Anatomy, Abdomen and Pelvis, Epigastric Artery


Article Author:
Natalie Kandinata


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Kelly Van Fossen


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Updated:
12/30/2018 3:24:23 PM

Introduction

The main arterial supply to the abdominal wall comes from the epigastric arteries. There are three epigastric arteries supply the abdominal wall—superior, inferior, and superficial epigastric arteries. The superficial epigastric artery supplies the superficial tissue of the abdominal wall; the superior and inferior epigastric arteries make an anastomosis with each other and supply the muscles of the abdominal wall.

Structure and Function

The superior epigastric artery (SEA) is one of two terminal branches of internal thoracic (also known as internal mammary) artery that runs just lateral and posterior to the sternum. At the level of sixth or seventh costal cartilage, the internal thoracic artery divides into two terminal branches. The first is the musculophrenic artery supplies the muscles of the diaphragm. The second terminal branch is the superior epigastric artery which crosses the diaphragm and descends anteriorly on the abdominal wall between the anterior aspect of transverse abdominis muscle and posterior aspect of the rectus sheath. The superior epigastric artery supplies the rectus abdominis musculature bilaterally until it anastomoses with the inferior epigastric artery approximately at umbilicus level or more inferiorly depending on different variations of the human body.[1]

The inferior epigastric artery (IEA) branches off external iliac artery above the inguinal ligament and curves upward under the peritoneum. It passes behind the spermatic cord as the vas deferens emerges posteriorly then lateral to the artery. At this level, the inferior epigastric vessels form the lateral aspect of the Hesselbach triangle. The rectus abdominis muscle and inguinal ligament make up the medial and inferior borders of the triangle, respectively. It then ascends oblique and medially along the margin of the inguinal ring while being enveloped by the lateral umbilical ligament. It pierces transversalis fascia as it continues to ascend superior and superficially until it levels posterior to rectus once it crosses the linea semicircularis. The inferior epigastric artery continues to rise superiorly until it terminates by piercing rectus abdominis musculature and branching at approximately umbilicus level to form an anastomosis with superior epigastric arteries. This variability becomes vital for surgical consideration as we will later discuss.[2]

The superficial epigastric artery functions as its name suggests, which is to supply superficial fascia of the lower abdomen. It branches off the femoral vein about 1 cm inferior to the inguinal ligament, pierces cribriform fascia, and travels superiorly and superficially between abdominal fascia toward umbilicus and usually terminates before it reaches the umbilical level as it anastomoses with inferior epigastric artery after it pierces the rectus muscle.[3]

Epigastric veins follow alongside its corresponding arteries. Superior epigastric veins drain to the internal thoracic vein, inferior epigastric vein to external iliac vein, and superficial epigastric vein to femoral vein distal to the femoral ring.[4] These structures, like the arteries, are present bilaterally almost symmetrically in the human body.

The regional lymphatic drainage follows the flow of veins above the Scarpa fascia. The lymph nodes that follow the superficial aspect of superior epigastric veins above the umbilicus drain toward the anterior (pectoral) group of axillary lymph nodes. Lymph nodes that follow the deep aspect of superior epigastric veins drain back to the parasternal lymph nodes along internal thoracic vessels. Lymph nodes that follow superficial epigastric veins drain toward the superficial inguinal nodes and lymph nodes that follow inferior epigastric veins drain toward the lymph nodes around external iliac veins.[5]

While there are no nerves that follow the path epigastric arteries like veins and lymph nodes, there are nerves that are significant due to anatomical proximity. On the anterior abdominal wall, lateral cutaneous veins from T7 to T12, iliohypogastric, and ilioinguinal branches of L1 nerves run from lateral to the medial aspect of abdomen superficially near the skin, indirectly and more superficially crossing perpendicular to the epigastric arteries at respective dermatome levels. In the pelvic area, both the femoral nerve and obturator nerve travel close to the inferior epigastric artery.

Embryology

Angiogenesis begins at day 17 of embryo life at the splanchnic mesoderm of yolk sac wall, and later the paraxial mesoderm as vasculogenesis progresses. The process initiates with hemangioblasts, which divide into two categories: primitive hematopoietic progenitor cells (HPCs) and endothelial precursor cells (EPCs, or otherwise known as angioblasts). Hematopoiesis begins at the yolk sac of extraembryonic mesoderm, and flattened EPCs initiate vasculogenesis at the embryonic discs. Hematopoietic stem cells (HSCs) arise from intraembryonic splanchnic mesoderm as blood islands then join the liver for expansion before relocating to bone marrow and other lymphatic organs as the embryo matures. The products eventually flow to vessels known as arteries, veins, and capillaries.

