MORPHOLOGY OF THE BIFID XIPHOID PROCESS OR FORAMEN: IS THERE A DIFFERENCE IN CADAVER OR IMAGING?

Context: Anatomical variations of the sternum are frequent, in particular, the occurrence of foramina and divisions of the xiphoid process. The authors have used means of investigation ranging from dissection to imaging tests to detect these variations. Objective: To report a case of bifid xiphoid process in a male human fetus and/or xiphoid foramen through macroscopic analysis, complemented by the use of X-ray image. Case report: Anatomical variations were found at the level of the xiphoid appendix of the sternum such as a bifid formation of the appendix and a foramen found on X-ray imaging, located in the middle of a fibrous tissue that separated the two divisions of the xiphoid process. Conclusion: The present findings point to the need for greater collaboration in the use of other methods for studying the anatomical variations of the sternum. For example, Multidetector Computed Tomography (MDCT). This will be of great value to anatomists and specialists in imaging diagnostics.


INTRODUCTION
The human body has many anatomical variations.Knowing these variations is important to avoid diagnostic errors during radiological interventions, prevent injuries https://www.nucleodoconhecimento.com.br36 RC: 145839 Available in: https://www.nucleodoconhecimento.com.br/health/morphology-of-the-bifidfrom medical error during invasive procedures, as well as facilitating the interpretation of physical examinations.The sternum is a bone in which anatomical variations have been frequently studied, based on imaging examinations, autopsies, and in dry skeletons. [9] In early life, the xiphoid process is cartilaginous and ossifies in adulthood, with the transition of the xiphoid joint from symphysis to synostosis around age 40. [16]Failure of the sternal bars to migrate, unite or ossify can result in variations. [17]rphologically, in most people, the xiphoid process appears as a single, tapering bony projection, but it can also appear as wide, slender, pointed, bifid, perforated, curved, or bent, and have a foramen. [9], [16]The formation of a sternal foramen can occur from the incomplete fusion of ossified segments. [18] In this article, we tried to report the finding using the X-ray technique to complement the macroscopic analysis, comparing it to other techniques reported in the literature.

CASE REPORT
During routine dissection, at the Human Anatomy Laboratory of the Federal University of Sergipe, of a male fetus, obtained in accordance with Law No. 8501 of November https://www.nucleodoconhecimento.com.br37 RC: 145839 Available in: https://www.nucleodoconhecimento.com.br/health/morphology-of-the-bifid 30, 1992, which addresses the use of unclaimed cadavers for use in research studies, aged approximately 34 weeks, some anatomical variations were observed at the level of the sternum, especially in the xiphoid process.In the anterior view of the sternum, a ventral convexity was found extending from the manubrium to the body, and a concavity was found in the xiphoid process.This process started from the posterior face of the body of the sternum, had a caudal direction and projected obliquely in the posteroanterior direction, forming an angle of approximately 20 degrees (Figure 1).In posterior view, there was another concavity that extended from the manubrium to the proximal end of the xiphoid process.Observed with the naked eye, the xiphoid process did not appear to have a break in continuity with the body of the sternum.From the body of the sternum, this process bifurcated into two other processes: one on the right, more caliber and 7 mm long, and another on the left, thinner, 8 mm long, which followed towards the right process, making an angle of approximately 120 degrees.The two processes were separated from each other by a distance of 5 mm and a whitish connective tissue could be seen between them, without presenting foramen, observed with the naked eye (Figure 2).However, in the radiography of the sternum, it allowed the visualization of an image compatible with that of a foramen in the xiphoid process, measuring 25 mm² in area, as well as four ossification centers, one in the manubrium and three in the body of the sternum (Figure 3).      3. Area of the xiphoid foramen and ossification centers [9] - [12] .Ossification centers. [13]Xiphoid foramen.

DISCUSSION
The sternum originates from a pair of longitudinal mesenchymal bands, located on both sides of the anterior thoracic wall, which arise during the sixth week of intrauterine life, later grow and migrate medially to meet in the midline where they fuse. Several ossification centers are present in the sternum, and this progresses in a craniocaudal direction from the third to fourth year of postnatal life and is usually complete by adolescence or adulthood. [11], [18] In the present study, it was possible to observe, through a radiograph of the fetus' sternum, four ossification points, of which one was in the manubrium and three in the body.It is important to highlight that these findings were not observed in the dissection examination.
Incomplete fusion of the lower end of the sternum results in a bifid or perforated xiphoid process, [13], [18], [20] which may appear filled with fibroadipose tissue and vessels. [26]In the present case, a fibroadipose tissue was also observed occupying the sternal foramen and/or the bifurcation of the xiphoid process.

