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Supratrochlear artery

The supratrochlear artery, also known as the frontal artery, is a small terminal branch of the in the superomedial . It supplies blood to the medial , , upper , and adjacent structures, exiting the via the supratrochlear and ascending subcutaneously. Accompanied by the and vein, it anastomoses with the contralateral supratrochlear artery, , and branches of the , linking the internal and external carotid systems. With a of approximately 1.0-1.2 mm, it is clinically important in reconstructive and aesthetic procedures of the upper face.

Anatomy

Origin

The supratrochlear artery arises as one of the terminal branches of the , which itself originates from the within the intracranial space. This origin typically occurs intraorbitally, where the artery emerges from the parent vessel near the trochlea of the , positioned superior to the medial canthus and approximately 1.2 cm above it. At its point of origin, the supratrochlear artery has an average external diameter of about 1.0 mm, ranging from 0.8 mm to 1.2 mm depending on individual . From the outset, it courses alongside the , a branch of the from the ophthalmic division of the , maintaining this close association as it traverses the medial orbital region.

Course

The supratrochlear artery emerges from the by passing superiorly superficial to the , traveling deep to the orbicularis oculi and frontalis muscles. It then pierces the approximately 1.7–2.2 cm above the medial and about 1.2 cm superior to it. The artery exits the orbit medial to the or notch, typically via the supratrochlear notch if present, or directly through the surrounding soft tissues. Upon exiting the , the supratrochlear artery ascends subcutaneously along the in a parallel to the midline, accompanying the throughout its course. It divides into superficial and deep branches approximately 1.2–1.5 cm above the supraorbital rim, with the occurring around 1.35 cm lateral to the midline. The total length of the artery from its origin at the to the point of on the measures approximately 5 cm.

Relations

The supratrochlear artery lies medial to the and lateral to the angular artery near the medial canthus. Within the , the artery runs deep to the before piercing it to become superficial on the . It maintains a close association with the , a branch of the , throughout its course, often traveling within the same fascial plane. At its origin, the artery is positioned superior to the trochlea of the , and on the , it lies anterior to the of the . Ultrasound and computed studies indicate that the superficial branch of the supratrochlear artery on the is located 1.5-2 mm from the skin surface, while the deep branch is 3-4 mm deep.

Distribution and branches

The supratrochlear artery typically bifurcates into superficial (subcutaneous) and deep (supraperiosteal) branches approximately 1.2 cm above the supraorbital rim. This bifurcation occurs after the artery emerges from the , with the branches then ascending toward the . The superficial branch pierces the frontalis muscle and becomes subcutaneous, supplying the skin and of the medial and anterior . It courses cephalad at a depth of about 1.5 mm from the epidermal surface, providing vascularization to the integumentary layers in these regions. The deep branch travels within the subgaleal fascia, supplying the pericranium, , and portions of the . It maintains an axial course 1.5 to 4 cm above the supraorbital rim, ensuring to these deeper and periosteal structures. Additional minor branches include the orbital branch, which supplies the upper and tarsal plate, and the palpebral branch, which provides blood to the skin of the medial upper . Overall, the supratrochlear artery contributes significantly to the vascular supply of the region and the medial aspect of the upper through these terminal distributions.

Anastomoses

The forms an arcade with the ipsilateral on the , typically located approximately 2-3 cm above the orbital rim, contributing to a rich vascular network in the upper region. This facilitates lateral flow distribution across the . It also anastomoses with the contralateral supratrochlear artery across the midline through transverse frontal branches, enabling symmetrical perfusion over the and central . Inferiorly, the supratrochlear artery connects with the angular artery, a terminal branch of the , near the medial in the nasoglabellar area. Additionally, it exhibits potential links to the nasal artery, supporting vascular supply to the through interconnected pathways. These anastomotic connections collectively provide collateral circulation pathways, particularly in scenarios of ophthalmic artery occlusion, where retrograde flow from external carotid system branches can maintain perfusion to the medial forehead and periorbital structures. The supratrochlear artery's role as a key partner to the underscores its integration into broader vasculature.

Anatomical variations

Types of variations

The supratrochlear artery exhibits several anatomical variations, primarily documented through cadaveric dissections, (CTA), and Doppler ultrasound studies. These deviations occur in its origin, course, branching patterns, and spatial relations, influencing its trajectory from the to the . In terms of origin, the artery typically arises as a terminal branch of the , but variations include emerging as a common trunk with the before bifurcating intracranially or within the . Less commonly, it may originate directly from the angular artery of the facial system, bypassing the standard ophthalmic pathway. In rare instances, the supratrochlear artery is absent, with its territory supplied by branches of a paracentral artery arising from the . These origin patterns have been observed in cadaveric dissections of injected specimens and corroborated by CTA imaging. Course variations involve differences in the artery's emergence from the and its ascent through layers. The usually exits the superomedial approximately 1.7–2.2 cm lateral to the midline and 1.2 cm superior to the medial , passing superficial to the . However, the point of orbital exit can shift medially or laterally, and the superficial branch may become subcutaneous at varying heights above the supraorbital rim, ranging from 15 to 35 mm. The deep branch, when present, travels in the subgaleal plane 15–40 mm above the rim, though it may be absent in some configurations, altering the overall axial course. Such deviations are highlighted in ultrasound-based mappings and cadaveric analyses, showing the artery's path between the orbicularis oculi and frontalis muscles before reaching . Branching variations are among the most frequently described, with the artery often dividing into superficial and deep branches shortly after exiting the , supplying the , glabellar , and forehead musculature. Alternative patterns include a single undivided trunk (without ), trifurcation into three main branches, or formation of an arterial with adjacent vessels. Specific branches may encompass medial and lateral , superior palpebral arteries, brow branches, periosteal feeders, cutaneous twigs, oblique, and vertical ramifications. These morphologies are derived from detailed cadaveric studies and reconstructions, emphasizing the artery's adaptability in vascular supply. Relations to surrounding structures also vary, with the artery's depth fluctuating from 2 to 6 mm in the glabellar region and averaging 3.34 mm at the mid-eyebrow level, influenced by layers and thickness. It typically maintains a position 14–18 mm from the midline, but asymmetric positioning or altered proximity to the trochlea can occur, potentially coursing more laterally in some individuals. Anastomotic connections with the supraorbital, , and nasal arteries remain consistent, though their configuration may adapt to branching deviations. These relational aspects are evidenced in Doppler ultrasound and cadaveric dissections, providing insights into positional diversity.

