RU206877U1 - Universal head morphometry device - Google Patents

Abstract

The useful model relates to measuring instruments in the field of medicine and can be used in anatomy to study the patterns of morphogenesis of organs and areas of the human head. A universal device for head morphometry, consisting of a square subject table, fixed on the table with metal corners with horizontally located screws for fixing the anatomical object, a transparent flat square frame with rulers on its sides, connected to the table at a height equal to the size of the table side, four screw rods; In this case, the measurements of the morphometric parameters of the anatomical object are carried out with a movable, removable cross-shaped ruler and a protractor, from the center of which a metal rod is lowered to the anatomical object through a cylinder with a measuring ruler. The advantage is that the measurements of a single anatomical object are carried out in three planes, as well as the ease of making and documenting the measurements.

Description

The useful model relates to medicine, in particular to anatomy, and can be used in scientific research to measure the morphometric parameters of anatomical preparations in order to study the macromicroscopic structure of the head. The device is offered as a utility model.

Scientific anatomical research of biological material includes obtaining a set of qualitative and quantitative characteristics of the investigated anatomical object. Quantitative methods, as more objective and accurate than qualitative ones, are based on the data of the recording equipment, which completely excludes the subjectivity of the researcher. The creation of a measuring device adapted to the study of isolated anatomical objects and having the ability to obtain a wide range of morphometric characteristics with graphic recording of the data obtained seems to be relevant for increasing the efficiency of anatomical studies.

State of the art.

The design of the devices in use for morphometry is simple and well known. The greatest difficulties are presented by the design of devices for morphometric studies of head structures.

A device for measuring facial parameters in dental practice (SU 1276337A1, ed. Pereverzev VA), publ. 12/15/1986 g.). The device consists of a holder made in the form of a frame with movable strips. The holder has guides equipped with a screw thread and connected with a movement mechanism made in the form of shafts. The shafts are equipped with a measuring tape. The holder is equipped with hinges, a ring and a retainer, which ensures the installation of the device in the required position relative to the measured element on the human face. The disadvantage of this technical solution is the limited range of measured parameters of the head, i.e. only face parameters can be measured in two planes.

Also known is a device for measuring the parameters of the face (SU 1560096 A1, publ. 30.04.1990, author: Dovbenko A.I.), designed to determine the constitutional type of the structure of the face by simultaneously measuring the required linear and angular parameters of the structure of the face. The device contains a holder installed in the area of the scalp, a hinge joint installed on the zygomatic arch in the area of the anterior sections of the tragus and strips, which are located in the temporal areas. The reading of the required parameters of the face is simultaneously taken using linear and goniometric scales. The disadvantage of this technical solution is the limited range of measured parameters of the head, i.e. it is possible to measure only two fixed parameters of the face, as well as an increased likelihood of displacements and distortions in the measurement process due to the location of the clamps in the same plane.

Known device for measuring the parameters of the skull (No. SU 381340, publ. Authors: Nikolaev VA, Sholomyantsev-Tersky OS 1973) for determining the angles of the elements of the skull, lying in the plane of symmetry relative to the Frankfurt horizontal, the device is made in the form four links, forming a rectangular frame, carrying one movable and two fixed clamps, and a measuring movable stand with a measured sector, equipped with replaceable contactors. The disadvantage of this technical solution is the limited range of measured parameters of the head, i.e. it is possible to measure only the angular parameters of the inner base of the skull, as well as the damageability of the measured object during its fixation due to the need for this implementation of fixing elements into the biomaterial.

The closest technical solution to the claimed one (prototype) is a stereocraniobasiometer (KU 2362506, authors: Bayrasheva L.Sh., Baratova I.G., Gorbov M.M., Kireeva E.M., Kolesnikov L.L., Lapteva O. O., Makeeva E.A., Rakhimov A.A., Trufanov I.N., Kharibova E.A., Tsybulkin A.G. 2009). The invention relates to measuring instruments in the field of medicine and can be used in anatomy when studying the patterns of morphogenesis of the human skull. The stereocraniobasiometer consists of two U-shaped frames, and the function of the lower frame is to fix it on the object, and a transverse rod is fixed on the side guides of the upper frame with the ability to move along them and a supporting vertically fixed caliper. U-shaped frames are connected to vertical posts, while the lower frame is made in the form of guides with the ability to move sagittal and frontal fixing spokes along them, and the ends of the spokes directed to the object are sharpened in the form of a cutter, at least on one of the side guides of the upper of the frame, a ruler is placed, the function of which is to determine the distance from the point of interest to the frontal plane (sagittal coordinates), on the transverse bar there is also a ruler on which a slider is installed, made with the ability to move in the frontal plane and allowing to determine the frontal coordinate of the point under study - its distance from the median plane, and a caliper is attached to the slider. The device allows you to determine the type of skull, the shape of the prearicular part of its base and the angle of inclination of the conditional horizontal plane to the plane of the Frankfurt horizontal; the device also allows one to effectively hold its entire structure in the tissues of the skull on the same spokes. The device also allows measurements on both macerated turtles and corpses during autopsy, without separating the head from the body. The disadvantage of this technical solution is the ability to measure the investigated point of the object only in the transverse plane (distance from the median line of the object), it is possible to determine the distance of the investigated point in depth from the Frankfurt horizontal, provided that the point is located on the median longitudinal line. The device is highly specialized, aimed at morphometry of craniometric parameters of the internal base of the skull. Damage to the measured object takes place during its fixation due to the introduction of fixing pins into the biomaterial.

