RU2464646C2 - Deep-etching method - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: solution containing the following ingredients is prepared: 40% fluohydric acid 220 g; zinc metal 100 g; ethylene glycol 800 g. A bone block with accepted titanium and titanium nickelide implants are immersed into the prepared solution.

EFFECT: method enables improving the studying of bony tissue growth processes inside of the porous implants.

Description

The invention relates to medicine, namely to histology and pathomorphology.

The study of bone morphology is still one of the most difficult tasks of histology and pathomorphology. Since bone, along with dentin and enamel, is a mechanically strong substance, the preparation of histological preparations requires mandatory preliminary decalcification. However, this method cannot be used to study the processes of osseointegration in the porous structure of implants. The method of choice in such cases is the manufacture of thin sections. The technical complexity of the manufacturing procedure of sections of the implant sections (thin sections) and the small pore diameter, which impedes analysis using a light microscope, do not allow a complete analysis of the biological processes occurring inside the porous nickelide titanium implant after the implant is inserted into the bone bed.

Bone, along with dentin and enamel, is a mechanically strong substance and the method of choice for the preparation of histological preparations in such cases is the manufacture of thin sections. The technical complexity of the procedure for manufacturing sections of sections (sections) of the implant and the small pore diameter makes it difficult to analyze using a light microscope and does not allow a complete analysis of the biological processes occurring inside the pores of porous implants after installing them in the bone bed.

Various etching methods are known.

A method and device for the regeneration of solutions used for metal etching (patent No. 2330902 RU, 2008.08.10), which increase the degree of regeneration of etching acids of solutions. The method includes the conversion of acids into their metal salts, the allocation of water from the obtained, the supply of a concentrated solution of metal salts for processing by the thermal method to obtain metal oxides and free acids.

Method and device for etching metal alloy products in the absence of nitric acid and for regeneration of spent solutions produced after etching (patent No. 99120294, 2001.07.10), comprising the step of immersing the product to be etched in an aqueous solution of sulfuric acid, hydrofluoric acid.

A solution for etching coatings of titanium nitride (No. 2015979, 1994.09.15), the essence of which is a solution for etching coatings of titanium nitride, containing,%: hydrofluoric acid 20-25, nitric acid 20-25, sulfuric acid 25-30, peroxide hydrogen 25-30.

The aim of the present invention is the possibility of studying the processes of bone tissue regeneration within the pores of porous titanium or nickel-titanium implants.

The essence of the present invention lies in the fact that the bone block containing the porous implant is placed in a special solution for deep etching of titanium:

40% solution of hydrofluoric acid 220 g zinc metal 100 g ethylene glycol 800 g

As a result of such chemical activation, after 7 days, the object of study becomes soft, and the scalpel freely passes through the implant. Then the bone block is washed in running water, paraffin sections are made according to the standard method, stained and histological specimens are examined under a light microscope.

The advantage of the deep etching technique according to Mirgazizov is that it allows for a deeper and more complete analysis of bone tissue regeneration processes within the pores of porous implants.

Claims (1)

The method of deep etching of bone blocks with implanted implants made of titanium and titanium nickelide, which consists in preparing a solution with the following ingredients, g:
40% solution of hydrofluoric acid 220 zinc metal one hundred ethylene glycol 800
and a bone block with implanted titanium and titanium nickelide implants is lowered into the prepared solution.