EPCs form the “tubes” or vessels that eventually become arteries and veins through which blood can circulate. They develop and differentiate based on the factors excreted by EPC cells. Vessels form via angiogenesis and vasculogenesis. Flattened EPCs form, migrate, and coalesce in the process of vasculogenesis. The cells then bud and sprout to new vessels from existing endothelial cords in the process of angiogenesis. Vascular intussusception then occurs to separate the blood vessels, and finally, existing vessels are walled off via intercalation.

As angiogenesis is taking place, a primitive heart tube begins to form at day 18 as well. By week 4, body folding carries the primitive heart tubes to ventral thorax while the aortic arches start to develop and elongate in a craniocaudal succession. Of importance to note is the dorsal aorta outflow tract bilaterally that fuses midline by the end of the fourth week. Dorsal aorta eventually develops ventral, lateral, and posterolateral branches.

The ventral branches are significant for the vitelline system in the yolk sac wall and are divided to the abdominal foregut, midgut, and hindgut and mature into the body’s gastrointestinal arteries. Lateral branches of the descending dorsal aorta become vasculature supplying suprarenal glands, gonads, and kidneys. Posterolaterally, vasculogenesis occurs from paraxial mesoderm located between developing somites and eventually fuses with dorsal aorta. These branches are known as intersegmental branches and are visible along cervical, thoracic, and lumbar region by the end of the third week of embryology development. Some examples of intersegmental vessels include intercostal and vertebral arteries and veins. Intersegmental vessels then continue to expand its network to form multiple anastomoses with each other through the process of vasculogenesis and angiogenesis. Among these numerous anastomoses of the intersegmental vessels are the internal thoracic, superior and inferior epigastric arteries and veins.

Physiologic Variants

The internal thoracic artery, superior epigastric artery, inferior epigastric artery, left subclavian artery, right subclavian, and right brachiocephalic artery anastomose to form collateral vessels to the thoracic and abdominal aorta. It is mportant to note that over time, in severe distal artery or aortic sclerosis, or coarctation of the aorta, significant enlargement of these vessels occurs to provide blood supply to lower limbs.[6] A transection of the epigastric arteries in these cases will, therefore, result in more severe bleeding and potential critical limb ischemia.Many other anatomical variations of branches exist within different individuals; however, one of the most significant variations to note is the corona mortis branch variation of the inferior epigastric artery, found in 77.27% of patients studied.[7] The corona mortis is a branch of the deep inferior epigastric artery that connects to the external iliac and obturator artery directly posterior and superior to superior pubic rami. It is clinically and surgically significant due to its connection to major arterial vessels, and as such, transection of the vessel can cause life-threatening hemorrhagic shock.[8]

The course of epigastric arteries on the abdominal wall slightly varies among different individuals. The SEA is found 3 to 8.5 cm lateral to the midline of abdomen bilaterally. The IEA can be 4 to 8 cm from midline regardless of body fat habitus or levels.[9] Findings by Rao et al. suggested, however, the arterial strips were not always equidistant from midline on the left and right sides. They found that the right IEA could be  3.2 to 6 cm from the midline, and the left IEA had a range of 1.2 to 5cm from the midline.  The IEA takes a medial to lateral path as it ascends from the inferior abdominal wall towards the umbilicus.[10]

Surgical Considerations

Surgically, it is vital to note the course of epigastric arteries along the abdominal wall for many procedures such as trocar placement in laparoscopic surgeries, percutaneous endoscopic gastronomy (PEG) tube placement, inguinal hernia repair, paracentesis, and drain placement during cardiothoracic surgery. Disruption of the epigastric arteries can lead to failure in future procedures where superior epigastric artery may be used for arterial perforation, such as in a trans-rectus abdominis muscle (TRAM) flap or sternal reconstruction procedure. Bleeding may result in abdominal wall hematoma formation, leading to post-op complications such as infection, incisional hernia formation, or severe blood loss depending on where arterial transection occurs.[11]

Though trocar and cannula placement is safe, it may injure blood vessels of the anterior abdominal wall, more so to the inferior epigastric artery. These injuries occur in 3 of 1000 (or 0.2-2%) of laparoscopic cases. In these cases, there is a risk of bleeding, which is controllable with either direct pressure, wall suture ligation, or tamponade with a Foley catheter balloon through the insertion site. It is also controllable with a two-handed technique, where the vessel is clamped or compressed with an instrument with one hand and ligated, clipped, or coagulated with the other. If these measures fail, the surgeon must perform a wound exploration which leads to unnecessary prolongation of procedure, in which the patient needs to be under anesthesia for an extended period, or even a possible conversion to laparotomy, delaying post-op wound healing among the other complications listed above.[12][13][14]

Many surgeons may use transillumination technique to visualize significant vessels through the skin to avoid piercing the area with a trocar. However, this is difficult in dark-skinned patients and patients with a high body mass index. A study by Quintet et al. showed that vessels were visualized using transillumination technique in only 63% of 103 patients studied.[1] CT angiography would be the study of choice to map vessels pre-operatively but is not always feasible due to cost and exposure of patients to unnecessary radiation. The consideration should be that these abdominal wall vessel injuries are manageable intraoperatively. It is, therefore, better to have surgeons understand the anatomy and know which anatomical zones are safe or dangerous to pierce with their instruments.

