Position of lumbar plexus nerves in the psoas major: Application to transpsoas approaches to the lumbar spine.

Far lateral interbody fusion is a minimally invasive operating technique. However, the incidence of postoperative neurological complications is high, and some scholars question its safety. This study describes the neuroanatomical features and spatial orientation within the psoas major. Ten embalmed male cadavers were selected and the left psoas major was dissected. Subsequently, the area between the anterior and the posterior edges of the vertebral body was divided into three equal zones. The nerves' distribution, number, and spatial orientation of the L1/2 to L4/5 intervertebral discs were examined. A caliper was used to measure the diameter of the nerve. The safety zone of the L1/2 intervertebral disc level is located in zone I and II, the relative safe zones of the L2/3 and L4/5 intervertebral discs are located in zone II, and the safety zone of the L3/4 intervertebral disc level is located in the caudal side of zone II. The genitofemoral nerve exits the psoas major in a co-trunk or two-branch pattern, and its exit point was distributed between the L3 and L4 vertebral bodies, mainly at the L3/4 intervertebral disc level. The sympathetic ganglia in the psoas major appeared only in zone I at the L2/3 intervertebral disc level. This is a systematic anatomical study that describes the nerves of the psoas major. Spine surgeons can use this study-which consists of important clinical implications-for preoperative planning, and thus, reduce the risk of nerve injury during surgery.

Split unilateral del nervio femoral a nivel del músculo psoas mayor: reporte de caso / Unilateral femoral nerve split at the psoas major muscle: case report

RESUMEN: El nervio femoral (NF) es el mayor o ramo del plexo lumbar. Normalmente se origina de las divisiones posteriores del segundo al cuarto ramo anterior del plexo lumbar (L2-L4). El músculo psoas mayor tiene su origen a nivel de las vértebras T12 a L5, se fusiona con el músculo ilíaco para luego insertarse en el trocánter menor del fémur. Normalmente, a nivel de la pelvis menor el NF se encuentra entre los músculos ilíaco y psoas mayor. En este trabajo presentamos un caso donde el músculo psoas mayor se relaciona con divisiones o split del NF, esta es una rara variación en la división y curso del NF con relación al músculo psoas mayor. Se observó que el NF se dividía en dos ramos por sobre el plano del ligamento inguinal después de su origen en el plexo lumbar. El NF del lado izquierdo se formó por las ramas ventrales de L2 a L4, a nivel de L5 el nervio es perforado por fascículos del músculo psoas mayor. La división inferior del NF pasaba profundamente a las fibras del músculo iliopsoas y la división superior pasaba superficialmente al músculo psoas mayor y profundo a la fascia ilíaca. Después de un trayecto de 60,21 mm ambas divisiones se unieron, después de atrapar fibras músculo iliopsoas justo inmediatamente proximal al ligamento inguinal para formar el tronco del NF. Si bien las causas embriológicas de las variaciones de los nervios periféricos se remontan a la quinta y sexta semana de vida intrauterina, la expresión clínica de disfunciones neuromusculares aparecerá varios decenios después. De modo que los médicos de las áreas de la traumatología y neurología deben estar al tanto de tales variantes anatómicas para entender mejor el dolor y los síndromes asociados a la compresión nerviosa y durante las maniobras quirúrgicas en esta región.

SUMMARY: AbstractThe femoral nerve (NF) is the major branch (or ramus) of the lumbar plexus. It normally originates from the posterior divisions of the second to fourth anterior branches of the lumbar plexus (L2-L4). The psoas major muscle originates at the level of the T12 to L5 vertebrae, fuses with the iliacus muscle and then inserts into the lesser trochanter of the femur. Normally, at the level of the lesser pelvis, the NF is found between the iliacus and psoas major muscles. In this paper we present a case where the psoas major muscle is related to divisions or splitting of the NF, this is a rare variation in the division and course of the NF in relation to the psoas major muscle. The NF was observed to divide into two branches above the plane of the inguinal ligament after its origin in the lumbar plexus. The NF on the left side was formed by ventral branches from L2 to L4, at the level of L5 the nerve is perforated by fascicles of the psoas major muscle. The lower division of the NF passed deep to the fibers of the iliopsoas muscle and the upper division passed superficial to the psoas major muscle and deep to the iliac fascia. After a path of 60.21 mm both divisions joined, after trapping iliopsoas muscle fibers just immediately proximal to the inguinal ligament to form the NF trunk. While the embryological causes of peripheral nerve variations date back to the fifth and sixth week of intrauterine life, the clinical expression of neuromuscular dysfunctions will appear several decades later. Thus, physicians in the areas of traumatology and neurology should be aware of such anatomical variants to better understand pain and syndromes associated with nerve compression and during surgical maneuvers in this region.

