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Peer Reviewed

Interesting Cases

A Case of a Rare Branching Pattern in the Carotid Artery

Ayumi Sakai, MD1; Kazunobu Hashikawa, MD, PhD2; Akiko Sakakibara, MD, PhD3; Nobuyuki Murai, MD1; Tadashi Nomura, MD, PhD1; Masaya Akashi, MD, PhD3; Hiroto Terashi, MD, PhD1

February 2022
1937-5719
ePlasty 2022;22:ic1

Case Summary

A 79-year-old male diagnosed with right buccal squamous cell carcinoma T2N0M0 Stage II underwent malignant tumor resection, level I–III neck lymph node dissection, and reconstruction with a left forearm free flap. A search for recipient arteries revealed that the superior thyroid artery (STA) did not originate from the right external carotid artery (ECA). The first ECA branch originated from the cranial side of the digastric muscle and hypoglossal nerve. Therefore, the right common carotid artery (CCA) was detached in the operative field, but the STA could not be identified (Figure 1). Finally, the ECA and radial artery were anastomosed from side to end (Figure 2 a-c). A neck contrast computed tomography (CT) scan showed that the STA originated from the CCA, which was located 2.6 cm proximal to the internal and external carotid bifurcation (CB) and the first ECA branch, which was located in the linguofacial trunk (Figure 3).

Figure 1
Figure 1. Schema after neck dissection. LF: linguofacial trunk, EJV: external jugular vein, IJV: internal jugular vein, SCM: sternocleidomastoid muscle, DM: digastric muscle, HB: hyoid bone, HGN: hypoglossal nerve.
Figure 2
Figure 2. 2a and 2b After vascular anastomosis. 2b) The defect of the buccal mucosa was reconstructed with a forearm free flap.
Figure 3
Figure 3. Cervical CT. Arrowhead indicates the STA.

 

Questions

1. From where does the STA originate, and what is the relationship between the STA origin and the surrounding tissue?

2. What are the variations in the branching patterns of the facial artery (FA), lingual artery (LA), and STA?

3. What is the frequency of the branching pattern for 3 anterior branches in this case?

4. How was the STA chosen for the recipient artery?

1. From where does the STA originate, and what is the relationship between the STA origin and the surrounding tissue?

Patterns for the origin of the carotid artery branches have been known to be widely varied, although the embryological development of the ECA and the internal carotid artery (ICA) is complex, and the developmental mechanisms are unclear.1 The STA is generally the first ECA branch.2 However, the origin of the STA has long been discussed, and the authors often encounter patients with an STA that originates from the CCA. Previous studies have reported that the STA originated from CB in 23% to 70% of patients and from the CCA in 1.5% to 47.5% of patients.1-6 This varied frequency is caused by the CB definition; many researchers defined the CB from the initial widening level of the vessel to the containing angle between the ICA and ECA, and some defined this area as the ECA or CCA.1,3 The CB level was reported at the body of the hyoid bone, superior border of the thyroid cartilage, the tip of the greater horn of the hyoid bone, and body of the thyroid cartilage in 40, 39, 15, and 6% of patients, respectively.4 The higher the CB level, the more likely it was that the STA originated from the CCA within 1 cm proximal to the CB.4,5

2. What are the variations in the branching patterns of the FA, LA, and STA?

Few reports have summarized the branching positions of FA, LA, and STA. Natsis et al used 100 cadaveric carotid arteries to classify these 3 branches and reported each of their frequency; in Type I no common trunks are present and in Type II the common trunk is always observed.1 The origin of the STA is described as ECA, CB, or CCA after type, and the branches forming a trunk are described using their initial letters, ie, thyrolingual (TL), linguofacial (LF), and thyrolinguofacial (TLF; Figure 4).

Figure 4
Figure 4. The branching pattern of the carotid artery.

