Evaluating the relation between the elongated styloid process and the ponticulus posticus using cone-beam computed tomography

S. Shahidi; M. Hasani; M. Khozaei

doi:10.5603/FM.a2021.0006

Folia Morphologica
Vol 81, No 1 (2022) Evaluating the relation between the elongated styloid process and the ponticulus posticus using cone-beam computed tomography

Vol 81, No 1 (2022)

Original article

Published online: 2021-01-29

View PDF Download PDF file View HTML

Page views 6307

Article views/downloads 1368

Get Citation

Connect on Social Media

Evaluating the relation between the elongated styloid process and the ponticulus posticus using cone-beam computed tomography

S. Shahidi¹

, M. Hasani¹

, M. Khozaei²

DOI: 10.5603/FM.a2021.0006

Pubmed: 33559116

Folia Morphol 2022;81(1):196-202.

Abstract

Background: Ponticlus posticus (PP) as a one of the cervical vertebra variations brings about symptoms similar to Eagle syndrome. This study aimed to determine the relationship between elongated styloid process (ESP) and PP in a group of Iranian patients using cone-beam computed tomography (CBCT) images.
Materials and methods: The CBCT images of 349 patients (118 males and 231 females; mean age: 32.53 ± 14.143) were involved in this study. The atlas vertebra was investigated for the presence and classification of PP (partial or complete) in sagittal views. Also, the styloid process was evaluated for the presence of ESP in reconstructed panoramic and three-dimensional images. Data were analysed using Mann-Whitney test, Fisher’s exact test, and Chi-square test to assess the relationship between the presence of PP and ESP with regard to age and gender.
Results: Ponticulus posticus was observed in 24.5% of patients with ESP and 31.98% of patients without ESP. There was no significant relationship between the presence of PP and ESP (p = 0.198). Twenty-five patients with ESP showed PP; cases of ESP with either side and opposite side PP were 7.84% and 1.96%, respectively. Cases of bilateral ESP and PP were predominant (14.70%). The mean age of patients with bilateral ESP and PP was higher than others. There was no significant difference between males and females (p = 0.456).
Conclusions: Considering the prevalence and characteristics of PP in the case and control groups, there was no significant relationship between PP and ESP.

Keywords: elongated styloid processponticulus posticuscone-beam computed tomography

ORIGINAL ARTICLE

Folia Morphol.

Vol. 81, No. 1, pp. 196–202

DOI: 10.5603/FM.a2021.0006

ISSN 0015–5659

eISSN 1644–3284

journals.viamedica.pl

Evaluating the relation between the elongated styloid process and the ponticulus posticus using cone-beam computed tomography

S. Shahidi1

M. Hasani1

M. Khozaei2

1Department of Oral and Maxillofacial Radiology, School of Dentistry, Shiraz University of Medical Sciences, Shiraz, Iran

2School of Dentistry, Shiraz University of Medical Science, Shiraz, Iran

[Received: 22 November 2020; Accepted: 30 December 2020; Early publication date: 29 January 2021]

Background: Ponticlus posticus (PP) as a one of the cervical vertebra variations brings about symptoms similar to Eagle syndrome. This study aimed to determine the relationship between elongated styloid process (ESP) and PP in a group of Iranian patients using cone-beam computed tomography (CBCT) images.

Materials and methods: The CBCT images of 349 patients (118 males and 231 females; mean age: 32.53 ± 14.143) were involved in this study. The atlas vertebra was investigated for the presence and classification of PP (partial or complete) in sagittal views. Also, the styloid process was evaluated for the presence of ESP in reconstructed panoramic and three-dimensional images. Data were analysed using Mann-Whitney test, Fisher’s exact test, and Chi-square test to assess the relationship between the presence of PP and ESP with regard to age and gender.

Results: Ponticulus posticus was observed in 24.5% of patients with ESP and 31.98% of patients without ESP. There was no significant relationship between the presence of PP and ESP (p = 0.198). Twenty-five patients with ESP showed PP; cases of ESP with either side and opposite side PP were 7.84% and 1.96%, respectively. Cases of bilateral ESP and PP were predominant (14.70%). The mean age of patients with bilateral ESP and PP was higher than others. There was no significant difference between males and females (p = 0.456).

