RU175546U1 - DEVICE FOR PREPARING FILLING BODY FOR CLOSING THE BONE DEFECT - Google Patents

Abstract

The utility model relates to medical equipment, namely to a container with granules, for example, KollapAn preparation, or crushed coral, for incubation with blood, and can be used in traumatology, orthopedics, neurotraumatology and neurosurgery in preparing a filling mass for closing a bone defect. The objective of the utility model is to create a simplified design that allows metered extraction of the filling mass from the cylinder using a piston when filling a defect in the bone, to prevent small fragments of soda from entering Římov the needle, and between the piston and the cylinder walls. Increase antimicrobial protection of the filling mass when removing it from the device. The device is made in the form of a tube made of a transparent material, at one end of which there is a sealant for sealing a removable cover having a conical protrusion under the needle, the cavity of which communicates with the tube, and a finger rest is provided at the other end of the tube, and a piston is placed in the tube cavity, the working the surface of which is equipped with a sealing collar, while the piston has a piston rod with an emphasis for fingers on the free end, and in the inner cavity of the removable cover there is a semi-rigid filter in the form of a bag made of a filter guide grid. The size of the device corresponds to the amount of preparation for the preparation of the filling mass, taking into account the volume of the defect in the bone. The device is sterilized with the drug in a blister pack and is used once. The positive effect of the device: improves the method of preparation of the filling mass; the simplified design allows for a dosed extraction of the filling mass from the cylinder; eliminates the ingress of small fragments of contents between the walls of the cylinder and piston, as well as in the cavity of the conical protrusion and in the needle; increases antimicrobial protection.

Description

The utility model relates to medical equipment, namely to a container partially filled with granules, for example, a combined preparation “KollapAn”, or crushed coral, for incubation with blood products, and can be used in traumatology, orthopedics, neurotraumatology and neurosurgery in the preparation of filling mass for closing bone defect.

It is known that calcium phosphate materials, for example, KollapAn, Ostim, Cerosorb, etc., are used to activate reparative osteogenesis. A filling mass is prepared from these preparations to close the bone defect [1, 2, 3, 8, 10, 12, 13].

Sviridova I.K. et al. (2010) [11] mechanically crushed natural coral (NC) in a planetary ball mill (Retch, Germany: particle sizes 300-600 μm) and sterilized with γ-radiation at a dose of 25 kGy. A day before the start of the experiment, NK particles were placed in 96 well culture plates and filled with the following complete growth medium (ORS) of the following composition: DMEM medium (PanEco, Russia), 10% fetal calf serum (HyClone, USA), glutamine (292 mg / l), gentamicin (50 mg / l) (PanEco, Russia). Then, the medium with NK samples was decanted and a suspension of human phagocytes in a volume of 200 μl was added. Cultivation was carried out at 37 ° C and an atmosphere of moist air containing 5% CO ₂ . Change ORS in the tablets was carried out twice a week.

The disadvantages of the known technical solution [11] include: the difficulty of preparing coral to close the defect in the bone, requiring special expensive equipment, and the increased risk of infectious complications of numerous manipulations in preparing the coral for implantation. Therefore, the task was to develop a device for preparing the filling mass to close the bone defect.

In the analysis of patent sources, it was found that devices with different designs are used, which have the form of a syringe with sealed tanks with different substances and a piston mechanism, which includes a piston chamber, a piston and a piston rod [7, 4, 5, 6].

Known devices do not meet the requirements of the task in connection with the design features that do not allow you to remove the prepared filling mass from the container without violating the integrity of the device and the principles of aseptic and antiseptic.

Close to the proposed device is a technical solution (RF patent 2530667, A61M 5/178, publ. 10.10.2014 [9]), which consists of a cylinder with a tip for attaching an injection needle and a rod with a piston and an emphasis for fingers. A part in the form of an oblong bar with transverse protrusions or grooves on its outer side is made on the rod in the area of the finger rest, which is integral with the rod and parallel to the rod at a certain distance from it so that when the rod with the piston is placed in the cylinder in the working It is located on the outside of the cylinder wall and is located along it.

A significant disadvantage of the prototype [9] is the lack of the possibility of dosed extraction of the filling mass from the cylinder using a piston to fill the defect in the bone. In addition, it does not exclude the possibility of small fragments of the contents getting into the needle, and during blood sampling, into the blood vessel. Conditions are created for the ingress of small fragments between the walls of the cylinder and the piston. Possible violation of aseptic and antiseptic when removing the filling mass from the cylinder.

The objective of the proposed utility model is to eliminate the disadvantages of the prototype by creating a simplified design that allows metered extraction of the filling mass from the cylinder using a piston when filling a defect in the bone, to prevent small fragments of contents from entering the needle, and also between the walls of the cylinder and piston. Increase antimicrobial protection of the filling mass when removing it from the device.

A general view of the device and its individual fragments is shown in FIG. 1-5:

in FIG. 1 - general view of the device;

in FIG. 2 is a cross section (AA ¹ ) of the device at the level of the removable cover;

in FIG. 3 is a cross section (BB ¹ ) of the device at the piston level;

in FIG. 4- cross section (CC ¹ ) of the device at the level of the piston rod;

in FIG. 5 is a longitudinal sectional view of a removable cover with a protective net;

in FIG. 6 is a cross section of a sealing collar.