Does the L5 spinal nerve move? Anatomical evaluation with implications for postoperative L5 nerve palsy.

PURPOSE: While palsy of the L5 nerve root due to stretch injury is a known complication in complex lumbosacral spine surgery, the underlying pathophysiology remains unclear. The goal of this cadaveric study was to quantify movement of the L5 nerve root during flexion/extension of the hip and lower lumbar spine. METHODS: Five fresh-frozen human cadavers were dissected on both sides to expose the lumbar vertebral bodies and the L5 nerve roots. Movement of the L5 nerve root was tested during flexion and extension of the hip and lower lumbar spine. Four steps were undertaken to characterize these movements: (1) removal of the bilateral psoas muscles, (2) removal of the lumbar vertebral bodies including the transforaminal ligaments from L3 to L5, (3) opening and removing the dura mater laterally to visualize the rootlets, and (4) removal of remaining soft tissue surrounding the L5 nerve root. Two metal bars were inserted into the sacral body at the level of S1 as fixed landmarks. The tips of these bars were connected to make a line for the ruler that was used to measure movement of the L5 nerve roots. Movement was regarded as measurable when there was an L5 nerve excursion of at least 1 mm. RESULTS: The mean age at death was 86.6 years (range 68-89 years). None of the four steps revealed any measurable movement after flexion/extension of the hip and lower lumbar spine on either side (< 1 mm). Flexion of the hip and lower lumbar spine revealed lax L5 nerve roots. Extension of the hip and lower lumbar spine showed taut ones. CONCLUSION: Significant movement or displacement of the L5 nerve root could not be quantified in this study. No mechanical cause for L5 nerve palsy could be identified so the etiology of the condition remains unclear.

Effective botulinum neurotoxin injection in treating iliopsoas spasticity.

INTRODUCTION: To detect ideal locations for botulinum toxin (BoNT) injection by exploring the intramuscular nerve arborization of the psoas major and iliacus muscles. METHOD: A modified Sihler's method was performed on the psoas major and iliacus muscles (16 specimens each). Intramuscular nerve arborization was recorded according to the most prominent point of the anterior superior iliac spine (ASIS), the posterior superior iliac spine (PSIS), the lesser trochanter (LT), and the transverse process of the 12th thoracic vertebra. RESULTS: Intramuscular nerve arborization of the psoas major muscle was the largest from 1/5 to 3/5 the distance from the transverse process of the 12th thoracic vertebra to the PSIS, and the tendinous portion of the muscle occupied from 3/5 to 5/5 this distance. In terms of the plane of the ASIS, the PSIS, and the LT, the arborization of the iliacus muscle was the largest from 1/5 to 3/5 the horizontal distance and 0 to 1/3, the distance longitudinally, and from 1/5 to 2/5, the horizontal distance and 1/3 to 2/3, the longitudinal distance. DISCUSSION: These results suggest that an injection of BoNT to the psoas major and iliacus muscle should be applied in specific areas. Additionally, the posterior approach is an ideal method for targeting only the psoas major because the injection point is above the PSIS. However, when treating both the psoas major and iliacus muscles, the proximal anterior approach is an ideal method according to the arborization patterns.

Inadvertent epidural anesthesia associated with catheterization following continuous psoas compartment block in a patient with scoliosis: A Case report.

RATIONALE: Psoas compartment block (PCB) is typically performed using surface anatomical landmarks and neurostimulation for guidance. However, anatomical anomalies, such as scoliosis, make this technique unreliable, posing a challenge for the anesthesiologist when inducing regional anesthesia. PATIENT CONCERNS: A 69-year-old woman with lumbar scoliosis scheduled for total hip arthroplasty underwent PCB with catheterization. DIAGNOSES: Inadvertent epidural anesthesia with catheterization following PCB was diagnosed using a lumbar radiograph. INTERVENTIONS: Due to hypotension induced by local anesthetic (LA) epidural diffusion, the patient received intravenous hydration and vasopressor. Since bilateral sensory block was noted at the T3 level, with an incomplete motor blockade in both legs, the surgery was performed under epidural anesthesia. OUTCOMES: The patient remained hemodynamically stable throughout the duration of the surgical procedure. The surgery was uneventful and without further complications. LESSONS: Patients with lumbar scoliosis are highly at risk of LA epidural diffusion, following PCB using traditional landmark-based approach. Other nerve-localizing technique can minimize the risk of this complication.

