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Lumbar plexus

The lumbar plexus is a bilateral network of nerves formed primarily from the ventral rami of the spinal nerves L1 through L4, with occasional contributions from T12 and L5, that arises within the psoas major muscle and provides motor and sensory innervation to the lower abdomen, pelvis, and anterior and medial aspects of the lower limb.^[1] This plexus originates as the anterior divisions of the lumbar spinal nerves exit the intervertebral foramina and converge laterally to the vertebral column, embedded deeply in the posterior aspect of the psoas major muscle, where they interweave to form a flattened structure approximately 5 cm in length and 3 cm in width.^[1] Its blood supply derives mainly from the lumbar branch of the iliolumbar artery, ensuring robust vascular support within the muscular confines of the psoas.^[1] The anatomical positioning of the lumbar plexus posterior to the psoas fascia protects it during certain surgical approaches but renders it vulnerable to compression or injury in others, such as retroperitoneal procedures.^[1] The lumbar plexus gives rise to several major terminal branches, each with distinct paths and functions: the iliohypogastric and ilioinguinal nerves (from L1) supply sensory innervation to the skin of the lower abdomen, buttocks, and groin; the genitofemoral nerve (L1-L2) provides sensory input to the scrotum or labia and motor fibers to the cremaster muscle; the lateral femoral cutaneous nerve (L2-L3) delivers sensory fibers to the lateral thigh; the femoral nerve (L2-L4), the largest branch, innervates the quadriceps femoris for knee extension and provides cutaneous sensation to the anterior thigh and medial leg via its saphenous branch; and the obturator nerve (L2-L4) supplies motor innervation to the adductor muscles of the thigh while contributing sensory branches to the medial thigh and hip joint.^[1] Additionally, a communicating branch forms the lumbosacral trunk, which joins the sacral plexus to contribute to the sciatic nerve.^[1] Clinically, the lumbar plexus is significant due to its role in lower limb function and its susceptibility to pathology; lesions from trauma, herniated discs, or surgical interventions can result in symptoms such as lumbar plexopathy, manifesting as weakness in hip flexion or knee extension, sensory deficits, or pain radiating to the lower extremities.^[1] Conditions like meralgia paresthetica, involving entrapment of the lateral femoral cutaneous nerve, highlight the plexus's vulnerability at the inguinal ligament, often managed conservatively with analgesics or, in severe cases, surgical decompression.^[1] Understanding its anatomy is crucial for regional anesthesia techniques, such as lumbar plexus blocks, which facilitate postoperative pain control in lower limb surgeries.^[1]

Anatomy

Location and Formation

The lumbar plexus is defined as a network of interconnected nerves formed primarily by the anterior rami of spinal nerves L1 through L4, with occasional contribution from the anterior ramus of T12.^[1] This arrangement creates a "web" of nerves just lateral to the intervertebral foramina where these spinal nerves exit the spinal column.^[1] The plexus is situated within the substance of the psoas major muscle, specifically in its posterior third and medial third, embedding deeply in the retroperitoneal space.^[2] It lies posterior to the kidneys and the parietal peritoneum, while extending laterally from the intervertebral foramina at levels L1 to L4.^[1] This positioning places the plexus deep within the abdominal cavity, shielded by muscular and fascial layers.^[2] Formation begins as the anterior rami of L1 to L4 (and occasionally T12) emerge from their respective intervertebral foramina and immediately enter the psoas major muscle.^[3] Within the muscle, these rami divide into anterior and posterior divisions that interconnect and recombine to establish the plexus structure, progressing caudally and laterally through the psoas major.^[1] In terms of relations, the lumbar plexus is fully embedded within the psoas major muscle, which it traverses throughout its formation.^[4] It lies anterior to the quadratus lumborum muscle and posterior to both the iliacus muscle inferiorly and the peritoneum anteriorly.^[1]

