Angular artery

Abstract: The largest prospective cadaver study done over a 3-year period to investigate the arterial variations of the forehead is presented. The primary goal was to find anatomical support for various forehead flaps previously designed. Thirty cadaver foreheads (60 hemi-foreheads) were dissected from deep to superficial to identify arterial variations. The arteries were filled with a latex solution prior to dissection. The results show that the supratrochlear and dorsal nasal arteries have a relatively constant origin. Vertical (VB), oblique (OB), medial (MB) and lateral branches (LB) of the supraorbital artery were identified. The frontal branch of the superficial temporal artery (FBSTA) was found to continue in the direction of the scalp at the lateral orbital rim vertical line and gave off a transverse branch, the transverse frontal artery (TFA), to supply the forehead. The oblique branch of the supraorbital artery (OBSOA) most often anastomosed with either the transverse frontal artery or the frontal branch of the superficial temporal artery at the lateral orbital rim vertical line. A central artery (CA) was consistently found originating from the dorsal nasal artery usually 5mm from its origin. The central artery had a constant anastomosis with the opposite central artery in the inferior transverse third of the forehead. The central artery was not easily identifiable in the superior third of the forehead. The angular artery (AA) was found to have a variable termination. The angular artery could communicate with the supratrochlear artery (STrA) at the supraorbital rim (SOR) or it could continue up into the forehead medial to the STrA. This artery was called the paracentral artery (PCA). The central artery, paracentral artery and supratrochlear artery have an important relationship with the most prominent central vein that is relevant to flap construction. The significance of the central artery and vein favours the median forehead flap as anatomically superior and the prominent central vein is a constant landmark on which to select the side of the pedicle. Clear landmarks for defining the pedicle base for the median forehead flap are provided.

Abstract: The use of flaps to reconstruct lip defects requires detailed knowledge of the local vasculature. New flaps for surgery around the mouth can be devised if the surgeon knows the distribution of the perioral arterial branches. Examination of the anatomy of perioral branches of the facial artery (FA) confirmed the consistent presence of septal and alar branches in the upper lip and a labiomental branch in the lower lip. Mucosal flaps from the upper lip based on the deep septal branch or the alar branch of the FA can be used to restore lower lip defects. A composite flap from the lower lip supplied by the labiomental branch of the FA can be used to restore combined defects of the upper lip and nose or partial defects of the lower lip. We studied the vascular anatomy of the perioral region in 25 cadaver dissections. Fixation was by 10% formaldehyde solution. Red latex was injected into the common carotid arteries before dissection. In the 50 specimens, the primary supplying vessels were identified and the size and distribution of the vessels were investigated. The FA was symmetrical in 17 (68%) of 25 heads. It terminated as an angular facial vessel in 11 (22%), as a nasal facial vessel in 30 (60%), as an alar vessel in six (12%), and as a superior labial vessel in two (4%) facial halves. It terminated as a hypoplastic type of FA in one (2%) facial half. The average external diameter of the superior labial artery (SLA) was 1.6 mm (min-max: 0.6-2.8 mm) at its origin. The origin of the SLA was superior to the angle of the mouth in 34 of 47 specimens (72.3%), and at the angle of the mouth in 13 of 47 specimens (27.7%). In two of the remaining three specimens, the SLA was the continuation of the FA and the other was of the hypoplastic type. The SLA supplied the columellar branches in all specimens except for the hypoplastic type (49 specimens). Columellar branches were classified according to their number and their type. In five specimens (10%) the inferior labial artery (ILA) was not found. In the other specimens, the site of origin of the ILA varied between the lower margin of the mandible and the corner of the mouth. Its external diameter measured min-max: 0.5-1.5 mm. The ILA arose from the FA above the angle of mouth in 4 specimens (8%), inferior to the angle of mouth in 11 specimens (22%), and at angle of mouth in 30 specimens (60%). We observed that the labiomental arteries, which formed anastomoses between the FA, ILA, and submental artery, showed variations in their course in the labiomental region. We suggest that knowledge of the location of arteries with respect to easily identifiable landmarks will help to avoid complications at surgery.

Abstract: The facial artery is the major vessel supplying blood to the face so its location and course are very important for the safe manipulation of both surgical and non-surgical interventions. This study documents current anatomical information about the facial artery and its tributaries. The terminology of the facial artery tributaries was revisited with reference to the Terminologica Anatomica and novel nomenclature was suggested with anatomical features. The tributaries to the lower lip (inferior labial artery), labiomental region (horizontal and vertical labiomental artery), upper lip (superior labial artery), nose (inferior and lateral alar artery and nasal septal artery), angular and ocular region (angular artery and detoured branch) and the course, layers and location of the facial artery main trunk were revisited with contemporary anatomical studies. The facial artery and its tributaries have close topographical connections to the facial expression muscles, nasolabial groove, and vermilion border, and these also distinguish facial landmarks comprising the cheilion, stomion, and gonion. Interestingly, in contrast to previous descriptions, some terminal branches did not take a straight course but a detoured course. The angular artery was connected to the ophthalmic artery branches and in some cases did not originate from the facial artery. Vascular complications of the facial artery tributaries are frequently seen in the angular, dorsum of the nose, tip of the nose, and glabellar region. This detailed review focusing on facial arterial topography in the various areas of the face would help to enhance quality of treatment. Clin. Anat. 31:99-108, 2018. © 2017 Wiley Periodicals, Inc.