With the rise of dental awareness and the demand for aesthetically pleasing facial appearances, procedures associated with the anterior maxilla such as the administration of local anesthesia, implantology, palatoplasty, cystectomy of radicular, and nasopalatine duct cysts, and extraction of supernumerary mesiodens have become frequently performed procedures [28]. The NPC and IF are major structures of the pre-maxilla region that must be taken into consideration during planning and when performing any of these procedures. The introduction of CBCT has enabled their detailed 3-dimensional evaluation with a far wider range of possible measurements that can be carried out to better characterize these structures for diagnostic purposes [10].
The current study aims to provide detailed information on the morphology and morphometry of the NPC and IF. It also aims to highlight the sexual dimorphism that may be seen in an African (Kenyan) population, as previously it has been suggested that females are usually more petite, have more gracile cranial and postcranial features, and smaller teeth [17]. This is important because levels of sexual dimorphism have been significantly reduced throughout human evolution.
Morphology and morphometry of the nasopalatine canal
The findings from the present study reveal that the majority of the canals commenced from a single Stenson’s foramen which is in concordance with existing literature from the Sinhalese and Swiss populations. However, this is in contrast to Indian and American population groups where the most prevalent number of Stenson’s foramina was reported to be two [4, 12, 27]. Furthermore, sexual dimorphism concerning the number of openings was observed in the present study, contrary to the findings of Thakur et al. (2013). Racial differences have been suggested to influence the prevalence of the variations and it is believed that the current findings are unique to the Kenyan population [2, 27].
With regards to the length of the NPC in Kenyans, males were found to have significantly longer NPC compared to females which is consistent with findings from existing literature [1, 12, 27]. The mean length of the canal as noted in our setting (13.21 mm) is higher than that reported in Sinhalese, Americans, and Iranians [2, 12, 27]. Our values were, however, lower than the Indians’ [23] (Table 4).
Table 4
The NPC dimensions of the Kenyan in comparison with the different populations
Author
|
Population
|
Length of NPC (mm)
|
Antero-posterior diameter of NPC (mm)
|
Medio-lateral diameter of NPC (mm)
|
Angulation (°)
|
Stenson’s foramen
|
Mid-point of canal
|
Incisive foramen
|
Stenson’s foramen
|
Mid-point of canal
|
Incisive foramen
|
Al-Amery et al., 2015 [1]
|
Mongoloids
|
16.33
|
6.06
|
-
|
2.80
|
6.08
|
-
|
3.49
|
-
|
Fernández-Alonso et al., 2014 [9]
|
Spanish
|
12.34
|
-
|
-
|
-
|
-
|
-
|
-
|
73.33
|
Jayasinghe et al., 2020 [12]
|
Sinhalese
|
12.14
|
2.85
|
2.37
|
3.03
|
-
|
-
|
3.69
|
115.69
|
Kajan et al., 2015 [13]
|
Iranian
|
12.84
|
3.70
|
2.35
|
3.53
|
-
|
-
|
-
|
-
|
Sekerci et al., 2014 [22]
|
Turkish
|
10.83
|
2.53
|
-
|
4.13
|
-
|
-
|
-
|
-
|
Soumya et al., 2019 [23]
|
Indians
|
18.63
|
-
|
-
|
3.12
|
-
|
-
|
3.23
|
-
|
Present study
|
Kenyans
|
13.21
|
3.52
|
2.49
|
3.21
|
3.90
|
2.89
|
2.81
|
118.42
|
The anteroposterior diameter of the NPC at the level of Stenson’s foramen (3.52 mm), mid-point of the canal (2.49 mm), and at the level of the IF (3.21 mm) were similar to findings in the Turkish and Iranian populations but differed greatly from the Mongoloids and Indian groups [1, 22, 23]. In addition, the mediolateral diameter of the canal was found to be smaller in comparison to all population groups studied, portraying a more slender canal in a mediolateral dimension compared to the anteroposterior dimension in Kenyans. This dimension is favorable for the placement of an implant into the NPC if the need arises [4]. Furthermore, the angulation of the canal (118.42°) in the present study is relatively similar to that reported in Sinhalese and Americans but is greater than the Indians [2, 12, 27] (Table 4).
The results pertaining to the shape of the NPC in the sagittal view reveal that the majority of Kenyans had a cylindrical canal (38.89%) which is a greater prevalence than that observed in Sinhalese and Turkish populations. However, it is less than that reported in the Iranians [12, 13, 22]. The second most common shape in this study was found to be the conical shape (16.67%) which is similar to that in the Turkish population and significantly higher than that found in the Iranian group [13, 22]. Both these shapes are favorable for the placement of implants into the anterior maxillary bone. The prevalence of the banana, funnel, hourglass, and tree branch shapes was within the range reported in various population groups (Table 5).
