RU177324U1 - ASPIRATION SYRINGE - Google Patents

Abstract

The utility model relates to the field of medical technology, namely to syringes, and can be used for carrying out aspiration of various liquid media, for fine-needle biopsy, for puncture morphological diagnosis, as well as for injection of liquid drugs. The essence of the utility model: the claimed device, including a cylinder with a tip for attaching the needle at one end, a piston with a rod mounted sliding inside the cylinder, and a stop located at the end of the rod, according to the invention, provided about the handle, movably attached to the rod stop with the possibility of rotation relative to the hinge assembly located on the rod stop, and the handle is made at least in the form of a bracket with a back stop placed on the opposite end of the handle mount and with a slot in the middle part, designed to cover the rod on both sides. In this case, the rod stop is made in the form of an elongated pad elongated asymmetrically with respect to the axis of symmetry of the rod, and the hinge unit is located on the lower surface of the rod stop. In addition, the handle can be equipped with an additional bracket located on the lower surface of the back stop, and the additional bracket is made in the form of at least one arc-shaped element having a slot in the middle part for covering the cylinder, and also provided with a tongue located at the opposite end backward emphasis. At the same time, the slot width in the additional bracket is proportional to the outer diameter of the cylinder. Technical result: increased ease of use of the syringe with one operator’s hand, increased reliability and reduced trauma during the aspiration procedure and other similar procedures, as well as increased efficiency of use of the device.

Description

The utility model relates to the field of medical technology, namely to syringes, and can be used both for injection of liquid drugs into the body tissues and for carrying out aspiration procedures for contents, for example, cystic formations, for fine-needle biopsy, as well as for puncture morphological diagnosis neoplasms of internal organs.

As you know, when conducting medical procedures, such as injection, aspiration, puncture, one of the essential conditions is the accuracy of introducing the needle into the right place in the patient’s tissue and preventing the needle from moving during the procedure. Therefore, the device with which the procedure is carried out should be convenient for the operator to use, ensure the physiological natural movement of the fingers of the working hand, eliminating the occurrence of excessive tension in the hand. This requirement is especially relevant if the doctor or nurse needs to carry out medical manipulation with only one hand when the other hand is busy holding the patient or other instrument. In this case, there is a need for a device that can be manipulated with one hand without compromising the quality of the procedure.

According to the prior art, an “Aspiration cartridge syringe with an original removable adapter for needles with a passive aspiration system” is known according to the RF patent for utility model No. 68876, IPC АВВ 3/00, published December 10, 2007. The indicated cartridge syringe contains a housing with a cartridge, a pusher piston with an emphasis for fingers, additional retention devices in the form of a harpoon, notches, screws and a removable adapter with screw thread.

A feature of this device is the presence of a removable adapter for needles with a passive aspiration system, equipped with a tubular pin located on the outer surface of the cylindrical sleeve of the removable adapter and protruding into the interior of the syringe body.

After the adapter is screwed in, the cartridge is installed, the diaphragm of the cartridge is pierced by a needle. When pressing on the piston plug, the tubular pin deforms the diaphragm, creating a positive pressure. At the moment of stopping the pressure on the pusher, the diaphragm straightens, and negative pressure arises in the cartridge, due to which fluid is aspirated from the tissues.

The said device is intended to simplify the aspiration, which does not require retraction of the piston and changing the position of the operator’s hand. However, before starting the procedure, the operator needs to make additional preparations, namely, install a removable adapter and cartridge on the syringe. In addition, before inserting the needle, it is necessary to move the piston in the cylinder to the extreme position by pressing on the piston, and at the time of insertion of the needle into the tissue, it is necessary to keep the piston pressed to maintain positive pressure in the syringe, as a result of which undesirable needle oscillations or the piston, the needle will not get to the right place and you will need to re-insert it, which additionally injures the patient.

This device allows you to perform medical manipulation with one hand, however, it has a complex structure and requires preliminary preparatory actions, and also involves the operator performing several actions at the same time, in particular, inserting a needle into the tissue and holding the syringe piston to maintain positive pressure in the cylinder, which significantly reduces consumer qualities of the device.