The design of the proposed device includes a tube (1) made of a transparent material, at one end of which there is a seal (2) made, for example, of Elastosil R Plus 4000/40 silicone rubber (50, 60, 70), for sealing a removable cover ( 3), which has a conical protrusion (4) under the needle, the cavity of which communicates with the cavity of the tube (1). At the other end of the tube (1) there is a palm rest (5). A piston (6) with a piston rod (7) is placed in the tube cavity (1), the free end of which is aligned with the finger rest (8). To prevent small fragments of contents from entering between the cylinder and piston walls, the perimeter of the piston working surface (6) is equipped with a sealing lip (9), which is made of an elastic material, for example, Elastosil R Plus 4000/40 silicone rubber (50, 60, 70), a cross-section in the form of a triangle with concave hypotenuse, one leg of which is rigidly aligned with the working surface of the piston (6) by means of a figured protrusion (Fig. 6) inserted into the groove in the wall of the piston (6), and the second leg is tightly and movably aligned with the inner wall tr ubki (1). To prevent small fragments of contents from entering the cavity of the conical protrusion (4), and from it into the needle (not shown conventionally) in the inner cavity of the removable cover (3), a semi-rigid filter (10) is inserted in the form of a bag made of a filter mesh made of an elastic polymer material e.g. microfilter made of needle-punched non-woven fabric.

The device is used as follows.

The size of the device corresponds to the amount of the drug, for example, “CollapAn”, crushed coral, etc., for the preparation of filling mass, taking into account the volume of the defect in the bone. The device is sterilized with the drug in a blister pack and is used once. To close the bone defect, take a device with the necessary mass of the drug based on the volume of the defect in the bone. A needle is put on the conical protrusion (4), and venous blood is taken from the patient, taking into account the amount of drug that must be immersed in the blood. Then, a cap is put on the needle, and the device is installed in a vertical position with the needle up. During the operation (after incubation of the filling mass) under sterile conditions, a removable cover (3) is removed from the device, and the filling mass is squeezed out by the piston into the bone defect.

The use of the proposed technical solution improves the method of preparation of the filling mass by simplifying its design, which allows you to dose the filling mass from the cylinder using a piston. The use of the device eliminates the ingress of small fragments of contents between the walls of the cylinder and the piston due to the presence of a sealing collar (9) and the ingress of small fragments of contents into the cavity of the conical protrusion (4), and from it into the needle due to the presence of a filter net in the removable cover (3). The use of the device allows to remove antimicrobial protection when removing the filling mass due to the possibility of extrusion by the piston.

Sources of information taken into account

1. Berchenko G.N., Kesyan G.A. Urazgildeev R.Z., Arsenyev I.G., Mikelaishvili D.S. A comparative experimental-morphological study of the influence of some calcium-phosphate materials used in traumatological and orthopedic practice on the activation of reparative osteogenesis // Bulletin of the East Siberian Scientific Center of the Siberian Branch of the Russian Academy of Medical Sciences. - 2006. - No. 4 (50). - from. 327-333.

2. Bushuev O.M. The use of CollapAn in the complex treatment of chronic osteomyelitis: author. dis. ... cand. honey. sciences. - Moscow, 1999 .-- 21 p.

3. Kesyan G.A., Berchenko G.N., Urazgildeev R.Z. et al. Combined use of platelet-enriched autoplasma and biocomposite collapan in the complex treatment of patients with long-term non-healing fractures and pseudoarthrosis of long bones of limbs // Bulletin of Traumatology and Orthopedics. N.N. Priorov. - 2011. - No. 2. - p. 26-32.

4. Patent SSHA 5785682, A61M 5/178, publ. 07/28/1998.

5. RF patent 2183111, A61J 1/06, publ. 06/10/2002.

6. RF patent 2246321, A61M 5/178, publ. 02/20/2005.

7. RF patent 2264231, A61M 5/178, publ. 11/20/2005.

8. Patent RU 2356508, A61B 17/56, publ. 05/27/2009.

9. RF patent 2530667, A61M 5/178, publ. 10/10/2014.

10. Cancer A.V. Surgical treatment of false joints of long tubular bones: abstract of thesis. for the degree of candidate of medical sciences. - Leningrad, 1974. - 17 p.

11. Sviridova I.K., Sergeeva N.S., Frank G.A., Teplyakov V.V., Kirsanova V.A., Akhmedova S.A., Myslevtsov I.V., Shansky Ya.D. Skeleton of natural coral sem. Acropora in replacing a bone defect in small and large laboratory animals // Cell Traumatology and Tissue Engineering. - 2010. - T. 5, No. 4. - p. 43-48.

12. Ternovoi K.S., Prokopova L.V., Aleksyuk K.P. Treatment of osteomyelitis in children. - Kiev: Health, 1979. - p. 131-132.

13. Urazgildeev Z.I., Bushuev O.M., Berchenko G.N. The use of the Valve for plastic osteomyelitis bone defects // Bulletin of Traumatology and Orthopedics. N.N. Priorov. - 1998. - No. 2. - p. 31-35.

Claims (4)

1. A device for preparing the filling mass to close the bone defect, including a cylinder and a rod with a piston, characterized in that it is made in the form of a tube of transparent material, at one end of which there is a sealant to seal a removable cap having a conical protrusion under the needle, a cavity which communicates with the tube, and at the other end of the tube there is an emphasis for fingers, and a piston is placed in the cavity of the tube, the working surface of which is provided with a sealing collar, while the piston has a piston rod with a stop finger on the free end, and in the inner space of the opening cover is semi-rigid bag filter in the form of the filter screen. 2. The device according to p. 1, characterized in that the sealing cuff is made of an elastic material, for example silicone rubber, and in cross section has the form of a triangle with concave hypotenuse, moreover, one leg is rigidly aligned with the working surface of the piston due to the protrusion inserted into the groove in the wall of the piston, and the second leg is tightly and movably aligned with the inner wall of the tube. 3. The device according to claim 1, characterized in that its size corresponds to the amount of the preparation for the preparation of the filling mass, taking into account the volume of the defect in the bone. 4. The device according to p. 3, characterized in that it is sterilized with the drug in a blister pack and is used once.

Images