The existing measuring devices for morphometry and study of the topography of anatomical objects have a number of disadvantages. Devices, as a rule, are highly specialized, aimed at measuring the parameters of one anatomical region. Allows measurements to be taken in one or two standard directions. Usually not intended for morphometry of isolated anatomical objects. The documentation of the obtained indicators is complicated due to the complexity of the description of the initial measurement points.

The purpose of creating a useful model of a universal device for morphometry was to create a structure that allows measurements of the linear parameters of various anatomical regions of the head in three specified planes, angular parameters in the horizontal plane with the ability to fix measurements on paper with a millimeter grid placed under the object under study.

The novelty of the device for head morphometry proposed by the authors is the versatility of the device and the fact that the system for fixing a biological object is simplified, an increase in the number of specified measurement planes to three is implemented, as well as graphical documentation of the contours of the object, measurement points and the results obtained on graph paper.

A significant difference is that measurements of an individual anatomical object are carried out in three planes (width, length, height), as well as the ease of making and documenting measurements.

Technical result: The proposed device allows making morphometric measurements of various anatomical areas of the head. In this case, the dimensions of the device are determined by the possible maximum dimensions of the investigated object. The device allows you to measure the linear dimensions of an object along the length, width, at an angle in the horizontal plane, the height of individual sections of the object's surface above the object table. The paper with a millimeter grid placed under the investigated object makes it possible to graphically record the contours of the object, the numbering and location of the initial measurement points, as well as to make notes indicating the measured parameters between specific points. Graphic fixation of the results of morphometry allows further measurements to be made on the resulting graphic image and its quantitative data.

The technical result is achieved in that the measurement is made between two different points of the surface of the anatomical object or its contours, while the metal rod is lowered to the first point, and the cross-shaped ruler above the object on a square frame above the object is set on one of its sides towards the second measurement point. The initial coordinates of the first point are determined on the rulers of the measuring frame and the cross-shaped ruler. Moving the metal rod to the second measurement point, determine its coordinates, use the cross-shaped ruler to determine the value of the measured distance between the points. The height of individual sections of the object's surface above the stage is determined by the vertical ruler and the position of the vertical metal rod of the device. Angular parameters are measured using a cross-shaped ruler and a protractor.

The contours of the object, coordinates and position of measurement points, their numbering, quantitative measurement results are recorded on graph paper placed under the object.

The primary documentation of measurements is presented on graph paper, where the points of interest are plotted on the image of the object along the coordinates, which allows repeated measurements between them without the anatomical object itself.

Technical description of the proposed device

A universal device for head morphometry (Fig. 1, 2, 3, 4, 5, 6), consisting of a square-shaped object table (1), fixed on the table with metal corners (4) with horizontally located screws (3) for fixing the anatomical object , a transparent flat square frame (14) with rulers and a protractor (7) on its sides, connected to the table at a height equal to the size of the table side by four screw rods (6); In this case, the measurements of the morphometric parameters of the anatomical object are carried out with a movable, removable cross-shaped ruler with a protractor (7) from the center of which a metal rod (11) is lowered to the anatomical object through a vertical cylinder (10) with a measuring ruler (12). The dimensions of the device are determined by the possible maximum dimensions of the investigated object. So, for example, a biological object of medium and small size (from 20 to 2 cm in length) is fixed on an object table (1) 25 × 25 cm in size, made of organic glass 1 cm thick and having four legs (2) of the same material, measuring 1 × 2 × 1 cm, fixed to it with waterproof glue. The fixation of the research object is carried out with two retractable threaded rods (3) 10 cm long and 10 mm in diameter, which are inserted into the holes (5) of the metal guide (4), and moving by rotation. The metal guides are fixed on the stage (1) by bolts (6) 5 mm in diameter with the bent end of the guide 2 × 2 cm at a distance of 20 cm from each other. They have additional holes (5) with corresponding threads. Metal guides measuring 2 × 0.3 × 12 cm, have 3 holes of the corresponding diameter, located at a distance of 3 cm, 6 cm, 9 cm from the stage for retractable rods (3).

Measurements are carried out with a movable, removable cross-shaped ruler with a protractor (7) measuring 3 × 1 × 39 cm, made of a single piece of transparent organic glass, with lines drawn along the length (8) 1.5 cm from the edge of the ruler with a protractor. In the center of the cruciform ruler with a protractor there is a hole (9) with a diameter of 10 mm with an inserted transparent cylinder (10) made of organic glass, 10 mm in diameter, 5 cm high.In the center of the cylinder (10) there is a hole with a diameter of 2 mm for a movable metal rod (11) and a slot for a transparent millimeter ruler (12) 1.5 × 8 cm. Objects (7), (10) and (12) are fixed to each other using waterproof glue. The rod (11) is made of metal 1.5 × 25 cm in size with sawn notches (13) at a distance of 10 mm from each other.

