Anatomy, Shoulder and Upper Limb, Brachial Artery
Introduction
The brachial artery is the extension of the axillary artery starting at the lower margin of the teres major muscle and is the major artery of the upper extremity. The brachial artery courses along the ventral surface of the arm and gives rise to multiple smaller branching arteries before reaching the cubital fossa.[1] These branching arteries include the deep brachial artery, the superior ulnar collateral artery, and the inferior ulnar collateral artery. Once the brachial artery reaches the cubital fossa, it divides into its terminal branches: the radial and ulnar arteries of the forearm.
The brachial artery and its branches supply the biceps brachii muscle, triceps brachii muscle, and coracobrachialis muscle. The median nerve, a division of the brachial plexus, initially lies lateral to the brachial artery at its proximal segment. At its distal segment, the median nerve crosses the medial side of the brachial artery and lies in the ventral cubital fossa.
Structure and Function
Register For Free And Read The Full Article
- Search engine and full access to all medical articles
- 10 free questions in your specialty
- Free CME/CE Activities
- Free daily question in your email
- Save favorite articles to your dashboard
- Emails offering discounts
Learn more about a Subscription to StatPearls Point-of-Care
Structure and Function
The following are the branches of the brachial artery in order of origin, proximal to distal.
Profunda Brachii/Deep Brachial Artery
The first branch of the brachial artery, this branch of the brachial artery arises below the inferior border of the teres major muscle. Paralleling this branch of the brachial artery is the radial nerve. Initially, the profunda brachii artery gives off an ascending deltoid branch aiding the posterior circumflex humeral artery in supplying the deltoid muscle. The profunda brachii artery then courses between the long and medial heads of the triceps brachii muscle and runs along the radial sulcus of the humerus. Once it reaches the lateral aspect of the upper extremity, the profunda brachii artery pierces the lateral intermuscular septum and supinator muscle before dividing into the middle and radial collateral arteries — the radial collateral artery anastomoses with the radial recurrent artery at the anterior cubital fossa. The middle collateral artery runs posterior to the cubital fossa and anastomoses with the interosseous recurrent artery superior to the olecranon of the ulna.
Superior Ulnar Collateral Artery
The second branch of the brachial artery. Occasionally, this artery may arise from the profunda brachii artery. After its origin, it penetrates the medial intermuscular septum and courses along the medial head of the triceps brachii. Once it reaches the elbow, the superior ulnar collateral artery parallels the ulnar nerve along the space between the olecranon of the ulna and medial epicondyle of the humerus. The superior ulnar collateral artery ends via anastomosing with the posterior ulnar recurrent artery and inferior ulnar collateral artery deep to the flexor carpi ulnaris muscle.
Inferior Ulnar Collateral Artery
The third branch of the brachial artery, this vessel originates anterior to the lower segment of the humerus. It runs medially along the brachialis muscle before piercing the medial intermuscular septum. It anastomoses with the anterior ulnar recurrent artery and the superior ulnar collateral artery.
Ulnar Artery
There are two terminal branches of the brachial artery. The ulnar artery originates in the cubital fossa and courses distally between the second and third layers of the forearm flexor muscles. It provides vascular supply to the ulnar aspect of the flexor compartment. The ulnar artery then runs superior to the flexor retinaculum at the wrist and continues as the superficial palmar branch, a major vascular component of the hand. In addition, before continuing as the superficial palmar branch, the ulnar artery gives off a deep palmar branch that joins the deep palmar arch of the hand.
Radial Artery
The other of the two terminal artery is the radial artery. The radial artery originates in the cubital fossa along with the ulnar artery at the bifurcation of the brachial artery. It courses under the brachioradialis muscle, running laterally to the flexor carpi radialis muscle. This course serves as the linear boundary between the flexor and extensor compartments of the forearm. The radial artery provides the vascular supply to the radial component of both compartments.
