RU2572303C1 - Method for iris centring in graphical skull-based facial reconstruction - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: eyelid closure line is fixed and marked in a frontal skull image in a position of Frankfurt plane. The lines retracing an arc of their mid-portion and meeting a general direction of the four orbital walls until completely closed are drawn along a mid-portion of the orbital walls. The arched lines form a quadrangle. Two diagonals are drawn from the intersection points of the quadrangle; together with the eyelid closure line, the diagonals form a triangle, a centre of which is an iris centre.

EFFECT: method makes it possible to localise an iris vertical decentration from an eye shape line depending on an individual eye-pit shape.

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Description

The invention relates to forensic medicine and forensics and can be used for graphic reconstruction of the face along the skull.

As part of the solution of the problem of identification in cases of detection of unidentifiable corpses, there is a need to select candidates suitable for gender, age, place and time of disappearance among the missing for an identity identification examination. Significantly narrow down the number of candidates for establishing an identity by expert means, i.e. to carry out effective selection, allows reconstruction of a person’s face along the skull. Of the methods of face reconstruction that exist today, the fastest and most economical is graphic reconstruction, which is based on data on the anatomy of the face, the relationship of the bone base and soft tissues, on the thickness of the soft tissues of the face and information on the projection ratios of the signs of appearance and bones of the skull.

The method of reconstruction of the face through the skull in graphic and volumetric versions is basically described in the classical works of domestic and foreign authors (Gerasimov M.M., 1955; Lebedinskaya G.V., 1976, 1998; Fedosyutkin B.A. et al., 1991 ; Helmer R., 1984; George RM, 1987; Aulsebrook WA et al., 1986, 1993, 1995). However, despite the fact that the volume of reconstructed signs is sufficient to distinguish from the total number of missing citizens for further identification studies, a number of signs of appearance cannot be unambiguously estimated by the skull (Abramov S.S., 1996; Dubyagin Yu.N., 1998 ; Zvyagin V.N., 2003; Nelson LA, Michael SD, 1998).

An examination of personality identification using the results of the reconstruction of the appearance provides for the stage of checking the objectivity and reliability of facial reproduction, which is possible provided that the relationship between the signs of the skull and head and their variability is sufficiently studied (S. Abramov, 1998). Thus, the main questions of increasing the accuracy of facial reconstruction along the skull are the searches for patterns of the structure of individual face elements and their bone base (Zvyagin V.N., 2003).

In forensic practice and forensics, various methods of graphic reconstruction of the face along the skull are used. The determination of the position of the eyeball in the orbit on the frontal image of the skull is one of the most significant moments in the complex of graphic face reconstruction techniques.

State of the art

The analogue. A known method for determining the center of the iris in the orbit described by Lebedinsky G.V. (Lebedinskaya G.V. Plastic reconstruction of the face along the skull: a methodological guide. - M., 1988, pp. 106-107). In this case, the slope of the palpebral fissure is determined by the straight line connecting the entoorbital and exoorbital. The medial angle of the eye is at the level of the entorbital. The outer corner of the eye recedes in the medial direction from the exorbital along the incision line of the palpebral fissure by 7-8 mm. It is assumed that the center of the iris is located in the middle of the palpebral fissure. The method is simple. However, as the author notes, the determined distance from the inner to the outer corners of the eye is projective and its size will depend on the angle of inclination of the eye sockets relative to the frontal plane of the face. The vertical position of the center of the iris will also change. The method does not take into account the dependence of the position of the eyeball and its iris on the individual shape of the orbit. The asymmetry of the shapes and sizes of the eye sockets significantly reduces the accuracy of determining the true position of the center of the iris.

Prototype. Closest to the proposed method is a method for determining the center of the iris in forensic medicine and forensics, described by L. Usacheva and Tokareva Yu.A. (Usacheva L.L., Tokareva Yu.A. Facial reconstruction of the skull: Textbook. - M: ECC Ministry of Internal Affairs of Russia, 2010. - P. 50-53) when the iris and pupil are placed in the middle of the line when performing face reconstruction section of the eye and it can arbitrarily shift vertically with a high eye socket. The diameter of the iris of the human eye is about 12 mm. The normal diameter of the pupil during the day is 4-6 mm, the average length of the palpebral fissure is 27-29 mm.