Table 5
The shape of the NPC (in the sagittal view) of the Kenyan compared with other populations
Author
|
Population
|
Shape of the NPC (Sagittal) (%)
|
Cylindrical
|
Banana
|
Funnel
|
Hourglass
|
Tree Branch
|
Conical
|
Fernández-Alonso et al., 2014 [9]
|
Spanish
|
48.20
|
0.40
|
20.50
|
30.80
|
-
|
-
|
Jayasinghe et al., 2020 [12]
|
Sinhalese
|
18
|
-
|
38
|
26
|
-
|
-
|
Kajan et al., 2015 [13]
|
Iranian
|
57.60
|
1.50
|
15.20
|
2.00
|
-
|
4.50
|
Sekerci et al., 2014 [22]
|
Turkish
|
15.20
|
19.60
|
26.90
|
15.80
|
6.20
|
16.3
|
Present study
|
Kenyans
|
38.89
|
11.11
|
15.28
|
15.28
|
2.78
|
16.67
|
Examination in a coronal view revealed that a significant proportion was found to be of the single canal shape (75.0%) which is greater than findings in Iranian, Spanish, Turkish, and Swiss populations [9, 13, 22, 25] (Table 6). The prevalence of double canal (11.11%), however, is greater than most population groups. On the other hand, the Y-shaped canal was found to have the least prevalence in comparison to any of the population groups. These double canals may result in insufficient anesthesia following the infiltration of local anaesthesic agents as the separating bone between them may hinder the diffusion of the solution to the adjacent canal.
Table 6
The shape of the NPC (in the coronal view) of the Kenyan compared with other populations
Author
|
Population
|
Shape of the NPC (Coronal) (%)
|
Single
|
Double
|
Y-shaped
|
Fernández-Alonso et al., 2014 [9]
|
Spanish
|
41.10
|
10.30
|
42.40
|
Kajan et al., 2015 [13]
|
Iranian
|
43.52
|
9.97
|
46.51
|
Sekerci et al., 2014 [22]
|
Turkish
|
61.41
|
9.78
|
28.80
|
Suter et al., 2016 [25]
|
Swiss
|
39.30
|
2.60
|
58.20
|
Present study
|
Kenyans
|
75.00
|
11.11
|
13.89
|
Morphology and morphometry of the incisive foramen
The IF and its overlying incisive papilla are important landmarks in clinical practice. The relationship between the incisive papilla and the maxillary anterior teeth is used for the construction of the maxillary complete denture, and this exact relationship has been reported among Kenyans of African descent [19]. In addition, the IF serves as an important point at which the descending palatine artery may be compressed and consequently embolized to control severe epistaxis [5]. Moreover, the NPC and IF form an integral part of the Kernahan ‘Y’ classification system used in grading the severity of submucosal cleft lip and palate, further highlighting the significance of its anatomy [14].
The average dimensions of the IF in the present study were 3.53 mm and 3.07 mm in the anteroposterior and mediolateral diameter respectively. This is comparable to dimensions found in Indians and Belgians and is similar to that reported by Hassanali & Mwaniki (1984) [11, 27]. However, Hassanali & Mwaniki also reported that the diameter tends to be > 0.4 cm in 20% of cases with round foramen while the remaining 80% of IF were cone-shaped [11]. Their findings are in contrast to that observed in the current study, where a majority of the IF was noted to be round (33.30%). This finding is in keeping with the Turkish and Iranian population groups. However, a study by Nikkerdar et al. (2018) revealed that the majority of IF’s were heart-shaped [3, 18, 22, 26, 27]. Our study also reveals high numbers of diamond, teardrop, and triangle shapes in comparison to other groups. A pathological condition such as the nasopalatine duct cyst should be suspected if the diameter of the IF exceeds 6.0 mm. In the present study, the diameter of the IF was found to range between 1.50 mm to 5.95 mm which is in accordance with previously accepted norms (Table 7).
