Symptoms and signs of ankyloglossia with deviation of the epiglottis and larynx (ADEL) are caused by respiratory insufficiencies. Correction of the glosso-larynx (CGL) is a surgery for ADEL, consisting in cutting the frontal bundles of genioglossus muscles. Following CGL, the deviated epiglottis and larynx move downwards aligned with the choanae, and improved respiratory rate and pulmonary function and increased body temperature are observed. The possible mechanisms leading to improved respiratory rate and increased body temperature cannot be explained by the cut of the bundles of genioglossus muscle alone and additional factors are likely to play a role, for example positional changes of the hyoid bone occurring after CGL [1] [2] [3] [4] [5].

The aim of this study was to assess the positional changes of the hyoid bone following GCL by using simple X-ray photographs (XPs) in order to assess the possible mechanisms at the level of the hyoid bone that may be related to the beneficial effects observed following CGL.

A total of 232 patients (138 females, 94 males; 17 to 78 years old (yr), average 40.1 yr) that underwent CGL from 2013 to 2016 were studied by taking XPs before and after CGL (Figure 1).

To assess possible positional changes in the hyoid bone, two measures were extracted from XPs and compared before and after CGL. Specifically, we measured the height of point V and the length of segment VH, defined in the followings. A horizontal line was drawn to connect the outermost part of the hyoid bone (point H) to the vertebrae (point V) and the distance between the two points was computed (length of segment VH), as shown in Figure 1.

To define the height of point V along the vertebrae, four possible positions were considered on each vertebra: the upper part (e.g., IIIup), the central part (e.g., III) the lower part (e.g., IIIdn) and the joint between two vertebrae (e.g., III/IV).

The following two measures were assessed and compared before and after CGL:

1) The height of point V.

2) The length of segment VH.

For the sake of comparing the length of segment VH before and after CGL, calibrations on the XPs were performed to each film according to the scale on film.

Possible differences in mean height of point V in the study sample before and after CGL were assessed by using a contingency table test (StatView 4.5) and possible differences in mean length of segment VH before and after CGL were addressed by using Student t-tests (Microsoft Exel Mc2011).

Phylogenetically, the tongue appeared later. In fishes, the hyoid bones are in the inner margin of the mouth bones [6]. Fishes are able to eat and breathe with the composite of visceral skeleton. They don’t need the tongue as mammals.

The tongue muscles are attached at the top of the hyoid bone in humans by the hyoglossal membrane. The tongue muscles are attached to the mandibular bone ventrally. The bottom edge of the hyoid bone the larynx is attached to the thyrohyoid ligament. In turn, the larynx is connected with the trachea, bronchi and lungs. These structures constitute a complex that is called the hyoid bone complex (HBC). The hyoid bone floats in the neck but and the mandibular bone is stable. As the hyoid bone is able to move upwards and downwards via the muscles that are attached to its top and bottom edge, the HBC is able to move upwards and downwards too [7]. As a result, the HBC in humans is pulled up and forward by the tongue. The CGL is a procedure that cuts the frontal bundles of genioglossus muscles and therefore the HBC can rotate downward and forward following CGL.

This study showed that the hyoid bone tended to move downwards of about half vertebra and about 0.3 cm ventrally following CGL. These outcomes may be interpreted in light of the observed improvements following CGL in individuals with ADEL. In fact, disappearance of symptoms and signs of ADEL following CGL (for example, improvement in respiratory function and increase in body temperature) may be related to downward and ventral movements of the hyoid bone that might accelerate respiration [8] [9] [10].

The improvement of symptoms of ADEL and the increase in respiratory function and body temperature observed after CGL may be related to downward and forward movements of the HBC that, in turn, may accelerate physiological functions and may, as such, have further implications in terms of not only respiration and swallowing but also circulation, metabolism, and immune function. The observed improvements are likely to be related to the function of the HBC, a complex structure that regulates respiration and various human functions such as drinking, laughing, singing, swallowing, vomiting, crying, and breathing.

It was reported that the hyoid bone of Homo Neanderthalensis is higher than that of Homo Sapiens [11] [12]. The stylohyoid bone of Homo Neanderthalensis was shorter than that of Homo Sapiens. Therefore the HBC of Homo Neanderthalensis might be shorter and it might have had more limited movements. Related to this, the metabolisms of Homo Neanderthalensis might have been lower than that of Homo Sapiens, possibly contributing to a higher mortality rate, thus suggesting that positional changes of the HBC, such as the ones induced by CGL and demonstrated by this study, may play a role in an evolutionary perspective.

The tongue pulled HBC upwards. The improvements in symptoms and signs of ADEL observed following CGL as downward and forward movement of the hyoid bone could improve respiration and, in turn, contribute to improved physiological function.

There might exist a system that control respiration and swallowing as well as metabolism by the hyoid bone that is hyoid bone complex (HBC).

All included patients provided their written informed consent, and the study’s protocol was approved by the research ethics committee of Yamato City Medical Association.

The author declares no conflicts of interest regarding the publication of this paper.

Mukai, S. (2020) Positional Changes of the Hyoid Bone after Correction of the Glosso-Larynx—Hyoid Bone Complex (HBC). International Journal of Clinical Medicine, 11, 252-256. https://doi.org/10.4236/ijcm.2020.115026