Structure and Relations

The lumbar plexus arises from the anterior rami of the spinal nerves L1 through L4, with occasional contribution from the subcostal nerve (T12), and is embedded within the substance of the psoas major muscle.^[1] Inside the psoas major, these rami divide into anterior and posterior divisions, which interconnect through looping anastomoses to form the foundational network for peripheral nerves.^[1] This internal organization creates a complex web of intermingling fibers that ensures distributed innervation, with the posterior divisions primarily contributing to nerves supplying the posterior thigh and the anterior divisions to those of the anterior thigh and medial leg.^[1] Anatomically, the lumbar plexus is positioned anterior to the transverse processes of the lumbar vertebrae and lies within the posterior aspect of the psoas major muscle, which separates it from overlying structures.^[1] It is medial to the common iliac vessels and posterior to intraperitoneal organs such as the descending colon and ureter, placing it in the retroperitoneal space.^[1] This deep location renders the plexus susceptible to compression by expanding masses, such as psoas hematomas, which can impinge on the neural elements within the muscle substance.^[1] Structural variations in the lumbar plexus occur in approximately 20% of individuals, including accessory contributions from the T12 ventral ramus joining the L1 root to form branches like the iliohypogastric nerve.^[5] These anomalies can alter the plexus's internal looping patterns but typically do not disrupt overall function.^[5] Embryologically, the lumbar plexus develops from the ventral rami of spinal nerves, which emerge during the segmentation of somites from paraxial mesoderm in the fourth week of gestation.^[6] As the neural tube closes and neural crest cells migrate to form dorsal root ganglia, motor axons from ventral horn neurons extend through the ventral roots, establishing the rami that will later interconnect within the forming psoas major.^[6] This process aligns with the differentiation of somites into sclerotome, myotome, and dermatome components, laying the groundwork for the plexus's mature structure.^[6]

Branches

Direct Branches

The direct branches of the lumbar plexus consist of short muscular nerves that arise from the ventral rami of the spinal nerves forming the plexus, primarily L1 through L4, with occasional contributions from T12, and provide motor innervation to key posterior abdominal and paraspinal muscles within the lumbar region. These branches emerge early in the formation of the plexus, located within the substance of the psoas major muscle, anterior to the transverse processes of the lumbar vertebrae, before the larger terminal nerves develop.^[3]^[7] Branches to the psoas major muscle originate from the ventral rami of L1-L3, sometimes including T12 and extending to L4 in variations, and course as small, intrinsic fibers that penetrate the muscle directly to supply its motor innervation, facilitating hip flexion and trunk stabilization. These nerves exit laterally and caudally from the intervertebral foramina, posterior to the psoas major, embedding within the muscle fibers shortly after formation.^[3]^[7]^[8] Branches to the quadratus lumborum muscle arise from the ventral rami of T12-L1, with contributions from L2-L4 in some cases, traveling along the anterior surface of the muscle after emerging superiorly from the lateral margin of the psoas major to deliver motor supply for lateral flexion of the lumbar spine and stabilization of the 12th rib. These short branches often associate with the iliohypogastric nerve for their distribution.^[3]^[7] Branches to the lumbar intertransverse muscles stem from the ventral rami of T12-L4, specifically the anterior primary divisions, and extend to innervate both the medial and lateral parts of these small paraspinal muscles, which connect adjacent transverse processes and aid in spinal stabilization and lateral flexion. These nerves course briefly within the psoas major region before reaching the intertransverse spaces.^[3]^[9]^[10]