Embryology
The development of the arteries of the upper limb is complex. The brachial artery develops from the axis artery that arises from the lateral branch of the seventh intersegmental artery, part of the dorsal aorta, and grows at approximately the same rate as the limb. As the axis artery grows outward along the axial line, its proximal part forms the axillary and brachial arteries.
Muscles
In discussing the vascular supply provided by the brachial artery and its branches, one must note that in the case of the upper extremity; each respective muscle often receives vascular supply from more than one artery. The following is a listing of the branches of the brachial artery along with the structures to which they provide vascular supply:
- Brachial artery: biceps brachii muscle, triceps brachii muscle, coracobrachialis muscle
- Profunda brachii artery: deltoid muscle, triceps brachii muscle, anconeus muscle
- Superior ulnar collateral artery: supplies the periarticular arterial anastomoses of the elbow and elbow joint
- Inferior ulnar collateral artery: brachialis muscle, biceps brachii muscle, coracobrachialis muscle
- Ulnar artery: elbow joint, central and medial forearm muscles, common flexor sheath
- Radial artery: elbow joint, lateral forearm muscles, carpal bones and joints, thumb and lateral index finger
Physiologic Variants
Variations in the arteries of the upper limb are often observed, with most variations occurring in the radial and ulnar arteries,[2] while variation in the brachial artery is less common.[3]
Multiple studies have shown the occasional persistence of the superficial brachial artery, showing its persistence in both the right and left upper limb.[2][4][5][6] Studies have additionally examined the prevalence of the superficial brachial artery originating from the axillary artery. In patients with a superficial brachial artery, coronary vessel catheterization via a radial approach would be possible. However, a superficial brachial artery would predispose patients to potential bleeding from direct injury.[2]
Yoshinaga et al. examined a physiological variant in which the brachial artery bifurcated into multiple large superficial and small deep arterial branches at its origin along the inferior margin of the teres major muscle.[7] Other studies have reported similar cases of an accessory brachial artery.[2][8] These studies amplified the importance of such knowledge when administering intravenous drugs, and when performing percutaneous brachial artery catheterization.
Reports in the literature also exist regarding variations in the origin and termination of the profunda brachii artery. Multiple studies have analyzed the prevalence of the profunda brachii artery originating from the axillary artery rather than the brachial artery, with prevalences ranging from 2% to 16.6%.[2]
Another 2006 study reported a lateral inferior superior brachial artery, a complete absence of the radial artery on the left side, and a trifurcation of the brachial artery on the right side in a female cadaver.[9] A second study reported a subject in which the brachial artery, profunda brachii artery, and superior and inferior ulnar collateral arteries were absent.[10]
Understanding these variations in the arterial structure of the upper limb is crucial for surgeons, radiologists, and other physicians requiring the use of angiography and vascular access.
Surgical Considerations
Traditionally, the brachial artery has served as the primary vascular access site of the upper extremity, both via percutaneous and open approaches, as it is a safe and clinically proven approach. This vascular access allows for complex endovascular interventions.[11][12] One important clinical implication to consider with any endovascular approach is the risk of thrombosis. Brachial artery occlusion following catheterization is a serious, documented phenomenon that is managed either conservatively or with surgical thrombo-embolectomy or balloon angioplasty.[13] The brachial artery can also be clamped during surgical procedures to reduce the risk of bleeding.[14]
Clinical Significance
Blood Pressure
Traditionally, the brachial artery is the primary vessel used when measuring blood pressure with a sphygmomanometer.
Ankle-Brachial Index
The ankle-brachial index is a numerical value given to the quotient of the systolic pressure at the ankle measured using the posterior tibial artery and the systolic pressure of the right arm measured using the brachial artery. This measure is used to determine the risk of peripheral artery disease in a patient and has been shown to be predictive of mortality and adverse cardiovascular events.
