Neuritis (neuralgia) of the lateral cutaneous nerve of the thigh

The external, otherwise called lateral, cutaneous nerve of the thigh is formed by nerve fibers emerging from the second and third lumbar spinal roots (LII-LIII, L2-L3). Rushing along the iliacus muscle, it passes under the inguinal (pupart) ligament and extends to the anterior outer femoral surface. In this area, closer to the pelvis, the nerve branches.

The lateral cutaneous nerve of the thigh consists only of sensory fibers, so when it is damaged, muscle function is not impaired.

Neuritis of the lateral cutaneous nerve of the thigh is its inflammatory lesion, the main symptom of which is pain - neuralgia.

Clinical manifestations of root compression in osteochondrosis

Spine Spread of pain/area of ​​sensory loss Atrophied muscles Decreased/active reflexes
L4 Along the inner anterior thighs to the knee and sometimes below Quadriceps femoris Knee
L5 From the lower back to the buttock >> along the outer edge of the thigh >> along the anterior outer surface of the lower leg to the 1-3 toes Tibialis anterior muscle
S1 From the lower back to the buttock >> along the outer back edge of the thigh >> along the outer edge of the lower leg to the 4–5 toes and heel Triceps surae muscle Achilles

*The table shows the most commonly affected roots that can cause pelvic pain (the L5, S1 roots are most often affected).

In conclusion, one cannot help but mention such a pathological condition as COMPRESSION NEUROPATHY - damage to the peripheral nerves, in this case the pelvic nerves, when they are compressed, as the cause of pelvic pain.

Such compression may occur as a result of narrowing of the musculofascial and/or musculoskeletal canals in which the nerves pass. This occurs due to local proliferation of connective tissue, with prolonged monotonous overstrain of the musculo-ligamentous apparatus in athletes and/or as a result of professional activity, with soft tissue injuries and/or dislocations.

Compression syndromes are also called tunnel syndromes, when due to compression of the nerve trunk and the vessels feeding it, certain changes occur in it.

In our article we will look at damage (neuropathy) of the pudendal nerve, obturator nerve, “causalgia syndrome of the inguinal-genital zone”, lateral cutaneous nerve of the thigh and damage to the lumbosacral plexus.

Symptoms of sciatic nerve compression are discussed in piriformis syndrome (see above).

Causes

Neuritis (neuralgia) of the lateral cutaneous nerve of the thigh in most episodes occurs due to its infringement in the inguinal ligament or in other areas. This compression is called Roth syndrome (Roth-Bernhardt disease or meralgia paresthetica) and is usually caused by age-related tissue changes. This explains the high prevalence of the disease in middle-aged and elderly men.

Neuritis (neuralgia) of the lateral cutaneous nerve of the thigh can be provoked by:

  • injuries (including as a result of surgery);
  • infectious diseases;
  • compression due to fat deposits, wearing constricting corsets or belts, pregnancy;
  • spinal deformity;
  • reflex muscle tension in diseases of the spine (osteochondrosis, radicular syndromes, etc.);
  • inflammatory processes in the abdominal cavity;
  • tumor formations;
  • metabolic disorders;
  • systemic diseases;
  • abuse of alcohol-containing products, etc.

NEUROPATHY OF THE PUDENTAL NERVE (nervus (n) pudendus) - pudendoneuropathy

The nerve provides sensitivity in the anus and perineum, is responsible for the work (innervates) the muscles of the perineum, bladder (located in the bladder) and urethral (in the urethra) sphincters (muscles responsible for holding urine).

Neuropathy is manifested by: unilateral pain in the perineal area, sometimes in its anterior parts: in women - in the vaginal area, in men - in the scrotum; sometimes in the posterior regions - in the area of ​​the anus and rectum (anorectal), in the coccyx and buttocks.

In addition to pain, unpleasant sensations of numbness, tingling, and burning may occur in these same areas. Pain and discomfort increase when sitting and decrease when standing.

There may be short delays in urination.

Upon examination, no changes in the perineal area are detected.

NEUROPATHY OF THE OPTURATIVE NERVE (n. obturatorius)

The first signs of compression of the obturator nerve are usually pain that occurs in the groin area and along the inner surface of the thigh, in the hip joint.

