Fact-checked by Grok 2 weeks ago

Rectus sheath

The rectus sheath is a multilayered aponeurosis that forms a durable, resilient, fibrous compartment enclosing the rectus abdominis and pyramidalis muscles in the anterior abdominal wall.^[1] It is formed by the interlacing aponeuroses of the three flat abdominal muscles: the external oblique, internal oblique, and transversus abdominis.^[2] The sheath extends superiorly from the costal cartilages of ribs 5–7 to the pubic crest and symphysis pubis inferiorly, providing structural support and protection to its contents.^[1] Above the arcuate line—located approximately one-third of the distance from the umbilicus to the pubic symphysis—the anterior wall of the rectus sheath consists of the aponeuroses of the external oblique and the anterior half of the internal oblique muscles, while the posterior wall is formed by the posterior half of the internal oblique aponeurosis and the transversus abdominis aponeurosis, reinforced by the transversalis fascia.^[1] Below the arcuate line, all three aponeuroses contribute to the anterior wall, leaving the posterior aspect covered only by the transversalis fascia, which marks a key anatomical transition in the sheath's structure.^[3] The contents of the rectus sheath include the rectus abdominis and pyramidalis muscles, the superior and inferior epigastric arteries and veins, lymphatic vessels, and thoracoabdominal nerves (T7–T12).^[1] Functionally, the rectus sheath supports the rectus abdominis during actions such as trunk flexion and maintenance of intra-abdominal pressure, while also facilitating force transmission and motor coordination across the abdominal wall.^[3] Clinically, it is significant in conditions like rectus sheath hematomas, which can occur due to trauma or anticoagulation therapy leading to bleeding within the compartment, and Spigelian hernias, which may protrude through the arcuate line.^[1] The sheath also plays a role in surgical procedures, such as hernia repairs and rectus abdominis muscle flaps, as well as in regional anesthesia techniques like the rectus sheath block for postoperative pain management.^[1]

Anatomy

Formation

The rectus sheath is formed through the fusion of aponeuroses derived from the three flat lateral abdominal muscles: the external oblique, internal oblique, and transversus abdominis.^[3] These aponeuroses interweave to create distinct anterior and posterior walls that enclose the rectus abdominis muscle.^[2] In the formation process, the aponeurosis of the external oblique muscle contributes entirely to the outermost layer of the anterior wall.^[2] The aponeurosis of the internal oblique muscle splits into anterior and posterior laminae, with the anterior lamina joining the external oblique to reinforce the anterior wall and the posterior lamina contributing to the posterior wall.^[2] Above the arcuate line, the aponeurosis of the transversus abdominis muscle forms the innermost layer of the posterior wall, merging with the posterior lamina of the internal oblique.^[2] The arcuate line, also known as the linea arcuata, represents the key transitional point in the sheath's formation where the aponeuroses rearrange their contributions.^[3] It is situated approximately one-third of the distance from the umbilicus to the pubic symphysis.^[2] The aponeuroses composing the rectus sheath consist of dense regular connective tissue, primarily bundles of collagen fibers arranged in parallel patterns, which impart a fibrous structure and significant tensile strength to the sheath.^[4]^[5]

