RU211694U1 - Shaftless endoprosthesis of the shoulder joint - Google Patents

Abstract

The utility model relates to medical equipment, namely to endoprostheses, and can be used in traumatology and orthopedics. The technical result consists in reducing the probability of rejection of the endoprosthesis by the tissues of the human body. The technical result is achieved by the fact that the rodless endoprosthesis of the shoulder joint, consisting of a head made in the form of a spherical segment with a base and a pyramidal protrusion extending from the base made in one piece with the head, the base of which is made in the form of a polygon, unlike the prototype, is made of ceramic based zirconia.

Description

The utility model relates to medical equipment, namely to endoprostheses, and can be used in traumatology and orthopedics.

The difficulty of replacing the shoulder joint lies in the fact that during this type of surgical operation it is necessary to take into account two mutually exclusive factors: to maintain high mobility of the shoulder joint in different planes and, at the same time, to install the endoprosthesis on a small amount of bones that form the shoulder joint.

There are many options that solve this problem. For example, the Biomet Total Evolutive Shoulder System (TESS, Biomet, Warsaw, IN, USA); short prosthesis without stem Mathys Affinis (Mathys, Betlach, Switzerland); rodless prosthesis of the shoulder joint Arthrex Eclipse (Arthrex, Naples, USA); the ECLIPSE™ shoulder prosthesis is (hemiprosthesis); Simpliciti prosthesis (Tornier, Bloomington, Minnesota, USA), Nael Hawi, Mark Tauber, Michael Joseph Messina, Peter Habermeyer & Frank Martetschläger "Anatomic stemless shoulder arthroplasty and related outcomes: a systematic review", https://rdcu.be/ctMAq ; Aydin Budeyri, MD, FEBOT, Raffaele Garofalo, MD, and Sumant G. Krishnan, MD "Glenohumeralosteoarthritisinyoungpatients: Stemless total shoulder arthroplasty trumps resurfacing arthroplasty - Affirms", https://www.jsesarthroplasty.org/article/S1045-4527(17 )30086-X/fulltext.

A device for total shoulder arthroplasty to recreate the anatomical proximal configuration of the humerus is known (application for invention WO 02/17822 A1; IPC: A1F2/40; 07.03. a cut shoulder surface, wherein the head of the humerus includes a base including a rotation-stabilizing extension of the base protruding from it to strike the spongy region of the cut shoulder surface, while the protruding part of the base includes one or more ribs to stabilize rotation.

Recently, in the world and domestic orthopedic practice, the manufacture of endoprostheses based on CAD/CAM (Computer-AidedDesign / Computer-AidedManufacturing) data, in particular from ceramics, including zirconium dioxide, has become widespread. Ceramics has been used in dentistry for a long time, but since there is a need for this material in the restoration of bone defects in human tissues in case of injuries or oncological diseases, ceramics have begun to be widely used for endoprosthetics.

The technical result of the claimed utility model is to reduce the likelihood of rejection of the endoprosthesis by the tissues of the human body.

This technical result is achieved by the fact that the rodless endoprosthesis of the shoulder joint, consisting of a head made in the form of a spherical segment with a base and a pyramidal protrusion coming out of the base made in one piece with the head, the base of which is made in the form of a polygon, unlike the prototype, is made of ceramic on based on zirconia.

The utility model is illustrated by figures.

In FIG. 1 shows a general view of a rodless shoulder endoprosthesis made of ceramic based on zirconium dioxide, where 1 is the head of the prosthesis, made in the form of a spherical segment, with a base 2, 3 is a pyramidal protrusion on the base of head 2, 4 is the base of the pyramidal protrusion 3, made in the form of a polygon.

In FIG. 2 shows a view from the endoprosthesis protrusion, where 2 is the base of the endoprosthesis head, 3 is a pyramidal protrusion with a base in the form of a polygon 4.

As shown in figures 1 and 2, a rodless shoulder joint endoprosthesis made of ceramic based on zirconium dioxide is made with a head 1 made in the form of a spherical segment having a base 2. On the base of the head there is a pyramidal protrusion 3, the base of which is made in the form of a polygon four.

A rodless shoulder endoprosthesis made of zirconia-based ceramics is used as follows. After access to the joint from the anterolateral surface of the humerus, resection is performed along the anatomical neck of the humeral head. After making sawdust in its center, grooves are formed with the help of an original punch having special cutting edges. Then, by hammer blows on the impactor, the endoprosthesis is implanted until the base of the spherical segment of the prosthesis head comes into contact with the cancellous bone. The wound is sutured in layers and a bandage is applied with soft fixation of the shoulder joint. The endoprosthesis is installed in the shoulder joint and, due to its design features, allows maintaining the physiological range of motion.

At the same time, ceramics based on zirconium dioxide, having proven itself very well in dentistry as a biocompatible material with high impact resistance, has significant advantages as a material for endoprosthetics. Currently, 3D printing technologies (additive technologies) are actively used in orthopedic practice in the manufacture of endoprostheses. In the invention RU 2741918 C1, which discloses a method for producing biocompatible porous ceramics based on zirconium dioxide for endoprosthetics (IPC: C04B 35/488, C04B 35/626, C04B 38/06, B82Y 40/00; 06/29/2020), the possibility of long-term operation is noted ceramic elements "under the influence of chemically aggressive environments and elevated temperatures without degradation of properties ... The attractiveness of ceramics based on zirconium dioxide for medical applications in comparison with metals and polymers is due to the exceptional chemical inertness, high strength and good compatibility with the human body.".

Due to the fact that, unlike the prototype, the material for manufacturing in the claimed utility model of a rodless endoprosthesis of the shoulder joint is ceramics based on zirconium dioxide, which “is the closest analogue of human bone tissue” (V. Komlev, “Medical ceramics: what will be the implants of the future ?”, https://postnauka.ru/faq/101063), and the strength of ceramics based on zirconium dioxide is comparable to human bone tissue and at the same time has such a property as bioinertness, the risk of endoprosthesis rejection by human tissues is minimal, which ensures the achievement the claimed technical result.

The variants of the utility model with trabecular execution of the surfaces of the base of the endoprosthesis head and the pyramidal protrusion contribute to more efficient osseointegration of the endoprosthesis, which is an additional advantage of the claimed utility model.

Claims (3)

1. Rodless endoprosthesis of the shoulder joint, consisting of a head made in the form of a spherical segment with a base and a pyramidal protrusion extending from the base of the head, made in one piece with the head, the base of which is made in the form of a polygon, characterized in that the endoprosthesis is made of ceramic based on zirconium dioxide . 2. Rodless endoprosthesis of the shoulder joint according to claim 1, characterized in that the surface of the base of the head is made trabecular. 3. Rodless endoprosthesis of the shoulder joint according to claim 2, characterized in that the surface of the pyramidal protrusion is made trabecular.

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