TR2021017779A1 - A disposable caliper for the assessment of tongue anthropometric characteristics. - Google Patents

Abstract

The invention relates to a personalized, hygienic and disposable caliper developed for measuring the dimensions of the tongue and evaluating the anthropometric properties of the tongue. The invention is particularly related to a caliper containing a vertical arm to measure the thickness and length of the tongue, a horizontal arm and a movable arm to measure the width of the tongue, and a gap and tongue width indicator to evaluate tongue anthropometric properties.

Description

DESCRIPTION A DISPOSABLE CALIPER FOR EVALUATION OF TONGUE ANTHROPOMETRIC PROPERTIES Technical field to which the invention relates: The invention relates to a personalized, hygienic and disposable caliper developed for measuring the dimensions of the tongue and evaluating the anthropometric properties of the tongue. The invention is particularly related to a caliper containing a vertical arm to measure the thickness and length of the tongue, a horizontal arm and a movable arm to measure the width of the tongue, and a gap and tongue width indicator to evaluate tongue anthropometric properties. Known state of the technique: Anthropometric measurements include circumference, length, diameter and fat tissue measurements. Circumference measurements are used for purposes such as determining fat tissue, norms related to growth and development (wrist or head circumference measurement in children), thoracic cage flexibility, muscle dimensions, etc. Length measurements are used to examine changes in bone structure. Diameter measurements, which are used for determining body type as well as for clinical purposes, can be performed with calipers, calipers or calipers. The tongue is a free-ended muscle bundle that moves in a complex way and has important functions such as swallowing, breathing and speaking. Although smaller than the variation in body mass, tongue size differences range between 15% and 29% in the normal population. While the evaluation of anthropometric properties of the tongue is very important in the evaluation and treatment of oral problems, it also needs to be used in different areas such as anesthesia, obstructive sleep apnea, obesity, sarcopenia, Down Syndrome, and swallowing problems. However, to date normal tongue size (length, width, volume, diameter, thickness, etc.) has not been defined or direct measurements have been used to define a pathologically enlarged tongue. Although some post-mortem studies have shown that the morphological features of the tongue are evaluated after sudden infant deaths, there are no specific norm values for the anthropometric features of the tongue. Various measuring instruments and calipers are used for anthropometric measurements. Caliper measurements can be made under different trade names in different areas and clinical purposes. Even though the name and shape of the caliper have changed, it seems that it technically serves the same purpose. The width, diameter or length of a limb is evaluated with a caliper. Although digital calipers have emerged with the development of technology, analog calipers are also frequently used in clinics. In the state-of-the-art patent application numbered "U85226428A", a number of different rulers used for measurements of abnormal tongue and frenum size are mentioned. By evaluating the measurement results with this device, information about various nerve movements of the tongue is obtained. It is used to help improve various treatment procedures and improve diagnostic methodologies in all relevant areas of specialization and to provide relatively more precise guidelines. In the patent application numbered "US4375722A", which is in the state of the art, a vernier caliper is mentioned, which includes a main beam body consisting of two round bars that are parallel to each other and connected by a jaw at one end and a rear frame at the other end. Its rods can be hollow and their respective ends can be placed in the openings of the jaw and rear frame and fixed in the openings with adhesive, solder or screws. A shelf may be provided on one of the rods, for example to drive a dial indicator, and graduations may be provided on a rod to read the measurement taken by the slide. It refers to a device used to take measurements related to the oral cavity of an individual. The device includes a body and measurement marks created on the body that can be used to measure at least one parameter of the individual's mouth. An upper surface and a lower surface of the body are formed from a markable material that can be marked by applying force from the individual's teeth. The device