Allen's test is a simple, non-invasive bedside procedure used to assess the patency of the radial and ulnar arteries and the completeness of the palmar arch, thereby evaluating the adequacy of collateral blood flow to the hand.[1] Developed originally to diagnose occlusive arterial diseases, it is now primarily employed as a preoperative screening tool to ensure safe interruption of arterial flow during procedures such as radial artery cannulation or harvesting, although its utility is debated in recent studies due to subjectivity and limited sensitivity, with alternatives like Doppler ultrasonography recommended.[2][3]First described in 1929 by American physician Edgar Van Nuys Allen at the Mayo Clinic, the test was introduced in a paper titled "Thromboangiitis Obliterans: Methods of Diagnosis of Chronic Occlusive Arterial Lesions Distal to the Wrist with Illustrative Cases," where it was applied to identify ulnar artery obstruction in patients with thromboangiitis obliterans.[2] In the original protocol, the patient clenches both fists tightly for one minute to exsanguinate the hands, after which the examiner compresses the radial arteries at the wrist as the patient opens the hands to observe the return of normal skin color, which indicates intact ulnar collateral circulation.[1] A modified version, proposed by Irving Wright in 1952, simplifies the assessment by focusing on one hand at a time: the patient clenches their fist and both the radial and ulnar arteries are compressed simultaneously; the ulnar artery is then released, and reperfusion (return of pink color to the palm) within 5 to 15 seconds signifies adequate collateral flow from the ulnar artery.[1]The test is indicated before any intervention that risks compromising hand perfusion, including arterial line insertion for hemodynamic monitoring, transradial cardiac catheterization, or radial artery harvest for coronary artery bypass grafting, to mitigate the potential for postoperative hand ischemia; recent research (as of 2025) questions its reliability, suggesting adjunctive use of more objective methods such as Doppler ultrasound.[1] There are no absolute contraindications, though it should be performed cautiously in patients with severe vascular disease or inability to cooperate.[1]Interpretation is straightforward: a positive result (rapid color return) confirms sufficient dual arterial supply, allowing the procedure to proceed safely, whereas a negative result (persistent blanching beyond 15 seconds) indicates inadequate collateral circulation and contraindicates radial artery use.[1] Studies have reported the modified Allen test's sensitivity at 73.2% and specificity at 97.1% for identifying circulatory deficits prior to radial artery harvest.[1] While the test itself poses minimal risk, failure to perform it adequately can lead to rare but serious complications like hand ischemia following arterial interruption.[1]
History and Background
Origin and Development
Allen's test was introduced by Edgar Van Nuys Allen, an American physician and professor of medicine at the Mayo Clinic, in a 1929 publication titled "Thromboangiitis Obliterans: Methods of Diagnosis of Chronic Occlusive Arterial Lesions Distal to the Wrist with Illustrative Cases," published in The American Journal of the Medical Sciences.[4] In this seminal paper, Allen described the test as a simple bedside method to assess the circulatory efficiency of the fingers by evaluating arterial patency and collateral flow in the hand.[1]The primary purpose of the test at its inception was to diagnose peripheral vascular compromise in patients suffering from thromboangiitis obliterans, now known as Buerger's disease, a condition characterized by inflammatory occlusion of small and medium-sized arteries, particularly in the extremities.[4] Allen developed the procedure to provide a non-invasive evaluation of chronic occlusive lesions distal to the wrist, focusing on the adequacy of blood supply to the digits in affected individuals.[1]Originally rooted in basic clinical observations of skin color and pallor in ischemic tissues, the test evolved into a standardized technique involving manual compression of the radial and ulnar arteries followed by selective release to observe reperfusion time.[4] This compression-release approach allowed for a more reliable assessment of collateral circulation, marking a key advancement in peripheral vascular diagnostics at the time. Subsequent modifications expanded its application beyond the original context.[1]
Historical Context
Allen's test emerged amid the early 20th-century surge in interest in peripheral vascular diseases, including Raynaud's phenomenon and thromboangiitis obliterans (Buerger's disease), as physicians developed non-invasive techniques to evaluate arterial patency and collateral circulation in the extremities.[1] This period saw growing recognition of occlusive arterial lesions distal to the wrist, prompting systematic assessments of hand blood flow to guide diagnosis and management in patients with ischemic symptoms.[5] The test's initial description in 1929 by Edgar V. Allen reflected these efforts, focusing on obliterative processes in the radial and ulnar arteries.[5]Wartime medicine during World War II accelerated vascular surgery advancements, emphasizing rapid evaluation of peripheral arterial integrity in trauma cases and integrating tests like Allen's blanching method into protocols for assessing ischemic risks.[6] These developments, along with further advancements during the Korean War, underscored the need for reliable collateral flow assessments amid broader innovations in arterial repair and reconstruction techniques.[7]In the 1950s and 1960s, the rise of arterial catheterization for diagnostic and therapeutic purposes, including cardiac procedures and blood gas sampling, prompted modifications to the test for preoperative collateral circulation evaluation, with Irving Wright's 1952 revision adapting it to assess individual radial or ulnar patency before cannulation.[1] This era's procedural expansions heightened routine use of the test to mitigate hand ischemia risks during invasive interventions.[8]By the mid-20th century, particularly from the 1970s onward, Allen's test became integral to preoperative evaluations in cardiac surgery, coinciding with the adoption of radial artery harvesting for coronary artery bypass grafting (CABG), where it served to confirm adequate ulnar collateral flow and prevent postoperative hand compromise.[9] The radial artery's emergence as a preferred conduit in the early 1970s further entrenched the test's role in ensuring safe graft procurement amid CABG's rapid clinical integration.[9]