Regional variations

The rectus sheath demonstrates distinct regional variations in its composition and layering, which influence the structural support provided to the rectus abdominis muscle along its vertical extent from the pubic symphysis to the costal margin. These differences arise from the differential contributions of the aponeuroses from the lateral abdominal muscles—external oblique, internal oblique, and transversus abdominis—at specific anatomical levels.^[1] Superiorly, above the costal margin extending from the xiphoid process to the costal cartilages of the 5th through 7th ribs, the posterior layer of the sheath is absent, with the rectus abdominis muscle attaching directly to the costal cartilages for stability. In this region, the anterior layer is formed exclusively by the aponeurosis of the external oblique muscle, resulting in an incomplete enclosure that relies on direct skeletal attachments posteriorly.^[3]^[6] From the costal margin to the arcuate line (located approximately one-third of the distance from the umbilicus to the pubic symphysis), the sheath achieves its complete form, with the anterior layer composed of the aponeurosis of the external oblique muscle combined with the anterior lamina of the internal oblique aponeurosis. The posterior layer in this zone is reinforced by the posterior lamina of the internal oblique aponeurosis and the full aponeurosis of the transversus abdominis muscle, providing robust bilateral enclosure.^[1] Inferior to the arcuate line, the configuration shifts markedly, as the aponeuroses of all three lateral muscles—external oblique, internal oblique, and transversus abdominis—pass entirely anterior to the rectus abdominis, forming a thickened anterior sheath. Posteriorly, no aponeurotic layer exists, leaving only the underlying transversalis fascia in direct contact with the muscle, which creates a structurally weaker region compared to the superior portions.^[1] These variations in sheath layering have key functional implications for abdominal wall mechanics, enhancing stability and efficient distribution of intra-abdominal pressure in the reinforced mid-abdominal segment while rendering the superior and inferior extremes more vulnerable to deformation under stress. The full posterior support between the costal margin and arcuate line optimizes force transmission during activities like coughing or lifting, whereas the deficiencies at the ends allow for greater flexibility at attachment sites but reduce overall tensile strength in those areas.^[1]

The rectus sheath encloses key structures of the anterior abdominal wall, primarily the rectus abdominis muscle, which is a paired vertical muscle extending from the pubic symphysis and crest to the xiphoid process and costal cartilages of ribs 5–7, functioning to flex the trunk and compress abdominal contents.^[1] A smaller accessory muscle, the pyramidalis, lies anterior to the lower portion of the rectus abdominis within the sheath; this triangular muscle originates from the pubic crest and inserts into the linea alba, aiding in its tension, and is present in approximately 80% of individuals.^[1]^[7] The blood supply to the contents of the rectus sheath is provided by the superior epigastric artery and vein, branches of the internal thoracic vessels, which enter the upper sheath from above, and the inferior epigastric artery and vein, arising from the external iliac vessels, which enter the lower sheath from below; these vessels anastomose within the sheath to form a collateral circulation pathway.^[1] Innervation of the rectus abdominis arises from segmental thoracoabdominal nerves (T7–T11), the subcostal nerve (T12), and branches from the iliohypogastric and ilioinguinal nerves (L1), which pierce the posterior rectus sheath to supply motor fibers to the muscle.^[1]^[8] The pyramidalis muscle receives its innervation from the subcostal nerve.^[1] Lymphatic drainage from the rectus sheath follows the epigastric vessels, with upper structures draining to axillary nodes and lower structures to inguinal nodes.^[9] The neurovascular bundles within the sheath exhibit a segmental arrangement, with arteries, veins, and nerves traveling posteriorly to the rectus abdominis between its bellies and the three or four transverse tendinous intersections, ensuring distributed supply along the muscle's length.^[1]

Borders and relations

Superior border

The superior border of the rectus sheath corresponds to the superior attachments of the rectus abdominis muscle, extending from the xiphoid process of the sternum medially to the costal cartilages of ribs 5 through 7 laterally.^[3]^[1] This configuration anchors the sheath at the thoracoabdominal junction, providing stability to the upper anterior abdominal wall.^[1] Above the costal margin, the posterior wall of the rectus sheath is deficient, consisting solely of the transversalis fascia without contributions from the aponeuroses of the internal oblique or transversus abdominis muscles.^[3] This absence allows the posterior surface of the rectus abdominis muscle to lie directly on the costal cartilages of ribs 5-7.^[3] At its superior extent, the anterior layer of the rectus sheath contributes to the origin of the abdominal head of the pectoralis major muscle.^[10] The superior epigastric vessels enter the sheath near this border to supply the rectus abdominis.^[1] The superior border plays a key role in force transmission during upper abdominal movements, as the aponeurotic layers of the sheath—tensioned by contractions of the external oblique, internal oblique, and transversus abdominis—stiffen to distribute mechanical loads across the midline via the linea alba, supporting actions such as trunk flexion and rotation.^[11]