Femoral neuropathy following a psoas hitch vesicopexy.

A 68-year-old man classified as III on the American Society of Anaesthesiologists (ASA) physical status classification system, with a high-grade papillary urothelial cell carcinoma of the left distal ureter, underwent open retroperitoneal distal ureterectomy followed by a ureteroneocystostomy with a vesico-psoas hitch. Postoperatively, the patient complained of left proximal lower limb weakness, severe pain and hypaesthesia of the ventral left thigh suggestive of femoral neuropathy. After excluding common causes for postsurgical pain, a surgical re-exploration was eventually performed during which the sutures used in the vesicopexy were removed, resulting in almost complete resolution of the symptoms. Electromyographic analysis 4 weeks after discharge confirmed the diagnosis of femoral neuropathy, most likely caused by the sutures used in the vesicopexy. This is a rare complication with major consequences for postoperative recovery.

Psoas compartment and sacral plexus block via electrostimulation for pelvic limb amputation in dogs.

OBJECTIVE: To assess the efficacy of psoas compartment and sacral plexus block for pelvic limb amputation in dogs. STUDY DESIGN: Prospective clinical study. ANIMALS: A total of 16 dogs aged 8±3 years and weighing 35±14 kg (mean±standard deviation). METHODS: Dogs were administered morphine (0.5 mg kg-1) and atropine (0.02 mg kg-1); anesthesia was induced with propofol and maintained with isoflurane. Regional blocks were performed before surgery in eight dogs with bupivacaine (2.2 mg kg-1) and eight dogs were administered an equivalent volume of saline. The lumbar plexus within the psoas compartment was identified using electrolocation lateral to the lumbar vertebrae at the fourth-fifth, fifth-sixth and sixth-seventh vertebral interspaces. The sacral plexus, ventrolateral to the sacrum, was identified using electrolocation. Anesthesia was monitored using heart rate (HR), invasive blood pressure, electrocardiography, expired gases, respiratory frequency and esophageal temperature by an investigator unaware of the group allocation. Pelvic limb amputation by coxofemoral disarticulation was performed. Dogs that responded to surgical stimulation (>10% increase in HR or arterial pressure) were administered fentanyl (2 µg kg-1) intravenously for rescue analgesia. Postoperative pain was assessed at extubation; 30, 60 and 120 minutes; and the morning after surgery using a visual analog scale (VAS). RESULTS: The number of intraoperative fentanyl doses was fewer in the bupivacaine group (2.7±1.1 versus 6.0±2.2; p<0.01). Differences in physiologic variables were not clinically significant. VAS scores were lower in bupivacaine dogs at extubation (0.8±1.9 versus 3.8±2.5) and at 30 minutes (1.0±1.4 versus 4.3±2.1; p<0.05). CONCLUSIONS AND CLINICAL RELEVANCE: Psoas compartment (lumbar plexus) and sacral plexus block provided analgesia during pelvic limb amputation in dogs.

Psoas Versus Femoral Blocks: A Registry Analysis of Risks and Benefits.

BACKGROUND AND OBJECTIVES: Psoas blocks are an alternative to femoral nerve blocks and have the potential advantage of blocking the entire lumbar plexus. However, the psoas muscle is located deeply, making psoas blocks more difficult than femoral blocks. In contrast, while femoral blocks are generally easy to perform, the inguinal region is prone to infection. We thus tested the hypothesis that psoas blocks are associated with more insertion-related complications than femoral blocks but have fewer catheter-related infections. METHODS: We extracted 22,434 surgical cases from the German Network for Regional Anesthesia registry (2007-2014) and grouped cases as psoas (n = 7593) and femoral (n = 14,841) blocks. Insertion-related complications (including single-shot blocks and catheter) and infectious complications (including only catheter) in each group were compared with χ tests. The groups were compared with multivariable logistic models, adjusted for potential confounding factors. RESULTS: After adjustment for potential confounding factors, psoas blocks were associated with more complications than femoral blocks including vascular puncture 6.3% versus 1.1%, with an adjusted odds ratio (aOR) of 3.6 (95% confidence interval [CI], 2.9-4.6; P < 0.001), and multiple skin punctures 12.6% versus 7.7%, with an aOR of 2.6 (95% CI, 2.1-3.3; P <0.001). Psoas blocks were also associated with fewer catheter-related infections: 0.3% versus 0.9% (aOR of 0.4; 95% CI, 0.2-0.8; P = 0.016), and with improved patient satisfaction (mean ± SD 0- to 10-point scale score, 9.6 ± 1.2 vs 8.4 ± 2.9; P < 0.001). Results from a propensity-matched sensitivity analysis were similar. CONCLUSIONS: Psoas blocks are associated with more insertion-related complications but fewer infectious complications. CLINICAL TRIAL REGISTRATION: ID NCT02846610.

