Abstract
Many authors have studied variation in the maxillary artery but there have been inconsistencies between reported observations. The present research aimed to examine the courses and branching patterns of the trunk and branches of the maxillary artery in a large sample of Japanese adult cadavers. The course of the maxillary artery should be reclassified into seven groups as a clear relationship was found between the origin of the middle meningeal artery and the course of the maxillary artery. This indicates that conventional theory about the formation of the maxillary artery, which was considered to be a direct derivative of the stapedial artery, might be inaccurate. Many variations in the origin of the inferior alveolar artery were found. Notably, the inferior alveolar artery origin from the external carotid artery and a double origin of the inferior alveolar artery was also observed. Thus, the maxillary artery might be derived from a combination of both the external carotid and stapedial arteries.
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Introduction
Variations in the maxillary artery have been studied by many investigators (Thomson 1891; Adachi 1928; Fujita 1932; Kijima 1932; Lurje 1947; Lasker et al. 1951; Takarada 1958; Krizan 1960; Ikakura 1961; Skopakoff 1968; Czerwinski 1981; Iwamoto et al. 1981; Sashi 1989; Tsuda 1991; Otake et al. 2011). The frequencies of the maxillary artery running medially to the lateral pterygoid have been reported as follows: 7.3 % in Mongoloid (Japanese), 38.0 % in Caucasoid (Table 1). The type of maxillary artery that runs medially to the mandibular nerve is rare in many populations. Also, it is important to know that the branching order and formation of the maxillary artery are variable.
The course of the maxillary artery has been classified into three types by Loth (1931) or five types by Fujita (1932) (Table 2). Two other courses of the maxillary artery were reported by Tanaka et al. (2003), Tadokoro et al. (2007) and Fujimura et al. (2009) and, especially in Tanaka’s investigation, the maxillary artery passed through the auriculotemporal nerve. Tadokoro et al. (2007) and Fujimura et al. (2009) reported the maxillary artery passing through the temporal muscle. A new classification is needed for summarizing of the course of the maxillary artery.
This research aimed to examine the courses and branching patterns of the trunk and branches of the maxillary artery in a large sample of Japanese adult cadavers to determine if a new classification for the course of the maxillary artery should be established and whether the branching patterns of the maxillary artery, especially the middle meningeal, the inferior alveolar and the posterior deep temporal arteries, need to be reconsidered.
Materials and methods
The topographical relationships among the maxillary, the middle meningeal, the inferior alveolar and the posterior deep temporal arteries were studied in a total of 208 sides of 104 adult Japanese cadavers (54 males, 50 females) available for student dissection at the Nippon Dental University School of Life Dentistry at Niigata.
After the coronoid process was transected, the temporalis was reflected superiorly to expose the infratemporal fossa. The relationship between the lateral pterygoid and the maxillary artery and the courses of the superficial branches were recorded, and the lateral pterygoid subsequently removed. The maxillary artery, its branches, and the surrounding nerves were recorded in detail using digital photographs (Nikon D40x and Tamron SP AF 60 mm F/2 Di2 MACRO 1:1).
Results
The course of the maxillary artery was classified into the following three types: lateral, intermediate and medial type.
The lateral type of the maxillary artery running laterally to the lateral pterygoid was classified as either group A or B. The intermediate type of the maxillary artery running through the lateral pterygoid was classified as group C. The medial type of the maxillary artery running medially to the lateral pterygoid was classified into four groups: D, E, F and G (Fig. 1). With regards to the course of the maxillary artery, subjects exhibiting the classification of group B were observed in 188 sides (90.4 %) (101 males: 93.5 %, 87 females: 87.0 %). The number and the frequency of the other types of the maxillary artery are listed in Table 3. Eighty-nine cadavers (85.6 %) (48/54 males: 88.9 %, 41/50 females: 82.0 %) were observed bilaterally in group B (Table 4). Four cadavers (3.9 %) (1/54 male: 1.8 %, 3/50 females: 6.0 %) were observed bilaterally as the medial type where the course of the maxillary artery runs medially to the lateral pterygoid in groups D, E and F (Table 4). The intermediate type of the maxillary artery was found in three cases (1.4 %) (3/100 females: 3.0 %) in Group C (Fig. 2; Table 3). Although groups A and G were not observed in this study, group A and G were already classified by Tanaka et al. (2003) and Tadokoro et al. (2007). In one particular case, the maxillary artery bifurcated into a superficial trunk and a deep trunk in the proximal part. In this case, the middle meningeal and the accessory middle meningeal arteries arose from the deep trunk and the inferior alveolar artery originated from the superficial trunk respectively. Both trunks reunited to form a complete loop near the point of the maxillary artery crossing the anterior margin of the lateral pterygoid (Fig. 3).
Branching patterns of the main branches of the maxillary artery
A total of 189 sides that exhibited branching from the maxillary artery could be confirmed in 208 sides; the branches consisted of the middle meningeal artery, the inferior alveolar artery, and the posterior deep temporal artery. The branching patterns of the main branches of the maxillary artery in 189 sides were classified into 20 sub-patterns (Fig. 4; Table 5). In all cases from a1 through i1 (Fig. 4), the posterior deep temporal artery derived from the maxillary artery after branching from the middle meningeal or the accessory middle meningeal arteries. In cases j1 and k1 (Fig. 4), the middle meningeal artery arose from the superficial temporal artery. In cases j1 and k1 (Fig. 4), the middle meningeal and the posterior deep temporal arteries arose from the same part of the maxillary artery. In cases l1 through m2 (Fig. 4), the posterior deep temporal artery derived from the maxillary artery before the branching of the middle meningeal artery. The summary of all cases regarding the origin of the middle meningeal, the accessory middle meningeal, the inferior alveolar and the posterior deep temporal arteries are shown in Fig. 5.