Inferior border

The inferior border of the rectus sheath attaches to the pubic crest and pubic symphysis, providing anchorage for the rectus abdominis muscle, while extensions of the aponeurosis reach the pubic tubercle to reinforce the midline structure.^[1]^[3] A key landmark along this border is the arcuate line (linea semicircularis), located approximately one-third of the distance from the umbilicus to the pubic symphysis, which marks the inferior limit where the posterior layer of the rectus sheath terminates, leaving the posterior surface of the rectus abdominis covered solely by the transversalis fascia below this point.^[1]^[2] Inferiorly, the anterior sheath integrates with the pelvic fascia through the fusion of its aponeurotic layers—derived from the external oblique, internal oblique, and transversus abdominis—with extensions of the external oblique aponeurosis forming the inguinal ligament, which in turn connects to the fascia lata of the thigh, ensuring continuity between the abdominal and pelvic regions.^[1]^[12] This configuration at the inferior border supports lower abdominal wall integrity by distributing tensile forces across the pubis and facilitating mobility during trunk flexion and pelvic movements, while the absence of the posterior sheath below the arcuate line enhances flexibility in the lower abdomen.^[2]^[1] The inferior epigastric vessels enter the rectus sheath at the arcuate line to supply the lower portion of the rectus abdominis.^[13]

Lateral relations

The lateral border of the rectus sheath is defined by the linea semilunaris, a curved vertical line marking the fusion point of the aponeuroses from the external oblique, internal oblique, and transversus abdominis muscles with the lateral edge of the rectus abdominis muscle.^[14] This fusion encloses the rectus abdominis muscle laterally, providing structural integrity to the anterior abdominal wall.^[1] Medially, the rectus sheath connects to the linea alba through decussating fibers of the aponeuroses, which interweave across the midline to form this central fibrous raphe separating the paired rectus abdominis muscles.^[15] These decussations enhance the sheath's tensile strength and midline stability.^[1] Below the arcuate line, the posterior aspect of the rectus sheath relates directly to the transversalis fascia and underlying peritoneum, as the aponeurotic contributions to the posterior layer cease, leaving only a thin fascial covering.^[1] During abdominal contraction, the lateral relations of the rectus sheath facilitate coordinated action with the oblique and transversus muscles, contributing to core stability by supporting lumbar spine flexion and regulating intra-abdominal pressure.^[1]

Clinical significance

Surgical applications

The rectus sheath plays a crucial role in abdominal surgery by providing a layered structure that allows for precise incisions and reinforcements while minimizing damage to the underlying rectus abdominis muscle.^[16] Surgical approaches leverage its aponeurotic composition to access intra-abdominal contents, facilitate hernia repairs, and enable targeted analgesia.^[16] Midline incisions through the linea alba are a standard technique for exploratory laparotomy, as they traverse the midline fusion of the anterior and posterior rectus sheaths without incising or denervating the rectus abdominis muscle fibers, thereby preserving abdominal wall integrity and reducing postoperative complications.^[17] This approach provides wide exposure to the peritoneal cavity while maintaining the lateral blood supply and innervation of the rectus muscles.^[17] The Pfannenstiel incision, a low transverse suprapubic cut typically positioned 2 cm above the pubic symphysis, involves splitting the rectus sheath transversely below the arcuate line to access gynecologic or obstetric sites, minimizing vertical scarring and muscle fiber disruption for improved cosmesis and reduced recovery time.^[16] This incision separates the anterior and posterior sheath layers without cutting the muscle itself, allowing retraction of the rectus abdominis laterally for procedures like cesarean sections.^[16] In hernia repair, the rectus sheath supports layered closure and prosthetic mesh integration, particularly in ventral hernias, where mesh is fixed to the posterior sheath above the arcuate line to exploit its robust aponeurotic reinforcement and distribute tension across the abdominal wall.^[18] The retrorectus sublay technique positions mesh in the space posterior to the rectus abdominis but anterior to the peritoneum, secured to the sheath edges for enhanced durability and lower recurrence rates compared to onlay methods.^[19] The rectus sheath is also utilized in reconstructive procedures such as the vertical rectus abdominis myocutaneous (VRAM) or transverse rectus abdominis myocutaneous (TRAM) flaps, commonly employed for breast reconstruction or pelvic defect repair following oncologic resections. These flaps incorporate portions of the rectus muscle and overlying skin, with the anterior rectus sheath harvested to include perforators from the deep inferior epigastric artery, while preserving the posterior sheath for abdominal wall closure to minimize donor-site morbidity.^[20] The rectus sheath block involves injecting local anesthetics, such as ropivacaine, into the potential space between the posterior rectus sheath and the rectus abdominis muscle to provide somatic analgesia for postoperative pain management following midline or transverse abdominal surgeries.^[21] Ultrasound-guided administration bilaterally targets the T9-L1 dermatomes, reducing opioid requirements and improving recovery quality without systemic side effects.^[22]