Conclusions: Considering the prevalence and characteristics of PP in the case and control groups, there was no significant relationship between PP and ESP. (Folia Morphol 2022; 81, 1: 196–202)

Key words: elongated styloid process, ponticulus posticus, cone-beam computed tomography

Address for correspondence: Assis. Prof. M. Hasani, Department of Oral and Maxillofacial Radiology, School of Dentistry, Shiraz University of Medical Sciences, Shiraz, Iran, tel: +98-71-36285275, fax: +98-71-36270325, e-mail: Hasanim8@gmail.com; Hasani_m@sums.ac.ir

This article is available in open access under Creative Common Attribution-Non-Commercial-No Derivatives 4.0 International (CC BY-NC-ND 4.0) license, allowing to download articles and share them with others as long as they credit the authors and the publisher, but without permission to change them in any way or use them commercially.

INTRODUCTION

The styloid process is a cylindrical projection from the inferior part of the petrous temporal bone, with an average length of 20–30 mm. If ossification of the stylohyoid ligament exceeds 30 mm in length, it is considered to be elongated. The incidence of elongated styloid process (ESP) is controversial. Previous studies have reported incidence rates of 0.09% to 54% in different populations [7, 14, 15, 17, 19]. Eagle syndrome is significant clinical condition due to ESP. It is associated with several complications, such as, dysphagia, recurrent throat pain, foreign body sensation, otalgia, tinnitus, globus sensation, cervical pain, headache, pain on neck rotation, dizziness, cerebral ischaemia, and vertigo [7, 11, 20]. Clinicians are conscious about this medical disorder [1]. On the other hand, one of the cervical vertebra variations brings about similar symptoms like Eagle syndrome [3, 12].

The first cervical vertebra of the spine, known as the atlas vertebra, is composed of an anterior and a posterior arch. The posterior arch contains a groove on its superior surface for the vertebral artery and consists of two lateral masses. This cervical vertebra has several variations, including ponticulus posticus (PP). PP is an osseous anomaly of the atlas vertebra, manifesting as a partial or complete calcified bridge. It is located between the lateral masses and over the vertebral groove of the posterior arch of the atlas (Fig. 1) [2]. Exact aetiology of PP is unknown; however, it may be congenital or age-related as a result of degeneration associated with aging [16].

Figure 1. Three-dimensional images show ponticulus posticus on extracted atlas vertebra, with one side complete and the other side partial; A. Left-side view; B. Right-side view; C. Rear view.

Ponticulus posticus, with a prevalence rate of 1–46%, is not a rare anomaly. In Western countries, its prevalence ranges from 5.1% to 37.8% [8, 12, 16, 21, 24]. In the Iranian population, the frequency of PP has been estimated at 20.6% [10]. PP may be associated with conditions, such as migraine without aura, headache, cervical pain, diplopia, neck pain, shoulder pain, hearing loss, vertebrobasilar insufficiency, visual disorders, speech and swallowing problems, and vertigo [3–6, 8, 9, 16, 21, 24].

Some of these complications are common between PP and ESP, such as headache, cervical pain, speech and swallowing problems, and vertigo [4, 5, 23]. Considering common symptoms, more investigation about any possible relation between ESP and PP can be beneficial.

A previous study established a significant relationship between the presence of PP and ESP and, PP was found in 21.6% of patients [22]. This study only evaluated the frequency of PP in patients with ESP and did not consider patients without ESP. However, there is little evidence to confirm this relationship. Therefore, the present study aimed to evaluate the relationship between ESP and the presence of PP using cone-beam computed tomography (CBCT) images in the case and control groups as well as to assess the effects of gender and age on PP and ESP occurrence.

MATERIALS AND METHODS

This retrospective study surveyed the CBCT images of patients from the archives of the Dental School of Shiraz University of Medical Sciences, Shiraz, Iran. The patients were referred to the Dental School Clinic between April 2017 and December 2019 because of different dentofacial problems. Informed contest was taken from patients or their guardians before CBCT examination for probable use in future studies. This study was approved by the Ethics Committee of Shiraz University of Medical Sciences (#IR.SUMS.DENTAl.REC.1399.058). On the other hand, images that could not clearly represent the first cervical vertebra or the apex of styloid process were excluded. Finally, 188 out of 537 images were excluded. In the study group, the CBCT images of 349 patients (118 males and 231 females) were inspected carefully for the presence of PP and ESP.

