RU2693819C1 - Method and device for determining ischemic brain condition - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: group of inventions refers to medical equipment, namely to means of functional diagnostics, neurosurgery and neurology, and can be used for calculation of blood flow velocity in vessels. Method for determining ischemic brain condition involves Doppler sonography of blood circulation, in which blood velocity and direction is measured on contralateral extra-intracranial peri-orbital cerebral arterial anastomoses by locating vessels at an angle with ultrasound transducers, taking into account anatomical features of the vascular arrangement, comparison of measured velocity and direction of blood flow in right anastomosis with measured rate and direction of blood flow in left anastomosis and with the norm, and if rates and directions of blood flow differ in right and left anastomoses and do not correspond to general norm or personal norm in specific patient, diagnosed presence of ischemia signs cerebrum, wherein velocity and direction of blood flow is measured at the level of angular and supra-block arteries passing near each orbit by locating the vessel at angle of 30–40°, and ultrasonic sensors-emitters are installed in a given position by means of fasteners located on the carrying element in the form of a holder for glasses and configured to adjust the position of sensors at the level of angular and supra-block arteries taking into account a personal patient. Brain ischemic condition determining device comprises two ultrasonic sensors-radiators with a measuring unit operating in Doppler mode, mounted on a carrying element, made in the form of a spectacle holder, electronic unit configured to measure the speed and direction of blood flow and including a signal generation circuit, a signal processing circuit, a signal transmission device and a display device, wherein the ultrasonic sensors-emitters are equipped with fixtures located on the bearing element, made with possibility of changing the position of radiating sensors for the angular and supra-block arteries taking into account a personal patient.

EFFECT: use of inventions enables reducing the duration of the study, providing more accurate diagnosis of the disease and providing mobility of measurements and diagnostics.

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Description

The invention relates to the field of medicine, namely to functional diagnostics, neurosurgery and neurology, and can be used to calculate the blood flow velocity in the vessels, using the Doppler method.

All over the world, cardiovascular diseases occupy leading positions in the structure of mortality from diseases. A significant proportion of these diseases is cerebrovascular disease, leading to cerebral infarctions with clinical manifestations of a neurological deficit - stroke. The urgency of this problem is also associated with an increase in the number of cases among people of middle and young (working) age and a high percentage of cases of disability after a stroke.

Of particular clinical interest is the so-called excesses and pathological tortuosity of vessels arising from prolonged arterial hypertension, hemodynamic overloads, occupational factors and age-related changes. Changes affect all layers of the vascular wall, but primarily the internal elastic membrane. The diameter of the lumen of the vessel in the area of kinks decreases to a complete overlap at the time of lowering blood pressure or changing the position of the head, for example during a night's sleep. Of these, the greatest importance when closing the internal carotid artery is attached to a direct extra-intracranial anastomosis at the level of the branches of the orbital artery with the branches of the external carotid artery in the projection of the upper medial angle of the orbit, the back of the nose and the forehead area. Super Block Artery, a. supratrochlearis, one of the terminal branches of the ophthalmic artery, is located medially from the supraorbital artery. It goes around the supraorbital rim and, moving upward, provides blood to the skin of the medial regions of the forehead and muscles. Its branches anastomose with the branches of the same side artery of the opposite side. Dorsal artery of the nose, a. dorsalisnasi, as well as the supra-block artery, is the terminal branch of the ophthalmic artery. Sent anteriorly, lying over the medial ligament of the eyelid, gives a branch to the lacrimal sac and goes back to the nose. Here it connects with the angular artery (branch a. Facialis), thus forming an anastomosis between the systems of the internal and external carotid arteries.

There is a method for determining the violation of the blood supply to the head, in which differential rheograms are recorded from the neck, chest and arms. Measure their amplitude-time characteristics. Calculate the volume of blood flow to the head as the difference between the volumes of blood flow in the areas of the chest-neck and chest-arms. Register envelope rheogram on the chest-neck. The amplitudes of its venous systolic and main waves are measured. Calculate their ratio. Ultrasonic dopplerogram of blood flow through the right atrioventricular orifice of the heart is recorded (RU # 2159075, IPC А61В 5/05 (2000.01).

The disadvantages of this method are: despite the simplicity and wide availability of the known method, the mutual influence of the current-carrying and current-sensing electrodes closely located to each other, as well as the shunting effect of brain fluid and hair on the head strongly affect the measurement accuracy of the base and variable impedances and thereby the final results . The method does not allow to evaluate the mechanism of possible stagnation of blood in the head, i.e. conduct a differential diagnosis between blood stasis in the head, due to regional vascular factors, and impaired diastolic function of the right heart.