Anatomy of psoas muscle innervation: Cadaveric study.

Hip flexion weakness is relatively common after lateral transpsoas surgery. Persistent weakness may result from injury to the innervation of the psoas major muscles (PMMs); however, anatomical texts have conflicting descriptions of this innervation, and the branching pattern of the nerves within the psoas major, particularly relative to vertebral anatomy, has not been described. The authors dissected human cadavers to describe the branching pattern of nerves supplying the PMMs. Sixteen embalmed cadavers were dissected, and the fine branching pattern of the innervation to the PMM was studied in 24 specimens. The number of branches and width and length of each branch of nerves to the PMMs were quantified. Nerve branches innervating the PMMs arose from spinal nerve levels L1-L4, with an average of 6.3 ± 1.1 branches per muscle. The L1 nerve branch was the least consistently present, whereas L2 and L3 branches were the most robust, the most numerous, and always present. The nerve branches to the psoas major commonly crossed the intervertebral (IV) disc obliquely prior to ramification within the muscle; 76%, 80%, and 40% of specimens had a branch to the PMM cross the midportion of the L2-3, L3-4, and L4-5 IV discs, respectively. The PMMs are segmentally innervated from the L2-L4 ventral rami branches, where these branches course obliquely across the L2-3, L3-4, and L4-5 IV discs. Knowledge of the mapping of nerve branches to the PMMs may reduce injury and the incidence of persistent weak hip flexion during lateral transpsoas surgery. Clin. Anat. 30:479-486, 2017. © 2017 Wiley Periodicals, Inc.

Ultrasound-Guided Quadratus Lumborum Block: An Updated Review of Anatomy and Techniques.

Purpose of Review. Since the original publication on the quadratus lumborum (QL) block, the technique has evolved significantly during the last decade. This review highlights recent advances in various approaches for administering the QL block and proposes directions for future research. Recent Findings. The QL block findings continue to become clearer. We now understand that the QL block has several approach methods (anterior, lateral, posterior, and intramuscular) and the spread of local anesthetic varies with each approach. In particular, dye injected using the anterior QL block approach spread to the L1, L2, and L3 nerve roots and within psoas major and QL muscles. Summary. The QL block is an effective analgesic tool for abdominal surgery. However, the best approach is yet to be determined. Therefore, the anesthetic spread of the several QL blocks must be made clear.

Early pharmacokinetic of ropivacaine without epinephrine after injection into the psoas compartment.

BACKGROUND: Large amounts of local anaesthetics (LA) are used during psoas compartment block (PCB), especially if combined with sciatic nerve block. Data regarding early pharmacokinetics of ropivacaine for PCB are lacking, notably when a vasoconstrictive agent has not been added. METHODS: PCB was established in 11 patients using 150 mg ropivacaine without epinephrine. Free and total arterial plasma concentrations of ropivacaine were measured at nine time points during the following 30 min. Also total protein, albumin, and α1-acid glycoprotein concentrations were analysed. RESULTS: Ropivacaine plasma concentrations were found in all patients within 30 s after injections. Maximum measured plasma concentrations were measured in all but two patients within the first 10 min. One patient experienced partial intravascular injection. Plasma concentrations showed wide inter-individual variability. Ranges of maximum measured plasma concentrations of total and free ropivacaine were 422-3905 and 5-186 ng ml(-1), respectively. The Pearson correlation between total and free concentrations was 0.96. No obvious relationship between concentrations of different plasma proteins (total protein, albumin, α1-acid glycoprotein) and ropivacaine concentrations was found. Maximal 5% of the measured ropivacaine was unbound. All blocks were successful and no signs of toxicity were observed. CONCLUSIONS: Maximum measured plasma concentrations of ropivacaine after PCB must be expected within 10 min. Although plasma concentrations stayed below toxic thresholds, our study demonstrates the risk of this regional anaesthesia technique. CLINICAL TRIAL REGISTRATION: The clinical study was not registered because enrolment of study patients occurred in 2006.

Saphenous nerve somatosensory evoked potentials: a novel technique to monitor the femoral nerve during transpsoas lumbar lateral interbody fusion.

