RU2704114C1 - Method of producing a mineral-organic component of bone tissue - Google Patents

Abstract

FIELD: biotechnology; medicine.

SUBSTANCE: invention relates to biotechnology and medicine, namely to methods of producing a mineral-organic component of bone tissue, and can be used in regenerative surgery of supporting tissues for restoration and repair of their defects, as well as for preventing and treating osteoporosis. Method of producing a mineral-organic component of bone tissue is as a raw material used is a saline solution, which is a waste product of bone grafts formed after demineralization of human bone tissue, which is filtered through a paper filter, is neutralized, bringing its pH to 7.2–7.4; formed after neutralization of sediments is separated by centrifugation, washed with distilled water, after which it is again centrifuged and washed with water and phosphate buffer with pH 7.4±0.5 for 30 minutes, then washed three times with water, wherein demineralization is performed with human working tissue; after washing three times with water, obtained material is frozen at temperature of -50 °C, then lyophilized and divided into two fractions in ratio 1:1; one of the fractions is ground on a ball mill, then both fractions are uniformly mixed, packaged and sterilized by a radiation method.

EFFECT: technical result consists in optimization of production process, reduction of time and labor costs to produce a product with good regenerative potential in clinical use.

1 cl, 2 ex

Description

The invention relates to biotechnology and medicine, and in particular to methods for producing the mineral-organic component of bone tissue, and can be used in regenerative surgery of supporting tissues to repair and repair their defects, as well as for the prevention and treatment of osteoporosis.

A known method of manufacturing a bone substitute material In this method, hydroxylapatite from natural bone material is obtained by destroying the organic components of the bone material, followed by strengthening and bringing to the ceramic structure of the material by sintering [1].

The disadvantage of this method is the rough processing of biomaterial with a loss or a sharp decrease in the production process of its osteoinductive and osteoconductive properties.

There is a method of obtaining a mineral-organic component of bone tissue, which consists in the fact that the raw material used is a saline solution, which is a waste product of bone transplants, formed after demineralization of human bone tissue, which is filtered through a paper filter, neutralized, bringing its pH to 7.2 -7.4; the precipitate formed after neutralization is separated by centrifugation, washed with distilled water, then centrifuged again and washed with water and phosphate buffer with a pH of 7.4 ± 0.5 for 30 min, then washed three times with water and the precipitate is heat treated in an thermostat at 120-140 ° C for 3-3.5 hours [2]. This method is taken by us as a prototype.

The disadvantage of this method is that as a source of bone material for demineralization are human cadaveric tissue. This requires the organization of a cycle for the selection and examination of optimal healthy cadaver donors, the work of specialists in the collection and further transportation of material to production. Long-term heat treatment in a thermostat at 120-140 ° C is proven to destroy the organic components of the biomaterial. The uniformity of particle sizes of bone material when used in a clinic can cause early resorption of the material, without regeneration of its own tissue sufficiently pronounced by this time, which reduces the effectiveness of its use.

The aim of the invention is to provide a method for producing a mineral-organic component of bone tissue.

This goal is achieved by the fact that the waste operational material of the supporting human tissues is subjected to demineralization; after washing three times with water, the resulting material is frozen at a temperature of -50 ° C, then lyophilized and divided into two fractions in a ratio of 1: 1; grind one of the fractions in a ball mill, then both fractions are uniformly mixed, packaged and sterilized by the radiation method.

The use of operative material of supporting tissues is the use of material of the examined living patient. This does not require the organization of a cycle for the selection and examination of optimal healthy donors, cadavers, the work of specialists in the collection of material.

The surgical material of supporting tissues, such as the heads of the femur and the ends of the femur and tibia after joint replacement, limbs after traumatic amputation, fingers after polydactyly operations, etc. are available and unclaimed material.

The absence in the production cycle of heat treatment of the material on the thermostat helps to prevent the destruction of its structure, in particular, parts of important organic components. While the lyophilization process does not have such a destructive effect on the components of the biomaterial.

Obtaining bone material with different-sized particles after grinding one of its fractions in a ball mill, after applying it in clinical practice, allows prolonging the bioresorption process of the material, they optimize the process of regeneration of their own tissue. In the case of using the material for the treatment of osteoporosis, the larger particles become a kind of depot, more slowly releasing the necessary substances.

The method is implemented as follows. Saline solution is used as a feedstock, which is a waste after demineralization of the surgical material used for supporting human tissues, for example, the heads of the femur and the ends of the femur and tibia after joint replacement, limb bones after traumatic amputation, phalanx of the fingers after polydactyly operations, etc. . The solution is filtered through a paper filter, neutralized, bringing its pH to 7.2-7.4; the precipitate formed after neutralization is separated by centrifugation, washed with distilled water, then centrifuged again and washed with water and phosphate buffer with a pH of 7.4 ± 0.5 for 30 minutes. After an additional three times washing with water, the resulting material is frozen at a temperature of -50 ° C, then lyophilized and divided into two fractions in a ratio of 1: 1. One of the fractions is grinded in a ball mill, then both fractions are uniformly mixed, packaged and sterilized by the radiation method.

The method is illustrated by clinical examples.

Example 1. Patient M, 55 years old, orthopedic department of a hospital with a diagnosis of Deforming right-sided coxarthrosis of stage 4, fully examined (without any dangerous infectious diseases and other contraindications to donation of bone material) underwent surgery - total endoprosthetics of the right hip material . The intraoperatively obtained scrap material, the resected femoral head, was appropriately transported to the production of bone bioimplants, where, according to the proposed method, it was used to make a bone tissue component.

Example 2. Patient N., 45 years old, came to the clinic with complaints of difficulty chewing food. Categorical refusal to use a removable denture. Objectively: partial absence of lower jaw teeth, Kennedy class II (35, 36, 37, 38 absent), significant and uneven atrophy of the bone tissue of the alveolar bone. Teeth removed at the age of 15-23 years. The patient underwent plastic alveolar bone of the jaw using the combined method using bone powder obtained from demineralized bone tissue by the proposed method. In the postoperative period, no complications were observed. The performed control studies showed the formation of high-quality bone tissue in the plastic area, which allowed the patient to install dental implants.

The proposed method for producing the mineral-organic component of bone tissue significantly optimizes the production cycle, reduces time and labor costs, making it possible to obtain a product with good regenerative potential in clinical use.

1. RF patent for the invention No. 2062622 "Material substitute for bone substance, 1996, MERC PAENT GMBH.

2. RF patent for the invention No. 2168998 dated 06/20/2001 "Method for producing allogeneic hydroxylappatite."

3. RF patent for the invention No. 2616337 dated 04/14/2017 "Method of plasty of the alveolar ridge of the jaw."

Claims (1)

A method of obtaining a mineral-organic component of bone tissue, which consists in the use of a saline solution, which is a waste product of bone transplants, formed after demineralization of human bone tissue, which is filtered through a paper filter, neutralized, bringing its pH to 7.2- 7.4; the precipitate formed after neutralization is separated by centrifugation, washed with distilled water, then centrifuged again and washed with water and phosphate buffer with a pH of 7.4 ± 0.5 for 30 minutes, then washed three times with water, characterized in that the waste operating material is subjected to demineralization human tissues; after washing three times with water, the resulting material is frozen at a temperature of -50 ° C, then lyophilized and divided into two fractions in a ratio of 1: 1; grind one of the fractions in a ball mill, then both fractions are uniformly mixed, packaged and sterilized by the radiation method.