RU86093U1 - DEVICE FOR FACING BONE MARROW - Google Patents

Abstract

1. A device for harvesting bone marrow containing a tubular body with a cutting edge on the working end and the mandrel, characterized in that the handle is installed on the proximal end of the body, the working distal portion of the body is threaded, the cutting edge on the working end is gear, and the device is additionally equipped with a bone marrow sampling element placed in the body and made in the form of a rod with a handle at the proximal end and a working area at the distal end, made in the form of a spiral and equipped with In the first turn of the spiral with a cutting plate, the plate is made in the form of a triangle with pointed edges and with a base equal to 1/2 the diameter of the spiral coil, and is perpendicular to its longitudinal axis, while on the proximal section of the bone marrow sampling element, the scale for exiting its working distal section from corps. ! 2. The device for collecting bone marrow according to claim 1, characterized in that the thread on the working distal portion of the body is metric. ! 3. The device for collecting bone marrow according to claim 1, characterized in that the length of the thread in the distal portion of the body is 5-10 mm ! 4. The device for collecting bone marrow according to claim 1, characterized in that the length of the spiral in the distal portion of the bone marrow sampling element is 5-10 mm.

Description

The utility model relates to the field of medicine, and more specifically to surgical instruments used to collect bone marrow in hematology primarily from the ilium.

A device for taking bone marrow containing a suction line, a capacity for receiving the brain and a vacuum source (1).

The disadvantage of this device is the low reliability of the aspiration unit and trauma.

A device for taking bone marrow containing a suction line with an aspiration unit, a dispenser made in the form of a roller pump, a vacuum regulator and a preservative supply line (2).

The disadvantage of this device is the increased complexity of the design and the complexity of use.

Known surgical instrument containing concentrically arranged tubes with oblique sections at the working ends and equipped with fittings (3).

The disadvantage of this tool is the inconvenience and complexity of use.

A device for bone marrow biopsy is known, comprising a body, cannula, mandrin and a handle (4).

The disadvantage of this device is the complexity of use.

A device for collecting a bone graft is known, comprising a body in the form of a tube with a cutting edge and a side slot (5).

The disadvantage of this device is the complexity of taking bone marrow.

A device for taking bone marrow and intraosseous injection containing a body, cannula, a tubular needle with a hollow cylinder located in it, and a depth gauge for puncture (6).

The disadvantage of this device is the design complexity, inconvenience and complexity of use.

There is also known a device for taking bone marrow containing a tubular body made in the form of a needle with a cannula and a cutting edge at the working distal end, a mandrin and a mandrel-holder of the body (7).

The disadvantage of this device is the inconvenience and complexity of use.

The purpose of creating a utility model is to reduce the complexity and improve the usability of the device when taking bone marrow.

This goal is achieved by the fact that a handle is installed on the proximal end of the body, the working distal portion of the body is threaded, the cutting edge on the working end is serrated, and the device is additionally equipped with a bone marrow sampling element placed in the body and made in the form of a rod with a handle on the proximal end and the working section at the distal end, made in the form of a spiral and provided with a cutting plate on the first turn of the spiral, the plate is made in the form of a triangle with sharp edges and base equal to _^half the diameter of the spiral coil, and disposed perpendicular to its longitudinal axis, wherein the proximal portion of the bone marrow sampling member is formed scale output of its working the distal portion of the housing, the thread on the working distal portion of the housing configured metric, thread length at the distal the body section is 5-10 mm. The length of the spiral in the distal section of the bone marrow sampling element is 5-10 mm.

The utility model is illustrated by graphic material. Figure 1 shows the housing of the device; figure 2 shows the mandrin of the device; figure 3 shows the element of the bone marrow; figure 4 shows a device with a mandrin placed in the housing. Figure 5 shows a device with a bone marrow collection element placed in the housing in the working position; figure 6 shows a view along arrow "A" in figure 3 (enlarged).

Comparison of the proposed device with other well-known in the field of medicine, showed its compliance with the criteria of a utility model.

