RU2310240C2 - Device for inspecting trauma - Google Patents

Abstract

FIELD: experimental medicine.

SUBSTANCE: device has substrate, tube, shock member and holder. Device has semi-round chute which is attached to substrate by fastening aids through crossing lateral slot in chute, in longitudinal slot in substrate for simultaneous longitudinal and rotation change in position of chute. Tube is disposed onto substrate in perpendicular to its surface; longitudinal slot for lateral rods is made in tube. Shock member is disposed onto lower lateral rod for controlled change in its distance from tube; rod is attached to top piston. Top rod is attached to top piston. Both pistons are disposed in space of tube for change in distance between them to keep at preset position. Spring is disposed between pistons in space of tube. Device provides wider abilities of modeling of experimental mechanical trauma of different localization and for improvement in its quality due to increase in precision of application and dosing of power of impact. Holder is made in form of hook and it is disposed at top rod for rotation in it. Removable shock member has several working surfaces made in form of flat surface, round-concave, round-convex and blade for change in working position by turning it into rotation around rod. Longitudinal measuring marks are applied onto surface of tube; label is made onto fixer of top piston. Slant is made at working end of chute to avoid touch of lower rod with chute.

EFFECT: improved precision; improved reliability.

5 cl, 6 dwg

Description

The invention relates to medicine, namely to experimental surgery, and is intended for applying a dosed mechanical injury of various localization in an animal experiment in order to study the effect of injury on the body and to study the effectiveness of various means and methods of treatment.

A device for causing traumatic brain injury - a hammer. In the experiment, they hit the animal on the head for modeling and subsequent investigation of traumatic brain injury (S. S. Rabinovich. Comparative characteristics of the permeability of cerebral and peripheral vessels in the acute period of severe craniocerebral injury. "Issues of neurosurgery.", M. 1969, p. 23-27).

The disadvantage of this device is the lack of signs in it of expanding the capabilities of modeling experimental mechanical injuries of various nature and severity and improving its quality by increasing the accuracy of its application and dosing of impact force.

A device is known - a guillotine for cutting off the tip of a cigar (Explanatory Dictionary of the Russian language. / Under the editorship of Ushakov DI "Soviet Encyclopedia". M., 1935, p. 559), containing a stand, impact-chopping element and holder, which is possible causing injury to a small experimental animal.

The disadvantage of this device is the lack of signs in it of expanding the capabilities of modeling experimental mechanical injuries of various nature and severity and improving its quality by increasing the accuracy of its application and dosing of impact force.

Also known is a device for applying a closed head injury, including a stand, guide tube, shock and restraining elements (Old BC Application of ganglion blockade after a closed head injury. Dis. Cand. Of Medical Sciences. Voronezh. 1965, p. 63, fig. .one).

The disadvantage of this device is the lack of signs in it of expanding the capabilities of modeling experimental mechanical injuries of various nature and severity and improving its quality by increasing the accuracy of its application and dosing of impact force.

The closest in technical essence to the proposed device is the device shown last, which we take as a prototype, and its disadvantages are described above.

The technical result consists in expanding the possibilities of modeling experimental mechanical trauma of various nature and severity and improving its quality by increasing the accuracy of its application and dosing of impact force.

The technical result is achieved in that the device for the study of injury consists of a stand, tube, shock element and holder. The device comprises a semicircular groove, which is fastened to the stand by fasteners through a crossing transverse slot in the groove and a longitudinal slot in the stand with the possibility of simultaneous longitudinal and rotational changes in the position of the groove. The tube is placed on a stand perpendicular to its surface, and a longitudinal slot is made in it under the transverse rods. The impact element with the possibility of adjustable changes in its distance from the tube is located on the lower transverse rod, which is attached to the lower piston, and the upper rod is attached to the upper piston, both pistons are located in the lumen of the tube with the possibility of changing the distance between them and holding them in a given position, This spring is placed between the pistons in the lumen of the tube.

In a preferred embodiment, the holder is made in the form of a hook and is placed on the upper rod with the possibility of rotation on it.

In another preferred embodiment, the removable impact element has several working surfaces made flat, round-concave, round-convex and in the form of a blade with the possibility of changing their working position by rotation around the rod.

In a further preferred embodiment, longitudinal metric divisions are applied to the surface of the tube, and a mark is made on the retainer of the upper piston.

In another preferred embodiment, a bevel is made at the working end of the trough to prevent the lower shaft from contacting the trough.

The essence of the device and a specific example of its execution is illustrated by drawings. Figure 1 shows the device, front view. Figure 2 is the same, rear view. Figure 3 is the same, right view. Figure 4 is the same, left view. Figure 5 is the same, bottom view. Figure 6 is the same, top view. Figure 1-6 marked: 1 - stand; 2 - trough; 3 - fixing element of the gutter; 4 - a nut of a fixing element; 5 - tube; 6 - slot in the tube; 7 - cork; 8 - spring; 9 - lower piston with a transverse channel and thread for the lower rod; 10 - upper piston with a transverse channel and thread for the upper rod; 11 - lower rod with external thread; 12 - upper rod with external thread; 13 - retainer of the upper piston; 14 - restrictive nut; 15 - hook; 16 - gripping element of the hook; 17 - persistent protrusion of the hook; 18 - ear of the hook; 19 - percussion element with thread for the lower rod; 20 - a lock nut of an impact element; 21 - nut holding the hook; 22 - a lock nut for a hook holding nut; 23 - an adjusting screw; 24 - spare impact element; 25 - pin (hairpin) mounting a spare impact element; 26 - the left leg of the stand; 27 - the right leg of the stand; 28 - a longitudinal slot in the stand; 29 - a transverse slot in the gutter; 30 - retainer of the body part; 31 - magnets at the ends of the retainer of the body part; 32 - metric divisions on the tube at the slot; 33 - label; 34 - bevel at the working end of the gutter; 35 - a slot at the end of the shaft 11 for a screwdriver.