The CBCT images were acquired using a CBCT system, equipped with a flat panel detector (New Tom VGi, QR srl, Italy). The following parameters were applied for acquiring the images: 110 kVp; total exposure time of 1.8 s; and fields of view of 15 cm × 12 cm and 15 cm × 15 cm. Also, the electrical current (mA) was adjusted automatically for each patient. The subjects were positioned with the Frankfurt plane parallel to the floor. The CBCT images were analysed in NNT version 8.0. For PP assessments, sagittal images were applied. The PP images were categorized as partial or complete, according to their completeness. In the complete type, there was a steady bridge between the lateral mass and the posterior arch, whereas the partial type did not extend fully from the posterior lateral mass to the posterior tubercle (Fig. 2). Images with PP were also categorised as unilateral and bilateral.

Figure 2. Sagittal cone-beam computed tomography views present; A. Without ponticulus posticus (PP); B. Partial PP; C. Complete PP.

To assess styloid process, reconstructed panoramic and three-dimensional images were examined. Styloid process length from where it leaves the tympanic plate of the temporal bone to tip of the process was measured. Styloid process longer than 30 mm was considered to be ESP (Fig. 3). Images with ESP were categorised as unilateral or bilateral. Age and sex were also determined in both groups. The ESP cases were categorised into four groups: group 1 — cases with ESP, but without PP; group 2 — cases with simultaneous ESP and PP on either side; group 3 — cases with bilateral ESP and PP concurrently; and group 4 — cases with ESP and PP on the opposite sides. The control group was also categorised into two groups: group 1 — no ESP and no PP; and group 2 — no ESP but with PP on either side or both sides.

Figure 3. A three-dimensional image of the elongated styloid process in cone-beam computed tomography image.

Statistical analysis

Statistical analysis was performed in SPSS for Windows version 23.0 (SPSS Inc., Chicago, IL, USA). Data were analysed using Mann-Whitney test, Fisher’s exact test, and c2 test to assess the relationship between the presence of PP and ESP. The relationship between these variables was also assessed with respect to age and gender. The level of statistical significance was set at p < 0.05.

RESULTS

The study group consisted of 118 (33.81%) males and 231 (66.19%) females, with the mean age of 32.53 ± 14.143 years (total age range: 3–81 years; age range of males: 5–70 years; and age range of females: 3–81 years). The mean age of patients without ESP was 31.55 years (standard deviation [SD] = 14.89), while the mean age of patients with ESP was 34.89 years (SD = 11.886).

Out of 349 patients, ESP was observed in 102 (29.2%) patients, including 13 (12.75%) ESPs on the left side, 15 (14.70%) ESPs on the right side, and 74 (72.55%) bilateral ESPs. There was no significant difference regarding the prevalence of ESP between males (31/118; 26.3%) and females (71/231; 30.7%) (p = 0.456). Bilateral ESP was detected in 51 (50%) female patients, while unilateral ESP was found in 20 (19.61%) female patients. On the other hand, bilateral ESP was found in 23 (22.55%) male patients, and unilateral ESP was detected in 8 (7.84%) male patients (p = 0.667).

As mentioned earlier, the case group was divided into four subgroups (Table 1). Group 1 included cases without PP (n = 77, 75.50%), with the mean age of 34.57 years; this group comprised the majority of cases. Also, 25 patients with ESP showed PP. Cases of bilateral ESP and PP (group 3) were predominant. Group 2 and group 4 included cases of either side and opposite side ESP and PP (n = 10, 9.80%). The results showed that the number of female patients with PP was higher than males (17 vs. 8). The control group was also categorized into two groups (Table 2). The control group with PP (group 2) comprised 79 (31.98%) patients, with the mean age of 33.82 years. The results showed that the number of female patients with PP was higher than males (55 vs. 24).

Table 1. Classification of the case group regarding elongated styloid process (ESP) and ponticulus posticus (PP)

Groups	Coexistence of ESP and PP	N		Total (%)	Mean age	Standard deviation
Groups	Coexistence of ESP and PP	Female	Male	Total (%)	Mean age	Standard deviation
1	ESP without PP	54	23	77 (75.50%)	34.57	11.684
2	ESP and PP on either side	5	3	8 (7.84%)	34.13	13.622
3	Bilateral ESP and PP	10	5	15 (14.70%)	40.25	12.221
4	ESP and PP on the opposite sides	2	0	2 (1.96%)	31.00	2.828

Table 2. Classification of the control group regarding elongated styloid process (ESP) and ponticulus posticus (PP)