Peripheral Branches

The peripheral branches of the lumbar plexus are the longer nerves that arise from its ventral rami and extend beyond the immediate retroperitoneal space to reach distal targets in the lower abdomen, pelvis, and lower limb. These include the iliohypogastric, ilioinguinal, genitofemoral, lateral femoral cutaneous, femoral, and obturator nerves, as well as the lumbosacral trunk, which connects to the sacral plexus.^[1]^[11] The iliohypogastric nerve arises from the union of the T12 and L1 ventral rami within the psoas major muscle. It emerges from the upper lateral border of the psoas major, courses anteriorly between the psoas major and quadratus lumborum muscles, and then pierces the transversus abdominis muscle near the iliac crest before perforating the internal oblique muscle to reach the abdominal wall.^[11]^[1] The ilioinguinal nerve originates from the L1 ventral ramus, typically branching from the lumbar plexus just inferior to the iliohypogastric nerve. It travels inferiorly within the psoas major, exits at its lateral border below the iliohypogastric nerve, descends along the anterior surface of the quadratus lumborum and upper iliacus, and enters the inguinal canal through the superficial inguinal ring.^[11]^[1] The genitofemoral nerve forms from the L1 and L2 ventral rami deep within the psoas major muscle. It descends anteriorly along the medial border of the psoas major, pierces its anterior surface near the inguinal ligament, and bifurcates into a genital branch (which enters the inguinal canal) and a femoral branch (which passes under the inguinal ligament lateral to the femoral artery). Throughout its course, it lies posterior to the ureter and peritoneum within the iliac fascia.^[11]^[1] The lateral femoral cutaneous nerve emerges from the posterior divisions of the L2 and L3 ventral rami. It arises from the lateral border of the psoas major, courses downward deep to the iliac fascia over the iliacus muscle, passes under the lateral aspect of the inguinal ligament medial to the anterior superior iliac spine, and enters the thigh to distribute laterally.^[11]^[1] The femoral nerve, the largest branch of the lumbar plexus, arises from the posterior divisions of the L2, L3, and L4 ventral rami. It forms within the psoas major, exits laterally from its border into the iliac fossa approximately 4 cm above the inguinal ligament, descends posterior to the iliacus muscle, and passes under the inguinal ligament into the femoral triangle lateral to the femoral artery and vein.^[11]^[1] The obturator nerve originates from the anterior divisions of the L2, L3, and L4 ventral rami. It descends within the psoas major muscle, emerges from its medial border at the pelvic brim, courses posterolaterally toward the obturator foramen while passing between the psoas major and the lateral wall of the pelvis, and then travels through the obturator canal to reach the medial thigh.^[11]^[1] The lumbosacral trunk is formed by the anterior divisions of the L4 and L5 ventral rami, with variations in relative contributions. It forms a cordlike structure that descends medial to the psoas major muscle, passes over the sacral ala and the pelvic brim, and joins the first sacral nerve (S1) to contribute to the sacral plexus, thereby linking the lumbar and sacral plexuses.^[12]^[1]

Function

Motor Innervation

The lumbar plexus, formed by the ventral rami of spinal nerves L1 through L4, provides motor innervation to key muscles of the abdominal wall, pelvis, and lower limb, enabling essential movements such as spinal stabilization, hip flexion, knee extension, and thigh adduction.^[1] Direct branches from these rami supply the psoas major and quadratus lumborum muscles, which play critical roles in posture and core stability.^[13]^[14] In the abdominal wall, the iliohypogastric nerve (arising from T12 and L1) and ilioinguinal nerve (from L1) innervate the transversus abdominis and internal oblique muscles, facilitating compression of the abdominal contents and contributing to trunk flexion and rotation.^[1] These muscles work synergistically to maintain intra-abdominal pressure and support spinal stability during dynamic activities.^[1] Pelvic motor innervation includes the genitofemoral nerve (L1 and L2), whose genital branch supplies the cremaster muscle, enabling reflex elevation of the testis in response to cold or tactile stimuli.^[1] Additionally, direct branches from the L1-L3 rami innervate the psoas major, a primary hip flexor that originates from the lumbar vertebrae and inserts on the lesser trochanter of the femur, aiding in forward propulsion during gait and stabilizing the lumbar spine.^[13] The quadratus lumborum receives innervation from the 12th thoracic intercostal nerve, iliohypogastric nerve, and ilioinguinal nerve (L1), supporting lateral flexion of the trunk and stabilization of the lumbar region against gravitational forces.^[14] In the thigh, the femoral nerve (L2-L4) provides motor supply to the iliacus (part of the iliopsoas), quadriceps femoris (rectus femoris, vastus lateralis, medialis, and intermedius), and sartorius muscles, driving hip flexion and knee extension essential for standing, walking, and climbing.^[1]^[13] The obturator nerve (L2-L4) innervates the adductor group—gracilis, adductor longus, brevis, and magnus—as well as pectineus, enabling adduction and rotation of the thigh to maintain balance and facilitate medial movements during locomotion.^[1]