The device operates as follows. Before modeling, for example, a closed traumatic brain injury on an animal, for example, on a rat, with a fastener 3 through a transverse slot 29 by a fastener 3 with a nut 4, the chute 2 is fixed in the middle position to the stand 1. An impact element 19 is placed on the lower rod 11 with the direction of the rounded-concave impact surface towards the trough 2 and in a predetermined position, fix it with the lock nut 20. The lower rod 11 is partially lowered with the adjusting screw 23 partially to the required height. After introducing the animal into anesthesia to increase the accuracy of the impact, for example, in the parietal region, the animal is placed in the chute 2 with the parietal region under the round-concave impact surface of the impact element 19. The height of the impact surface of the impact element 19 relative to the skull is set with the adjusting screw 23. For dosing impact forces, for example medium strength, weaken the latch 13 and, moving the upper piston 12 and being guided by metric divisions 32 and the mark 33, set the impact element 19 at the intended level, pl anizing the intended depth of head compression by the working surface of the impact element 19. Then, the rod 11 is moved up and the nut 21 is gripped by the hook element 16, which holds the rod 11 with the impact element 19 at the planned height. To cause injury, the thrust protrusion of the hook 17 is pressed, the nut 21 is released from the hook gripping element 16, and under the action of the compressed spring 8, the rod 11 with the shock element 19 rush to the parietal region of the animal, and a metered blow is applied at the intended place in the intended place causing precisely localized traumatic brain injury.

The significance of the differences of the invented device is as follows. The presence of a semicircular trough in the device makes it possible to place an experimental animal in it in the required position. Fastening the gutter to the stand with fasteners through the intersecting transverse slot in the gutter and the longitudinal slot in the stand allows you to simultaneously change the longitudinal and rotational position of the gutter, which makes it possible to place part of the animal’s body for more accurate local injury. The execution in the vertical tube of a longitudinal slot allows more precise directional movement of the transverse rods, which increases the accuracy of injury. The location of the shock element on the lower transverse rod attached to the lower piston provides the possibility of an adjustable change in its distance from the tube, which allows you to change the direction of the impact if necessary. The placement of both pistons in the lumen of the tube with the possibility of changing the distance between them allows you to change the compression ratio of the spring placed between the pistons, which makes it possible to adjust the force of impact. The implementation of the holder in the form of a hook on the upper rod allows you to hold each other both rods with a compressed spring. The execution on the percussion element is flat, round-concave. round-convex surfaces and in the form of a blade, if it is possible to change their working position by rotating the shock element around the rod, expands the possibility of causing injuries of a different nature. Performing metric divisions on the surface of the tube, and on the retainer of the upper piston marks allow metering the force of injury. Performing a bevel at the working end of the gutter eliminates the contact of the lower rod with the gutter when causing injury, which allows injury to be caused for any size of the injured part of the animal’s body. The presence of an adjusting screw allows you to dose the immersion of the working surface of the shock element in the injured tissue and, if necessary, eliminates crushing them. Thus, the claimed device in the aggregate of its features ensures the achievement of a technical result - expanding the capabilities of modeling experimental mechanical trauma of various localization and improving its quality by increasing the accuracy of its application and dosing of impact force, which improves the quality of experimental modeling of mechanical trauma to study its effect on the body and development and research of treatment methods.

The use of the invention is possible in experimental veterinary medicine.

Claims (5)

1. A device for the study of injury, consisting of a stand, tube, shock element and holder, characterized in that it contains a semicircular groove that is fastened to the stand with fasteners through the intersecting transverse slot in the groove, and a longitudinal slot in the stand with the possibility of simultaneous longitudinal and rotational changes in the position of the gutter, the tube is placed on the stand perpendicular to its surface and a longitudinal slot is made in it for the transverse rods, the impact element is adjustable of the change in its distance from the tube is located on the lower transverse rod, which is attached to the lower piston, and the upper rod is attached to the upper piston, both pistons are located in the lumen of the tube with the ability to change the distance between them and hold in a given position, while between the pistons in The tube clearance is a spring. 2. The device according to claim 1, characterized in that the holder is made in the form of a hook and is placed on the upper rod with the possibility of rotation on it. 3. The device according to claim 1, characterized in that the removable shock element has several working surfaces made flat, round-concave, round-convex and in the form of a blade, with the possibility of changing their working position by rotation around the rod. 4. The device according to claim 1, characterized in that longitudinal-metric divisions are applied to the surface of the tube, and a mark is made on the retainer of the upper piston. 5. The device according to claim 1, characterized in that the bevel is made at the working end of the gutter with the exception of the contact of the lower rod with the gutter.

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