Pathological conditions

Rectus sheath pathological conditions encompass a range of disorders that exploit the anatomical vulnerabilities of the sheath, particularly its layered structure and regional weaknesses, leading to complications such as hemorrhage, herniation, and infectious or neoplastic processes.^[23] These conditions often arise from trauma, iatrogenic factors, or physiological stresses, with the absence of the posterior sheath below the arcuate line predisposing to more extensive involvement.^[24] Rectus sheath hematoma involves bleeding into the sheath, typically from rupture of the inferior or superior epigastric vessels or direct muscle tear, resulting in an accumulation of blood that can cause acute abdominal pain and a palpable mass.^[23] This condition is frequently triggered by abdominal trauma, anticoagulation therapy, or even spontaneous events like coughing or pregnancy-related strain, with larger hematomas more common below the arcuate line due to the lack of posterior fascial support, allowing extraperitoneal spread.^[24] The involvement of epigastric vessels underscores the hematoma's origin from the sheath's vascular contents.^[23] Incisional hernias occur as protrusions of abdominal contents through defects in the rectus sheath following surgical incisions, compromising the sheath's integrity and increasing intra-abdominal pressure risks.^[25] These hernias carry a higher incidence below the arcuate line, where the posterior layer is absent, rendering the transversalis fascia the sole barrier and facilitating easier herniation.^[25] Spigelian hernias are rare ventral hernias that occur through the spigelian fascia, the aponeurotic layer lateral to the rectus sheath along the semilunar line, most commonly in the lower abdomen below the arcuate line where the posterior sheath is deficient. Preperitoneal fat or bowel may protrude, often presenting as small, painful masses that can incarcerate due to the narrow neck formed by the intersecting aponeuroses.^[26] Diastasis recti refers to the excessive separation of the rectus abdominis muscles along the linea alba, which thins and stretches the anterior rectus sheath, thereby weakening overall sheath stability and predisposing to ventral wall laxity.^[27] This condition is prevalent in pregnancy due to hormonal and mechanical factors that widen the inter-recti distance, often exceeding 2 cm at the midline, and can persist postpartum, contributing to functional impairments.^[28] Rare pathological conditions include abscess formation within the sheath layers, typically secondary to infection from hematomas, surgical complications, or contiguous spread from intra-abdominal sources like diverticulitis.^[29] Tumors such as desmoid fibromatosis can also arise within the rectus sheath or muscle, presenting as firm masses with local invasion, though they are uncommon and often linked to prior trauma or hormonal influences.^[30]