A device is known "Syringe for sustainable aspiration with one hand" according to US patent No. US 3990446, IPC A61M 1/00, A61M 5/31, published 11.09.1976,

This device is a disposable hypodermic syringe for aspiration, containing a cylindrical thermoplastic body, partially closed at one end and open at the opposite end, on which two flat transverse flanges of the body extend in opposite directions to stabilize the syringe. An adapter is located at the partially closed end of the housing to facilitate connecting the complete needle assembly. The length of the housing is approximately two times longer than the plunger and stopper, interconnected with the possibility of axial sliding completely inside the housing. The end of the plunger rod opposite the end of the stopper consists of a flat plate with two plunger flanges attached to it. Both plunger flanges protrude from the plate perpendicularly through opposing holes cut into the side walls of the syringe body. The two opposite holes are rectangular in shape and extend from the midpoint on the body to a point just below the open end. The width of both housing openings corresponds to the width of both housing flanges. Before aspiration, the plunger stop is supported on a partially closed end of the housing, in which two plunger flanges protrude outward through the openings of the housing near the middle of its length. One-handed aspiration is achieved when the plunger flanges are pulled toward the housing flanges and the housing flanges are stabilized against movement.

This device allows you to carry out aspiration with one hand, the movements of the fingers in this case correspond to the natural movement of squeezing the hand, however, it is not possible to do with one exciting movement of the fingers. After inserting the needle into the tissue, it is necessary to move the fingers holding the syringe onto the plunger rod to move the plunger, which can lead to undesirable syringe oscillations and needle displacement during the procedure, while injuring the patient.

Also known is the device "One-handed vacuum syringe for aspiration, injection and fluid transfer" according to US patent No. US 5498246, IPC АВВ 10/00, А61В 10/02, А61В 17/44, А61М 5/178, published March 12, 1996 .

The device includes a cylinder with a closed loop at its remote end and a piston with a handle for hand grip, as well as check valves located in the outlet channel and drainage hole and designed to prevent any fluid removed from the body from entering the cavity body. Aspiration is carried out by pulling the handle at the end of the piston with the fingers of the working hand, while the piston abuts against the spring and overcomes its resistance when moving. The size of the handle at the end of the piston must be commensurate with the fingers of the operator. This device allows its use with one hand, and the movement of the operator’s fingers corresponds to the natural movement of squeezing the hand, however, the presence of a closed loop limits the piston stroke, which may not be sufficient to extract all the fluid intended for aspiration, as a result of which the procedure will have to be repeated. In addition, the spring provided in the design of the device must be forced to be held in a clamped state until the needle is removed from the fabric, otherwise, when it is loosened, the extracted material will fall back into the fabric, which can lead to the formation of a hematoma. These features of the device make its design complex and expensive to manufacture, especially when used once, reduce the usability of the device by a medical professional and increase the likelihood of injury to the patient.

A device is known “Syringe for aspiration with capture with one hand” according to US patent No. US 6231550, IPC A61M 5/31, published 05/15/2001

The syringe contains a cylinder with flanges, a piston and a nozzle. The piston has a head, which slidably engages with the cylinder, and a rod ending on the free end of the piston. The syringe also has a nozzle that encloses the cylinder and is engaged with the piston by means of a gear train, the nozzle also having a rod. The device is actuated by pressing the thumb of the operator’s hand on the nozzle rod. The force applied to the nozzle is transmitted to the piston by means of a gear train and biases the piston in the opposite direction to the applied force.

This device can be used in the injection mode or in the aspiration mode, holding the syringe in one hand with the same gripping position of the user's fingers, and in both modes, the operator’s thumb is advanced to the fingers that grab the syringe. However, the stem of the nozzle transmitting the action to the piston is located on one side of the cylinder of the syringe, asymmetrically relative to it, which can lead to distortion of the piston of the syringe and, ultimately, to its breakdown. In this case, a gear made in the form of gear surfaces deposited on one side of the piston rod and on the inner surface of the nozzle can wear out very quickly, leading to slipping of the teeth and thereby to intermittent movement of the piston, which is unacceptable when performing a medical procedure. In addition, since the force of the thumb must be significant in order to overcome friction in the gear transmission, this creates a large load on the joint and can cause pain with the frequent use of such a syringe, which reduces the ease of use and reduces the number of procedures performed.

