RU2819402C1 - Transducer retainer for echocardiographic examination of heart and surrounding tissues - Google Patents

Abstract

FIELD: medical equipment.

SUBSTANCE: transducer retainer for echocardiographic examination of heart and surrounding tissues comprises a frame and an element for fixing the frame on the patient's body. Frame is made of rigid material, has a flat base and a raised cylindrical section with a central round through hole. Frame fixing element is fixed on the flat base of the frame. Thread is made on outer side of cylindrical section. Retainer comprises an ultrasound transducer holder and a transducer holder clamp. Transducer holder is made in the form of two hemispheres forming when connected a hollow detachable ball with a diameter exceeding the diameter of the through hole. Slots for the transducer in the upper and lower parts of the holder limit the installation zone. In working condition, holder is installed in round hole of cylindrical section with possibility of its rotation and installation of transducer at angle of inclination of round hinge type. Clamp of the transducer holder is made in the form of a section with a through hole, having an internal screw thread for screwing on the external thread of the cylindrical section. In working condition, the formed screw connection fixes the required position of the transducer relative to the plane of the base of the frame.

EFFECT: simplified design, simple and easy manufacture of elements, simple and fast assembly of lightweight structure, reliable fixation of the transducer in the device with the possibility of placing the transducer at an angle, changing the angle of inclination depending on the patient’s physiology, the location of the heart and the purpose of echocardiography of the heart and surrounding tissues.

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Description

The invention relates to medical equipment used in the field of ultrasound studies of cardiac echocardiography, in particular, to sensor clamps on the patient’s chest.

A shock-absorbing clamp for an ultrasonic scanner sensor is known (RF patent 2677789, IPC A61B50/20, published on January 21, 2019), containing a frame in the form of a frame made of rigid material with the ability to limit the installation area of the sensor and a sensor holder for installing it inside the frame , while the frame is made three-dimensional in the form of a square tube with walls and a hole inside repeating its contour, while one of the walls of the frame is made with the possibility of opening, for which it is attached to one of the adjacent walls using hinges, on its free end in the middle there is a rectangular a protrusion outward with a rectangular hole inside it for a bolt-type fastening element, and on the outside of the adjacent wall adjacent to this end there are two similar protrusions with the same holes for a sensor holder located horizontally in these holes when the wall is closed made of elastic-elastic material in the form of a round detachable bracelet located in the center of the frame and attached to its four walls using silicone pendants for damping vibrations, made in the form of strips with compacted caps on their free ends, while the walls of the tube have elements for insertion into of the said pendants in such a way that the caps on their ends in the fixed position of the sensor are located outside the walls of the tube.

The disadvantages of the analogue are the complexity of the design, large dimensions and, accordingly, high production costs. In addition, due to design features, there is no easy way to change the angle of the sensor.

The “Probefix” ultrasonic sensor clamp from the USONO company is known (https://www.usono.com/probefix/; https://www.youtube.com/watch?v=Iz8Q7_PYXTI&t=2s).

The disadvantage of the Probefix fixator is the complexity of the prefabricated structure, the duration of production of structural elements and, consequently, the higher cost of the device.

The closest analogue in terms of design features is a device for pairing a patient with a sensor (US5578799A, IPC A61B7/02, published on November 26, 1996), containing a frame in the shape of a bell-shaped torus, having a flat base and a raised cylindrical section with a central round through hole for limiting the sensor installation area, made of a rigid material that is hygienically neutral to the patient’s body, a means for pressing the sensor, an element for fixing the frame on the patient’s body, fixed to the flat base of the frame and made with an adhesive surface for attaching the frame to the patient’s body.

The disadvantage of the prototype is the complexity of the design, limited use for fixing the ultrasound sensor on the patient's chest during echocardiography and the inability to change the angle of the sensor.

The technical result of the invention is the simplification of the design, simplicity and accessibility of the manufacture of elements, simple and quick assembly of the lightweight structure, and reliable fixation of the sensor in the device. The invention allows the sensor to be positioned at an angle and the angle of inclination to be changed depending on the physiology of the patient, the location of the heart and the purposes of echocardiography of the heart and surrounding tissues.