can also provide marks on the body to measure the length of the individual's tongue. In the known state of the technique, UltraSound (US) or Magnetic Resonance Imaging (MRI) methods are used to evaluate tongue anthropometric features, removal of tongue molds, examination of its compliance with certain patterns in anesthesia applications and Helios Caliper in post-mortem cases. In current state of the art applications, the caliper tip has a hard/sharp structure and the calipers are quite large in shape. The purpose of these applications is not to measure a free and sensitive organ consisting of muscle tissue, such as the tongue. The devices used in the state of the art have hard and sharp tips made of metal because they measure through bone protrusions. Calipers with sharp tips can cause injuries when measuring an organ that consists entirely of soft tissue, such as the tongue. Although it is seen that the helios caliper is used to measure the tongue size in the known state of the technique, it should not be ignored that this measurement is performed on post-mortem babies. Although the measurement tool, which consists of a combination of calipers and sliding rulers in the state of the art, seems sufficient to measure tongue anthropometric features, it is not suitable for tongue measurements because it is not designed for this purpose, is not specific to the individual, is not hygienic, and is made of metal. As a result, due to the negativities described above and the inadequacy of existing solutions on the subject, it has become necessary to make a development in the relevant technical field. Purpose of the invention: The most important purpose of the invention is to develop a personalized, hygienic and disposable caliper to evaluate tongue anthropometric features. Obtaining an individual caliper or using the caliper for a single person is very important for hygiene during measurement. Its affordability will facilitate the acquisition of personalized calipers for measurements that require compliance with hygiene rules, such as tongue measurement. In addition, obtaining individual calipers will enable the patient to self-check his/her progress in the treatment process outside the clinical environment. Another important purpose of the invention is to make the tongue measuring caliper made of soft PVC material. In this way, with the caliper planned to be produced from PVC/plastic material, anthropometric properties of the tongue such as width, thickness and length can be evaluated with a single tool, without any risk of cut or injury. Another purpose of the invention is that the caliper to be developed has a flexible structure and does not have sharp lines, allowing a safe measurement without causing tongue injuries. Another purpose of the invention is to enable the clinician to easily evaluate the tongue size during the initial evaluation of the patient, instead of advanced technical applications such as US or MRI to determine the tongue dimensions in the state of the art. In this way, time and health expenses will be saved. The caliper to be developed in order to meet the objectives of the invention will differ from its counterparts in the known state of the art in terms of both cost and material. For this purpose, the fact that the caliper will be used to measure tongue dimensions highlights hygiene problems. It appears that, in the state of the art, none of the existing caliper applications can be used for this purpose. The designed caliper differs from existing applications in that it is individual-specific, hygienic, and will be produced from materials that will not pose a danger of injury, such as plastic or PVC instead of metal. Additionally, using materials such as plastic and PVC instead of metal will ensure that the price is affordable and accessible. In addition, individual use of the caliper will allow the patient to self-evaluate, provide objective feedback to the treatment and rehabilitation team, remotely monitor and organize the treatment program, and allow the patient to objectively follow his own development. Explanation of the figures: FIGURE -1; The subject of the invention is a drawing that gives a clear view of the caliper. FIGURE -2; The subject of the invention is a drawing that gives a closed view of the caliper. Reference numbers: . Horizontal Arm 11. Tongue Settlement Area 12. Width Indicator. Vertical Arm 21. Length Indicator . Movable Arm 31. Indicator Space 32. Thickness Indicator Description of the invention: This invention relates to a caliper, a measuring instrument related to health sciences, especially disciplines dealing with anthropometry and language (lingual) or oral functions. Anthropometry