Groups	ESP and PP status	N		Total (%)	Mean age	Standard deviation
Groups	ESP and PP status	Female	Male	Total (%)	Mean age	Standard deviation
1	No ESP and no PP	105	63	168 (68.02%)	30.52	15.907
2	No ESP with PP on either side (or bilaterally)	55	24	79 (31.98%)	33.82	12.738

There was no significant relationship between the presence of PP and ESP (p = 0.198). Table 3 presents the analysis of PP and ESP in patients regarding the mean age and gender. The mean age of the patients with ESP and PP was higher than that of the control group. Also, the highest mean age (40.25 ± 12.221 years) was reported in cases of bilateral ESP and PP. Considering gender, there was no significant difference between males and females.

Table 3. Analysis of the prevalence of the elongated styloid process (ESP) and ponticulus posticus (PP) considering gender and age

ESP	PP
	Absent				Present
	Female	Male	Mean age	Standard deviation	Female	Male	Mean age	Standard deviation
Absent	105	63	30.52	15.907	55	24	33.76	12.256
Present	54	23	34.57	11.684	17	8	35.88	12.686

DISCUSSION

Ponticulus posticus is an important anomaly of the atlas vertebra [4, 6, 12]. It is associated with complications that have negative effects on the individual’s quality of life, such as migraine without aura, headache, cervical pain, neck pain, shoulder pain, vertebra-basilar insufficiency, visual disorders, and speech and swallowing problems [3, 4, 6, 8, 9, 12, 16, 24]. The importance of PP is not only because of its clinical effects, but is also related to the insertion of lateral mass screws in this area that is a common treatment for atlas fixation in cases of atlantoaxial instability. If surgeons do not pay particular attention to the presence of PP, they may insert a screw into PP that may result in vertebral artery injuries, fractures, screw weakening, or even death [6, 24].

According to the literature, PP is a significant and common radiographic finding in the nevoid basal cell carcinoma syndrome [13]. Moreover, some studies have shown an association between PP and Barré-Lieou syndrome; however, there is little evidence to confirm this relationship [9]. Some complications, such as headache, cervical pain, speech disorders, and swallowing problems, are common between PP and ESP. However, only one previous study considered the presence of PP in patients with ESP [22]. In the present study, CBCT images were analysed to determine the relationship between the presence of PP and ESP. Based on the results, the case group with ESP included 77 (75.50%) patients without PP, 5 (4.90%) patients with PP on the left side, 3 (2.94%) patients with PP on the right side, 15 (14.70%) patients with bilateral ESP and PP, and 2 (1.96%) patients with opposite-side PP. Based on the results, the number of patients with bilateral ESP and PP was higher than that of patients with ESP and PP on one side. In the current study, in the control group (n = 247). 168 (68.02%) patients showed no PP, 11 (4.45%) patients showed PP on the left side, 8 (3.24%) patients showed PP on the right side, and 60 (24.29%) patients had bilateral PP. Overall, PP was not found in the majority of patients in the control group.

There was no significant relationship between the presence of ESP and PP with regard to laterality (p = 0.198).

The only 1 study investigated the relationship between PP and ESP and reported a significant association between the presence of PP and ESP [22]. Unlike our study, Sekerci et al. [22] did not include a control group to evaluate the presence of PP in patients without ESP. The mean age of the case group in the present study and the study by Sekerci et al. [22] was almost similar. The present study showed that the majority of patients in the case group had bilateral ESP, which is consistent with the results reported by Sekerci et al. [22] However, the prevalence of PP in their study (39.3%) was higher than the present study (29.8%). It should be noted that the current research and the mentioned study used CBCT images for the evaluation of patients [22]. Therefore, the discrepancy between the results can be related to different ethnicities of the study groups.

Moreover, the incidence rate of ESP in the study by Sekerci et al. [22] was estimated at 21.5%, which is close to the present study (29.2%). Based on our results, although the number of female patients was higher than that of male patients in the groups, the relationship between gender and PP was not significant (p = 0.460). In line with the present findings, previous studies did not report a significant relationship between PP and gender [2, 10, 16, 18, 24], whereas Sekerci et al. [22] reported a higher number of male patients than females.