Usually the pain intensifies with coughing, tension of the abdominal muscles, that is, with any conditions that increase intra-abdominal pressure. In addition, hip extension, abduction, and inward rotation contribute to increased pain.

There may be a feeling of numbness and “crawling” in the middle and lower part of the inner thigh. Later, a zone of reduced sensitivity (hypesthesia) appears in these same areas.

Motor disorders are manifested by weakness of the adductor muscles of the thigh: weakness when bringing the hips together, difficulty in fulfilling the request to put one leg on the other.

SYNDROME OF "CAUSALGIA OF THE INGUINAL-GENITAL AREA"

This syndrome develops with damage to the iliohypogastric (n. iliohypogastricus), ilioinguinal (n. ilioinguinalis), and genitofemoral (n. genitofemoralis) nerves.

The function of all three of these nerves is to provide sensitivity to the skin in the groin area.

Neuropathy of each nerve can occur separately, but the similarity of their anatomy and clinical manifestations makes it possible to combine their damage into a single syndrome - the “causalgia of the inguinal-genital zone” syndrome.

The main complaint is burning pain in the groin area, spreading along the front surface of the thigh and along the abdominal wall. The pain intensifies when the muscles of the anterior abdominal wall are tense - when straining, when walking with long steps, when hyperextending the lumbar spine.

Sometimes a gentle gait is observed: a person moves in small steps with a lean forward, which reduces abdominal tension and, accordingly, pain.

An additional diagnostic test is to apply pressure to a point located slightly to the center of the anterior superior iliac spine. In this case, the pain characteristic of this syndrome is reproduced.

Lumbar plexus block (anterior approach)

Carlos A. Bollini, Carlos Sforsini, Luis Vascello

Femoral nerve blocks alone, or in combination with other nerve blocks, are the most commonly used regional block techniques in lower extremity surgery. If it is necessary to block all branches of the lumbar plexus, then the lateral cutaneous and obturator nerves should be blocked. Blocking the three lumbar plexus nerves that go to the lower extremity with a single injection is known as a 3-in-1 block and is discussed in this review. If a complete and unilateral block of sensation in the leg is necessary, then a combined block of the femoral, lateral cutaneous, obturator and sciatic nerves should be performed. We prefer the injection site located directly on the inguinal fold. This method is easy to implement. The method causes minor discomfort in patients; Most patients, especially younger patients, report a “feeling of tightness” associated with the insertion area—its proximity to the genitals. Our preferred method is peripheral nerve stimulation (PNS). The search for a motor response begins at intensity = 1 mA, with a duration of 0.1 ms and a frequency of 2 Hz. The needle is advanced until the appropriate muscle response occurs: up and down movement of the kneecap (“kneecap dance”) and/or twitching of the quadriceps muscle, level II: with < 0.5 mA, pulse width = 0.1 ms and frequency = 2 Hz Infusions are often given through a long-term femoral catheter. With a good knowledge of anatomy and mastery of the SPN method, nerve blockade of the lumbar plexus (anterior approach) or an isolated nerve is safe, effective and well tolerated by patients.

This blockade was first described by Labat in 1912 [1]. The femoral nerve can be blocked alone or together with other nerves. If it is necessary to obtain a block of all branches of the lumbar plexus [2], which go along one side to the lower limb, then the lateral cutaneous nerve of the thigh and the obturator nerve should be blocked. Blocking the lumbar plexus nerves that go to the lower extremity with a single injection is known as a 3-in-1 block [3], a method that will be discussed below. If a complete and unilateral block of sensation in the leg is necessary, then a combined block of the femoral, lateral cutaneous, obturator and sciatic nerves should be performed. The high success rate of video-assisted surgical techniques has already led to an increase in the rate of knee surgery, as well as an increase in the rate of reconstructive surgery on the joint.

Femoral nerve blocks alone, or in combination with other nerve blocks, are the most commonly used regional block techniques in lower extremity surgery.

Anatomical overview

The femoral nerve is one of the terminal branches of the lumbar plexus. It starts from the dorsal roots L2-L3-L4. The nerve passes obliquely through the pelvis through the fibers of the psoas muscle, exits the psoas muscle at the inferior border, and then courses downward in the space between the psoas and iliacus muscles (Figure 1).

Figure 1. The femoral nerve passes obliquely through the pelvis through the fibers of the psoas muscle, emerging from the psoas muscle at the lower border.

