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Middle rectal artery

The middle rectal artery is a small visceral branch of the anterior division of the that provides arterial supply to the middle and lower portions of the , as well as adjacent structures such as the , , and in some cases. It typically arises bilaterally from the and courses inferomedially just above the , often intermingling with fibers of the within the lateral rectal ligaments before penetrating the mesorectal to anastomose with the superior and inferior rectal arteries. Anatomical variations of the middle rectal artery are common and clinically significant, with studies reporting its presence in approximately 62.5% of pelvic sides, more frequently in males (75%) and on the right side (70%), and often unilaterally or bilaterally absent. When present, it frequently originates not directly from the internal iliac artery but from associated vessels such as the internal pudendal artery (44% of cases), inferior gluteal artery (24%), or others including the gluteal-pudendal trunk, inferior vesical artery, or obturator artery. These variations influence surgical approaches, particularly in total mesorectal excision for rectal cancer, where identification of the artery helps minimize vascular and nerve injury during dissection of the lateral ligaments. Additionally, its role in forming weak anastomoses contributes to collateral circulation but can complicate interventions like embolization for rectal hemorrhage.

Anatomy

Origin

The middle rectal artery arises from the anterior division of the or its associated branches, such as the internal pudendal or inferior gluteal arteries, within the lesser pelvis. This origin occurs at the level of the , where the bifurcates into anterior and posterior divisions to supply the pelvic viscera. The artery emerges as a small , and it may share a common trunk with the inferior vesical artery in males, before directing its course toward the . Upon emergence, the proximal segment of the middle rectal artery exhibits an average external diameter of approximately 1.7 mm and extends for an average total length of about 7 cm before penetrating the rectal wall. This initial portion travels inferiorly through the pelvic fascia, ensheathed by branches of the inferior hypogastric plexus, providing a direct vascular link from the parent vessel to the rectal mesentery. Embryologically, the middle rectal artery develops as a component of the anterior division of the internal iliac artery, which itself arises from the proximal portion of the embryonic umbilical artery during the first trimester of fetal development. The umbilical artery serves as the primary conduit for fetal circulation to the placenta, and its cranial segments persist postnatally to form the internal iliac and its visceral branches, including the middle rectal artery, adapting to supply the pelvic structures after birth.

Course and relations

The middle rectal artery arises from the anterior division of the and descends inferiorly across the within the lesser . It initially follows a vertical trajectory before turning approximately 90 degrees to run transversely toward the posterolateral aspect of the lower , entering the mesorectum laterally. This pathway positions the artery in close proximity to the , including the muscle inferiorly and the of the posterolaterally. Throughout its course, the middle rectal artery pierces the endopelvic fascia and becomes ensheathed within the mesorectal fat, accompanied by branches of the . These neural elements contribute to the formation of the lateral rectal ligaments, which represent condensations of fascia extending from the mesorectum to the pelvic sidewall. The artery's embedding in these fascial structures underscores its spatial integration with the pelvic autonomic innervation and connective tissues, facilitating its approach to the rectal wall without direct exposure to the .

Branches

The middle rectal artery predominantly gives rise to terminal branches without major named intermediate vessels, dividing directly into smaller arteries that penetrate the rectal wall. These terminal branches typically number 1-3, with diameters ranging from 0.5 to 3.5 mm, and enter the mesorectum from ventrolateral, lateral, or dorsolateral aspects before supplying the muscularis layer of the middle and lower . As the artery courses through the lateral rectal ligaments, it maintains this pattern of subdivision to reach its target. In males, accessory branches may arise from the middle rectal artery to supply adjacent structures, including prostatic branches to the and seminal branches to the . These prostatic branches, when present, can contribute to the vascular supply of the , though they are less common than those originating from the inferior vesical artery. In females, the middle rectal artery occasionally produces vaginal branches that extend to the upper . Rare additional branches from the middle rectal artery include an inferior lateral sacral artery, which may arise unilaterally or bilaterally in a subset of cases.