The proposed method allows you to accurately position the position of the iris in the orbit horizontally, regardless of its individual dimensions. However, the impossibility of accurately determining the vertical displacement of the iris with individual features of the spatial structure of the orbit significantly reduces the reliability of the graphic reconstruction of the face along the skull. The efficiency of graphic reconstruction is especially noticeably reduced in extreme forms of individual anatomical variability of the spatial structure of the orbit.

The novelty of the invention lies in the fact that the determination of the center of the iris of the eye during graphic reconstruction of the face along the skull is carried out taking into account the individual characteristics of the anatomical structure of the eye socket. The method allows to determine the exact position of the center of the iris not only on the horizontal, but also on the vertical axis of the eye socket image in the frontal plane in the position of the skull in the Frankfurt (German) horizontal position.

Disclosure of the invention.

The method is carried out by determining and designating the eye cut line, which is the eyelid closure line, and it is considered as a line connecting the medial angle of the eye, which is at the level of the enthorbital, and the lateral angle of the eye, which lies 7-8 mm medial to the exorbital in the frontal image skulls in the Frankfurt horizontal position, characterized in that along the middle part of the walls of the orbit, lines are drawn that repeat the bend of their middle part and correspond to the general direction of the four walls of the orbit until they are completely closed, from the bent lines form a quadrangle, two diagonals are drawn from the intersection points of the resulting quadrangle, together with the eyelid closure line they form a triangle, the center of which corresponds to the center of the iris

The technical result in graphic reconstruction of the face along the skull is achieved by positioning the eyeball in the orbit based on the individual characteristics of its anatomical structure (shape of the orbit, its size and position of all four of its walls). A comparison of the frontal images of the skull and intravital photographs of the face was performed in 26 cases of forensic medical examination. It was found that the diagonals of a quadrangle, the sides of which are lines corresponding to the general direction of the edges of the orbit, and the cut line of the eyes, which is the line of closure of the eyelids, form a triangle, the center of which almost always corresponds to the position of the center of the iris on the face. This is confirmed by the analysis of graphic combinations of the skull image with intravital photographs in all 26 observations. With different forms of the individual anatomical structure of the orbit, the distance between the center of the iris and the eye line changes. With a low shape of the orbit, the center of the iris is slightly higher than the cut line of the eyes, and with a high shape of the orbit, this distance becomes maximum. Therefore, the use of the proposed method for graphic face reconstruction may be the most effective.

The method is as follows. To determine the center of the iris, a graphic image of the skull is used in the frontal position of the Frankfurt horizontal with a scale ruler located when shooting in the plane of the lower edge of the left orbit and with a sufficient depth of field - from the outer contour of the skull to the most prominent point of the nasal bones. Shooting is performed on a digital camera from a distance of 2 meters using a zoom lens (focal length 100-200 mm). The image of the skull should occupy most of the frame. Before printing the image in the bitmap editing program, the image is removed from the central part of the orbits. From the received frame, an image of a skull with a vertical size of 18-20 cm is printed on a sheet of A4 white paper. Anthropometric points are marked on the image of the skull: entoorbitale (at the level of the middle edge of the anterior lacrimal crest located on the outer surface of the frontal process of the maxillary bone in the upper third of the lacrimal fossa bag, on the face corresponds to the point of entocantion), exoorbitale (on the lateral edge of the orbit at the orbital tubercle), entocantion, ektocantion (lateral angle of the eye - the junction of the upper and lower eyelids is 7-8 mm medial to exoorbit ale). Between these points, a line is drawn, known in the literature as the line of closure of the eyelids or the cut line of the eyes - (1). Focusing on the middle parts of the walls of the orbit, lines are drawn that repeat the bend of their middle part and correspond to the general direction of the edges of the walls of the orbit. Four curved lines form a quadrangle - (2). From the points of intersection of the lines of the obtained quadrangle, two diagonals are drawn - (3). In the central part of the orbit, as a result of the constructions, a triangle forms, the sides of which are the diagonals of the quadrangle and the line of closure of the eyelids. The center of the iris corresponds to the center of the triangle formed during construction - (4), see (Fig. 1). From the set point, a circle is drawn with a diameter corresponding to 12 millimeters on the scale bar in the frame. The resulting image of the circle corresponds to the location and size of the iris of an adult when looking into the distance. With the closed shape of the orbit and the overhang of its upper edge, the center of the circle may be slightly shifted to the top of the triangle. The usually performed correction of the position of the eye section, depending on the individual structural features of the upper eyelid, is negligible.