The nerve exits the pelvis onto the thigh under the inguinal ligament posterior and lateral to the femoral vessels, separated from them by the fascia iliaca.

At or above the level of the inguinal ligament, the nerve divides into anterior branches: lateral and medial, and posterior branches or the quadriceps nerve (Figure 2).

Figure 2. Preparation at the level of the inguinal ligament. Femoral nerve: 1 - deep branch; 2 – medial branch; 3 – lateral branch. A – inguinal ligament. B - femoral artery. C - femoral vein.

The anterior lateral cutaneous nerve of the thigh lies more superficially. It is motor for the sartorius and sensory for the skin of the anteromedial thigh and medial knee. At the same time, the anterior medial cutaneous nerve of the thigh is motor for the pectineus and adductor longus muscles, and sensory for the upper and medial surface of the thigh.

The posterior branch or quadriceps nerve is deeper. It divides into four motor branches for the four quadriceps muscles and also gives off sensory branches or the saphenous nerve, which supplies the anteromedial aspect of the knee and runs with the saphenous vein along the anteromedial aspect of the leg down to the medial malleolus.

It is important to emphasize that the femoral nerve is located in various aponeurotic spaces and deeper than the femoral vessels. The femoral artery and vein are located between the lata and fascia iliaca, while the nerve is located below the fascia iliaca [4].

The nerve passes lateral (outward) to the femoral artery and at a distance of 1 transverse finger from it (2 cm). Therefore, they are not part of the common neurovascular bundle, despite what occurs in the axillary fossa. This nerve is primarily motor (80%), and therefore localization is best accomplished with a peripheral nerve stimulator rather than with paresthesia techniques. You need to remember the “VAN” diagram (vein, artery, nerve).

Indications

  • Postoperative pain relief for moderate to severe knee pathology.
  • Patella fracture, quadriceps tendon rupture, knee arthroscopy. As a single method or in combination with other methods, for outpatient surgeries on the posterior cruciate ligament of the knee [5-9].
  • Total knee replacement as a single method or in combination with sciatic nerve blockade, single and long-term administration [10-19].
  • Preoperative analgesia in patients with a hip fracture to the medial third and/or transport from the ward to the operating room or to the x-ray room to move and position on the operating table, before performing an epidural or subarachnoid block in these patients [20, 21].
  • Following quadriceps reconstruction, for the placement and removal of femoral plates and screws or total knee replacement (TKA) in patients requiring early postoperative mobilization.
  • These techniques improve the assessment of acute knee injury during arthroscopy and other knee surgeries because blocking both nerves with a sufficient volume of local anesthetic blocks sensation in the entire lower extremity.
  • For muscle biopsy in patients with malignant hyperthermia [22].

Equipment

  • Marker
  • Millimeter ruler
  • 20 ml syringe
  • 25-G needle
  • Local anesthetic
  • Peripheral nerve stimulator
  • Skin electrode
  • 22-G, 50mm insulated needle
  • Catheter

Method

  • The patient is in a supine position. The lower limb is positioned in slight adduction and external abduction of 10°-20° or in a “neutral position.” Light sedation.
  • The operator is located on the opposite side.
  • Anatomical landmarks are identified and marked with a marker: the inguinal ligament extends from the anterior superior iliac crest to the lateral edge of the pubic tubercle; pulsation of the femoral artery (Figure 3).
  • For obese patients, an assistant should support the apron toward the head.
  • The pulsation of the femoral artery is determined, the fingers of the hand are positioned, distributing pressure in such a way as to protect and close the artery below. The femoral artery is the most important landmark (Figure 4).
  • Doppler ultrasound can be used to visualize the femoral artery.
Figure 3. Anatomical landmarks: anterior superior iliac crest (ASIC), lateral border of the pubis, inguinal ligament, inguinal fold.
Figure 4. Pulsation of the femoral artery is detected and the fingers are positioned to distribute pressure to protect and close the artery below. The femoral artery is the most important landmark.