 

3. What is the frequency of the branching pattern for 3 anterior branches in this case?

In this case, the STA originated from the CCA, and the FA and LA formed the common trunk. The frequency of this branching pattern was 1% according to Natsis et al.1 Two (6.5%) of the patients had a similar branching pattern in Takemura et al’s report, which observed 31 carotid arteries.3 Ozgur et al6 observed 40 carotid arteries and found no cases similar to the pattern of this branch (Table 1). In this case, the result is similar to these previous reports, demonstrating that the CB was located at the greater horn of the hyoid bone at a high level, and that the STA originated from the CCA. However, the STA originating from the CCA was 2.6 cm proximal to the CB, which was far more proximal than in previous reports5, and the FA and LA forming the common trunks rarely occur simultaneously.

Table 1

 

4. How was the STA chosen for the recipient artery?

The authors considered the LF trunk or STA as an anastomotic artery other than the ECA. With regard to the LF trunk, the pedicle may be compressed by the digastric muscle when returning the head to the front, if the LF trunk was anastomosed to the superficial layer of the digastric muscle retracted to the cranial side. Anastomosis to the LF trunk was considered via the back surface of the digastric muscle, which requires dissection of the LF trunk more distally and takes more time due to the presence of the mandible. With regard to the STA, the authors could not identify the STA originating from the carotid artery, although the ECA was dissected to the CCA as much as possible in the operative field. This occurred because the CCA was dissected for the limited area after the level I–III neck lymph node dissection, and the STA was not predicted to originate from the CCA, which was 2.6 cm proximal to the CB. The authors anastomosed the ECA and radial artery from side to end in the operative field based on the assessment that anastomosis to the ECA could make the flap ischemia time shorter than detection of the STA by dissecting the CCA further. The flap ischemic time may not have changed significantly when anastomosing the STA given the distance from the CB to the point of STA origin preoperatively, because it might originate from the CCA slightly proximal to the operative field.

Summary

The authors encountered a case in which selection of an anastomotic artery was difficult because of the rare branching pattern of the carotid artery. Therefore, it should be noted that the FA, LA, and STA sometimes form a common trunk together and that the STA tends to originate from the CCA when the CB exists at a higher level, and an exceptional case in which the STA originates from the CCA at greater than 2 cm proximal to the CB should be considered. Sufficient knowledge of the branching pattern of the carotid artery and its location with the surrounding tissue is important to ensure safe free flap surgery with the ability to adapt to a rare branching pattern.

Acknowledgments

Affiliations: 1Department of Plastic and Reconstructive Surgery, Kobe University Graduate School of Medicine; 2Department of Plastic and Reconstructive Surgery, Nagoya University Graduate School of Medicine; 3Department of Oral and Maxillofacial Surgery, Kobe University Graduate School of Medicine.

Correspondence: Ayumi Sakai, MD, Kobe University, Kobe, Hyogo Japan; ayumifujita1207@gmail.com.

Disclosure: The authors disclose no financial or other conflicts of interest.

References

1. Natsis K, Raikos A, Foundos I, et al. Superior thyroid artery origin in Caucasian Greeks: a new classification proposal and review of the literature. Clin Anat. 2011;24(6):699–705. doi: 10.1002/ca.21181

2. Drake RL, Vogl AW, Mitchell AWM. Gray's Anatomy for Students (4th edition). Philadelphia, Elsevier, 2019.

3. Takemura A, Ike H, Suwa F, et al. Ramification aspects of the external carotid artery in Chinese and Japanese. Shikaigaku. 1997;60(4):302–308. doi:10.18905/shikaigaku.60.4_302

4. Lo A, Oehley M, Bartlett A, et al. Anatomical variations of the common carotid artery bifurcation. ANZ J Surg. 2006;76(11):970–972. doi: 10.1111/j.1445-2197.2006.03913.x.

5. Smith SD, Benton RS. A rare origin of the superior thyroid artery. Acta Anat (Basel). 1978;101(1):91–93. doi: 10.1159/000144952

6. Ozgur Z, Govsa F, Ozgur T. Assessment of origin characteristics of the front branches of the external carotid artery. J Craniofac Surg. 2008;19(4):1159–1166. doi: 10.1097/SCS.0b013e3180690252

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