There is a method of measuring blood flow velocity and a device for its implementation, in which the method of measuring blood flow velocity is carried out by ultrasonic Doppler echocardiography of the blood flow in a selected area of the cardiovascular system, determining the projections of the blood flow velocity vector and calculating the speed of blood flow in a selected area does not less than three non-coplanar probe ultrasound beams mounted at angles with respect to the chosen cardiovascular region systems in the range from 0 to ± 80 °, measure the angles of orientation of the selected section of the blood flow relative to the probing ultrasound beams and the Doppler frequency shifts for each measurement channel and calculate the blood flow velocity. RU 2246896, IPC А61В 5/026 (2000.01) А61В 8/06 (2000.01).

The disadvantages of the method are the low accuracy of determining the longitudinal component of the blood flow velocity (due to the occurrence of methodological measurement errors - up to tens of percent), the low accuracy of determining the transverse components of the blood flow velocity (in perpendicular directions relative to the probe ultrasound beam) due to large errors in determining the ultrasonic width. the beam, as well as the limited scope of the proposed method (prototype) modes of laminar fluid flow. In particular, the last drawback of the prototype will not allow it to be used for those areas of the CAS, where the blood flow is turbulent (aorta, arteries, arterioles, veins and venules) rather than laminar (capillaries). The method has a narrow scope and is limited in practice by the mode of fluid flow.

The closest technical solution is adopted for the prototype method for the diagnosis of ischemic lesions of the organ of vision (RU 2152172, IPC AV 8/06 (2000.01)).

The method relates to medicine, in particular to ophthalmology. Doppler ultrasound of the orbital artery of both eyes is performed. Peak systolic and mean blood flow rates, resistance index and pulse index are evaluated. Compare these figures with the norm. With asymmetry of peak systolic and average velocities, a 40-50% decrease in the pulse index and an increase in the resistance index in one of the eyes diagnose circulatory disorders in that eye. The method allows non-invasive assessment of the state of the blood flow and the vascular wall of the orbital artery.

The disadvantage of this method of diagnosis is a significant duration of the study due to the fact that the examination of the blood stream is subjected to multiple vessels, which is carried out in several stages, on the other hand, this method does not provide for the determination of the state of the walls of blood vessels, which significantly reduces the accuracy of diagnosis of the disease, as well as the method does not allow to determine the ischemic state of the brain.

The present invention is to reduce the duration of the study, improving the accuracy of diagnosis of the disease and ensuring the mobility of measurements and diagnostics.

The technical result is a reduction in the duration of the study, improving the accuracy of diagnosis of the disease and ensuring the mobility of measurements and diagnostics.

The task is achieved due to the fact that in the method of determining the ischemic state of the brain, including the study of blood circulation using a portable Doppler method, the measurement of the velocity and direction of blood flow is carried out on the contralateral extra-intracranial perorbital arterial anastomosis of the brain at the level of the angular and supra-arteries anastomosis), passing around each orbit, by locating the vessel at an angle of 30 ° -40 °, taking into account the anatomical features of the vessel measurements, the measurement being performed using a device that allows positioning ultrasonic transducer emitters in a certain position, then comparing the measurements of the velocity and direction of blood flow in the right anastomosis with the results of measuring the velocity and direction of blood flow in the left anastomosis and then compare the measurements with the norm and, if the velocities and directions of blood flow differ in the right and left anastomoses and do not correspond to the general norm or personal norm in a particular patient, agnostic signs of cerebral ischemia.

A device for determining the ischemic state of the brain is a measuring and computing complex of the velocity and direction of blood flow, on a carrier element of which are mounted ultrasonic sensor-emitters, a measuring unit with two ultrasonic sensors-emitters of Doppler and an electronic unit that includes a signal generation circuit, a circuit signal processing, a display device, a signal transmission device, with the mounting of ultrasonic sensors-emitters installed from The possibility of constructive position adjustment is personal for each person. Bearing element can be made in the form of frames for glasses.