Studies have shown that the proposed method has several advantages over existing ones. The method allows to determine the individual position of the center of the iris not only on the vertical, but also on the horizontal axis, depending on the features of the anatomical structure of the orbit. The positioning of the center of the iris in the frontal image of the skull is slightly dependent on the deviation of the image from the vertical in the sagittal plane. The asymmetry of the orbit shapes is taken into account.

The method proposed by the authors provides accurate positioning of the center of the iris of the eye during graphic reconstruction of the face along the skull, taking into account the individual characteristics of the anatomical structure. The method allows to determine the position of the center of the iris not only on the horizontal, but also on the vertical axis of the image.

The positive effect of the claimed method is confirmed by a number of cases of forensic medical examination and, as a result, an increase in the effectiveness of forensic work to identify a person by bone remains. Examples of the application in forensic practice of a method for determining the center of the iris of the eye during graphic reconstruction of the face along the skull are presented in FIG. 2, 3, 4.

Literature

Abramov S.S. Computerization of craniofacial identification: Abstract. dis. Dr. med. sciences. - M., 1998 .-- 35 p.

Gerasimov M.M. Facial restoration through the skull (modern and fossil humans). Proceedings of the Institute of Ethnography, USSR Academy of Sciences. New Series, Volume XXXVIII. - M., Ed. Acad. Science of the USSR, 1955. - 585 p.

Dubyagin Yu.P. Guidelines for the search and investigation of unobvious killings. - M. - LETTER, 1997. - 480 p. Zvyagin V.N. Problematic analysis of medical and anthropological personality identification in forensic medicine. // Forensic-medical examination. - 2003. - 5. - S. 6-14.

Lebedinskaya G.V. Anthropological reconstruction of the face along the skull and the path of its development. // Owls. Ethnography, 1976. - No. 4, 63-70, M. - S. 63-70.

Lebedinskaya G.V. Reconstruction of the face along the skull (guidelines). // M., 1998 .-- 125 s.

Prototype: Usacheva L.L., Tokareva Yu.A. Facial Skull Recovery: A Study Guide. - M.: ECC Ministry of Internal Affairs of Russia, 2010 .-- 152 p.

George R.M. The lateral craniographic method of facial reconstruction // J. Forensic Sci, 1987 .-- 32 (2). - P. 1305-1330.

Helmer R.P. Schadelidentifizierung durch elektronishe Bildmischung.

Kriminalistik Verlag Heidelberg GmbH, Heidelberg. - 1984. - P. 50-67. Karen T. Forensic Art and Illustration. - CRC Press LLC New York, 2001 .-- P. 38-381.

Nelson L.A., Michael S.D. The application of volume deformation to three-dimensional facial reconstruction: A comparison with previous techniques // Forensic Science International, 94 (1998). - P. 167-181.

W.A. Aulsebrook and J.H. J., van Rensburg, An evaluation of two techniques used for facial reconstruction in forensic anthropology. Abstract of lecture delivered at the 16th Annual Congress of the Anatomical Society of South Africa. // S. Afr. J. Sci., 82 (1986). - P. 448.

W.A. Aulsebrook, M.Y. Iscan, J.H. Slabbert, P. Becker, Superimposition and reconstruction in forensic facial identification. // Forensic Sci. Int. 75 (1995). - P. 101-120.

W.A. Aulsebrook, The Establishment of Soft Tissue Thicknesses and Profiles in the Adult Male Zulu Face, Thesis for the degree of Doctorate of Philosophy, University of the Witwatersrand. - Johannesburg, 1993.

Fedosyutkin B.A., Korovyansky O.P., Usacheva L.L. and others. Combined graphical method of facial restoration on the skull // M .: VKNTS MVD USSR, 1991. - 48 p.

Claims (1)

A method for determining the center of the iris of the eye during graphic reconstruction of the face along the skull by determining and marking the eyelid closure line in the frontal image of the skull in the Frankfurt horizontal position, characterized in that lines are repeated along the middle part of the orbit walls that repeat the bend of their middle part and correspond to the general direction of four the walls of the orbit until they are completely closed, the curved lines form a quadrangle, two diagonals are drawn from the intersection points of the resulting quadrangle, together with a line with the closure of the eyelids they form a triangle, the center of which corresponds to the center of the iris.

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