“Safety” and “danger” zones have been defined by various studies in cadavers in different countries. Bhatti et al. defined the “danger zone” of the superior epigastric artery to be 3 to 8.5 cm lateral to midline and “safety zone” to be from midline to 3cm immediately adjacent to midline bilaterally on the abdomen.[1]Saber et al. found that IEA vessels are found 4-8 cm from midline regardless of body fat habitus.[9] Rao et al. in India as mentioned earlier suggested the arterial strip was not equidistant from midline on the left and right side of the abdomen. They suggested the safety zone of the IEA to be 0 to 3.2cm from midline and 0 to 1.2cm on the right. The IEA as they had found was located more laterally on the abdominal wall on the right then left, especially as it courses upwards toward the umbilicus. The “danger zone” as they defined was at 3.2 to 6cm from midline on the right and 1.2 to 5cm from midline on the left.[10] It has also now known that the midline is avascular and main stem of the IEA can is avoidable if trocars are inserted 2/3 distance between midline and ASIS. Branches of IEA were found to be least at lower abdomen lateral the artery.[15]

Clinical Significance

It is essential to understand the significance of the epigastric arteries. Preservation of the artery while performing common laparoscopic procedures is vital to avoid bleeding risks and complications that accompany such interventions, and for its potential future use in procedures that a patient might have, such as a TRAM flap. In someone who is not heavily dependent on blood supply provided by anastomosis of the epigastric arteries as is the case in congenital anomalies such as coarctation of the aorta, the epigastric arteries can be extremely versatile and useful for current and possible future flap and graft procedures.


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    Contributed Illustration by Beckie Palmer
Attributed To: Contributed Illustration by Beckie Palmer

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Anatomy, Abdomen and Pelvis, Epigastric Artery - Questions

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During a laparoscopic inguinal hernia procedure, the surgeon says, “This man has a hernia going through the Hesselbach’s triangle.” Where is his hernia located in relation to the inferior epigastric artery?



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From where does the superior epigastric artery branch?



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Which artery branches off femoral artery about 1 cm inferior to the inguinal ligament, pierces cribriform fascia, then travel superiorly and superficially between abdominal fascia towards the umbilicus?



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How do the epigastric arteries contribute to the blood supply of the lower extremities in conditions such as coarctation of the aorta or aortoiliac occlusion?



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Which structure envelopes the inferior epigastric artery?



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Anatomy, Abdomen and Pelvis, Epigastric Artery - References

References

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Rozen WM,Chubb D,Grinsell D,Ashton MW, The variability of the Superficial Inferior Epigastric Artery (SIEA) and its angiosome: A clinical anatomical study. Microsurgery. 2010 Jul     [PubMed]
Yurdakul M,Tola M,Ozdemir E,Bayazit M,Cumhur T, Internal thoracic artery-inferior epigastric artery as a collateral pathway in aortoiliac occlusive disease. Journal of vascular surgery. 2006 Apr     [PubMed]
Al Talalwah W, A new concept and classification of corona mortis and its clinical significance. Chinese journal of traumatology = Zhonghua chuang shang za zhi. 2016 Oct 1     [PubMed]
Pungpapong SU,Thum-umnauysuk S, Incidence of corona mortis; preperitoneal anatomy for laparoscopic hernia repair. Journal of the Medical Association of Thailand = Chotmaihet thangphaet. 2005 Sep     [PubMed]
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Saber AA,Meslemani AM,Davis R,Pimentel R, Safety zones for anterior abdominal wall entry during laparoscopy: a CT scan mapping of epigastric vessels. Annals of surgery. 2004 Feb     [PubMed]
Nordestgaard AG,Bodily KC,Osborne RW Jr,Buttorff JD, Major vascular injuries during laparoscopic procedures. American journal of surgery. 1995 May     [PubMed]
Spitzer M,Golden P,Rehwaldt L,Benjamin F, Repair of laparoscopic injury to abdominal wall arteries complicated by cutaneous necrosis. The Journal of the American Association of Gynecologic Laparoscopists. 1996 May     [PubMed]
Vasquez JM,Demarque AM,Diamond MP, Vascular complications of laparoscopic surgery. The Journal of the American Association of Gynecologic Laparoscopists. 1994 Feb     [PubMed]
Mechchat A,Bagan P, Management of major vascular complications of laparoscopic surgery. Journal of visceral surgery. 2010 Jun     [PubMed]
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