Sensory Distribution

The sensory distribution of the lumbar plexus encompasses dermatomes from the L1 to L4 spinal nerve roots, providing cutaneous and deeper tissue innervation to the lower abdomen, anterior pelvic wall, and proximal lower limb.^[1] The L1 dermatome primarily supplies the suprapubic region, while the L2 dermatome covers the upper anterior thigh, and the L3 dermatome innervates the medial aspect of the knee.^[15] These segmental patterns ensure coordinated sensory mapping, with overlaps facilitating redundant coverage in the inguinal and thigh regions.^[1] Specific branches of the lumbar plexus deliver targeted sensory input to distinct areas. The iliohypogastric nerve (T12-L1) provides sensation to the lateral gluteal skin and suprapubic area above the pubic symphysis.^[1] The ilioinguinal nerve (L1) innervates the skin of the mons pubis and adjacent genital regions, including the anterior scrotum in males and the labia majora in females.^[1] The genitofemoral nerve (L1-L2) supplies the femoral triangle on the upper anterior thigh via its femoral branch and the scrotal skin (males) or mons pubis and labia majora (females) via its genital branch.^[1] The lateral femoral cutaneous nerve (L2-L3) exclusively serves the lateral thigh, often extending to the knee in some individuals.^[1] The femoral nerve (L2-L4), through its saphenous branch, provides sensory innervation to the medial leg and foot, including the skin over the patella and medial ankle.^[1] The obturator nerve (L2-L4) covers a smaller area on the medial thigh, inferior to the ilioinguinal territory.^[1] Beyond cutaneous sensation, lumbar plexus branches contribute to proprioceptive feedback from the hip and knee joints. The femoral nerve's articular branches innervate the hip joint capsule and knee joint, relaying position and movement data essential for coordination and stability.^[1] Innervation to the quadriceps muscles via the femoral nerve further supports proprioception at these joints by integrating muscle spindle input with joint receptors.^[1]

Clinical Relevance

Injuries and Disorders

Injuries to the lumbar plexus commonly arise from traumatic events such as pelvic fractures, where the plexus's proximity to the pelvic bones increases vulnerability, with lumbosacral plexopathies occurring in approximately 0.7% of pelvic fracture cases and up to 2% following sacral fractures.^[16] Iatrogenic injuries can occur during surgical procedures, including appendectomy and hip arthroplasty, due to direct trauma, retraction, or inflammation in the retroperitoneal space.^[17] Compression of the plexus may also result from psoas abscesses or hematomas, which exert mass effect on the nerve structures embedded within the psoas major muscle.^[16] Disorders affecting the lumbar plexus include lumbosacral plexopathy associated with diabetes mellitus, characterized by inflammatory or microvascular changes leading to acute or subacute neuropathy, and radiation-induced plexopathy, which typically presents years after pelvic radiotherapy with doses exceeding 50-60 Gy.^[15] Meralgia paresthetica involves entrapment of the lateral femoral cutaneous nerve, a branch of the lumbar plexus, often at the inguinal ligament, resulting in sensory disturbances over the anterolateral thigh.^[18] Obturator neuropathy, another disorder, frequently stems from hip surgical interventions, causing adductor weakness due to injury to the obturator nerve originating from the plexus.^[19] Symptoms of lumbar plexus injuries and disorders typically manifest as weakness in hip flexion and adduction, sensory loss in the thigh and leg distributions, and pain radiating to the anterior thigh, reflecting involvement of key branches like the femoral and obturator nerves.^[15] Risk factors include the anatomical vulnerability of the plexus within the psoas major muscle, which predisposes it to compression during retroperitoneal pathology, as well as associations with spinal stenosis or tumors that may infiltrate or compress plexus structures.^[20]^[21]