Labat classic paresthesia method and procedure for catheter placement

  • A “lemon peel” is made at a point located directly under the inguinal ligament closer to the lateral wall of the femoral artery pulsation. Since the finger feels the pulsation below the inguinal ligament, a “lemon peel” is placed on the finger below the line of the inguinal ligament (1-2 cm).
  • A 22-G, 2-inch (5-cm) short-bevel needle is inserted perpendicular to the skin and then advanced slightly in the cephalic plane.
  • Typically two “pops” are felt as the needle passes through the fascia lata and the fascia iliacus. A loss of resistance is felt as the needle passes through the fascia iliaca.
  • The needle is advanced until these two “pops” are received or until a loss of resistance is felt. Paresthesia is not necessary with this method [24]. Patients may experience pain.
  • If the paresthesia technique is used and paresthesia is not noted, the needle should be redirected laterally and/or medially. The nerve is located superficially approximately 2 to 3 cm from the surface of the skin.

Peripheral nerve stimulation method

The difference between this method and the classical method is based on the injection site. When performing this method, we prefer the injection site located directly on the femoral crease [23]. If this fold is not marked, patients are asked to flex the leg. If this is not possible, then the distal point is marked 5 cm from the inguinal ligament and lateral to the pulsation of the artery (Figure 5).

Figure 5. Femoral crease and puncture site marked X.

The search for a motor response begins at an intensity of 1 mA, with a duration of 0.1 ms and a frequency of 2 Hz. The needle is advanced perpendicular to the skin (Figure 6) or slightly cephalad until an appropriate muscle response is obtained: movement of the kneecap up and down (“kneecap dance”) and/or twitching of the entire quadriceps muscle, level II: ≤ 0.5 mA, with duration ripple 0.1 ms and frequency 2 Hz.

Figure 6. The needle is advanced perpendicular to the skin or slightly cephalad until an appropriate muscle response is obtained: movement of the kneecap up and down (“kneecap dance”) and/or twitching of the entire quadriceps muscle, level II: ? 0.5 mA, with a ripple duration of 0.1 ms and a frequency of 2 Hz.

The most common initial responses are isolated twitching of the sartorius muscle due to stimulation of the anterior lateral branch and twitching of the adductor muscle due to stimulation of the anterior medial branch. This may confuse the operator and be mistakenly interpreted as an appropriate response. If this occurs, the tip of the needle should be redirected laterally and advanced deeper, ignoring this twitching.

If the patient is in skeletal traction, the nerve will be deeper and, depending on the thickness of the thigh, the block will be more difficult to perform. If a neurolocalizer is to be used in these patients, we recommend starting with a low current < 1 mA, as the quadriceps twitch may occur abruptly when passing through the fascia iliaca and can be very painful.

In recent years, there has been some interest in the use of ultrasound to more accurately determine needle placement. Marhofer [25] showed that this method reduces development time and improves the quality of sensory blockade compared to the use of a neurolocalizer.

Local anesthetic

The choice of local anesthetic depends on the intended purpose. If the blockade is done for intra- and postoperative pain relief, then we use 0.25% or 0.5% bupivacaine in a volume of 10 - 15 ml with adrenaline 1:200,000 [4].

We only use 1.5% or 2% lidocaine or mepivacaine with epinephrine if we need rapid development of anesthesia, such as for muscle biopsies. Some authors refer to the addition of clonidine rather than epinephrine.

Comments

This method is easy to follow. The method causes minor discomfort in patients; Most patients, especially younger patients, report a “feeling of tightness” associated with the area of ​​insertion—its proximity to the genitals.

  • In most cases, mild sedation with 1 to 2 mg midazolam is sufficient.
  • The development of the block takes from 20 to 30 minutes.
  • In patients with pain in the early postoperative period, the blockade can be repeated.

We believe that the insertion site should be at the level of the femoral crease. Blocks closer to the inguinal ligament should only be performed in cases where insertion of a long-term infusion catheter is indicated [26].

Patients should be warned in advance that they should not walk or lean on the anesthetized leg while the blockade is in effect. Otherwise, they may fall.

Three-in-one blockade (3-in-1)

The purpose of this method, proposed by Winnie et al [3], is to block three nerves (femoral, lateral femoral cutaneous nerve and obturator nerve) with a single injection, since the femoral nerve is located in the space formed by the fascia iliaca. In this study, the author reported that three nerves were 98.6% blocked, but he was unable to determine how this could be determined.