Development and variations

Embryological origin

The rectus sheath originates primarily from mesodermal tissues during early embryonic development. The muscular components of the rectus abdominis derive from myoblasts in the paraxial mesoderm of somites, specifically the ventral hypaxial divisions of thoracic myotomes, while the connective tissues and aponeuroses forming the sheath arise from the somatic layer of the lateral plate mesoderm.^[1]^[31] This differentiation begins around weeks 4 to 5 of gestation, with mesenchymal condensations marking the initial anlage of the rectus abdominis at crown-rump lengths of 7-10 mm, progressing through myotube formation by week 6.^[31] By weeks 7 to 8, the muscle extends from the sternum to the pubis, and the aponeurotic layers of the sheath start to invest it, enclosing the developing structure.^[32]^[31] Myoblasts migrate ventrolaterally from their somitic origins to form the rectus abdominis, a process that occurs beyond the typical somitic frontier to establish abaxial musculature.^[31] Concurrently, the aponeuroses develop from investing fascia derived from fibroblasts in the somatic mesoderm, forming the epimysium and perimysium that contribute to the sheath's layered structure, while the endomysium arises from reticular fibers and the muscle's external lamina.^[1] This migration and fascial investment happen in a craniocaudal direction, with the rectus muscle primordia appearing ventrally by Carnegie stages 19-20 (approximately 48-51 days), and the lateral abdominal muscles differentiating into external oblique, internal oblique, and transversus abdominis layers by stages 17-18 (41-44 days).^[32] Body wall folding plays a critical role in establishing the anterior abdominal wall and enclosing the rectus sheath. Cephalocaudal and lateral folding of the embryo drives the ventral migration of paraxial mesodermal myoblasts, transforming dorsal muscle masses into ventral sheets that form the abdominal wall.^[32] This folding process facilitates the crossing of aponeuroses from the lateral muscles over the midline by Carnegie stages 21-23 (51-57 days), defining the linea alba and fully enclosing the rectus abdominis within the sheath.^[32] The sheath's formation precedes the complete closure of the abdominal wall, occurring amid the physiological umbilical hernia that resolves by weeks 9-10.^[31] The arcuate line, marking the inferior transition where the posterior sheath layer diminishes, forms during the closure of the lower abdominal wall following umbilical hernia resolution. This occurs around week 9 of gestation (crown-rump length approximately 36 mm), as mechanical stresses from gut retraction lead to the posterior aponeuroses of the internal oblique and transversus abdominis integrating anteriorly below the umbilicus.^[31]

Anatomical variations

The pyramidalis muscle, a small triangular muscle situated within the rectus sheath anterior to the rectus abdominis, is absent bilaterally in approximately 11% of individuals, with unilateral absence or variation occurring in an additional 6-7% of cases; this absence can alter lower rectus sheath dynamics by diminishing tension on the linea alba and potentially affecting abdominal wall contractility.^[33] In studies of cadaveric specimens, pyramidalis presence varies from 75-84% bilaterally, with higher rates in males (85%) compared to females (82%), influencing the structural reinforcement of the inferior sheath.^[34] Variations in the position of the arcuate line, marking the inferior limit of the posterior rectus sheath, include higher or lower placements relative to the standard midway point between the umbilicus and pubic symphysis, observed in up to 35% of cases through distinct morphological types such as acute termination (25%) or double lines (10%); these deviations affect the posterior sheath's extent by altering the aponeurotic contributions, with the line typically located 2.1 ± 2.3 cm superior to the anterior superior iliac spines but asymmetrical and non-constant across sides.^[35]^[36] The arcuate line is absent in about 20% of individuals, further modifying sheath integrity below this level where only transversalis fascia remains posteriorly.^[37] Asymmetries in aponeurotic fusion contribute to uneven rectus sheath thickness, with one side often exhibiting greater depth due to differential layering of the external and internal oblique contributions, a pattern more prevalent in males where overall abdominal muscle thickness exceeds that in females by 20-30%; such imbalances, with mean asymmetry rates of 8-9% in lateral abdominal muscles, can influence sheath resilience without overt clinical symptoms in most cases.^[38] Cadaveric analyses confirm non-symmetrical nerve supply and aponeurotic arrangements in over 50% of specimens, exacerbating side-to-side disparities in sheath composition above the arcuate line.^[36] Congenital absences or duplications of the posterior rectus sheath are exceedingly rare, with complete lack of the posterior layer extending superior to the arcuate line reported in isolated cases, predisposing affected individuals to interparietal hernias due to weakened fascial barriers; these defects, comprising less than 1% of abdominal wall anomalies, arise from aberrant mesodermal migration and heighten hernia risk through reduced compartmental support for intra-abdominal contents.^[39] Such variations, when present, often manifest unilaterally and are associated with higher intra-abdominal pressure susceptibility, though population prevalence remains below 0.1% based on surgical and autopsy series.^[40]