Table 7
The shape of the IF of the Kenyan compared with other populations
Author
|
Population
|
Shape of the IF (%)
|
Diamond
|
Heart
|
Oval
|
Round
|
Tear drop
|
Triangle
|
Bahşi et al., 2018 [3]
|
Turkish
|
-
|
20.7
|
16.0
|
62.7
|
-
|
0.7
|
Nikkerdar et al., 2018 [18]
|
Iran
|
-
|
46.3
|
10.7
|
33.0
|
-
|
-
|
Sekerci et al., 2014 [22]
|
Turkish
|
-
|
30.16
|
26.19
|
43.65
|
-
|
-
|
Telebian et al., 2018 [26]
|
Iran
|
-
|
8.33
|
25
|
58.34
|
-
|
-
|
Present study
|
Kenyan
|
8.33
|
18.06
|
23.61
|
33.33
|
15.28
|
1.39
|
Morphology and morphometry of the maxillary bone
The location, shape, and orientation of the NPC need to be evaluated before anterior implant placement, of which the above results are valuable as they provide a baseline for the African Kenyan. This is important especially in cases where a screw-retained implant is indicated as its insertion is usually more palatally placed. Equally important is the assessment of the adjacent anterior maxillary bone thickness. One study reported a significant difference in alveolar ridge thickness between the African Americans and Caucasians, with the former exhibiting thinner ridges at the apex for both the central and lateral incisors [21]. Similar to that reported by numerous authors, the bony dimensions demonstrated increment from the region of the alveolar crest to the level of the nasal spine. Males generally had a thicker bone in comparison to females hence, females may require more precautions during implant insertion to avoid perforation of the NPC or buccal cortex, especially in the mid canal region. Alkanderi et al. have shown in their virtual implant placement study that the most perforations occurred in the middle third of the implant [2]. Chan et al. reported that buccal bone fenestrations would occur in approximately 20% of cases, most commonly in the apical third of the implant if an implant is placed following the axis of its restoration [6]. Because of this, the size of the implant fixtures chosen may be reduced because it is impossible to graft a perforation to the NPC unless the whole NPC is obliterated. The choice of treatment is to immediately insert the implant into the NPC following removal of soft tissue contents and placement of bone graft [20].
Recently, it has been reported that cylindrical (round) canals with a large incisive canal diameter have a smaller alveolar ridge dimension at the apical part. Fortunately, this is not the case for the African Kenyans as they showed sufficient bone due to their average-sized canals (Table 4). In addition, they have a more slender canal in a mediolateral dimension compared to the anteroposterior dimension. In fact, at the mid-point between the nasal spine and alveolar crest (i.e. approximately at the same level as the apical part of the implant), the bone was thicker (7.10 mm) than that of the mongoloids and Indians [1, 23]. However, at the region of the alveolar crest, the maxillary bone was thinner in comparison to all population groups except for the Turkish [22] (Table 8). So, dehiscence instead of fenestration may be an issue for the African Kenyan. This fact, coupled with the proximity to the NPC described above warrants consideration for the use of non-regular size conical-type (tapered) implant fixtures.
Table 8
The maxillary bone thicknesses of Kenyan compared with different populations
Author
|
Population
|
Maxillary bone thickness (mm)
|
Nasal spine
|
Mid-level
|
Alveolar crest
|
Al-Amery et al., 2015 [1]
|
Mongoloids
|
10.75
|
6.31
|
7.63
|
Soumya et al., 2019 [23]
|
Indians
|
-
|
6.32
|
-
|
Kajan et al., 2015 [13]
|
Iranians
|
8.49
|
-
|
7.05
|
Sekerci et al., 2014 [22]
|
Turkish
|
6.37
|
-
|
6.01
|
Present study
|
Kenyans
|
10.87
|
7.10
|
6.30
|
Lastly, the results show that at the nasal spine, the maxillary bone was thicker (10.87 mm) than other population groups such as the mongoloids, Iranians, and the Turkish groups; it thus may be useful as a bone graft donor site [1, 7, 13, 20, 22].
With regards to the shape of the maxillary bone, the majority of cases were found to be flat in males and concave in females. This data is scarce in literature therefore little comparison can be made. This finding concurs with the alveolar bone measurements observed at 3 levels of NPC. Therefore, clinicians should be vigilant during implant placement in women due to the concave shape of the bone, which has an increased risk of fenestration. The clinician may need to raise a flap when performing this surgery and shall be ready to graft this perforation when the need arises. Lastly, the angulations of the NPC and the maxillary bone were found to be 118.42° and 116.00° revealing that they are relatively parallel to one another, thus an implant can be inserted along the long axis of the bone.
In summary, this study provides a detailed and comprehensive analysis of the NPC and associated structures in the Kenyan population. The information obtained may be used for benchmarking, as clinically it has been reported that the increase in NPC dimensions or the presence of the bulging signs may be indicative of the presence of a nasopalatine duct cyst or the results of dentoalveolar injury to the anterior maxilla [25]. Any deviation from the norm thus necessitates further investigations.