The closest in technical essence to the claimed is the device "Syringe for biopsy" according to US patent No. US 5651372, IPC АВВ 10/02, published July 29, 1997, adopted for the prototype.

The syringe device includes a cylinder with a tip for installing a needle on it, and a plunger with a rod, moved in the cylinder. The cylinder is equipped with a pair of rings designed to be gripped by their fingers and hold the device located on it on opposite sides, and the plunger contains a ring at the end of the rod, and the piston moves during the aspiration (puncture) procedure by retracting the thumb inserted into the ring at the end of the piston , i.e. the plunger can be removed from the cylinder with one hand. The stem of the syringe plunger consists of four longitudinal ribs forming an X-shaped cross section, and the means for restricting the movement of the plunger include a positioning button located on the edge of the plunger, to which is attached a stopper movably connected to the plunger.

This device can be used for carrying out the aspiration procedure, holding it in one hand. Moreover, the presence of rings for gripping with fingers allows you to avoid slipping fingers along the cylinder during the extension of the plunger.

However, the systematic repeated abduction of the thumb in the direction from the palm of the hand of the operator is unphysiological, creates a large load on the joint and ligamentous apparatus and leads to micro-injuries of the latter, pain and fatigue during the procedure. In this case, the movement of the plunger is limited by the length of the thumb of the operator’s working hand, and therefore it is almost impossible to move the plunger to its highest position. As a result, the amount of material recovered by aspiration is also limited, which may lead to the need for a second procedure. In addition, after inserting the needle, it is necessary to move the fingers holding the syringe and place them in the rings, which can lead to needle displacement and injury to the patient. In addition, the rings limit the freedom of action with the syringe and, squeezing the vessels, lead to numbness of the fingers, which also leads to pain and fatigue of the operator when performing the procedure and, accordingly, to limiting the number of procedures performed, which reduces the convenience and efficiency of using this device .

The claimed device allows to eliminate the indicated disadvantages.

The utility model solves the problem of creating a tool that is simple in design, but reliable, safe, convenient and efficient in operation, for carrying out the procedure for extracting liquid material from the patient’s body, in particular, for aspiration, puncture or biopsy procedures, with which these procedures can be performed with one hand .

The technical result obtained from the use of the utility model is to increase the ease of use of the syringe with one operator’s hand, increase reliability and reduce trauma during the aspiration procedure and other similar procedures, as well as increase the efficiency of its use due to the fact that the device’s design allows you to control them with one hand, bringing the thumb towards the fingers holding the syringe, which corresponds to the natural movement of squeezing the hand and does not cause tension and injuries of the working hand, and therefore, allows to increase the number of procedures performed by the medical worker, and the need to change the position of the fingers of the working hand is eliminated.

The technical result is achieved by the fact that the claimed device, including a cylinder with a tip for attaching a needle at one end, a piston with a rod mounted inside the cylinder with the possibility of sliding, and a stop located at the end of the rod, is additionally equipped with a handle movably attached to the stop of the rod with the possibility rotation relative to the hinge assembly located on the stop of the rod, and the handle is made at least in the form of a bracket with a back stop placed on the opposite end of the handle, and with a slot in the middle part, designed to cover the rod from two sides. In this case, the rod stop is made in the form of an elongated pad elongated asymmetrically with respect to the axis of symmetry of the rod, and the hinge assembly is located on the lower surface of the rod stop.

In addition, the bracket is made in an arcuate shape, with the radius of the arc of the bracket approximately equal to the distance of the piston working exit from the cylinder, the slot in the bracket is made along its entire length, and its width is proportional to the diameter of the piston rod.

In addition, the handle may be provided with an additional bracket located on the lower surface of the backstop, and the additional bracket is made in the form of at least one arc-shaped element having a slot in the middle part for covering the cylinder, and also provided with a tongue located at the end opposite the back stop. In this case, the width of the slot in the additional bracket is proportional to the outer diameter of the cylinder.

In addition, the additional bracket can be made in the form of two elements of an arcuate shape of different diameters, paired with each other. In this case, the slot of the additional bracket is made only in the second bracket element adjacent to the tongue.

In addition, the arched elements of the additional bracket and tongue are made proportionate to the fingers.

The utility model is illustrated by drawings, where in FIG. 1 shows a general view of a syringe before aspiration; in FIG. 2 - the handle of the syringe; in FIG. 3 is a general view of the device during suction; in FIG. 4 - General view of the device with the maximum abduction of the handle.