The USPSTF concludes that the current body of evidence determining the risk to benefit ratio of screening for peripheral vascular disease and cardiovascular disease in asymptomatic healthy adults using the ankle-brachial index is insufficient.[15]
Trauma
The most frequently injured artery of the upper extremity is the brachial artery; it accounts for 28% of all vascular injuries. The collateral circulation associated with the brachial artery and its branches provides some vascular support in times of injury. The degree of limb ischemia associated with brachial artery trauma depends on the location of the injury relative to the profunda brachii artery.[16] Trauma to the brachial artery is also associated with nerve injury; specifically injury to the median, radial and ulnar nerves. The median nerve courses alongside the brachial artery throughout its entire span. The radial and ulnar nerves are also anatomically associated with specific segments of the brachial artery.[17]
Volkmann's Ischaemic Contracture
The definition of this condition is the permanent flexion contracture of the hand at the wrist, and its causes include multiple ischemia-producing pathologies. Notably, it can be directly caused by injury to or obstruction of the brachial artery, such as improper use of a tourniquet or plaster cast, compartment syndrome, or direct trauma.
Aneurysm of the Brachial Artery
Aneurysms of the brachial artery are rare, with an overall prevalence of 0.5%.[18] The majority of these rare cases are mycotic aneurysms or aneurysms associated with direct trauma, not true aneurysms with involvement of all three layers of the arterial wall. However, documentation exists of true aneurysms of the brachial artery. Congenital, metabolic, and atherosclerotic disorders are all potential causes of true brachial artery aneurysms. They can also occur in Kawasaki's disease.[19] Diagnosis of a brachial artery aneurysm is via multiple imaging techniques such as ultrasonography, angiography, computed tomography (CT), and arteriography. Treatment is primarily surgical.
Media
(Click Image to Enlarge)
Branches of the Aorta. This illustration includes the right common carotid artery, right vertebral artery, right subclavian artery, brachiocephalic artery, ascending aorta, left coronary artery, right coronary artery, left common carotid artery, left vertebral artery, left subclavian artery, left axillary artery, left brachial artery, arch of aorta, and descending aorta.
Contributed by Beckie Palmer
(Click Image to Enlarge)
Elbow Joint Arterial Anastomosis. The blood vessels contributing to this network include the anterior profunda brachii, superior ulnar collateral, brachial, inferior ulnar collateral, anterior ulnar recurrent, posterior ulnar recurrent, common interosseous, dorsal interosseous, volar interosseous, radial, recurrent interosseous, and radial recurrent arteries. The anterior and radial collateral branches of the profunda brachii also connect to this network.
Henry Vandyke Carter, Public Domain, via Wikimedia Commons
(Click Image to Enlarge)
References
Mostafa E, Imonugo O, Varacallo M. Anatomy, Shoulder and Upper Limb, Humerus. StatPearls. 2023 Jan:(): [PubMed PMID: 30521242]
Chakravarthi KK, Ks S, Venumadhav N, Sharma A, Kumar N. Anatomical variations of brachial artery - its morphology, embryogenesis and clinical implications. Journal of clinical and diagnostic research : JCDR. 2014 Dec:8(12):AC17-20. doi: 10.7860/JCDR/2014/10418.5308. Epub 2014 Dec 5 [PubMed PMID: 25653931]
Cherukupalli C, Dwivedi A, Dayal R. High bifurcation of brachial artery with acute arterial insufficiency: a case report. Vascular and endovascular surgery. 2007 Dec-2008 Jan:41(6):572-4. doi: 10.1177/1538574407305798. Epub [PubMed PMID: 18166644]