Method

The needle is inserted at an identical point to the point described by Labat. It is located 1 - 2 cm lateral to the pulsation of the femoral artery and 1 cm distal to the inguinal ligament. But the needle is directed cephalically at an angle of 45° (Figure 7).

Figure 7. Left: The needle is inserted 1-2 cm lateral to the femoral artery pulse and 1 cm distal to the inguinal ligament, the needle is directed cephalically at an angle of 40°. Right: The cannula is removed and the catheter is secured.
  • Once the femoral nerve has been identified by paresthesia or neural location, apply firm finger pressure distal to the insertion site and maintain pressure throughout the insertion.
  • 30 ml of local anesthetic is injected. The catheter can be positioned 15 cm cephalad. In these cases, the catheter should be inserted as close as possible to the outer wall of the femoral artery.

There is a debate about whether three nerves are blocked or not. It was initially thought that a large volume of local anesthetic would rise through the fascia between the psoas and iliacus muscles, thereby blocking all three nerves. Clinically, the femoral and lateral femoral cutaneous nerves can be easily blocked. The local anesthetic rarely reaches the obturator nerve, thus 80% of the volume is wasted. This occurs due to the spread of local anesthetic below the fascia iliaca. Therefore, in reality, it is more of a “2-in-1 block” rather than a “3-in-1 block” [27-31].

In the few cases where the obturator nerve is blocked, it is definitely due to diffusion of the anesthetic to the subsarticular plexus, where the femoral and obturator nerves are located nearby.

When the 3-in-1 block is combined with a classic sciatic nerve block, a complete block of the lower extremity is achieved, eliminating adduction. Since the obturator nerve is not blocked, the patient will report knee pain. This suggests that articular branches from the posterior ramus of the obturator nerve may be lost with this combination of blocks. This is why, for postoperative analgesia or single leg surgery, it is better to combine a single femoral block with a parasacral sciatic nerve block [14] or an iliacus muscle block with a classic sciatic nerve block [32, 33].

Iliac - fascial blockade

Cadaveric dissection and clinical studies performed by Dalens et al [34] indicate that large volumes of local anesthetic injected under the ilioinguinal ligament and under the fascia iliaca can spread cephalad. The anesthetic solution first contacts the femoral nerve and the lateral femoral cutaneous nerve, and then can reach the femorogenital and obturator nerves.

Indications

Same as for 3-in-1 block, lumbar block and femoral block.

Equipment

  • Marker
  • "Children's" Touhy needle
  • Catheter or single injection
  • No nerve stimulator required

Method

The technique is identical for children and adults [34, 35].

  • The patient is placed in a supine position with the limb locked in slight adduction, with an outward rotation of 10°.
  • The anterior superior iliac crest and pubic tubercle are identified.
  • Using a marker, the ilioinguinal ligament is marked on the skin, then it is divided into three equal parts. The needle insertion point is located 1 cm distal to the point where the lateral third of the ilioinguinal ligament joins the medial two thirds (Figure 8).
  • After treating the skin with an antiseptic solution, a “baby” Touhy needle is inserted perpendicular to the skin with a cephalic inclination of 30°. First, the bevel is directed upward, and then it is rotated 180° towards the fascia. The needle is advanced cephalad. Both “pops” are determined, corresponding to the passage of the needle through two fascia (the first - when passing through the lata fascia, the second - through the iliac fascia).
  • Under distal digital pressure, 30 ml of local anesthetic (for adults) is injected in parts.
  • Based on: 0.7 ml/kg for patients weighing 20 kg or less, 5 ml for 20 - 30 kg, 20 ml for 30 - 40 kg, 25 ml for 40 - 50 kg and 30 ml for patients over 50 kg.
Figure 8. Iliofascial block: The ilioinguinal ligament is marked with a marker on the skin and then divided into three equal parts. The needle insertion point is located 1 cm distal to the point where the lateral third of the ilioinguinal ligament joins the medial two thirds.

Discussion

  • The advantage is that no nerve stimulator is required.
  • Easy execution.
  • High incidence of femoral nerve and lateral femoral cutaneous nerve blocks; on the other hand, the frequency of obturator nerve blockade is extremely low (50-75%).

Lateral cutaneous nerve block of the thigh

This blockade was described in 1909 by Nystrom [36-38].