STUDY DESIGN: A retrospective analysis of a case series was performed. OBJECTIVE: To describe a novel technique to monitor femoral nerve function by analyzing the saphenous nerve somatosensory evoked potential (SSEP) during transpsoas surgical exposures of the lumbar spine. SUMMARY OF BACKGROUND DATA: During transpsoas direct lateral approaches to the lumbar spine, electromyography monitoring is frequently advocated; however, sensory and motor neurological complications are still being reported. Femoral nerve injury remains a feared complication at the L3-L4 and L4-L5 levels. The current neurophysiological monitoring modalities are not specific or sensitive enough to predict these injuries after the retractors are placed. The authors have developed a technique that is hypothesized to reduce femoral nerve injuries caused by retractor compression by adding saphenous nerve SSEPs to their neurophysiological monitoring paradigm. METHODS: Institutional review board approval was granted for this study and the medical records along with the intraoperative monitoring reports from 41 consecutive transpsoas lateral interbody fusion procedures were analyzed. The presence or absence of intraoperative changes to the saphenous nerve SSEP was noted and the postoperative symptoms and physical examination findings were noted. RESULTS: SSEP changes were noted in 5 of the 41 surgical procedures, with 3 of the patients waking up with a femoral nerve deficit. None of the patients with stable SSEP's developed sensory or motor deficits postoperatively. No patient in this series demonstrated intraoperative electromyography changes indicative of an intraoperative nerve injury. CONCLUSION: Saphenous nerve SSEP monitoring may be a beneficial tool to detect femoral nerve injury related to transpsoas direct lateral approaches to the lumbar spine. LEVEL OF EVIDENCE: 4.

Ultrasound-guided psoas compartment block and general anesthesia for arthroscopic knee surgery: a case report.

Anesthetizing the lumbar plexus at its origin facilitates a more "complete" psoas compartment block compared to peripheral approaches. It is usually performed using surface anatomical landmarks, and the site for local anesthetic injection is confirmed by observing quadriceps muscle contraction to peripheral nerve stimulation. Ultrasound may provide guidance alone or together with the aid of nerve stimulation during nerve blocks. We present a 48-year-old male patient, American Society of Anesthesiologists (ASA) physical status II, who refused spinal anesthesia, and underwent knee arthroscopy with ultrasound-guided psoas compartment block and general anesthesia. Following the standard monitoring and lateral decubitus positioning, the vertebral body, psoas, erector spinae, and quadratus lumborum muscles and hyperechoic nerve roots of the patient were visualized at the level of L4-5 with curvilinear ultrasound probe. The needle was inserted with ultrasound guidance, and correct tip position was confirmed with quadriceps contraction. Then, the mixture of 30 mL local anesthetic (10 mL 2% lidocaine and 20 ml 5% levobupivacaine) was injected at the estimated position of the lumbar plexus (junction of the posterior third and anterior two-thirds of the psoas muscle). He also received general anesthesia for the surgery. Anesthesia and surgical procedures were completed successfully without any additional anesthetic/analgesic requirement or complication. The postoperative period was pain-free both at rest and during mobilization for 24 hours. This case report shows that ultrasound-guided psoas compartment block is feasible and efficient for peri- and postoperative analgesia during knee arthroscopy.

Fascia iliaca block for pain relief from proximal femoral fracture in the emergency department: a review of the literature.

OBJECTIVES: to determine the efficacy of the fascia iliaca block in providing analgesia to patients with a proximal femoral fracture in the emergency department. METHODS: EMBASE, PubMed, CINAHL and Google Scholar were searched. Free text keywords for population, intervention and outcome were identified to create a search string. The reference lists from articles identified in the primary electronic search were hand searched. Potentially eligible studies were identified based on review of the title and abstract. If eligibility was unclear from the title and abstract, the full text was examined. Randomised controlled trials comparing the fascia iliaca block with standard analgesia were included. A standardised appraisal of the methodological quality of the studies was performed. RESULTS: 39 articles were identified, of which 13 were duplicates. Of the remaining 26, 15 were relevant to the question and suitable for further sorting. There was one conference poster presenting data, which were later published as an audit, and so was considered to be a duplicate. Of the 14 remaining papers, 2 were randomised controlled trials, 6 were cohort studies and 3 were reports of audit of practice. There were 3 abstracts of conference poster or paper submissions, which were descriptions of reviews or service development projects rather than primary studies. The two randomised controlled trials showed statistically significant superior or equal pain relief between the fascia iliaca block and other forms of acute pain relief. CONCLUSIONS: the fascia iliaca block could have an important role in first-line pain control for patients presenting to the emergency department with a proximal femoral fracture. There is potential to reform the acute management of this common group of patients.