The claimed syringe for aspiration (Fig. 1) contains a cylinder 1 with a tip 2 for installing a needle on it at one end and a flange 3 at the other end. A piston 4 with a rod 5 is mounted inside the cylinder 1 with the possibility of sliding, at the end of which there is a finger rest 6 for impact (pressure) on it in case of an injection of drugs to the patient.

The cylinder 1 is made of polypropylene and has a snap ring (lock) 7 made on its inner surface closer to the flange 3, preventing the piston 4 from accidentally slipping out of the cylinder 1. On the outer surface of the cylinder 1, a scale can be applied using engraving or indelible paint (in the drawing not shown), which allows to dose the medicine during the injection or to determine the volume of fluid drawn from the body during the aspiration (puncture) procedure.

The piston 4 of the syringe is made of high density polyethylene, while its rod 5 is made of four longitudinal ribs forming an X-shaped cross section, which allows to reduce the piston friction against the walls of the cylinder 1 and at the same time maintain a symmetrical position relative to the walls and the stiffness of the rod 5 .

The emphasis 6, mounted on the end of the rod 5 of the piston 4, can be made flat or have a slightly concave shape for the convenience of placing the thumb of a nurse or doctor on it with the introduction of a medicinal substance (injection). In this case, in contrast to the known analogues, the stop 6 is made somewhat elongated in one direction relative to the axis of symmetry of the syringe rod, forming a protrusion on this side, on the lower surface of which there is a hinge assembly 8, by means of which a movable handle 9 is attached to the rod 5, which driven by the thumb of the operator’s working hand.

The main element of the handle 9 (Fig. 2) is a bracket 10, made in the form of an arc of a circle, having a back stop 11 at the end, and in the middle part - a slot 12, designed to cover on both sides of the rod 5 when moving it up (during aspiration ) The curved shape of the bracket 10 allows you to increase the piston stroke with minimal operator effort and at the same time reduces the distance from the stop 6 of the rod 5 to the backstop 11 of the bracket 10, thereby making it easier for the operator to access the point of impact on the handle 9 and eliminating the need to move your finger to the large distance. It was experimentally established that the radius of the arc of the bracket 10 is approximately equal to the distance of the working output of the piston 4 from the cylinder 1 to the stop in the snap ring 7.

The width of the slot 12 in the bracket 10 of the handle 9 should be proportionate (slightly exceed) the diameter of the piston rod 5. The handle 9 is also made of polypropylene, as is the syringe barrel 1.

In the embodiment of the device with the aim of maximizing the output of the extracted fluid, the handle 9 may be equipped with an additional bracket 13 extending from the lower surface of the backstop 11 and made in the form of at least one arc-shaped element having a tongue 14 at the end and a slot in the middle part 15, designed to cover on both sides of the cylinder 1 when moving up the rod 5 (during suction). Accordingly, the width of the slot 15 in the bracket 13 of the handle 9 should be proportionate or slightly larger than the outer diameter of the cylinder 1.

In an optimal embodiment, the additional bracket 13 is made in the form of two arcuate elements of different diameters mating with each other, and the slot 15 is made only in the second element of the bracket 13 adjacent to the tongue 14. Pressing the finger alternately on the elements of the additional bracket 13 of the handle 9 allows stepwise extend the piston 4 further. When the tongue 14 is exposed, the piston 4 is brought to its highest position, leaving the cylinder 1 to the maximum rod length.

In addition, the concave elements of the additional bracket 13 and the tongue 14 are made proportionate to the fingers, which creates additional convenience when using a syringe and increases the efficiency of work with it. At the same time, acting in stages on the backstop 11 of the handle 9, the elements of the additional bracket 13 and the tongue 14, it is possible to dose the amount of recoverable material.

The device operates as follows.