References

[1]
Anatomy, Abdomen and Pelvis, Rectus Sheath - StatPearls - NCBI
Jul 24, 2023 · The rectus sheath is the durable, resilient, fibrous compartment that contains both the rectus abdominis muscle and the pyramidalis muscle.
[2]
The Anterolateral Abdominal Wall - Muscles - TeachMeAnatomy
### Summary of Rectus Sheath
[3]
Rectus sheath: Anatomy, definition, function - Kenhub
The rectus sheath is a tendon sheath (aponeurosis) which encloses the rectus abdominis and pyramidalis muscles.
[4]
Rectus Sheath - Physiopedia
The Rectus Sheath is a multilayered aponeurosis, being a durable, resilient, fibrous compartment that contains both the rectus abdominis muscle and the ...
[5]
Regions and Planes of the Abdomen: Overview, Abdominal Skin ...
Feb 6, 2025 · The posterior rectus sheath above the arcuate line is composed of the fusion of the posterior leaf of the internal abdominal oblique aponeuroses ...
[6]
Anatomy of the Abdominal Wall and Rectus Sheath | Geeky Medics
Jun 3, 2024 · An overview of the anatomy of the abdominal wall, layers of the abdominal wall and the rectus sheath.
[7]
Biometrics of Pyramidalis Muscle and its Clinical Importance - PMC
It is thought to tense the linea alba. It has been used as a surgical landmark, source of muscle stem cells and in various surgical procedures.
[8]
a new understanding of the innervation of the anterior abdominal wall
Rectus abdominis muscle is innervated by segments T6-L1, with a constant branch from L1. The umbilicus is always innervated by a branch of T10. As such, ...Missing: motor | Show results with:motor
[9]
Anatomy, Abdomen and Pelvis: Abdominal Wall - StatPearls - NCBI
The inferior end of the posterior rectus sheath is called the “arcuate line.” Irrespective of their relationship to rectus abdominis, all layers continue ...Structure And Function · Blood Supply And Lymphatics · Muscles<|control11|><|separator|>
[10]
Development of the Rectus Abdominis and Its Sheath in the Human ...
Upward extension of the rectus abdominis suddenly stopped at the margin of the inferiorly developing pectoralis major without facing the external intercostalis.
[11]
The Rectus Sheath - ABMP
The rectus sheath is a multilayered fascial hub that allows force transmission, motor coordination, and stability in the trunk.Making Complex Abdominal... · Anatomy: The Belly's Soft... · Trunk Stability: Front, Meet...<|control11|><|separator|>
[12]
Abdominal wall: Layers, muscles and fascia | Kenhub
Description of the layers of the abdominal wall, the fascia, muscles and the main nerves and vessels. See diagrams and learn this topic now at Kenhub!
[13]
Arcuate Line: What Is It, Clinical Significance, and More - Osmosis
The arcuate line, also known as the semicircular line of Douglas, is a curved line found posterior to the rectus abdominis muscle bilaterally.
[14]
Anatomy, Abdomen and Pelvis: Linea Semilunaris - StatPearls - NCBI
The rectus sheath, which covers the rectus abdominis muscle, is comprised of both anterior and posterior layers. The anterior layer forms from aponeuroses of ...Anatomy, Abdomen And Pelvis... · Blood Supply And Lymphatics · Clinical Significance
[15]
Robotic hernia repair II. English version - NIH
Aug 10, 2021 · The collagenous fibers of the rectus sheath join medially by decussation between the anterior and posterior sheaths into the linea alba. The ...
[16]
Surgical Access Incisions - StatPearls - NCBI Bookshelf - NIH
Oct 5, 2024 · This incision is made transversely, cutting through the bilateral rectus abdominis, the linea alba, and the internal and external oblique ...
[17]
Laparotomy - StatPearls - NCBI Bookshelf - NIH
A standard laparotomy usually involves a sagittal, midline incision along the linea alba. This activity describes the indications, contraindications and ...
[18]
Abdominal Wall Reconstruction Using Retrorectus Self-adhering Mesh
Fixation of mesh in the retrorectus plane can be performed using sutures between the mesh and the rectus sheath reflection at the semilunar line.
[19]
Retromuscular Sublay Technique for Ventral Hernia Repair - NIH
A sublay repair can be thought of as mesh placement in a pocket formed anterior to the peritoneum and posterior to the rectus abdominis.
[20]
