

Example No. 2 (figure 2).

Patient L., 42 years old. Clinical diagnosis: Osteochondrosis of the cervical spine, vertebro-basilar insufficiency syndrome. Ultrasound scanning was performed by a linear probe with a frequency of 7 MHz using the color coding mode of Doppler energy in the axial plane of the anterolateral horizontal paratracheal access at the level of the intervertebral disc C _IV-V . The ultrasonogram shows the presence of marginal calcifications of the left unco-vertebral joint in segment C _IV-V and their direct compressive effect on the adjacent sector of the wall of the left vertebral artery. Designations: 1 - intervertebral disc; 2 - spinal canal; 3 - marginal calcification of the unco-vertebral articulation; 4-vertebral artery; 5 - zone of compressing extravasal exposure.

Example No. 3 (figure 3).

Patient E., 37 years old. Clinical diagnosis: Osteochondrosis of the cervical spine. Ultrasound scanning was performed by a linear transducer with a frequency of 7 MHz using the color coding mode of Doppler energy in the axial plane by anterolateral horizontal paratracheal access at the level of the intervertebral disc C _V-VI . The ultrasonogram shows the presence of marginal calcifications in the lateral region of the left unco-vertebral joint of the intervertebral segment C _V-VI with a compressive effect on the adjacent sector of the left vertebral artery. Designations: 1 - intervertebral disc; 2 - spinal canal; 3 - marginal calcifications of the unco-vertebral articulation; 4 - vertebral artery; 5 - zone extravasal compressive effects.

Claims (1)

A method for ultrasonic diagnosis of extravasal compression of the vertebral artery in its channel, characterized in that the artery is examined in the energy dopplerography mode from the anterolateral horizontal paratracheal access at the level of the intervertebral disc in such a way that the vertebral artery in the bony canal and the uncovertebral joint are visualized in one plane, and in the presence of marginal calcification of the unvertebral articulation with the zone of compressing extravasal exposure, extravasal is diagnosed compression of the vertebral artery.

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