Anatomy and Physiology
Arterial Supply to the Hand
The arterial supply to the hand primarily derives from the radial and ulnar arteries, which originate as terminal branches of the brachial artery in the cubital fossa.[10] The radial artery travels laterally along the forearm, passing dorsal to the scaphoid and trapezium bones before entering the hand through the anatomical snuffbox, a triangular depression on the radial aspect of the wrist.[10] Within the hand, the radial artery continues distally and medially to form the deep palmar arch, which lies between the oblique and transverse heads of the adductor pollicis muscle and provides the primary vascular supply to the deep structures of the palm.[10]The ulnar artery courses along the medial aspect of the forearm, initially deep to the pronator teres and flexor carpi ulnaris muscles, and radial to the ulnar nerve, before crossing superficially in the distal forearm.[11] It enters the hand through Guyon's canal, superficial to the flexor retinaculum, and terminates by forming the superficial palmar arch deep to the palmar aponeurosis and superficial to the long flexor tendons.[11] This arch curves laterally (radially) across the palm and anastomoses with branches of the radial artery, including the superficial palmar branch of the radial and the deep palmar arch, ensuring interconnected blood flow to the hand.[11]The superficial and deep palmar arches collectively supply the digits through a series of branching vessels. The superficial palmar arch gives rise proximally to three common palmar digital arteries, which travel along the second, third, and fourth intermetacarpal spaces and further bifurcate into proper digital arteries to perfuse the sides of the fingers (except the thumb and radial side of the index finger).[10] In contrast, the deep palmar arch branches distally into three palmar metacarpal arteries that run distally within the intermetacarpal spaces, anastomosing with the common palmar digital arteries and contributing to the proper digital arteries for the thumb (via the princeps pollicis artery) and the radial side of the index finger (via the radialis indicis artery).[10] The patency of these arches is crucial for maintaining collateral circulation to the hand in the event of arterial occlusion.[10]
Collateral Circulation
The collateral circulation of the hand relies on interconnecting vascular networks that enable compensation when one primary artery is occluded, a mechanism central to the evaluation performed by Allen's test. The radial and ulnar arteries contribute to the formation of the superficial and deep palmar arches, which interconnect to distribute blood to the digits; however, in approximately 20% of individuals, the superficial palmar arch is incomplete, leading to greater dependence on a single artery for perfusion. This anatomical variation increases the risk of ischemia if the dominant vessel is compromised, prompting assessment of whether the ulnar artery can adequately supply the hand in the absence of radial flow, or vice versa.[1]Alternative pathways augment this collateral system, including the dorsal metacarpal arteries that arise from the dorsal carpal arch—formed by branches of the radial, ulnar, and anterior interosseous arteries—and extend distally to supply the dorsal aspects of the fingers. These arteries anastomose with the deep palmar arch through palmar metacarpal branches, creating bidirectional flow routes that bypass potential blockages in the main palmar arches. Additionally, recurrent branches from the anterior interosseous artery contribute to the dorsal carpal network, further reinforcing interconnections between volar and dorsal circulations to maintain tissue oxygenation.[10][12]In response to occlusion of one primary artery, adequate collateral circulation facilitates rapid reperfusion via these pathways, with normal capillary refill restoring palmar color within 5 to 15 seconds upon release of the occluded vessel. Delayed refill beyond this timeframe indicates insufficient compensatory flow, potentially due to incomplete arches or other vascular anomalies.[1]
Methods
Original Allen's Test
The original Allen's test, first described by Edgar Van Nuys Allen in 1929, is a bedside procedure designed to assess the patency of the radial and ulnar arteries and the completeness of the palmar arch by evaluating collateralbloodflow to the hand.[1]The procedure begins with the patient elevating both arms above the head for 30 seconds to exsanguinate the hands. The patient then clenches both fists tightly for up to 60 seconds while the examiner occludes both radial arteries at the wrists using firm digital pressure with the thumb and index finger (lateral to the flexor carpi radialis tendon). The patient opens both hands fully without hyperextending the wrist or fingers, and the examiner observes the return of normal pink color to the palms, starting from the thenar eminences if the ulnar arteries are patent; a normal response occurs within 5 to 15 seconds.[1][13]The test is repeated in reverse: the patient re-clenches both fists to blanch the palms while the examiner now occludes both ulnar arteries (medial to the flexor carpi ulnaris tendon), then opens the hands to observe the flush return beginning at the hypothenar eminences and extending across the palms via radial flow, again timing the reperfusion within 5 to 15 seconds.[1][13]This symmetric, bidirectional evaluation of both hands simultaneously distinguishes the original method from later simplifications.