is a method that generally classifies the objective characteristics of the human body according to its dimensions and structural features with certain measurement methods and principles. It is considered the basis of physical anthropology and is discussed in different sections as body, head-face, skeletal system and skull measurements. The caliper, which is the anthropometry measuring instrument of the invention, was developed to measure the dimensions of the tongue and allows it to be used in a personalized and hygienic manner. The caliper subject of the invention, in general terms, includes the horizontal arm (10), the vertical arm (20) and the movable arm (30) to provide tongue measurement. It houses the tongue placement area (11) and width indicator (12) on the horizontal arm (10). The vertical arm (20) houses the length indicator (21). The horizontal arm (10) enables the measurement of the width of the tongue within the tongue settlement area (11). The horizontal arm (10) can also be defined as the tongue width ruler. The tongue placement area (11) on the horizontal arm (10) ensures that the tongue is placed within a certain area in order to evaluate the anthropometric properties of the tongue. The width indicator (12) on the horizontal arm (10) allows the tongue width measurement to be displayed. Vertical Arm (20) gives the thickness of the tongue within the tongue placement area (11) in mm. In addition, the Length Indicator (21) on it enables objective measurement and evaluation of tongue length. The movable arm (30) is positioned perpendicular to the horizontal arm (10) and parallel to the vertical arm (20). It can move on the horizontal arm (10), thus allowing the boundaries of the tongue in the tongue settlement area (11) to be determined. The indicator space (31) located on the moving arm (30) shows the user how many units the moving arm (30) has been shifted in mm. The thickness indicator (32) located vertically on the moving arm (30) shows the thickness of the tongue in mm. The horizontal arm (10) and the vertical arm (20) are connected to each other at a 90° right angle and as a single piece with an "L" shaped geometry. In the region where this horizontal arm (10) and the vertical arm (20) intersect, the tongue is positioned so that the edge of the vertical arm (20) facing the horizontal arm (10) and one edge of the tongue are parallel and in contact. The edge of the movable arm (30) facing the vertical arm (20) is positioned so that it is parallel to and in contact with the other edge of the tongue. Here, the moving arm (30) is slid on the horizontal arm (10) until it contacts the edge of the tongue. The length of the tongue between the vertical arm (20) and the movable arm (30) is determined from the length indicator (21) on the vertical arm (20). At the same time, the width of the tongue is determined from the width indicator (12) on the horizontal arm (10). The unit in which the width indicator (12) is can be viewed from the indicator space (31) on the moving arm (30), and the thickness of the tongue can be viewed from the thickness indicator (32). The subject of the invention is the caliper; It is made of PVC/plastic; It contains a vertical arm (20) with 15 cm rulers to measure the thickness and length of the tongue, a horizontal arm (10) to measure the width of the tongue, and a movable arm (30). The lengths of the movable arm (30) and the vertical arm (20) are equal to each other; There is a tongue placement area (11) in the middle part of the horizontal arm (10) to place the tongue and evaluate the anthropometric properties of the tongue. Since the caliper to be developed for tongue measurement is produced from PVC/plastic material, anthropometric properties of the tongue such as width, thickness and length can be evaluated with a single tool, without any risk of cut or injury. Obtaining an individual caliper or using the caliper for a single person is very important for hygiene during measurement. Its affordability will facilitate the acquisition of personalized calipers for measurements that require compliance with hygiene rules, such as tongue measurement. In addition, obtaining individual calipers will enable the patient to self-check his/her progress in the treatment process outside the clinical environment. The fact that the caliper of the invention has a flexible structure and does not have sharp lines will enable safe measurement without causing tongue injuries. In general, the fact that the caliper will be used to measure tongue dimensions highlights hygiene problems. It is seen that none of the existing caliper applications in the state of the art can be used for this purpose. The caliper of the