Surgical and Diagnostic Considerations

Diagnostic evaluation of lumbar plexus disorders relies on a combination of electrodiagnostic studies, advanced imaging, and targeted interventions to localize pathology and differentiate it from radiculopathy or peripheral neuropathy. Electromyography (EMG) and nerve conduction studies (NCS) are fundamental for assessing nerve function, identifying denervation patterns in paraspinal and limb muscles, and confirming plexus involvement by demonstrating abnormalities in multiple myotomes beyond a single root level.^[22] Magnetic resonance imaging (MRI), particularly MR neurography, provides high-resolution visualization of the plexus, detecting inflammation, compression, or neoplastic infiltration along the L2-L4 roots within the psoas muscle and retroperitoneal space.^[23] Lumbar plexus nerve blocks, often performed under ultrasound or fluoroscopic guidance, serve as both diagnostic and therapeutic tools, helping to confirm the plexus as the pain source by temporarily alleviating symptoms in the anterior thigh and medial leg.^[11] Surgical procedures involving the lumbar region carry significant risks to the plexus due to its retroperitoneal location and proximity to operative fields. In lumbar spine surgery, such as anterior lumbar interbody fusion (ALIF), the retroperitoneal approach allows direct exposure of the plexus by mobilizing the peritoneum and retracting the psoas muscle, but it risks vascular injury or indirect compression from prolonged retraction.^[24] During hip arthroplasty, particularly anterior approaches, the femoral and lateral femoral cutaneous nerves—key lumbar plexus branches—are vulnerable to stretch or transection, with reported nerve injury rates of approximately 1-2% in total hip replacements.^[25] Inguinal hernia repair, especially laparoscopic variants, poses a 2% risk of injury to distal branches like the ilioinguinal and genitofemoral nerves during mesh placement or trocar insertion, potentially leading to chronic groin pain.^[26] Anatomical variations in the lumbar plexus, such as accessory roots from T12 or anomalous extrapsoas courses of branches like the femoral nerve, can heighten intraoperative risks by altering expected trajectories and increasing susceptibility to iatrogenic damage during transpsoas or retroperitoneal exposures.^[27]^[28] These variants, observed in up to 20% of cases, necessitate preoperative imaging to map the plexus and adjust surgical trajectories, as deviations may position nerves closer to the surgical corridor in lateral interbody fusions.^[27]^[28] Postoperative monitoring for lumbar plexus injuries focuses on distinguishing transient neuropraxia from more severe axonotmesis in branches like the femoral and obturator nerves, using serial EMG/NCS to track reinnervation and MRI to assess edema resolution.^[29] Recovery from neuropraxia typically occurs within weeks through conservative management, while axonotmesis may require months and is evaluated via progressive improvement in motor strength and sensory thresholds.^[16] Early intervention, such as physical therapy or nerve conduction monitoring, helps mitigate long-term deficits in up to 30% of surgical cases involving these nerves.^[20]

