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Deep palmar arch

The deep palmar arch (also known as the deep volar arch) is a major arterial in the hand that forms a U-shaped vascular structure deep within the , primarily supplying oxygenated blood to the deep palmar tissues, , and the lateral aspects of the fingers. It is typically completed by the of the (entering through the first intermetacarpal space in the majority of cases) with the deep palmar branch of the , creating a conduit that ensures collateral circulation to the hand's intrinsic muscles and deeper layers. This arch is positioned proximal to the and lies between the long flexor tendons and the , running transversely across the at an average length of approximately 4.1 cm. Key branches of the deep palmar arch include the three palmar metacarpal arteries, which course distally between the and anastomose with the common palmar digital arteries of the superficial arch to supply the interosseous muscles and digital webs; the princeps pollicis artery, which bifurcates to nourish ; and the radialis indicis artery, providing to the radial side of the . These branches ensure robust perfusion to , the lateral half of the , and the central , contributing to the hand's overall vascular redundancy. Anatomical variations in the deep palmar arch are less frequent than in its superficial counterpart, with a complete arch observed in 95.2% to 100% of cases across studies, often classified by the contribution of the ulnar artery's deep branch (superior or inferior). The typically dominates as the primary contributor, entering via the first intermetacarpal space in about 96.7% of individuals, though rare patterns involve alternative routes like the second metacarpal . Such variations can influence surgical outcomes, particularly in vascular repairs or flap harvests. Clinically, the deep palmar arch plays a vital role in maintaining hand viability, and its integrity is assessed preoperatively using the Allen test before procedures like catheterization or harvest for coronary bypass grafting, as inadequate collateral flow may lead to ischemia. Knowledge of its morphology is essential in hand surgery to avoid iatrogenic injury during dissections near the first dorsal interosseous muscle or metacarpals.

Anatomy

Formation and course

The deep palmar arch is primarily formed by the terminal portion of the , which enters the by passing between the heads of the first dorsal interosseous muscle and then between the oblique and transverse heads of the adductor pollicis, typically between the first and second , where it anastomoses with the deep palmar branch of the to complete the arch. This is present in nearly all cases, though the contribution from the ulnar artery's deep branch can vary in size and origin point. From its formation, the arch curves medially across the , lying deep to the long flexor tendons of the fingers and superficial to the bases of the and the interosseous muscles. It is positioned approximately one finger's breadth proximal to the web spaces of the fingers, aligning with a line drawn from the web space between the thumb and to of the hamate (analogous to but proximal to Boeckel's line for the superficial arch). Along its course, the arch is accompanied by the deep branch of the , which runs parallel but in the opposite direction toward the radial side of the hand. Relative to the , the deep palmar arch lies more proximally and deeply, together forming a complete arterial ring that enhances collateral circulation in the . This anatomical configuration has remained consistent in descriptions since the early , as detailed in the 20th edition of (1918), with subsequent editions affirming the stability of its formation and path.

Branches and relations

The deep palmar arch typically gives rise to three palmar metacarpal arteries arising from its convexity, which course distally between the . These arteries anastomose with the common digital arteries originating from the . In some cases, four such arteries may be present. From the radial aspect of the arch, the princeps pollicis artery emerges to supply , bifurcating into two branches along its sides. Adjacent to this, the radialis indicis artery arises to provide blood to the lateral aspect of the , often traveling along the first dorsal interosseous muscle. The arch lies superficial to the and the dorsal interossei muscles. It is positioned deep to the long flexor tendons and the lumbricals, as well as the oblique head of the . The arch lies superficial to the . Superficially, the arch is covered by the and the sheaths of the flexor tendons. It courses alongside the deep branch of the . No unique venous or lymphatic structures are directly associated with the arch.

Function

Arterial supply

The deep palmar arch serves as the primary conduit for oxygenated blood to the deeper muscular structures of the hand, delivering primarily from the to maintain consistent perfusion pressure in these tissues. It supplies the palmar interosseous muscles via the palmar metacarpal arteries, which arise from the arch and course distally between the to nourish these intrinsic hand muscles responsible for fine movements. Additionally, the arch provides the main vascular supply to the , with the passing between its oblique and transverse heads before forming the arch, ensuring robust blood delivery to this key adductor of the thumb. The deep head of the flexor pollicis brevis, located in the thenar compartment, receives its arterial supply from branches of the deep palmar arch, including recurrent contributions that support its role in thumb flexion. The hypothenar muscles, forming the medial palmar prominence, are also perfused by the deep palmar arch, which provides collateral flow alongside the to sustain their function in little finger abduction and opposition. These supplies via the palmar metacarpal branches highlight the arch's role in targeted deep tissue oxygenation, preventing ischemic compromise during hand use. In terms of digital perfusion, the deep palmar arch contributes specifically to the thumb through the princeps pollicis artery, which bifurcates to supply the deep aspects of the thumb's soft tissues and bones. It also extends to the lateral side of the via the radialis indicis artery, ensuring deep vascular coverage for precision grip activities. Overall, the deep palmar arch complements the by focusing on deep hand vascularization, with its dominance providing a reliable, high-pressure arterial network for these structures.