Anatomy

The lateral cutaneous nerve of the thigh is a small and purely sensory nerve. It innervates the anterolateral surface of the thigh to the knee. The corresponding area of ​​innervation does not include the greater trochanter of the femur in the cephalic direction. It usually runs along the inner surface of the anterior superior iliac crest and crosses the fascia lata 3 to 4 cm below the inguinal ligament; however, it is a non-permanent nerve in its anatomical direction. After crossing the iliac arch, it divides into two branches. The nerve can be located either above or below the fascia iliaca (Figure 9).

Figure 9. Anatomical variations in the course of the lateral femoral cutaneous nerve.

Indications

  • Narrow range of indications for performing an isolated block.
  • For muscle biopsy in patients with suspected malignant hyperthermia.
  • Anesthesia in combination with femoral and obturator blockades.
  • Treatment of neuralgia of the lateral cutaneous nerve of the thigh.
  • To obtain a skin implant.
  • Preventing tourniquet pain along with other nerves.
  • Postoperative pain during knee surgery, as a mono-method or in combination with other methods.
  • Surgical treatment in the innervated area.

Method

  • Classically, the patient is in the supine position.
  • The anterior superior iliac spine is identified by palpation and marked.
  • A “lemon peel” is made, located 2 cm caudally and 2 cm medially (Figure 10).
  • The needle is inserted and directed cephalically until it encounters the bone of the anterior superior iliac spine along its inner surface.
  • The needle is retracted posteriorly, a 1.5% lidocaine solution in a volume of 5-10 ml with adrenaline 1:200,000 is injected.
  • At present, based on the results obtained by Shannon, the puncture should be performed only 1 cm caudal to and immediately inferior to the inguinal ligament. The introduction is the same as with the classical method.
  • The insertion can also be carried out without directing the needle cephalically, by directly inserting the needle deep into the fascia lata. If the needle is blunt, a “pop” or loss of resistance will be felt as it passes through the fascia.
Figure 10. The needle is inserted and directed cephalad to the bone of the anterior superior iliac crest on its inner surface.

Due to significant anatomical variations in the course of the nerve, this latter option is considered a more rational method of administration, since it is a purely sensory nerve - using a nerve stimulator [39]. Shannon describes the patient reporting paresthesia along the lateral thigh. He uses 0.6 mA as the final value and injects 6 ml of 2% lidocaine with epinephrine, achieving 100% success versus 40% success with the classical method. The disadvantages of this method are that the participation of the patient is necessary.

Although the lateral area of ​​analgesia is wide, it is not sufficient for proximal incisions in the greater trochanter of the femur.

Obturator nerve block

Anatomy

The obturator nerve is a mixed nerve formed by the union of the anterior branches of the L2, L3 and L4 roots. The connection occurs in the thickness of the psoas muscle. The nerve passes through the obturator foramen along with the obturator vessels. It is in close relationship with the inferolateral wall of the bladder, with the neck and prostate part of the male urethra. In urology, the nerve is often stimulated through the bladder wall, causing adduction of the leg. It divides into two branches: the anterior and posterior branches. The anterior branch innervates the hip joint and forms the subsarticular plexus, while the posterior branch innervates the adductor muscles, knee, and skin of the medial thigh. In 30% of cases there is an additional obturator nerve, which is formed from the branches of L3 and L4. This accessory nerve follows the same path as the obturator nerve, but it crosses the superior ramus of the pubis and gives branches to the hip joint and pectineus muscle [40].

Indications

  • Necessary for diagnosis, prognosis and treatment in patients with adductor muscle spasm, multiple sclerosis, stroke complications, neuromuscular diseases and quadriplegia, i.e. in patients who cannot walk or wash themselves.
  • Phenol poisoning or alcohol intoxication.
  • Differential diagnosis of hip pain.
  • In combination with femoral nerve and lateral femoral cutaneous nerve blocks (“3-in-1 block” and lumbar space block) for postoperative analgesia in knee surgery.
  • Chronic hip pain due to osteoarthritis [41].