After inserting the needle into the desired location of the patient's body, the handle 9 is set in motion by the thumb of the working hand of a medical worker. The thumb acts on the handle 9 (Fig. 3), moving the backstop 11 towards the cylinder 1 of the syringe, while the bracket 10, turning at the point of attachment to the stop 6 around the axis of the hinge assembly 8, acts on the piston 5, resulting in a smooth sliding movement of the piston 5 from the cylinder 1 occurs, as a result of which negative pressure is created in the cylinder 1 of the syringe. Moreover, when acting on the handle 9, the operator moves the thumb to the center of the palm, squeezing the hand, and does not take it away, which significantly reduces the load on the joint of this finger and increases the comfort of the operator and his work efficiency. The remaining fingers of the working hand reliably hold the syringe, which reduces the possibility of undesirable oscillation of the needle and, thereby, injuring the patient.

With the maximum reduction of fingers, the handle 9 is pressed against the cylinder 1 of the syringe and the piston 5 is moved to the upper position, thereby creating a vacuum in the syringe, and aspiration is performed in the desired dose. Since the position of the handle 9 is always controlled by the executor, when the pressure ceases, aspiration stops.

This design of the syringe is especially applicable for small sizes of the syringe, when a sufficiently short handle 9, which will serve as a platform for one finger.

In the case of using a larger syringe (more than 10 ml) in order to maximize the movement of the arcuate bracket 10 and to maximize the displacement of the piston to the extreme upper position while maintaining a convenient physiological grip with the brush of the cylinder and the handle, a handle 9 with an additional bracket 13 made with one or two concave (arcuate) elements and tongue 14, which are reference areas for the index, middle and ring fingers (Fig. 4). In this case, the cylinder 1 enters the slot 15 of the bracket 13, and the tab 14 abuts against the outer surface of the cylinder 1.

If you need to make an injection, you can move the fingers of the brush to a standard position and inject liquid by pressing the thumb on the stop 6 of the rod.

The claimed device is convenient to use, ergonomic, reduces the load on the hand of the operator and increases the efficiency of his work. The device can be used in areas such as fine-needle aspiration biopsy of various organs for the purpose of cytological diagnostics (all organs: liver, prostate, thyroid, mammary gland, etc.), aspiration of biomaterial (fluid removal: ascites, pleurisy, hemothorax, postoperative seromas, hematomas of various localization, purulent cavities, etc.), blood sampling, syringe liposuction, washing the cavities with medicinal preparations (sinusitis, mastitis, abscess, sclerotherapy of cysts of various localization, etc.), act vnoe (suction) draining wounds.

In addition, in addition to medical use, the claimed device can be used in any other industry, for example, in the chemical, food, etc., as well as in everyday life for dosed selection of liquid preparations, especially in the case of applying a measuring scale on the outer surface of the device .

Claims (10)

1. An aspiration syringe containing a cylinder with a tip for installing the needle, a piston with a rod mounted inside the cylinder with the possibility of sliding, and a stop located on the end of the rod, characterized in that it is equipped with a handle movably attached to the stop of the rod with the possibility of rotation relative to the hinge a node located on the stop of the rod, and the handle is made at least in the form of a bracket with a back stop placed on the opposite end of the handle mount, and with a slot in the middle part, intended for rod grip on both sides. 2. The syringe according to claim 1, characterized in that the rod stop is made in the form of an elongated pad stretched asymmetrically relative to the axis of symmetry of the rod, and the hinge assembly is located on the lower surface of the rod stop. 3. The syringe according to claim 1, characterized in that the bracket is made in an arcuate shape, and the radius of the arc of the bracket is approximately equal to the distance of the piston working exit from the cylinder. 4. The syringe according to claim 3, characterized in that the slot in the arm of the handle is made along its entire length, and its width is proportional to the diameter of the piston rod. 5. The syringe according to claim 1, characterized in that the handle is provided with an additional bracket located on the lower surface of the back stop. 6. The syringe according to claim 5, characterized in that the additional bracket is made in the form of at least one arc-shaped element having in the middle part a slot designed to cover the cylinder. 7. The syringe according to claim 5, characterized in that the additional bracket is provided with a tongue located at the end opposite the back stop. 8. The syringe according to claim 6, characterized in that the width of the slot in the additional bracket is proportional to the outer diameter of the cylinder. 9. The syringe according to claim 5, characterized in that the additional bracket is made in the form of two arcuate elements of different diameters mating with each other, and the slot of the additional bracket is made only in the second bracket element adjacent to the tongue. 10. The syringe according to claim 9, characterized in that the arched elements of the additional bracket and tongue are made proportionate to the fingers.

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