In the current study, the mean age of the patients with ESP and PP was higher than that of the control group. But there was no significant difference between case and control groups. The highest mean age (40.25 ± 12.221 years) was reported in cases of bilateral ESP and PP. There was a significant correlation between the grade of PP completeness and age; in other words, with increasing age, partial PP on the right side tended to become more complete. Some studies have shown that the prevalence of PP increases with age, while some studies found no significant relationship between PP and age [18, 21]. Therefore, further longitudinal research may better represent this relationship. Overall, the prevalence of PP alone (29.8%) is somehow similar to the prevalence of isolated ESP (29.2%). Although these structures were not rare in the study population, their coexistence was not confirmed.

CONCLUSIONS

The prevalence and characteristics of PP and ESP were evaluated in an Iranian population to assess the relationship between the presence of PP and ESP using CBCT images. According to the results, no significant relationship was found between PP and ESP. The mean age of patients with bilateral ESP and PP was higher than others. Also, a higher prevalence of PP was reported among female patients in both case and control groups.

This study was a retrospective study that did not examine the patients, and there was no information about the patients’ symptoms. Therefore, it is recommended to investigate the clinical status of these patients in future studies. Also, further assessment of different racial and ethnic groups can provide us with more reliable results.

Acknowledgements

The authors thank the Vice-Chancellery of Shiraz University of Medical Sciences for supporting this research (Grant #20878). The authors would like to thank Dr. L. Khojastepour for her providing CBCT images of patients. The authors also thank Dr. H.R. Tabatabaei of the Department of Epidemiology, School of Health of Shiraz University of Medical Sciences for statistical analysis.

