RU2113701C1 - Method for producing preparations for examining microscopic structure of bone tissue - Google Patents

Abstract

FIELD: medicine. SUBSTANCE: method involves examining bone block or bone fragment having its surface polished and roasted on heated metal plate to brown or red color under microscope. EFFECT: simplified and reliable method. 2 dwg

Description

 The invention relates to medicine, namely to the study of bone morphology. It is promising to use it in forensic expert practice for the production of forensic identification examinations of bone remains.

 Currently, there is a method of complex X-ray diffraction and microscopic examination of bone tissue, which consists in the manufacture of bone thin sections 120-150 microns thick, their contact X-ray diffraction, subsequent decalcification in Wilenson acid-formalin-salt solution and microscopic examination of enlightened preparations [1].

 The method is expensive, time-consuming, requires special equipment and training of the researchers themselves.

 The aim of the invention is the creation of an accelerated, simple and reliable method for preparing bone preparations for microscopic examination and determining the level of mineralization of bone structures.

 This goal is achieved by calcining the polished surface of the bone block or bone fragment on a heated metal plate to brown or red.

 The proposed method is as follows.

 Washers or blocks are cut out of bone objects at a selected level in any way possible: by an electric milling cutter, a saw, a jigsaw, etc. The desired surface of the obtained bone preparation is ground in water on waterproof sanding paper or on other materials with abrasive properties, until there are no furrows and scratches on its surface when examined under a microscope. After that, the bone preparation is laid with a polished surface on a flat, smooth metal plate (bar), which is installed on the heated surface of the electric stove (figure 1). Bringing the color of the studied surface to the desired with constant visual control, the drug is left until it cools completely. After that, it is brought to a mirror shine by grinding on paper, suede, felt, etc.

 The study of the microscopic structure of the studied sample is carried out in reflected light under a MBS microscope or under a conventional biological microscope with an OI-19 type illuminator. Quantitative parameters can be estimated using a grid-tablet with a division price of 1 mm, which is available in the MBS-9 microscope kit, or a regular eyepiece-micrometer.

 The mechanism of the "manifestation" of the contours of the microscopic structures of bone tissue is due to the fact that upon calcination the organic component of the bone, burning and compacting under the influence of concentric compression forces, changes its color and optical properties (transparency). In the stage of brown bone heat, conditions are created for determining the degree of mineral saturation of osteon structures. Young, low-mineralized forms of osteons look darker against the general background, osteons of a high degree of density have the same color as the background, and osteons of medium density occupy an intermediate position between them.

 It is possible to determine the degree of mineral saturation with gray red-hot bones. In this case, the standard of optical density can be highly mineralized insertion systems of bone tissue.

 As an example, we cite a case from expert practice (examination 380 of 15/11-1993).

 Traces of blood and small fragments of the bones of the cranial vault were found at the crime scene. To determine the species and age of the presented objects, preparations were prepared according to the proposed methodology. For this, the objects were cleaned of foreign impurities, the remnants of soft tissues and periosteum. Degreasing was carried out by boiling in water for 5 minutes. After cooling, the side surfaces of the fragments were sanded in water on waterproof sanding paper until there were no grooves and scratches on the surfaces to be examined under visual inspection under a microscope. The dried preparations were mounted with polished surfaces on a smooth metal plate, which in turn was placed on the heated surface of the electric stove. The preparation was calcined to brown, then, after cooling, it was smoothed on a sheet of paper to a mirror shine. Its study was carried out in reflected light under an MBS-2 microscope. At the same time, the qualitative and quantitative parameters of the osteon organization and the level of its mineralization were found to be characteristic of human bone tissue aged 17-25 years (figure 2).

 Using the proposed method for the study of bone tissue is much simpler, more reliable and more affordable than the existing one, reduces the time of research and significantly reduces economic costs. The method can be used for research purposes and in everyday medical practice.

Claims (1)

 A method of preparing preparations for studying the microscopic structure of bone tissue, including the manufacture of bone sections with their subsequent microscopy, characterized in that they examine a bone block or a fragment of bone, the polished surface of which is calcined on a heated metal surface to brown or red.

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