Source: Authors (2023).
In the present case, a xiphoid foramen was visualized through a radiograph of the sternum of a male fetus.Several authors also observed a higher prevalence of the xiphoid foramen in males, [18]- [20], [35] unlike Paraskevas et al., [21] who did not observe differences in prevalence between genders.
Thus, procedures such as acupuncture, bone marrow aspiration and sternal puncture need to be planned in advance with radiological image analysis.6] https://www.nucleodoconhecimento.com.br43 RC: 145839 Available in: https://www.nucleodoconhecimento.com.br/health/morphology-of-the-bifid The bifurcation of the xiphoid process, the distinction between fracture and variation of the sternum is important in a trauma patient. [16], [30] Anatomical variations can simulate sternal fractures on plain radiography, but ultrasound and computed tomography of the sternum can be used to distinguish anatomical variations from fractures. [39]Therefore, cross-sectional images, such as Computed Tomography and MRI, are often needed to describe the findings detected on radiography and reveal additional small changes. [40]natomical variations of the sternum occur in up to 74% of the population, [12] with sternal foramen occurring in 2.5-13.8%, [17]bifid xiphoid processes in 17.5-32.8%] Although the presence of sternal variations, with a single xiphoid process, bifid, trifurcate, foramina and absence, rarely present symptoms, are typically occasional findings on radiographic images or autopsy, they have clinical relevance . [13], [16], [17], [21], [33], [41] [44] Reports in the literature have found a variable prevalence of bifid xiphoid processes ranging from 20% to 42.9% (Table 2), while a single xiphoid process was found in 62.6% to 80% of cases. [13], [17], [21], [33], [43],4] Table 2. General occurrence of bifid xiphoid process in human adults of both sexes

Author
Method of study Bifid xiphoid process % Yekeler et al., [9] Multidetector computed tomography 27.2 Akin et al., [13] Computed tomography 32.8 El-Busaid et al., [33] Cadavers 20.0 Delgado et al., [45] Computed tomography 1.0 Kirum et al., [44] Cadavers 42.9 Turkay et al., [43] Computed tomography 25.0 Ateşoğlu, Deniz, Uslu, [40] Multidetector computed tomography 10.5 Fonte: Autores (2023) https://www.nucleodoconhecimento.com.br44 RC: 145839 Available in: https://www.nucleodoconhecimento.com.br/health/morphology-of-the-bifidPasieka et al., [19] performed a meta-analysis with 16,666 patients to study the prevalence of the sternal foramen in the body and in the xiphoid process, as well as to verify its clinical importance.The authors reported that there was a statistically significant improvement in detection of the sternal foramen in cadaveric studies compared with CT and X-ray imaging modalities.However, no statistically significant differences were found between multidetector computed tomography, computed tomography and X-ray studies, as well as between cadaveric and multidetector computed tomography studies.This is probably due to the fact that at autopsies it is possible to visualize small foramina that could possibly not be reliably visualized on multidetector computed tomography, X-rays and computed tomography.Despite there being no statistically significant difference between multidetector computed tomography, computed tomography and X-rays, it has been suggested that healthcare professionals looking to verify the presence of a sternal foramen should use multidetector computed tomography images. [40]

CONCLUSION
The present findings show the need for more attention to be given to anatomical variations of the sternum through the use of different methods such as computed tomography, multidetector computed tomography and X-rays.This attention will be important not only for anatomists, but especially for imagenologists, in order to avoid errors in diagnostic analysis.

Figure 2 .
Figure 2. Dorsal view of the sternum showing the two xiphoid processes separated by connective tissue and without a foramen visible to the naked eye https://www.nucleodoconhecimento.com.br40 RC: 145839 Available in: https://www.nucleodoconhecimento.com.br/health/morphology-of-the-bifid

Figure
Figure 3. Area of the xiphoid foramen and ossification centers