A movable cross-shaped ruler with a protractor (7) is located on a square measuring frame (14) having sides of 1 × 20 × 2 cm with millimeter markings applied to the upper surface. The measuring frame is fixed with bolts (6) to four metal guides (15). Metal guides (15) with dimensions of 2 × 0.3 × 20 cm are fixed to the stage (1) by bolts (6) with the bent end of the guide 2 × 2 cm at a distance of 20 cm from each other, and are located on one straight line with the metal guides (4 ) for retractable rods (3), removed from them by 7 cm. Metal guides (15) have three holes (16) threaded for bolts (6) at a distance of 5 cm, 10 cm and 18 cm from the stage (1). The holes (16) are intended for fixing the measuring frame (14) at different levels.

A universal device for head morphometry, consisting of a square subject table, metal corners with horizontally positioned screws for fixing an anatomical object, a transparent flat square frame with rulers on its sides and a movable cross-shaped ruler with a protractor with a measuring ruler and a metal rod is a single device.

FIG. 1 - Utility model drawing, front view

FIG. 2 - Utility model drawing, side view

FIG. 3 - Utility model drawing, top view

FIG. 4 - Utility model drawing, cylinder with ruler

FIG. 5 - Utility model drawing, rod

FIG. 6 - Drawing of a utility model, volumetric reconstruction

Implementation of the utility model (see Fig. 7, 8). The biological object of research is placed on the stage (1) and manually fixed with metal rods (3). The measuring frame (14) is fixed above the object at the level required for measurement with bolts (6). A cruciform ruler with a protractor (7) is placed on top of the frame. A rod (11) is inserted into the transparent cylinder (10). By moving the cross-shaped ruler with a protractor in the horizontal plane and lowering or raising the rod (11), the points between which measurements are taken are fixed. Measurements are taken using a millimeter ruler applied to the measuring frame (14). Measurements along the measuring frame (14) are carried out in two projections. Height measurement (third projection) is carried out by raising or lowering the rod (11). Measurements are carried out by the displacement of the sawn notches (13) on the rod (11) relative to the ruler (12) fixed to the transparent cylinder (10). Since the cross-shaped ruler with a protractor (7) moves freely relative to the measuring frame (14), measurements can be carried out in any part of the biological object.

Practical example

Male fetus, 18 weeks old (Figs. 7, 8, 9). By moving the rod between the upper and lower edge of the orbit, we obtain the height of the orbit - 13.2 mm (1-3, 5-7), moving the rod between the medial and lateral edge of the orbit, we obtain the width of the orbit - 13.2 mm (4-2, 8-6 ), moving the rod between the lateral edges of the orbit, we obtain an extraorbital size - 32 mm (4-6), moving the rod between the medial edges of the orbit, we obtain an intraorbital size - 7 mm (2-8). Examples of protocols and photographs of application are shown in FIG. 8 -15.

Thus, the proposed device makes it possible to simplify the morphometry procedure, expands the possibilities of morphometry (measurements can be carried out in various parts of a biological object, since it does not require binding to fixing points), and makes it possible to carry out measurements in three mutually perpendicular planes. Ease of assembly and disassembly of the structure allows you to freely transport this device.

When using the device, the following positive effects are provided:

in contrast to analog devices, measurements are carried out in three mutually perpendicular planes.

fixation of the object is possible in any position convenient for morphometry.

the points between which the measurements are taken are fixed with a metal rod, which allows more accurate measurements.

the device is mobile, which makes it easy to transport and mount it in the required place.

A universal device for head morphometry can be used in morphological laboratories.

Bibliography

1. Avtandilov G.G. Medical morphometry: A guide. -M. Medicine, 1990 .-- 384 p.

2. Patent SU 1276337 A1 "Device for measuring face parameters" (Author Pereverzev VA), 1986.

3. Patent SU 1560096 A1 "Device for measuring face parameters" (Author: AI Dovbenko, 1990),

4. Patent SU 381340 “A device for measuring the parameters of the skull (Authors: Nikolaev V.A., Sholomyantsev-Tersky O.S. 1973)

5. Patent RU 2362506 "Stereocraniobasiometer" (Authors: Bayrasheva L.Sh., Baratova I.G., Gorbov M.M., Kireeva E.M., Kolesnikov L.L., Lapteva OO, Makeeva E. A., Rakhimov A.A., Trufanov I.N., Kharibova E.A., Tsybulkin A.G. 2009).

Claims (1)

A universal device for head morphometry, which allows fixing morphological preparations of the head in the lower part of the device and taking measurements of the anatomical regions of the head using movable measuring elements, characterized in that the fixation of the anatomical object is carried out by horizontally located screws, which are fixed with metal corners on a square stage, connected with a table with a transparent flat square frame with rulers on its sides, using four screw rods at a height equal to the size of the table side, including a removable cross-shaped ruler with a protractor, from the center of which a metal rod is lowered to the anatomical object through a vertical cylinder with a measuring ruler to measure morphometric parameters of the anatomical areas of the head.

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