The determination of the speed and direction of blood flow is carried out by the method of dopplerography on the contralateral extra-intracranial reobritial arterial anastomoses of the brain at the level of the angular and supra-arteries passing near each eye, thereby reducing the duration of the study. The method is carried out by locating the vessel at an angle of 30-40 °, taking into account the anatomical features of the location of the vessel. Measures the speed and direction of blood flow, then compares the measurements of the velocity and direction of blood flow in the right anastomosis with the results of measuring the speed and direction of blood flow in the left anastomosis, and then compares the measurements with the norm and, if the speed and direction of blood flow differ in the right and left anastomosis and not correspond to the general norm or personal norm in a particular patient, diagnose signs of cerebral ischemia, thereby increasing the accuracy of diagnosing the disease Hania. The general norm is in physiological conditions 50-55 ml of blood per 100 g of brain substance per minute in an adult patient. A personal rate can also be established by preliminary measurements of the initial hemodynamics. In the future, the personal rate can be used to compare the measurement results. This observation and measurement of speeds and directions of blood flow in the brain can be used to determine the ischemic state of the brain in a non-invasive way. The advantages of the method are the ability to perform preventive measures against the development of cerebral ischemia, since this method registers the very beginning of the process. The method allows you to create a mobile and portable device for long-term patient carrying and long-term monitoring of his cerebral blood flow in various physical and psychoemotional states, which provides measurement outside the hospital. For ischemic stroke, universal patterns of brain response to a consistent chronological decrease in cerebral blood flow have been established, and the concepts of a “nuclear” zone of ischemia and “ischemic penumbra” - penumbra - a functionally modified, but viable and potentially reparable brain region, that is, a parabiosis zone - have been introduced. The time factor is decisive in the transformation of the penumbra zone into a cerebral infarction (necrosis). In other words, in the clinic of stroke there is a short (about 4 hours), “therapeutic window” during which medical influence is possible in order to reduce the area of a heart attack, fight against brain edema, correction of vascular and metabolic reactions.

Among the methods of examination of the vascular bed of the head and neck, ultrasound methods occupy a special place. Doppler sonography is used as the main measurement method. Their widespread introduction into clinical practice is associated with the simplicity of the method, safety, relatively low cost, and visual results.

To achieve the above technical result, it is proposed to implement a device operating on the Doppler effect, which allows positioning the sensors in a given position to accurately measure the velocity and direction of blood flow, which is a measuring and computing complex consisting of a mounting device on a person’s head, made in the form of a frame for glasses, a device mounting and adjustment of ultrasonic sensors, measuring unit with ultrasonic emitters-sensors and electronic unit orogo includes signal generating circuit, a signal processing circuit, display device, the signal transmission apparatus.

The invention is illustrated by the following images:

FIG. 1 shows the location of the arteries of the face, where: 1 - the dorsal artery of the nose, 2 - the angular artery. These arteries allow the use of the claimed device and carry the necessary information.

FIG. 2 shows a diagram of the device, where:

And - the bearing element

B - Doppler ultrasound sensor, with a radio transmitting device;

X is the position of the sensor for the angular artery;

Y - Sensor position for the dorsal artery.

Since the anatomical parameters of the face and the position of the arteries may differ from one person to another, a system is proposed for constructively adjusting the position of the sensors individually for each person.

The advantages of this device are the ability to determine the ischemic condition not only for the affected organs of vision, but also for the brain, also that not only the speed is analyzed, but also the direction of blood flow and an important difference is that two Doppler sensors are used to measure two anastomoses, which increases the accuracy of research.

The method allows to determine the ischemic state of the brain, measure the speed and direction of blood flow outside the hospital and diagnose the patient's condition.

Claims (2)

1. A method for determining the ischemic state of the brain, including a Doppler study of blood circulation, in which measurement of the speed and direction of blood flow on the contralateral extra-intracranial periorbital arterial anastomosis of the brain is carried out by locating the vessels at an angle with ultrasonic transducer emitters, taking into account the anatomical features of the location of the vessels, comparing the measured velocity and direction of blood flow in the right anastomosis with measured speed and direction Blood flow in the left anastomosis and with the norm and, if the speed and direction of the blood flow differ in the right and left anastomosis and do not meet the general norm or personal norm in a particular patient, the presence of signs of cerebral ischemia is diagnosed, characterized in that the measurement of the velocity and direction of the blood flow is carried out at the level of the angular and supra-arteries, passing near each orbit by locating the vessel at an angle of 30-40 °, and the ultrasonic transducer emitters are installed in a predetermined position by means of fixings, Coming on a bearing element in the form of a frame for glasses and made with the ability to adjust the position of the sensors at the level of the angular and supra-arteries, taking into account the personal patient. 2. A device for determining the ischemic state of the brain, containing two ultrasonic transducer-emitter with a measuring unit, operating in the Doppler mode, an electronic unit, capable of measuring the velocity and direction of blood flow and including the circuit signal generation, signal processing circuit, signal transmission device and display device, characterized in that the ultrasonic transducer emitters are provided with fasteners, is located on the bearing element, made with the possibility of changing the position of the sensor-emitters for the angular and supra-arterial arteries, taking into account the personal patient.

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