RU2632523C2 - Craniometer - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: craniometer has a ring-limb with a semi-ring with a movable carriage fixed to it in the frontal plane, and is fixed above the base platform. Measuring devices are mounted on the movable half-ring carriage, and have a body with a spring loaded movable rod, the outer end of which is provided with a stop, and the inner end is combined with a curvimeter. The ends of a measuring ruler are fixed to the curvimeter and rod stop. A screw jack is fixed on the base platform, so that its vertical axis coincides with the axis of the shaft of the step motor located on the movable platform. The step motor shaft is combined with the centre of the movable tablet, with a craniophor installed thereon. The cross-section of the curvimeters circumference rings is made in the form of an elongated ellipse. Distal points of the bypass rings are oriented along a vertical central axis drawn through the centre of the movable plate. The bypass ring of the mobile measuring device curvimeter is exposed on a conditional horizontal line passing through the external ear canals. Rod cross section is congruent with the configuration of the through hole in the measuring device body, which prevents its rotation around its own axis, but does not prevent its translational movement.

EFFECT: increased accuracy of measurements during skull study for possible comparison of cranial indices in the group of skulls studied, determination of the coordinates of skull shape asymmetry localization, cranial vault angular diameters and length of the perimeter and part of the perimeter between the fixed points of cranial vault diameter angular measurement.

4 cl, 2 dwg

Description

The craniometer relates to medicine, in particular to anatomy, anthropology, forensic medicine, forensics, and can be used in scientific research to study the human skull.

Known devices for measuring the skull (craniometers, goniometers, etc.) are presented from simple and generally accepted devices in the form of various designs, for example, calipers, articulated goniometers, portable tablets and planar measuring instruments for cranial cavities [2-10] to complex devices using laser technologies [11].

The disadvantage of analogues is that primitive designs have an error in measuring the perimeter and linear dimensions of the skull, and devices that provide high accuracy of measurement have a complex structure and high costs for their production. In addition, most of the analogues do not allow to reveal the asymmetry of the shape of the skull with its angular coordinates.

The prototype of the invention is a craniometer according to the Copyright Certificate of the USSR No. 133552, 30a4 ₀₆ , publ. 01/01/1960 [1], which is represented by a common base and a rotary ring-limb fixed to it. A carriage with a sliding measuring ruler moves along the limb ring. The craniometer has a craniophore with skull-holding rods. The craniophore is mounted on a swivel bracket inside the limb ring and can rotate around a vertical axis and move in the vertical and horizontal directions perpendicular to the plane of the limb ring.

A positive effect of the prototype is the ability to examine the skull in three projections with obtaining data for calculating the points of the middle outline of the skull.

The disadvantage of the prototype is the inability to identify the asymmetry of the shape of the skull with its angular coordinates and low measurement accuracy, which excludes the comparability of cranial indices in the group of studied skulls.

The objective of the invention is to increase the accuracy of measurements in the study of the skull for possible comparison of cranial indices in the group of studied skulls, to determine the coordinates of the localization of the asymmetry of the shape of the skull, the angular diameters of the cranial vault and the length of the perimeter and part of the perimeter between fixed points of the angular measurement of the diameter of the cranial vault.

The task is realized in that the craniometer, the design of which is shown in figures 1 (top view) and 2 (front view), contains: a measuring device (1); craniophore with its rotating device (2); lifting device, e.g. screw jack (3).

The measuring device (1) has a body (4) with a spring-loaded spring (5) rod (6) placed in a through hole in the housing (4), the shape of which is congruent with the cross section of the rod (6), which prevents the rod from rotating around its own axis, but does not impede its forward movement. The outer end of the stem (6) is equipped with a limiter (7), and the inner end is aligned with a curvimeter (8), the bypass ring (9) of which has a cross section made in the form of an elongated ellipse for better adaptation to the complex relief of the skull surface. The ends of the measuring line (10) are fixed on the limiter (7) and the curvimeter (8), and the sighting device (11) is fixed on the housing (4) of the measuring device. The housing 4 of the measuring device (1) is rigidly connected to the bed (12), which can be made in the form of a limb ring or part thereof and with pins (13) is rigidly fixed to the base platform (14) of the craniometer.

The craniophore (2) has two pillars (15) with clamps (16) for the external auditory canal and clamps (17) for the upper jaw, which are placed at different levels relative to each other and can be moved by a mechanism (not shown conditionally) in horizontal and vertical directions for the correct orientation of the skull in the Frankfurt horizontal and alignment of the craniometric vertex point with the perpendicular axis drawn through the center of the lower surface of the mobile tablet (18), which coincides with the center of the circle depicted on it (19) with lines indicating the diameter to determine the angle of rotation of the movable tablet (18). Moreover, the vizier (11) fixes on the ruler (10) the distance of the bypass ring (9) from the axis of the center of the circle (19) on the surface of the movable tablet (18), on which the bases of the uprights (15) are fixed. The center of the bottom surface of the movable tablet (18) is rigidly connected to the shaft (20) of the stepper motor (21), mounted on the platform (22), which can move progressively up or down along the vertical slide (23) due to the translational movement of the head of the internal screw (24) ) jack (25), which is rigidly fixed to the base platform (14). The vertical axis of the internal screw (24) of the jack (25) coincides with the axis of the shaft (20) of the stepper motor (21), the control unit of which (not shown) provides automatic circular movement of the movable tablet (18) according to a predetermined program.