Anastomoses

The deep palmar arch primarily anastomoses with the through its three palmar metacarpal arteries, which arise from the deep arch and join the common palmar digital arteries originating from the superficial arch at the metacarpal heads, thereby establishing a dual-arch system that interconnects the volar vasculature of the hand. This linkage ensures coordinated blood distribution across palmar layers. Additionally, the deep palmar arch connects to the as its main inflow, with brief radial contributions facilitating overall arch integrity. The arch maintains radial connections to the carpal arch via perforating branches that with the dorsal metacarpal arteries, allowing potential reverse flow to support dorsal hand during circulatory compromise. Completion of the deep palmar arch occurs through its with the deep palmar branch of the , though this ulnar contribution may result in an incomplete arch in approximately 5% of cases due to limited or absent connection. This anastomotic network provides functional redundancy by offering alternative pathways for blood flow, which is essential for maintaining hand viability in the event of radial or ulnar artery occlusion, as the interconnected arches enable collateral circulation to prevent ischemia. In comparison, the deep palmar arch is radially dominant and oriented toward deeper structures, whereas the superficial palmar arch is ulnarly dominant and focused on superficial tissues, collectively ensuring comprehensive hand perfusion through their complementary anastomoses.

Clinical significance

Assessment and testing

The assessment of the deep palmar arch primarily involves evaluating its patency and collateral circulation to ensure adequate hand perfusion, particularly before procedures that may compromise the radial artery. The Allen test, originally described in 1929, is a non-invasive bedside method to assess the completeness of the palmar arches by testing collateral flow. In this procedure, both the radial and ulnar arteries are compressed at the wrist while the patient clenches their fist for about 30 seconds, causing blanching of the hand upon opening; the ulnar artery is then released, and reperfusion of the thumb and index finger within 5 to 15 seconds indicates sufficient radial contribution through the deep palmar arch. The modified Allen test enhances objectivity by incorporating quantitative tools such as digital plethysmography or to measure changes in or during compression and release. For instance, the Barbeau test variant uses plethysmography to classify waveforms, where a normal undulating pattern upon ulnar release confirms arch patency, while a flat line suggests inadequate collateral flow. These modifications improve reliability over the traditional visual assessment, especially in preoperative evaluations. Imaging modalities provide more detailed visualization when clinical tests are inconclusive. Doppler ultrasound noninvasively assesses flow direction and velocity in the deep palmar arch, often used preoperatively to confirm collateral pathways by measuring signals from the during radial compression. Conventional , though invasive, offers high-resolution mapping of the arch's anatomy and flow dynamics, particularly in planning radial artery harvest or catheterization. These assessments are clinically essential prior to radial artery harvest for coronary artery bypass grafting or transradial , where confirming ulnar collateral flow via the deep palmar arch prevents ischemic complications in the hand. Normal findings include a complete deep palmar arch in approximately 95% to 97% of individuals, with rapid refill in the Allen test verifying adequate perfusion.

Variations and surgical considerations

The deep palmar arch demonstrates relatively low anatomical variability compared to the superficial palmar arch. A meta-analysis of cadaveric and angiographic studies reports a complete deep palmar arch in 95.2% of cases, indicating that incomplete forms—characterized by the absence of ulnar artery contribution and reliance solely on the radial artery—occur in approximately 4.8%. Other variations include atypical entry points of the radial artery into the arch, such as through the second dorsal metacarpal artery rather than the first intermetacarpal space (prevalence of 3.3%), and reduced branching patterns with only two palmar metacarpal arteries instead of the typical three (also 3.3%). Embryologically, the deep palmar arch arises from a vascular at the distal end of the bud's axial intersegmental arteries during embryonic stages 18 to 21 (approximately weeks 6-8 of ), with variations resulting from incomplete regression of these networks or altered hemodynamic influences on . Unlike the , which more commonly depends on ulnar supply and exhibits incompleteness in 18.7% of cases, the deep palmar arch shows greater radial dependency and structural consistency. In surgical contexts, incomplete deep palmar arches heighten the risk of hand ischemia during radial artery harvest for procedures such as coronary artery bypass grafting (CABG), as the forms the primary component of the arch. Preoperative evaluation with the Allen test or is essential to confirm collateral ulnar flow, mitigating complications in up to 10% of cases where variants compromise . In hand repair or flap reconstructions, awareness of accessory branches reduces iatrogenic injury risks, while angiographic imaging is advised for high-risk vascular interventions to address the 5-10% of minor structural anomalies. These considerations underscore the need for tailored approaches.

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