Modified Allen's Test
The modified Allen's test is a simplified unilateral assessment of collateral circulation in the hand, primarily evaluating the patency of the ulnar artery prior to procedures involving the radial artery, such as arterial cannulation or harvesting.[1] This version differs from the original by focusing on one hand at a time for greater efficiency in clinical settings.[1]To perform the test, the patient clenches the fist tightly for 30 seconds to blanch the palm. The examiner then applies compressive pressure to both the radial and ulnar arteries at the wrist using the thumb and forefinger. The patient is instructed to open the hand slowly and maintain a relaxed open hand position without reclenching to ensure accurate observation of reperfusion dynamics.[14][15]Next, the examiner releases the compression on the ulnar artery while continuing to occlude the radial artery and observes the return of color to the palm and fingers, which can be reperfused via ulnar collateral circulation if the palmar arch is complete.[16] A normal result shows reperfusion within 5 to 15 seconds, indicating adequate ulnar artery patency and sufficient collateral flow to support hand perfusion during radial arteryocclusion.[1] This test is routinely used before radial artery access to minimize risks of hand ischemia, with clear communication to the patient about the need for cooperation to avoid false negatives.[15]
Other Variations
The Barbeau test represents an objective enhancement to traditional visual assessments by incorporating pulse oximetry and plethysmography to evaluate the patency of the ulnopalmar arterial arches and collateral circulation in the hand prior to radial artery interventions. In this method, a pulse oximeter probe is placed on the thumb or index finger to monitor the plethysmographic waveform and oxygen saturation while both the radial and ulnar arteries are simultaneously compressed at the wrist; the ulnar artery is then released, and the resulting waveform is observed for changes. Four distinct patterns emerge: type A, characterized by no damping of the pulse tracing, indicates normal collateral flow; type B shows transient damping; type C involves loss of the signal followed by recovery within two minutes; and type D exhibits no recovery within two minutes, signaling inadequate ulnar collateral circulation and a potential contraindication for radial artery use. This test demonstrates higher sensitivity than the modified Allen test, identifying collateral insufficiency in only 1.5% of cases compared to 6.3%, making it particularly valuable in high-risk procedural settings like transradial cardiac catheterization.[17]The bidirectional Allen's test extends the standard evaluation by assessing patency in both arterial directions to ensure comprehensive collateral circulation, especially critical before procedures involving radial artery harvest, such as radial forearm free flap surgery for head and neck reconstruction. It comprises the conventional test, which compresses the radial artery to verify ulnar dominance in hand reperfusion, and the reverse component, which compresses the ulnar artery to confirm radial artery flow by observing rapid return of color to the blanched hand upon radial release. This dual approach is essential in patients with a history of transradial endovascular access, where radial occlusion rates range from 2% to 18%, as it detects proximal radial artery compromise that could lead to postoperative hand ischemia or flap failure. With a sensitivity of 54.5% and specificity of 91.7%, the bidirectional test guides surgical candidacy and flap design, prioritizing the unaffected limb if occlusion is identified.[16]The reverse Allen's test specifically targets the assessment of radial artery patency and its contribution to digital perfusion by reversing the compression sequence of the standard test, compressing the proximal ulnar artery while releasing the radial to evaluate flow through the palmar arch to the digits. Performed by elevating the hand to blanch it, compressing both proximal arteries, and then releasing the radial while maintaining ulnar occlusion, it observes the rapidity of digital reperfusion—typically within seconds if patent—to confirm adequate radial inflow to the fingers. This variation is particularly relevant in scenarios involving potential radial occlusion risks, such as flap surgery or post-catheterization monitoring, where failure to reperfuse indicates insufficient collateral support to the digital arteries and warrants alternative vascular access or surgical planning. Its utility lies in highlighting isolated radial deficiencies that might otherwise go undetected in unidirectional testing.[16]
Interpretation
Normal Results