On the bed (12), a half ring (26) is fixedly fixed perpendicularly in the frontal plane, on the outer end surface of which there are grooves (27) to limit the movement of the carriage (28) along the half-ring (26) when measuring the skull. The housing (4) of the measuring device is rigidly fixed to the carriage (28), the design of which is similar to the measuring device (1), rigidly connected to the bed (12). The distal point of the bypass ring of the curvimeter of the measuring device mounted on the carriage (28), when set to 0 °, reaches the conditional horizontal line passing through the external auditory canals, which indicates the height of the skull on the measuring line.

Example of measuring the skull using a craniometer: the skull is oriented in the Frankfurt horizontal with the alignment of the bypass wheel (9) of the measuring device mounted on the carriage (28) with the craniometric vertex point, which is aligned with the perpendicular axis drawn through the center of the lower surface of the tablet (18) and fixed in craniophore (Fig. 2). Using a lifting device, the craniophore rises or falls to the level of alignment of the craniometric point of the glabella with the bypass wheel (9) of the curvimeter (8) of the measuring device (1) located on the bed (12). Determine the longitudinal diameter of the skull between the craniometric points of the glabella and opistocranion. Then determine the transverse diameter of the skull between the craniometric points of the eurion of the right and left sides and the length of the part of the perimeter of the skull between the craniometric points of the glabella and eurion. The cranial index is calculated to determine the shape of the skull. Then, the length of the part of the perimeter of the cranial vault between the craniometric points of the eurion of the right and left sides is determined by moving the carriage 28 with the measuring device along the half ring-limb (26). Measure the length of the perimeter of the cranial vault with a measuring device (1) by rotating the tablet (18) 360 °. The received data is entered into the table. If it is necessary to compare several skulls, additional measurements of the diameter of the cranial vault are carried out at the same angles of rotation with a stepper motor. The cranial index is calculated for each measurement, and the length of the left and right halves (radii) of the diameter and the length of the part of the perimeter of the cranial vault between fixed measurement points in the horizontal and vertical (angular) planes are compared. The data obtained are entered into the table, graphs are constructed for the length of the diameter and part of the perimeter of each angular deviation.

The positive effect of craniometric measurements using the proposed craniometer, along with a possible study of the skull in three planes, is as follows.

1. Increases the accuracy of planar measurements of the length of the part and the entire perimeter of the cranial vault, taking into account the angle of rotation around the axis of the vertex.

2. The ability to measure not only the length of the diameter of the cranial vault, but also its radii, taking into account the angle of rotation around the axis of the vertex.

3. The ability to graphically compare the dimensions of the cranial vault (direct and angular diameters, the length of the part between the starting and ending points of rotation of the skull, taking into account the angle of rotation around the axis of the vertex and the general perimeter) with the determination of the coordinates and asymmetry coefficient of the skull.

4. Graphical comparison of the obtained parameters between skulls with different shapes (brachi-, meso- and dolichocranes) taking into account gender and age characteristics.

Information sources

1. Copyright certificate of the USSR 133552, 30-4 ₀₆ , publ. 01/01/1960.

2. Copyright certificate of the USSR 180736, 30-4 ₀₆ , A61b, publ. 05/18/1966.

3. Copyright certificate of the USSR 1445693, A61B 5/10, publ. 12/23/1988.

4. Alekseev V.P. Craniometry. Methodology of anthropological research / V.P. Alekseev, G.F. Debec. - M .: Nauka, 1964 .-- 127 p.

5. Vovk Yu.N., Vovk O.Yu., Cherno B.C., Shmargalev A.A., Redyakina O.V. Devices of own design for craniological research / Yu.N. Vovk [et al.] // Tauride Medical and Biological Bulletin. - 2013.- T. 16, No. 1, part 2 (61). - S. 24-26.

6. Patent UA 69641, АВВ 5/103, publ. 09/15/2004.

7. Patent UA 55051, АВВ 17/14, publ. 12/10/2010.

8. Patent RU 105818, АВВ 5/103, publ. 06/27/2011.

9. Patent UA 69234, A61B 19/00, publ. 04.24.2012.

10. Patent RU 115194, A61 B5 / 107, publ. 04/27/2012.

11. Patent RU 2456915, A61 B 5/00 and A61B 5/107, publ. 07/27/2012.

Claims (4)

1. A craniometer consisting of a limb ring with a measuring device and craniophore, with the possibility of moving it in the vertical and horizontal directions, characterized in that on the limb ring in the frontal plane there is a half-ring with a carriage that can translationally move along the half-ring, and the ring the limb is fixedly mounted in a horizontal plane above the base platform, and on it and on the carriage mounted measuring devices having a housing with a movable spring-loaded rod, the outer end of which filled with a limiter, and the inner one is aligned with the curvimeter, and the rod is placed in a through figured hole of the body, the shape of which is congruent with the cross section of the rod, a screw jack is fixed on the base platform, and a movable platform with a stepper motor, the shaft of which is aligned on the head of its internal screw with the center of the tablet on which the craniophore is installed. 2. The craniometer according to claim 1, characterized in that the cross section of the bypass rings of the curvimeters is made in the form of an elongated ellipse, and the distal points of the bypass rings are oriented along the vertical axis drawn through the center of the movable tablet, and the bypass ring of the curvimeter of the measuring device mounted on the carriage, set horizontally through the external auditory foramen. 3. The craniometer according to claim 1, characterized in that the cross-section of the rod is made in the form of a rectangle, and on the outer end surface of the half-ring there are grooves for restricting the movement of the movable carriage when measuring the angular diameter of the cranial vault, and the ends of the measuring ruler are mounted on the curvimeter and rod limiter . 4. The craniometer according to claim 1, characterized in that the movable platform is mounted on vertical rails with the possibility of translational movement up or down.

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