The technical result is achieved by the fact that a sensor clamp for studying echocardiography of the heart and surrounding tissues, containing a frame having a flat base and a raised cylindrical section with a central round through hole, made of rigid material, an element for fixing the frame on the patient’s body, fixed to the flat base of the frame , according to the invention, a thread is made on the outer side of the cylindrical section, the clamp additionally contains an ultrasound sensor holder and a sensor holder clamp, the sensor holder is made in the form of two hemispheres, which, when connected, form a hollow detachable ball with a diameter exceeding the diameter of the through hole, having at the top and bottom parts of the slot for the sensor, limiting the installation area, while in working condition the holder is installed in a round hole of the cylindrical section with the possibility of its rotation and installation of the sensor at an angle of inclination like a round hinge, the clamp of the sensor holder is made in the form of a section with a through hole, having an internal screw thread for screwing onto the external thread of the cylindrical section, while in operating condition the formed screw connection fixes the required position of the sensor relative to the plane of the base. The sensor holder is provided with a sealing gasket located around the ultrasound sensor, and the sealing gasket can be made of a flexible, soft, elastic neutral material, such as foam rubber or silicone. The slots for the sensor have a shape that follows the shape of the outer contour of the sensor, for example, rectangular and are larger in size than the sensor itself. The base of the frame is made of a round, triangular or trapezoidal shape, with holes in the base for fastening elements for fixing the frame on the patient's body. The fixation elements are made in the form of straps with a Velcro-type lock or adhesive tapes. The bottom of the frame base is coated with a layer of material that provides adhesion to the patient's skin, such as sticky silicone or soft rubber.

The invention is illustrated by drawings.

In fig. Figure 1 shows the latch in disassembled form, side view. In fig. 2 - disassembled clamp, top view. In fig. 3 - assembled clamp. In fig. Figure 4 shows a schematic representation of the assembled latch, top view. In fig. 5 - schematic representation of the latch in an disassembled state, top view. In fig. 6 - schematic illustration of the assembled latch, side view.

The retainer contains:

- frame 1, having a flat base and a raised cylindrical section with a central round through hole on the outside, which is threaded;

- ultrasound sensor holder 2, made in the form of two hemispheres, which when connected form a hollow detachable ball with a diameter exceeding the diameter of the through hole, having in the upper and lower parts of the slot 3 for the sensor, limiting the installation area, while in working condition the holder is installed in a round a cylindrical opening of the frame 1 with the possibility of its rotation and installation of the sensor at an angle of inclination relative to the diametrical plane of the cylindrical section like a circular hinge;

- clamp of the sensor holder 4, made in the form of a section with a through hole, having an internal screw thread for screwing onto the external thread of the cylindrical section, while in operating condition the formed screw connection fixes the required position of the sensor relative to the base plane.

The base of the frame 1 is made of a round, triangular trapezoidal shape or may have a different geometric shape. In the base 1 there are holes 5 for fastening the frame fixation elements on the patient's body, while the fixation elements 5 are made in the form of straps with a Velcro-type lock or adhesive tapes.

Additionally, a layer of material that provides adhesion to the patient's skin surface, for example, "sticky" silicone or soft rubber, or other material that provides adhesion to the patient's skin surface, can be applied (glued) to the lower part of the base of the frame.

The sensor holder 2 is equipped with a sealing gasket (not shown in the drawing) located (wrapped) around the ultrasound sensor installed in the cavity of the ball. The sealing gasket is made of flexible, soft, elastic neutral material, for example, foam rubber or silicone, or other material that secures and protects the sensor from possible damage.

The slots for the sensor 3 in the holder (ball) 2 have a shape that follows the shape of the outer contour of the sensor 3, for example, rectangular and are larger in size than the sensor 3 itself. The spherical shape of the holder 2 serves as a hinge that allows you to change the angle for the sensor depending on patient physiology and cardiac location.

The clamp of the sensor holder 4 provides clamping of the hemispherical parts of the holder 2 to each other, clamping and fixing the holder 2 to the cylindrical section of the frame 1 by means of a screw connection.