Rectus Sheath Block in Abdominal Surgery: A Systematic Review ...
Currently, RSB does not seem to be superior to placebos for pain control or opioid use reduction after abdominal surgeries for either adults or paediatrics.
[21]
Investigation into the clinical performance of rectus sheath block in ...
Jan 29, 2024 · Rectus sheath block (RSB) is an effective postoperative pain control technique in abdominal surgical procedures.
[22]
Rectus Sheath Hematoma - StatPearls - NCBI Bookshelf
Jan 30, 2023 · Rectus sheath hematoma is a relatively uncommon entity that is most often associated with abdominal wall trauma or anticoagulation.Continuing Education Activity · Epidemiology · History and Physical · Evaluation
[23]
Spontaneous Rectus Sheath Hematoma - PMC - NIH
Rectus sheath hematoma (RSH) is a known complication of abdominal trauma, surgery and excessive strain on the abdominal musculature.
[24]
Ventral Hernia - StatPearls - NCBI Bookshelf - NIH
However, below the arcuate, line all 3 layers of aponeurosis become anterior to the rectus muscle, and it is no longer enveloped. Instead, the only fascial ...Etiology · Pathophysiology · Treatment / Management · Prognosis
[25]
Diastasis Recti Rehabilitation - StatPearls - NCBI Bookshelf - NIH
Diastasis recti is an increased distance between the rectus abdominis muscles at the midline caused by weakness in the anterior abdominal wall.
[26]
Rectus abdominis diastasis - UpToDate
Aug 28, 2025 · Rectus abdominis diastasis (RAD; diastasis recti, divarication of the rectus abdominis, abdominal muscle separation) is an anatomic term ...
[27]
Disorders of the rectus abdominis muscle and sheath - PubMed
Secondary disorders of the RMS included abscesses from diverticulitis, a perforated sigmoid carcinoma, gallbladder empyema, and disseminated actinomycosis.
[28]
Desmoid Tumor of the Rectus Abdominis Muscle in a Postpartum ...
Desmoid tumors, also known as aggressive fibromatosis, are uncommon mesenchymal neoplasms. They account for only 0.03% of all tumors and 3% of all soft-tissue ...
[29]
New Insights Into the Development of the Anterior Abdominal Wall
In embryos at stages 21, 22, and 23 (51–57 days), the abdominal muscles and aponeuroses cross the midline (linea alba) covering the rectus abdominis and ...
[30]
Anatomical variations of the pyramidalis muscle: a systematic review ...
Nov 24, 2020 · The pyramidalis muscle is present in about 90% of individuals, with 11.3% having bilateral absence, 6.3% unilateral presence, and length ...Missing: function | Show results with:function
[31]
Prevalence and pubo-umbilical index of pyramidalis muscle in a ...
Results: Pyramidalis was present in 84% (44) of cadavers; 83% (43) bilaterally, 2% (1) unilaterally, and 85.4% (35) in males, 81.8% (9) in females. Mean length ...
[32]
Arcuate line of the rectus sheath: clinical approach - PubMed
The rectus sheath has been extensively described in gross anatomic studies but there is very little information available regarding the arcuate line (AL).
[33]
Variations in the composition of the human rectus sheath - PubMed
Three modes of construction of the rectus sheath above the arcuate line were found in a study of 40 cadavers. The classical description occurred most ...
[34]
[PDF] Variations in the Pattern of Formation of the Abdominis Rectus ...
When the arcuate line was present (64 cases), all the anterolateral abdominal wall muscles passed anterior to rectus abdominis muscle to form the AWRS (Fig. 1B) ...
[35]
Abdominal muscle size and symmetry in normal subjects - PubMed
This study was undertaken to establish normal reference ranges for abdominal muscle size and symmetry and to examine the effects on these of gender and age.
[36]
Spontaneous posterior rectus sheath hernia: a case report - PMC - NIH
Apr 15, 2018 · However, below the arcuate line, the posterior rectus sheath comprises only transverse abdominis muscle which makes this structure weaker in ...
[37]
Laparoscopic transabdominal preperitoneal mesh repair of...
[5] Congenital posterior rectus sheath defects are extremely rare as in our second case report. This patient did not have any previous midline abdominal surgery ...Missing: prevalence | Show results with:prevalence