Incidence and prevalence

Anatomical variations of the supratrochlear artery occur in a substantial proportion of individuals, with deviations from the typical single trunk branching pattern reported in 60-65% of cases across systematic reviews of cadaveric and studies involving hundreds of specimens. Extraorbital origins, where the artery arises from the rather than within the , are relatively uncommon at approximately 5%, though higher rates may be observed in modalities like compared to ; approximately 65% arise directly from the , 30% from a trochlear branch of the , and 5% from other sources. Duplication or multiple branching, such as trifurcation, is seen in 10-15% of cases, while absence is rarer at 3.3%, often unilateral and compensated by adjacent vessels like the . Demographic analyses indicate inter-population variations, though specific data on extraorbital origins across ethnic groups remain limited, and no notable sex-based differences. Non-invasive detection of variations is effective with Doppler ultrasound for evaluating course and depth, while and MRI excel for deeper intraorbital origins.

Clinical significance

Surgical and reconstructive applications

The supratrochlear artery serves as the primary axial for paramedian forehead flaps, which are widely employed in nasal reconstruction following for removal. These flaps leverage the artery's reliable blood supply to cover complex defects in the nasal subunit, providing well-vascularized tissue that matches the color and texture of the recipient site. The design centers the pedicle on the artery, typically 1.7–2.2 cm lateral to the midline, ensuring axial perfusion from its origin in the . The perforator-based aspects of the flap incorporate the deep branch of the supratrochlear artery, which courses beneath the for approximately 2–3 cm before becoming subcutaneous, contributing to robust distal . This vascular architecture supports viable flap dimensions up to 6 cm in length and 4 cm in width, allowing for single-stage or staged reconstruction without significant compromise. Asymmetry between bilateral supratrochlear arteries, observed in 25–35% of cases, can influence flap viability and pedicle positioning, necessitating preoperative Doppler for mapping to optimize outcomes. Beyond nasal defects, the supratrochlear artery facilitates reconstructions of the upper eyelid and glabellar region, where axial flaps provide durable coverage for tissue loss from or tumor excision. In these applications, the artery's branches supply the medial and periocular structures, minimizing donor-site morbidity while preserving aesthetic contours. of the supratrochlear artery, if required during dissection, carries a risk of , though incidence remains below 5% when preoperative vascular imaging and intraoperative preservation techniques are employed. Advancements in surgical planning have incorporated three-dimensional CT angiography since the , enabling precise visualization of the artery's course and variations to refine flap design and reduce complications. This imaging modality has enhanced the reliability of supratrochlear-based flaps by identifying perforator patterns and asymmetries preoperatively.

Cosmetic and interventional procedures

The supratrochlear artery is a critical anatomical in cosmetic filler injections, particularly hyaluronic acid treatments in the to smooth vertical frown lines. Injections in this high-risk zone can inadvertently enter the artery, causing intravascular and retrograde to the , which may result in retinal artery embolism and irreversible blindness. The incidence of vision loss from such procedures is estimated at 0.0001-0.001% per injection, with the accounting for approximately 38.8% of reported cases due to the artery's superficial course and direct communication with central retinal vessels. To mitigate this, practitioners employ techniques like low-volume injections, prior to injection, and readiness for reversal, emphasizing the artery's depth of 1.7-2.2 mm in the glabellar region. Neuromodulator injections, such as (Botox) for glabellar rhytides, also necessitate caution around the supratrochlear artery's superficial branch, which emerges approximately 1.7 cm from the midline. A 1-2 cm safety zone medial to the mid-pupillary line is recommended to avoid vascular compromise, as the artery lies superficially (1-3 mm depth) within the layer. Although the risk of occlusion is lower with neuromodulators due to minimal volume compared to fillers, improper placement can still provoke or exacerbate vascular fragility in this zone. Ultrasound-guided mapping has become essential for thread lift procedures and therapies targeting , allowing real-time visualization of the supratrochlear to prevent and subsequent formation. High-frequency (10-15 MHz) identifies the vessel's location, reducing complications by enabling precise thread trajectory and energy delivery in resurfacing, where to the could otherwise lead to . In interventional migraine management, the supratrochlear artery is integral to supraorbital and supratrochlear or surgeries, which address peripheral trigger points by releasing the vascular-nerve bundle at the orbital rim. These procedures, often endoscopic, target compression of the adjacent to the artery, achieving 70-80% reduction in frontal frequency and severity in cases. Preservation of the artery during is vital to avoid ischemia or excessive bleeding.

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