Level 3 (low-level) evidenceShen S, Hong MK. A rare case of bilateral variations of upper limb arteries: brief review of nomenclature, embryology and clinical applications. Surgical and radiologic anatomy : SRA. 2008 Oct:30(7):601-3. doi: 10.1007/s00276-008-0380-z. Epub 2008 Jun 25 [PubMed PMID: 18575799]
Level 3 (low-level) evidenceNatsis K, Papadopoulou AL, Paraskevas G, Totlis T, Tsikaras P. High origin of a superficial ulnar artery arising from the axillary artery: anatomy, embryology, clinical significance and a review of the literature. Folia morphologica. 2006 Nov:65(4):400-5 [PubMed PMID: 17171623]
Level 3 (low-level) evidenceCoskun N, Sarikcioglu L, Donmez BO, Sindel M. Arterial, neural and muscular variations in the upper limb. Folia morphologica. 2005 Nov:64(4):347-52 [PubMed PMID: 16425166]
Level 3 (low-level) evidenceYoshinaga K, Tanii I, Kodama K. Superficial brachial artery crossing over the ulnar and median nerves from posterior to anterior: embryological significance. Anatomical science international. 2003 Sep:78(3):177-80 [PubMed PMID: 14527132]
Rodríguez-Baeza A, Nebot J, Ferreira B, Reina F, Pérez J, Sañudo JR, Roig M. An anatomical study and ontogenetic explanation of 23 cases with variations in the main pattern of the human brachio-antebrachial arteries. Journal of anatomy. 1995 Oct:187 ( Pt 2)(Pt 2):473-9 [PubMed PMID: 7592009]
Level 3 (low-level) evidenceYalcin B, Kocabiyik N, Yazar F, Kirici Y, Ozan H. Arterial variations of the upper extremities. Anatomical science international. 2006 Mar:81(1):62-4 [PubMed PMID: 16526599]
Level 3 (low-level) evidenceCiervo A, Kahn M, Pangilinan AJ, Dardik H. Absence of the brachial artery: report of a rare human variation and review of upper extremity arterial anomalies. Journal of vascular surgery. 2001 Jan:33(1):191-4 [PubMed PMID: 11137944]
Level 3 (low-level) evidenceLavingia KS, Dua A, Stern JR. Upper extremity access options for complex endovascular aortic interventions. The Journal of cardiovascular surgery. 2018 Jun:59(3):360-367. doi: 10.23736/S0021-9509.18.10342-9. Epub 2018 Jan 9 [PubMed PMID: 29327566]
Sos TA. Upper extremity access for renal artery stenting: radial, brachial and axillary access: how to do them safely and pitfalls to avoid. The Journal of cardiovascular surgery. 2010 Oct:51(5):741-6 [PubMed PMID: 20924333]
Siddiqui MU, Khurram D, Elder M. Management of brachial artery thrombosis post catheterization. The Journal of invasive cardiology. 2013 Mar:25(3):E60-2 [PubMed PMID: 23468456]
Level 3 (low-level) evidenceEkim H, Tuncer M. Management of traumatic brachial artery injuries: a report on 49 patients. Annals of Saudi medicine. 2009 Mar-Apr:29(2):105-9 [PubMed PMID: 19318753]
Guirguis-Blake JM, Evans CV, Redmond N, Lin JS. Screening for Peripheral Artery Disease Using the Ankle-Brachial Index: An Updated Systematic Review for the U.S. Preventive Services Task Force. 2018 Jul:(): [PubMed PMID: 30260610]
Zellweger R, Hess F, Nicol A, Omoshoro-Jones J, Kahn D, Navsaria P. An analysis of 124 surgically managed brachial artery injuries. American journal of surgery. 2004 Sep:188(3):240-5 [PubMed PMID: 15450827]
Level 2 (mid-level) evidenceMcCready RA. Upper-extremity vascular injuries. The Surgical clinics of North America. 1988 Aug:68(4):725-40 [PubMed PMID: 3046002]
Heydari F, Taheri M, Esmailian M. Brachial Artery Aneurysm as a Limb Threatening Condition: a Case Report. Emergency (Tehran, Iran). 2015 Spring:3(2):75-7 [PubMed PMID: 26495386]
Level 3 (low-level) evidenceKo S, Han IY, Cho KH, Lee YH, Park KT, Kang MS. Recurrent true brachial artery aneurysm. The Korean journal of thoracic and cardiovascular surgery. 2011 Oct:44(5):364-7. doi: 10.5090/kjtcs.2011.44.5.364. Epub 2011 Oct 6 [PubMed PMID: 22263190]
Level 3 (low-level) evidence