invention differs from existing applications in that it is individual-specific, hygienic, and will be produced from materials that do not pose a danger of injury, such as plastic or PVC instead of metal. In this way, the caliper can be used for single use. In addition, individual use of the caliper will allow the patient to self-evaluate, provide objective feedback to the treatment and rehabilitation team, remotely monitor and organize the treatment program, and allow the patient to objectively monitor his or her own development. REFERENCES Singh, J., Singh, S., Saleem, M., Chandra, S., Lodhi, N., & Chang, C. P. (2020). Tongue and its ties: Posterior tongue width in gender estimation - A forensic gratuity. National journal of Huang, Y. H., & Cherng, C. H. (2014). Optimal size selection of theclassic Iaryngeal mask ainivay by tongue width-based method in male adults. Journal of the Chinese medical association, 77(8), 422-425. Bouchard, C. (1997). Human variation in body mass: evidence for a role of the genes. Nutrition reviews, 55(1), 821-827. Bandy, H. E., & Hunter, W. 8. (1969). Tongue volume and the mandibular dentition. American journal of orthodontics, 56(2), 134-142. Oliver, R. G., & Evans, 8. P. (1986). Tongue size, oral cavity size and speech. The Angle Orthodontist, 56(3), 234-243. Lauder, R., & Muhl, 2. F. (1991). Estimation of tongue volume from magnetic resonance imaging. The Angle Orthodontist, 61(3), 175-184. Vogel, J. E., Mulliken, J. B., & Kaban, L. B. (1986). Macroglossia:: A Review of the Condition and a New Classification. Plastic and reconstructive surgery, 78(6), 715-723. Ueyama, Y., Mano, T., Nishiyama, A., Tsukamoto, G., Shintani, S., & Matsumura, T. (1999). Effects of surgical reduction of the tongue. British Journal of Oral and Maxillofacial Surgery, 37(6), 490-495. Siebert, J. R., & Haas, J. E. (1991). Enlargement of the tongue in sudden infant death syndrome. Pediatric pathology, 11(6), 813-826. Siebert, J. R. (1985). A morphometric study of normal and abnormal fetal to childhood tongue size. Archives of oral biology, 30(5), 433-440. Ogawa, T., Long, J., Sutherland, K., Chan, A. S., Sasaki, K., & Cistulli, P. A. (2015). Effect of mandibular advancement splint treatment on tongue shape in obstructive sleep apnea. Sleep Wojtczak, J. A. (2012). Submandibular sonography: assessment of hyomental distances and ratio. tongue size, and floor of the mouth musculature using portable sonography. Journal of Ultrasound in Medicine, 31(4), 523-528. Karaduman, A. A., Yilmaz, Ö. T., & Akel, B. 8. (Eds.). (2016). Physical therapy and rehabilitation. Hippocrates Publishing House. TR TR

Claims (6)

1. It is a personalized disposable caliper for measuring the dimensions of the tongue and evaluating the anthropometric properties of the tongue. Its features are; o Horizontal tongue settlement area (11), which contains the tongue settlement area (11), which includes the tongue within a certain area in order to evaluate the anthropometric properties of the tongue, and the width indicator (12), which shows the tongue width measurement, and enables the measurement of the width of the tongue positioned in the tongue settlement area (11). Vertical arm (20), which gives the thickness of the tongue inside and contains the length indicator (21), which allows the tongue length to be measured and evaluated objectively. o Horizontal arm (20), which is positioned perpendicular to the horizontal arm (10) and parallel to the vertical arm (20). It contains a movable arm (30) that can move on the 10) and thus has an indicator space (31) that determines the borders of the tongue in the tongue settlement area (11) and a thickness indicator (32) that shows the thickness of the tongue located vertically. . It is a disposable caliper in accordance with claim 1, and its feature is; It contains an indicator space (31) that shows the user in millimeters how many units the moving arm (30) has been shifted. . It is a disposable caliper in accordance with claim 1, and its feature is; It contains a thickness indicator (32) that shows the user the thickness of the tongue in millimeters. . It is a disposable caliper according to claim 1 or claim 2, and its feature is; Width that shows the user the width measurement of the tongue in millimeters . It is a disposable caliper in accordance with claim 1, and its feature is; It contains the length indicator (21) that shows the user the length measurement of the tongue in millimeters. 6. It is a disposable caliper in accordance with claim 1, and its feature is; It is the connection of the horizontal arm (10) and the vertical arm (20) at a 90° right angle to each other and in a single piece with an "L" shaped geometry.