BACKGROUND OF THE INVENTION

When conducting a heart examination using ultrasound, then echocardiography, the patient should always be in a supine position, for the convenience of the doctor or specialist taking the readings. In this case, the ultrasound specialist distributes his attention to both the patient and the screen of the ultrasound machine. The clamp allows you to free the specialist’s hands by attaching the ultrasound sensor to the patient’s chest. In the case of high-stress echocardiography or stress echocardiography test, the patient usually performs physical activity on a bicycle ergometer or on a treadmill, then lies down on the couch, and the specialist takes an echocardiogram. However, in this case the heart is no longer under load. The clamp allows you to secure the ultrasound probe to the patient and allows you to take heart readings under high loads in real time.

An example of the invention.

At the Institute of Physiology, Federal Research Center Komi Scientific Center, Ural Branch of the Russian Academy of Sciences, a prototype of a sensor clamp for echocardiographic examination of the heart and surrounding tissues was made.

The elements that make up the retainer are structurally designed and manufactured from a rigid material that is hygienically neutral to the patient’s body using a 3D printer using a specially developed program.

Frame 1 is an integral element (the base with the cylindrical section is made monolithically). The base 1 is made in the form of a round disk, has four longitudinal oval holes 5 for attaching fixation elements, which are made in the form of straps with Velcro for fastening to the patient’s body, and four round holes 6, which serve to facilitate the design and save material. Suction cups can be mounted into the base 1. Clamp 4 is made in the form of a nut. Slots 3 follow the shape of the sensor contour at the point of contact and may have a slightly larger size.

The device was assembled in the following sequence. Frame 1 is attached to the patient's body at the location of the heart, with the large round part of the base adjacent to the patient's chest and fixed on the patient's body. First, the ultrasound sensor (with wire) is threaded through clamp 4. After this, holder 2 in the form of hemispheres with slots 3 is placed on the sensor. Slots 3 in the place of the lining follow the shape of the outer contour of the sensor. At its location, an additional soft elastic material is applied to the sensor, which is completely contained in holder 2. At this point, a special gel used in ultrasound research can be applied to the sensor. Next, holder 2, together with the sensor, is pressed against the cylindrical section of frame 1, and fixed with clamp 4 at the required angle (at a right angle or another, depending on the area of study of the heart).

Experimental studies have shown that the clamp ensures reliable fastening of the ultrasound sensor to the patient and taking readings of heart function under high physical activity in real time. The design is simple, easy to manufacture and can be an import-substituting product, while it is possible to manufacture products of various sizes, for example, specially made for children.

Claims (7)

1. A sensor clamp for echocardiographic examination of the heart and surrounding tissues, containing a frame having a flat base and a raised cylindrical section with a central round through hole, made of rigid material, an element for fixing the frame on the patient’s body, fixed to the flat base of the frame, characterized in that that there is a thread on the outer side of the cylindrical section, the clamp additionally contains an ultrasound sensor holder and a clamp for the sensor holder, the sensor holder is made in the form of two hemispheres, which, when connected, form a hollow detachable ball with a diameter exceeding the diameter of the through hole, having slots in the upper and lower parts for sensor, limiting the installation area, while in operating condition the holder is installed in a round hole of a cylindrical section with the possibility of its rotation and installation of the sensor at an angle of inclination like a round hinge, the clamp of the sensor holder is made in the form of a section with a through hole, having an internal screw thread for screwing on the external thread of the cylindrical section, while in working condition the formed screw connection fixes the required position of the sensor relative to the plane of the base of the frame. 2. The retainer according to claim 1, characterized in that the base of the frame is made of a round, triangular or trapezoidal shape. 3. The retainer according to claim 1, characterized in that the sensor holder is equipped with a sealing gasket located around the ultrasound sensor, the sealing gasket being made of a flexible soft elastic material, for example, foam rubber or silicone. 4. The retainer according to claim 1, characterized in that the slots for the sensor have a shape that follows the shape of the external contour of the sensor, for example, rectangular, and are larger in size than the sensor itself. 5. The fastener according to claim 1, characterized in that the base has holes for fastening elements for fixing the frame on the patient’s body. 6. The retainer according to claim 1, characterized in that a layer of material is applied to the lower part of the frame base that provides adhesion to the patient’s skin surface, for example, sticky silicone or soft rubber. 7. The fastener according to claim 5, characterized in that the fastening elements are made in the form of straps with a Velcro-type lock or adhesive tapes.