The proposed device for the collection of bone marrow contains a tubular body 1 with a handle 2 at the proximal end 3 and with a toothed cutting edge 4 at the distal end 5. The working distal end 5 of the housing 1 is made on the outer surface with a cylindrical thread 6 on a length of 5-10 mm. The device is equipped with a mandrel 7 placed in the housing with a pointed end 8 and a handle 9. It is also equipped with a bone marrow sampling element made in the form of a rod 10 with a handle 11 at the proximal end, and with a working section at the distal end made in the form of a spiral 12. Spiral 12 equipped with a cutting plate in the first coil of the spiral, made in the form of a triangle 13 with pointed edges 14 and with a base 15 equal to ^1/2 _{of the} diameter of the coil of the spiral 12 located perpendicular to its longitudinal axis. At the proximal portion of the rod 12, a scale 16 is made for the outlet of its working distal portion from the housing 1. The length of the spiral 12 on the bone marrow sampling element is 5-10 mm with a spiral pitch of 2-3 mm.

A device for collecting bone marrow from the pelvic bones is used as follows:

All elements of the device are sterilized by a known method. Bone marrow is harvested under operating conditions in compliance with aseptic rules. The skin is dissected above the site of the proposed bone marrow harvest at a distance of 0.5-1.5 cm. Mandrin 7 is placed in the body 1 and its pointed end is supported in the bone tissue. Rotary-translational movement of the handle 2 introduce the distal end 5 of the housing 1 into the bone tissue. In this case, the toothed cutting edge 4 is embedded in the bone. Due to the presence of a cylindrical thread 6 in the distal portion 5 of the housing 1, it is screwed into the bone tissue and reliably fixes its position. Remove the mandrin 7 from the housing 1, in which the bone marrow sampling element is placed. Using the rotary-translational movement of the handle 11, the working end of the spiral 12 is inserted into the bone marrow tissue. When the spiral 10 is rotated, the cutting insert plate 13 cuts off the bone marrow tissue that is collected inside the spiral 12 with its pointed edges 14. The movement of the spiral into the brain tissue is controlled on a scale 16, located at the proximal end of the rod 10. Upon reaching the specified depth and taking the required amount of bone marrow, the rotation of the rod 10 is stopped and removed from the body 1. The resulting bone marrow is taken and helix 12. If necessary, the process of introducing a spiral and repeated sampling bone marrow. Case 1 is unscrewed from bone tissue. If the edges of the skin wound do not close spontaneously, then they are connected with one seam or strip of sticky patch.

The presence of thread 6 on the housing 1 allows you to rigidly fix the housing 1 in the bone, to eliminate the displacement of soft tissues in the channel.

A new constructive implementation of the bone marrow sampling element makes it possible to simplify the whole process, reduce its laboriousness and invasiveness, and also reduce the operation time.

The proposed device can and should be used in hematological units of medical institutions for bone marrow collection.

Information sources

1. USSR Copyright Certificate No. 487642, cl. A61M 1/00, 1973

2. USSR author's certificate No. 768400, cl. A61M 7/60, 1980

3. USSR copyright certificate No. 374078, cl. A61B 17/34, 1971

4. US patent No. 3893445, CL. 128-2, 1975

5. RF patent No. 2110223, cl. A61B 17/16, 1998

6. USSR copyright certificate No. 548271, cl. A61B 17/34, 1977

7. USSR author's certificate No. 762889, cl. A61M 1/00, 1980.

Claims (4)

1. A device for harvesting bone marrow containing a tubular body with a cutting edge on the working end and the mandrel, characterized in that the handle is installed on the proximal end of the body, the working distal portion of the body is threaded, the cutting edge on the working end is gear, and the device is additionally equipped with a bone marrow sampling element placed in the body and made in the form of a rod with a handle at the proximal end and a working area at the distal end, made in the form of a spiral and equipped with In the first turn of the spiral with a cutting plate, the plate is made in the form of a triangle with pointed edges and with a base equal to 1/2 the diameter of the spiral coil, and is perpendicular to its longitudinal axis, while on the proximal section of the bone marrow sampling element, the scale for exiting its working distal section from corps. 2. The device for collecting bone marrow according to claim 1, characterized in that the thread on the working distal portion of the body is metric. 3. The device for collecting bone marrow according to claim 1, characterized in that the length of the thread in the distal portion of the body is 5-10 mm 4. The device for collecting bone marrow according to claim 1, characterized in that the length of the spiral in the distal portion of the bone marrow sampling element is 5-10 mm.