Supply and function

Regions supplied

The middle rectal artery primarily supplies the middle and lower portions of the , delivering oxygenated blood to the muscularis propria and in these regions above the . This vascular contribution ensures nourishment to the rectal wall's structural layers, supporting the organ's integrity and function in the distal . It also provides secondary vascularization to the upper anal canal, extending its reach to the proximal segment of this structure for comprehensive coverage of the anorectal transition zone. Additionally, the artery supplies portions of the rectal mesentery, including the mesorectal fat and connective tissues surrounding the rectum, as well as adjacent pelvic floor tissues encountered along its course. Through its branches, the middle rectal artery participates in forming the rectal arterial arcade, which enables circumferential distribution of blood to these end-target tissues.

Anastomoses

The middle rectal artery forms important anastomoses with the , a of the , contributing to the formation of the upper rectal arterial arcade that ensures circulation along the proximal and middle . These interconnections provide in blood supply, allowing flow from the to support the middle rectal territory when needed. Additionally, the middle rectal artery connects with the , derived from the , particularly at the level of the lower and , facilitating a continuous vascular network from the pelvic sidewall to the distal anorectal region. It also establishes links with the inferior vesical artery, enhancing pelvic collateral pathways that integrate rectal and bladder vascularization. Further connections occur with the median sacral artery, a branch of the , supporting overall pelvic collateral flow and potential contributions to rectal in the posterior midline. Although these anastomoses are often described as relatively weak compared to those in the , they play a crucial role in preventing ischemia during rectal pathologies or surgical interventions by maintaining alternative routes for blood delivery to the rectal wall. This collateral network is particularly significant in scenarios involving compromised primary supply, underscoring its importance in preserving tissue viability.

Anatomical variations

Prevalence

The prevalence of the middle rectal artery exhibits significant variability across anatomical studies, with historical reviews documenting rates ranging from 12% to 97% depending on the and examined. A and of 28 studies involving 880 patients and 1905 pelvic sides reported an overall pooled of 59.8% in individuals and 55.2% of pelvic sides. Studies indicate a higher incidence in males compared to females, with the artery more often absent in women; for example, cadaveric studies report presence in approximately 75% of male pelvic sides versus 50% in females. It is also more frequently present on the right side (70%) than the left (55%). For instance, angiographic evaluations in male patients have shown presence in approximately 36% of cases. Historical reviews report bilateral presence in approximately 37% of cases and unilateral in 20%, though patterns vary by study, with often detecting lower overall and potentially more unilateral cases. rates are influenced by study type, with cadaveric dissections yielding higher detection (up to 79.3%) than imaging modalities such as (30-40%), attributable to the artery's small caliber and potential oversight in non-invasive techniques.

Types of variations

The middle rectal artery displays notable morphological variations, particularly in its origin, which deviates from the typical branching off the anterior division of the . Common alternative origins include the , representing the most frequent variant, as well as the , often via a shared gluteal-pudendal . Other origins encompass the inferior vesical artery, typically as a common , the obturator artery, and the prostatic artery in males; in females, it may arise from or be replaced by the . Less common sites involve direct emergence from the main or posterior division of the . Variations in the number of middle rectal arteries per side range from a single vessel to duplicates or multiple branches, altering the vascular supply pattern to the . The artery may also exhibit absence or , either unilaterally or bilaterally, leading to compensatory perfusion from adjacent vessels such as the or branches of the . Classification systems for these variations emphasize categorical distinctions by vascular origin and branching morphology. Major types are delineated by the parent artery (e.g., internal iliac proper versus its pudendal or gluteal branches), with subtypes based on the precise branching site, such as direct from the anterior trunk, via an intermediate trunk, or from the posterior trunk; Kim et al. (2022) describe seven major types (I–VII) with corresponding minor subtypes (a–c). Broader frameworks, such as the modified Adachi classification for internal iliac artery branching, provide context for anterior division variations that may influence middle rectal artery origins and multiplicity.