In the modified Allen's test, a normal result is indicated by the rapid return of pink color (flush or reperfusion) to the palm and fingers within 5 to 15 seconds after releasing pressure on the ulnar artery, while the radial artery remains compressed.[15] This reperfusion demonstrates adequate collateral blood flow through the palmar arches, ensuring sufficient arterial supply to the hand.[1]For the original Allen's test, normal findings similarly involve symmetric restoration of normal color to the entire hand upon release of either the radial or ulnar artery after initial compression of both. There should be no persistent blanching, cyanosis, or asymmetry across the digits, with full warmth returning promptly.[18]Thresholds for normalcy can vary slightly by protocol, emphasizing both visual color return and temporal speed for clinical assessment.[19]
Abnormal Results
An abnormal result in Allen's test is characterized by delayed reperfusion of the hand, typically exceeding 15 seconds, or complete failure of color return after releasing the compressed artery, signifying inadequate collateral blood flow from the untested vessel.[1] When testing the radial artery, persistent pallor or mottled appearance of the palm, thumb, or thenar eminence beyond this threshold specifically indicates ulnar artery insufficiency, as the ulnar circulation cannot adequately compensate for radial occlusion.[1] In severe cases, such as a pale or mottled hand with prolonged persistence, the findings suggest a high risk of ischemic complications, including hand ischemia, tissuenecrosis in the thumb or thenar eminence, or long-term vascular compromise if the tested artery is subsequently cannulated or harvested.[2]These abnormal outcomes highlight potential anatomical variations, such as an incomplete palmar arch, which occurs in up to 58% of individuals and can impair collateral circulation.[2] Proceeding with radial artery procedures in the presence of such results may lead to critical ischemia, underscoring the need to avoid or modify interventions to preserve hand perfusion.[1]The test's interpretation is complicated by false positives and negatives, with reported sensitivity of 73.2% and specificity of 97.1%; a systematic review reports specificity of 93%.[20][21] This means it may overestimate or underestimate collateral adequacy in certain cases. Observer variability contributes to these inaccuracies, with interobserver agreement as low as 71.5%, often due to subjective assessment of color return or technical factors like hand positioning.[21] To mitigate this, documentation of bilateral testing is essential, as the original Allen's test evaluates both hands simultaneously to compare symmetry and confirm consistent collateral flow patterns.[1]
Clinical Applications
Indications
Allen's test is primarily indicated prior to procedures that may occlude or harvest the radial artery to ensure adequate ulnar collateral circulation and prevent hand ischemia.[1]It is routinely performed preoperatively before radial artery harvest for coronary artery bypass grafting (CABG) surgery, where the radial artery serves as a conduit, to confirm sufficient palmar arch patency via the ulnar artery.[22][1]The test is recommended before radial artery catheterization or cannulation, such as for arterial line placement in critical care settings, to assess the risk of ischemic complications from potential radial occlusion.[23][1]In vascular surgery, Allen's test evaluates arterial patency prior to ulnar-based flaps, ensuring dominant radial supply to the hand, or before creating dialysis access such as radiocephalic arteriovenous fistulas that utilize the radial artery.[24][25][1]Historically, the test was used to diagnose occlusive peripheral vascular disease affecting the ulnar artery.[26]
Limitations and Alternatives
The Allen's test relies on subjective visual assessment of hand reperfusion, which contributes to significant inter-observer variability and limits its reliability, with reported interobserver agreement as low as 71.5% in systematic reviews.[21]Sensitivity for detecting inadequate collateral circulation varies across studies (e.g., 54–77%), while specificity is generally higher but inconsistent, often around 90-97%; this variability underscores poor reproducibility, particularly in identifying incomplete palmar arches where false positives or negatives can occur due to inconsistent compression or interpretation.[1][20][27]The test's dependence on visual cues makes it less suitable for patients with dark skin tones, where color changes are harder to discern, or for those unable to cooperate due to cognitive or physical limitations; additionally, the variable sensitivity potentially leads to false negatives in up to 25-46% of cases, possibly overlooking risks of hand ischemia.[28][1][29]Superior alternatives include Doppler ultrasound, which provides direct visualization of arterial flow with higher objectivity and accuracy than visual methods, digital plethysmography for quantitative blood volume assessment, and CT angiography for definitive evaluation of vessel patency in complex cases.[1] The Barbeau test serves as a non-invasive upgrade, incorporating pulse oximetry to objectively monitor waveform changes and detect collateral flow more reliably than the traditional Allen's test, with improved sensitivity in critical care settings.[1][30]