Discussion
It is known that there are large differences in the frequency of the medial course of the maxillary artery between Caucasoids and Mongoloids (Japanese) (Table 1). The frequency of the medial type in the present study correlates with that of other Japanese authors (Tables 1, 3). However, the frequency of the medial type found in Caucasoids tended to be significantly higher than in Mongoloids (Japanese).
Regarding the course of the maxillary artery, two classification methods have been introduced previously by Loth and Fujita. Fujita’s type D and E were elaborated upon in more detail by Takemura et al. (1983). In this study, group B corresponds to type A and B of Fujita’s method, which were divided from the buccal nerve (Fig. 1; Table 2). The buccal nerve could not be observed in most cases due to alterations made during student dissection course work, therefore group B includes Fujita’s type A and B. This present study reclassification takes into account the fact that the maxillary artery is positioned occasionally between two bundles of the buccal nerve. Two other types of maxillary artery were reported with one passing through the loop of the auriculotemporal nerve at the deepest region (Tanaka et al. 2003), and the other running through the temporalis at its most superficial course (Tadokoro et al. 2007; Fujimura et al. 2009). Three cases (1.4 %) of the maxillary artery passing through the lower head of the lateral pterygoid were observed in this study (Fig. 2). Although similar cases were reported by Adachi (1928), Iwamoto et al. (1981), Takemura et al. (1984), and Fujimura et al. (1991), those authors provided additional classification of the medial type or lateral type. This study shows that the maxillary artery should be classified as “the intermediate type” independently.
In one particularly different case, a divided and reunited maxillary artery was classified tentatively into group B (Fig. 3). Claire et al. (2011) reported a case of the divided and reunited maxillary artery in the infratemporal region. According to Claire’s study, the maxillary artery bifurcated into the deep and superficial branches at the distal part of the divergence of the anterior tympanic artery. The deep and superficial branches reunited to form a complete loop at the infratemporal region. The course of the maxillary artery converged at the anterior margin of the infratemporal fossa in every case. The arterial loop, which proximally reunited between the deep and superficial branches, was observed. In the previous descriptions of divided maxillary arteries, the two branches did not reunite (Lauber 1901; Tadokoro et al. 2008). The middle meningeal artery originated from the deep trunk of the maxillary artery and the inferior alveolar artery arose from the superficial trunk. Therefore, some part of the deep trunk in this case may be equivalent to the trunk of the medial type of the maxillary artery.
Padget (1948) reported the internal maxillary branch (the maxillary artery) of the external carotid artery has now established a connection with the lower division of the stapedial artery at the junction of its maxillary and mandibular branches (the inferior alveolar artery). As described by Tandler (1902), the internal maxillary branch gains the outer side of the mandibular nerve root by the development of an arterial loop around the nerve with subsequent obliteration of the primary medial limb of the loop. As soon as the common trunk of the maxillomandibular division of the stapedial artery becomes surrounded by the auriculotemporal nerve, the part of this trunk that lies above the recently completed anastomosis with the internal maxillary artery (the maxillary artery) becomes recognizable as the stem of the middle meningeal artery. This suggests that the mechanism of the formation of the maxillary artery may not be simple.
The furcation point of the middle meningeal and the posterior deep temporal arteries might be substantially related to the course of the maxillary artery (Figs. 4, 5; Table 5). Conventionally the inferior alveolar artery might be an extension of the middle meningeal artery, therefore the inferior alveolar artery is the third branch of the stapedial artery (Tandler 1902; Padget 1948).
Tandler (1902) and Padget (1948) maintain that the inferior alveolar artery was formed by the third branch of the stapedial artery. The lateral, intermediate and the medial types could not be clarified, namely (Fig. 5, parts 2–6). (1) The inferior alveolar artery arose from the external carotid artery (Fig. 5-1). (2) The inferior alveolar artery originated from the middle meningeal artery (Fig. 5-7). (3) The inferior alveolar artery had a double origin (Fig. 5-8). (4) The middle meningeal artery arose from the superficial temporal artery (Fig. 4-h1, -h2). Therefore, we suggest the inferior alveolar artery arises not only from the extension of the third branch of the stapedial artery but also from other possible arteries.
Abbreviations
- AMM:
-
Accessory middle meningeal artery
- AMMB:
-
Accessory middle meningeal branch
- ADT:
-
Anterior deep temporal artery
- ATN:
-
Auriculotemporal nerve
- Bc:
-
Buccinator
- EC:
-
External carotid artery
- IA:
-
Inferior alveolar artery
- IAN:
-
Inferior alveolar nerve
- LN:
-
Lingual nerve
- LP:
-
Lateral pterygoid
- MM:
-
Middle meningeal artery
- Mx:
-
Maxillary artery
- PDT:
-
Posterior deep temporal artery
- ST:
-
Superficial temporal artery
- Tm:
-
Temporal muscle
- MP:
-
Medial pterygoid
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Acknowledgments
The authors are greatly indebted to Prof. G.C. Townsend Dental School the University of Adelaide for his review of this manuscript, and also greatly appreciate Dr. Zac Morse, Faculty of Dentistry the University of Hong Kong for his valuable comments on the manuscript.
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The authors declare no conflicts of interest.
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Maeda, S., Aizawa, Y., Kumaki, K. et al. Variations in the course of the maxillary artery in Japanese adults. Anat Sci Int 87, 187–194 (2012). https://doi.org/10.1007/s12565-012-0146-x
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DOI: https://doi.org/10.1007/s12565-012-0146-x