Conflict of interest: None declared

REFERENCES

Ayyildiz VA, Senel FA, Dursun A, et al. Morphometric examination of the styloid process by 3D-CT in patients with Eagle syndrome. Eur Arch Otorhinolaryngol. 2019; 276(12): 3453–3459, doi: 10.1007/s00405-019-05602-6, indexed in Pubmed: 31435729.
Bayrakdar IS, Miloglu O, Altun O, et al. Cone beam computed tomography imaging of ponticulus posticus: prevalence, characteristics, and a review of the literature. Oral Surg Oral Med Oral Pathol Oral Radiol. 2014; 118(6): e210–e219, doi: 10.1016/j.oooo.2014.09.014, indexed in Pubmed: 25457896.
Bayrakdar IŞ, Miloğlu Ö, Yeşiltepe S, et al. Ponticulus posticus in a cohort of orthodontic children and adolescent patients with different sagittal skeletal anomalies: a comparative cone beam computed tomography investigation. Folia Morphol. 2018; 77(1): 65–71, doi: 10.5603/FM.a2017.0075, indexed in Pubmed: 28832088.
Bayrakdar IŞ, Yasa Y, Duman ŞB, et al. Cone beam computed tomography evaluation of ponticulus posticus in patients with cleft lip and palate: a retrospective radio-anatomic study. Folia Morphol. 2018; 77(1): 72–78, doi: 10.5603/FM.a2017.0076, indexed in Pubmed: 28832089.
Buyuk SK, Sekerci AE, Benkli YA, et al. A survey of ponticulus posticus: Radiological analysis of atlas in an orthodontic population based on cone-beam computed tomography. Niger J Clin Pract. 2017; 20(1): 106–110, doi: 10.4103/1119-3077.178916, indexed in Pubmed: 27958256.
Chitroda PK, Katti G, Baba IA, et al. Ponticulus posticus on the posterior arch of atlas, prevalence analysis in symptomatic and asymptomatic patients of gulbarga population. J Clin Diagn Res. 2013; 7(12): 3044–3047, doi: 10.7860/JCDR/2013/6795.3847, indexed in Pubmed: 24551723.
Elimairi I, Baur DA, Altay MA, et al. Eagle’s syndrome. Head Neck Pathol. 2015; 9(4): 492–495, doi: 10.1007/s12105-014-0599-4, indexed in Pubmed: 25537830.
Geist JR, Geist SMRY, Lin LM. A cone beam CT investigation of ponticulus posticus and lateralis in children and adolescents. Dentomaxillofac Radiol. 2014; 43(5): 20130451, doi: 10.1259/dmfr.20130451, indexed in Pubmed: 24785819.
Giri J, Pokharel PR, Gyawali R. How common is ponticulus posticus on lateral cephalograms? BMC Res Notes. 2017; 10(1): 172, doi: 10.1186/s13104-017-2494-z, indexed in Pubmed: 28454552.
Hasani M, Shahidi S, Rashedi V, et al. Cone beam CT study of ponticulus posticus: prevalence, characterictics. Biomed Pharmacol J. 2016; 9(3): 1067–1072, doi: 10.13005/bpj/1050.
Hamedani S, Dabbaghmanesh MH, Zare Z, et al. Relationship of elongated styloid process in digital panoramic radiography with carotid intima thickness and carotid atheroma in Doppler ultrasonography in osteoporotic females. J Dent (Shiraz). 2015; 16(2): 93–99, indexed in Pubmed: 26046104.
Kim KH, Park KW, Manh TH, et al. Prevalence and morphologic features of ponticulus posticus in Koreans: analysis of 312 radiographs and 225 three-dimensional CT scans. Asian Spine J. 2007; 1(1): 27–31, doi: 10.4184/asj.2007.1.1.27, indexed in Pubmed: 20411149.
Leonardi R, Santarelli A, Barbato E, et al. Atlanto-occipital ligament calcification: a novel sign in nevoid basal cell carcinoma syndrome. Anticancer Res. 2010; 30(10): 4265–4267, indexed in Pubmed: 21036751.
Mayrink G, Figueiredo EP, Sato FR, et al. Cervicofacial pain associated with Eagle’s syndrome misdiagnosed as trigeminal neuralgia. Oral Maxillofac Surg. 2012; 16(2): 207–210, doi: 10.1007/s10006-011-0276-7, indexed in Pubmed: 21720752.
Mendelsohn AH, Berke GS, Chhetri DK. Heterogeneity in the clinical presentation of Eagle’s syndrome. Otolaryngol Head Neck Surg. 2006; 134(3): 389–393, doi: 10.1016/j.otohns.2005.10.046, indexed in Pubmed: 16500433.
Nv A, Avinash M, Srivijayanand KS, et al. Congenital osseous anomalies of the cervical spine: occurrence, morphological characteristics, embryological basis and clinical significance: a computed tomography based study. Asian Spine J. 2019; 13(4): 535–543, doi: 10.31616/asj.2018.0260, indexed in Pubmed: 30866614.
Ozdemir MB, Okunak M, Koseler A, et al. An ancient anatomic variation: bilateral elongated styloid process of cranium. Ital J Anat Embryol. 2013; 118(2): 184–188, indexed in Pubmed: 25338408.
Pérez I, Chávez A, Ponce D. Frequency of ponticulus posticus in lateral cephalometric radiography of Peruvian patients. Int J Morphol. 2014; 32(1): 54–60, doi: 10.4067/s0717-95022014000100010.
Politi M, Toro C, Tenani G. A rare cause for cervical pain: Eagle’s syndrome. Int J Dent. 2009; 2009: 781297, doi: 10.1155/2009/781297, indexed in Pubmed: 20339566.
Salega S, Fabra M. First evidence of elongated styloid process in two female archaeological individuals from Córdoba hills, Argentina (late Holocene). Int J Osteoarchaeol. 2018; 28(4): 458–463, doi: 10.1002/oa.2665.
Saleh A, Gruber J, Bakhsh W, et al. How common is the ponticulus posticus?: a computed tomography based analysis of 2917 patients. Spine (Phila Pa 1976). 2018; 43(8): E436–E441, doi: 10.1097/BRS.0000000000002400, indexed in Pubmed: 28885291.
Sekerci AE, Soylu E, Arikan MP, et al. Is there a relationship between the presence of ponticulus posticus and elongated styloid process? Clin Imaging. 2015; 39(2): 220–224, doi: 10.1016/j.clinimag.2014.11.016, indexed in Pubmed: 25497077.
Shakibaei Z, Tohidi E, Salemi F, et al. Prevalence of stylohyoid ligament calcification on panoramic radiographs in an iranian population. J Dent Mat Tech. 2015; 4(1): 21–28, doi: 10.22038/jdmt.2014.3803.
Sharma V, Chaudhary D, Mitra R. Prevalence of ponticulus posticus in Indian orthodontic patients. Dentomaxillofac Radiol. 2010; 39(5): 277–283, doi: 10.1259/dmfr/16271087, indexed in Pubmed: 20587651.

Connect on Social Media

Connect on Social Media

E-mail alerts

Evaluating the relation between the elongated styloid process and the ponticulus posticus using cone-beam computed tomography

Abstract

INTRODUCTION

MATERIALS AND METHODS

Statistical analysis

RESULTS

DISCUSSION

CONCLUSIONS

Acknowledgements

Conflict of interest: None declared