Clinical significance

Surgical applications

In total mesorectal excision (TME) for rectal cancer, the middle rectal artery (MRA) is frequently encountered during deep posterolateral dissection and is typically to ensure complete removal of the mesorectum, control bleeding, and maintain the integrity of the mesorectal fascia while preserving the pelvic autonomic plexus. is performed using vascular clips or energy devices in minimally invasive approaches, as the MRA is the primary vessel penetrating the proper rectal fascia, potentially compromising TME if not addressed. This step is crucial for reducing local recurrence rates by facilitating adequate lateral margins, with the MRA present in approximately 71% of cases. During low anterior resection (LAR) for middle or low rectal tumors, surgical techniques emphasize careful to avoid inadvertent to the MRA, ensuring adequate vascular integrity for postoperative recovery. In and , the MRA poses a risk of during pelvic sidewall , potentially leading to significant and pelvic formation due to its course through the lateral rectal ligaments. Accessory branches within these ligaments, present in up to 25% of cases, increase the likelihood of vascular disruption if not identified intraoperatively. Prompt or is required to mitigate hemorrhage, as uncontrolled from the MRA can complicate recovery and necessitate further intervention. Anatomical variations in MRA origin and presence—observed in 62.5% of pelvic sides, often arising from the internal pudendal or inferior gluteal arteries—underscore the need for preoperative to map its trajectory for safe in lateral rectal ligaments during rectal or pelvic surgeries. Contrast-enhanced MRI or allows visualization of these variations, enabling tailored approaches to minimize risk and optimize outcomes in oncologic resections. Such is particularly valuable in TME planning, where unexpected MRA encounters could otherwise lead to or incomplete excision. Computed tomography () serves as a preoperative tool to delineate the , , and variations of the middle rectal artery through contrast-enhanced of the pelvic vasculature. Retrospective analyses using and digital subtraction have identified the artery in approximately 36% of patients. Contrast enhancement highlights the artery's trajectory toward the , aiding in the assessment of its patency and branching patterns.

Interventional procedures

The middle rectal artery is targeted in hemorrhoidal artery (HAE), a minimally invasive endovascular primarily used to treat symptomatic internal by reducing arterial blood flow to engorged hemorrhoidal . In HAE, selective of the middle rectal artery, often in conjunction with branches of the , aims to alleviate and without direct surgical intervention on the rectal mucosa. This artery also plays a role in managing or arteriovenous malformations (AVMs) through superselective catheterization and , particularly in cases of life-threatening hemorrhage or vascular anomalies where conservative measures fail. For rectal AVMs, of the middle rectal artery helps control abnormal arteriovenous shunting and prevent recurrent by occluding feeding vessels. The procedure typically involves percutaneous access via the femoral artery under fluoroscopic guidance, allowing advancement of a microcatheter to the middle rectal artery origin from the internal iliac artery. Embolization agents such as polyvinyl alcohol particles, microspheres, or detachable coils are then deployed to achieve proximal occlusion while preserving collateral pathways from adjacent vessels. This selective approach minimizes nontarget embolization and supports recovery through existing vascular networks. Clinical outcomes demonstrate high technical success rates of 93-100% for middle rectal artery in hemorrhoidal , with symptom relief achieved in 80-90% of patients at short-term follow-up. For rectal bleeding control, yields cessation in over 90% of cases with minimal recurrence. Complication rates remain low (less than 5%), attributed to robust anastomoses with the superior and inferior rectal arteries that maintain tissue and avert ischemia.

Diagnostic imaging

High-resolution pelvic (MRI), particularly with contrast enhancement, enables of the middle rectal within the mesorectum, supporting rectal and evaluation of lateral involvement. In a of 102 patients with lower rectal cancer, contrast-enhanced MRI detected the artery in 65.7% of cases, with bilateral presence observed in 31.4% and unilateral in 34.3%. The artery's , classified as antero-lateral, lateral, or postero-lateral types, was associated with a significantly higher risk of lateral (odds ratio 8.922, P=0.045), achieving 95% and 97.1% negative predictive value for prediction. Integrated diagnostic models combine middle rectal artery visualization with tumor and nodal features to enhance predictive accuracy in rectal , particularly for outcomes related to mesorectal and lateral structures. One such model, developed using MRI-detected artery presence alongside characteristics, predicts lateral with high performance ( 0.945, 96.05%, specificity 81.25%), integrating factors like node short diameter (>10.3 mm threshold) via for probability estimation. This approach supports refined assessment of mesorectal involvement by contextualizing vascular with tumor extension. The small caliber of the middle rectal artery poses detection challenges, often necessitating advanced sequences such as high-resolution or contrast-enhanced protocols to achieve reliable visualization rates around 65%. Variable prevalence, reported as low as 20-30% in some angiographic studies, further influences detection consistency and requires validation across larger cohorts. Anatomical variations in and can alter imaging appearance, complicating without multiplanar .

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