References

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Anatomy, Back, Lumbar Plexus - StatPearls - NCBI Bookshelf
The lumbar plexus is an essential collection of nerves that arise from mostly the lumbar spinal cord. The term plexus refers to a “web” of nerves that is ...
[2]
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC8026205/
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https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2813498/
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Lumbar plexus and psoas major muscle: not always as expected
The lumbar plexus was situated within the psoas major muscle in 61 of 63 cases. In 2 of 63 cases the entire plexus was localized posterior to the psoas major ...
[5]
Anatomical Variations of the Lumbar Plexus: A Descriptive Anatomy ...
The lumbar plexus originates from the ventral rami of the L1-L4 nerve roots and projects laterally and caudally from the intervertebral foramina, posterior to ...
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Neuroanatomy, Spinal Nerves - StatPearls - NCBI Bookshelf
Aug 14, 2023 · Embryology. Brain and spinal cord formation arise during the embryonic process of neurulation. During the fourth week of development, the ...
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### Summary of Lumbar Plexus Direct Branches to Posterior Abdominal Wall Muscles (Psoas and Quadratus Lumborum)
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[PDF] Studies of the Psoas Muscle and Lumbar Plexus
The psoas major muscle receives innervations from the second to fourth lumbar spinal nerves as tiny intrinsic branches off the femoral nerve. The main action of ...
[9]
Intertransversarii muscle group | Radiology Reference Article
Nov 28, 2022 · Both medial and lateral lumbar intertransversarii muscles are innervated by the anterior rami of the lumbar spinal nerves (L1-L4).
[10]
Intertransversarii Muscle - an overview | ScienceDirect Topics
Both the anterior and posterior divisions of the lateral intertransversarii muscles are innervated by lumbar anterior primary divisions (ventral rami). The ...
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Lumbar Plexus Block - StatPearls - NCBI Bookshelf
Jan 29, 2023 · The main branches of the lumbar plexus are considered below: Iliohypogastric nerve: Formed by T12 and L1, it travels across the psoas muscle ...
[12]
Anatomy, Back, Lumbosacral Trunk - StatPearls - NCBI Bookshelf
Oct 12, 2023 · The lumbosacral plexus arises as a cordlike structure from the ventral rami of the fourth and fifth lumbar nerve roots.
[13]
Anatomy, Bony Pelvis and Lower Limb: Psoas Major - NCBI - NIH
In between the deep and superficial layers, one can find the lumbar plexus. At the distal end, the psoas muscle combines with the iliacus muscle to form the ...
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Anatomy, Abdomen and Pelvis, Quadratus Lumborum - StatPearls
Jul 17, 2024 · The quadratus lumborum is innervated by the 12th thoracic intercostal, iliohypogastric, and ilioinguinal nerves.
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Lumbosacral Plexopathy - StatPearls - NCBI Bookshelf
Jul 6, 2025 · The lumbar plexus lies above the pelvic brim and forms from L1 through L4 nerve roots, while the S1 through S4 nerve roots make up the sacral ...
[16]
Traumatic Lumbosacral Plexopathy | PM&R KnowledgeNow
Oct 13, 2021 · Lumbosacral plexopathies occur in roughly 0.7% of cases following a traumatic pelvic fracture, whereas incidence increases to 2% following a ...
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Plexopathy—Lumbosacral | Musculoskeletal Key
Jul 6, 2019 · Lumbosacral injury has also been noted after appendectomy and inguinal herniorrhaphy. Patients who are thin, diabetic, or elderly are at ...
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Meralgia Paresthetica - StatPearls - NCBI Bookshelf - NIH
The lateral femoral cutaneous nerve is a pure sensory nerve vulnerable to compression as it passes from the lumbosacral plexus towards the inguinal ligament ...Continuing Education Activity · Pathophysiology · Treatment / Management
[19]
Obturator neuropathy - PMC - NIH
Often, obturator neuropathy is caused by pelvic trauma or surgery so athletes should be questioned regarding previous surgery. Definitive diagnosis is made with ...
[20]
Analysis of lumbar plexopathies and nerve injury after lateral ...
Dec 21, 2012 · Hip Flexor Weakness and Pain These patients have no sensory deficit, but have transient iliopsoas muscle weakness (< 3 months) and associated ...
[21]
Lumbar Plexopathy Caused by Metastatic Tumor, Which Was ... - NIH
Risk factors of PPP include the severity of pain before and after surgery, nerve injuries, and psychosocial factors. Their impacts vary with the type and extent ...
[22]
[PDF] Electrodiagnostic Testing in Lumbosacral Plexopathies
The lumbosacral roots and the lower extremity peripheral nerves are commonly involved in peripheral nervous system diseases (radiculopathies, ...
[23]
MR Neurography of the Lumbosacral Plexus for Lower Extremity ...
Nov 1, 2018 · MR neurography (MRN), first described in 1992, is a novel technique increasingly used in clinical practice to evaluate extraspinal neuropathy.
[24]
Retroperitoneal approach for Anterior lumbar interbody fusion (ALIF)
Retroperitoneal approach for Anterior lumbar interbody fusion (ALIF) and many more surgical approaches described step by step with text and illustrations.
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Lumbosacral Plexus Injuries | MedLink Neurology
Symptoms of lumbosacral plexus injury include varying degrees of lower extremity weakness, sensation changes, pain, and diminished reflexes. Certain etiologies ...Missing: appendectomy | Show results with:appendectomy
[26]
The cutaneous nerves encountered during laparoscopic repair of ...
Background: With an incidence rate of 2%, injury to the nerves of the lumbar plexus is the most common complication of laparoscopic hernioplasty, particularly ...Missing: risk | Show results with:risk
[27]
Variations of the extrapsoas course of the lumbar plexus with ...
Aug 2, 2024 · The aim of this study was to investigate the variability of the extrapsoas portion of the lumbar plexus in regard to the lateral transpsoas approach.
[28]
Elimination of Lumbar Plexus Injury by Changing the Entry Point and ...
Apr 8, 2023 · Damage to the lumbar plexus on the approach side occurs with either method, leading to motor and sensory impairment in the lower limbs, and ...
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Femoral Nerve and Lumbar Plexus Injury After Minimally Invasive ...
May 30, 2017 · Cases with post-operative obturator or femoral neuropathy were identified. Post-operative MRI, nerve conduction studies (NCS), electromyography ...