Classic method according to Labat [42, 43]

  • In the supine position, the lower limb should be positioned with slight adduction.
  • The symphysis of the pubic symphysis is palpated and the needle is inserted 1 - 2 cm lateral and 1 - 2 cm below the pubic tubercle. The femoral artery is located medial to the needle and halfway from the pulsation of the artery and the pubic tubercle (Figure 11).
  • 22- G A 10 cm needle is inserted in a horizontal plane and advanced perpendicular to the skin below the adductor tendon to the lower edge of the superior ramus of the pubis. The depth at which the needle hits the bone should be noted.
  • The needle is retracted and redirected laterally and slightly inferiorly, then advanced 1.5 to 2 cm beyond the previously noted depth (Figure 12), below the lower border of the bone edge of the ramus of the pubis until paresthesia appears. If paresthesia does not develop, then 10 - 15 ml of local anesthetic is infiltrated in a fan-shaped manner after careful aspiration.
  • The same method is used with SPN starting at 2 mA or 0.1 ms. Twitching of the adductor muscles is observed at a current <0.5 mA, then 10 ml of local anesthetic is injected.
Figure 11. Right leg: needle direction and puncture site.
Figure 12. The needle is retracted and redirected laterally and slightly inferiorly, and then advanced 1.5-2 cm above the previously noted depth.

Access between adductor muscles [44]

  • The patient is in the supine position with the leg adducted and externally rotated, the ankle of the blocked leg lies on the opposite leg (the “four” position).
  • A skin mark is made 1-2 cm medial to the femoral artery just below the inguinal ligament.
  • The adductor tendons are palpated.
  • A 22-gauge 10 cm insulated needle is inserted just below the tendon approximately 2.5 to 3 cm from the pubic bone.
  • The needle is directed to the mark made earlier 1 - 2 cm medial from the pulsation of the femoral artery, immediately below the inguinal ligament in the horizontal plane.
  • The nerve runs at a depth of 3 - 6 cm.
  • 10 ml of local anesthetic is injected after obtaining a twitch of the adductor muscles at a current of <0.5 mA.
  • Be careful when inserting due to the proximity of the obturator vessels.

Discussion

In patients with an accessory obturator nerve and a good obturator block, there will eventually be spasm in the adductor muscles. An accessory obturator nerve block is performed by injecting a local anesthetic along the anterior edge of the superior ramus of the pubis, in the middle of the obturator foramen arch [45].

In patients who cannot assume the required position due to their spasticity, the branches of the obturator nerve are blocked separately. The anterior branch is blocked first using the adductor tendon as a guide.

The needle is inserted 2 cm below the cephalic tendon insertion. Above this tendon, the needle is directed 2 - 3 cm in the frontal plane and 10 ml of local anesthetic is injected in a fan-shaped manner.

After 20 minutes, hip adduction is achieved and the posterior edge of the adductor tendon is determined. The needle is inserted at an angle of two fingers from the pubic bone, then the needle is directed 3 - 4 cm laterally in the cephalic direction. 10 ml of local anesthetic is injected. Both nerves can be identified using SPN.

This method is contraindicated in patients with infections in the specified area.

Aspiration is always required before insertion as this is an area with a good blood supply.

Links

  1. Labat G. Regional Anesthesia: Its Technique and Clinical Applications. Philadelphia, PA, W. B. Saunders, 1923.
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  3. Winnie AP, Ramamurthy S., Durrani Z. The inguinal paravascular technique of lumbar plexus anesthesia: the “3-in-1 block”. Anesth Analg 1973, 52:989-996.
  4. Bridenbaugh PO The lower extremity: somatic blockade, in Cousins ​​MJ, Bridenbaugh PO (eds): Neural Blockade in Clinical Anesthesia and Management of Pain (ed 2). Philadelphia, PA, JB Lippincott, 1988, pp 417-440.
  5. Mulroy MF, Larkin KL, Batra MS, et al. Femoral nerve block with 0.25% or 0.5% bupivacaine improves postoperative analgesia following outpatient arthroscopic anterior cruciate ligament repair. Reg Anesth Pain Med 2001, 26:24-29.
  6. Jankowski CJ, Horlocker TT, Rock MJ, et al. Femoral 3-in-1 nerve block decreases recovery room time and charges and time to hospital discharge after outpatient knee arthroscopy. Reg Anesth Pain Med 1998, 23:S60.
  7. Goranson BD, Lang SA, Cassidy JD, et al: A comparison of three regional anesthesia techniques for outpatient knee arthroscopy. Can J Anaesth 1997, 44: 371-376.
  8. Goranson B., Lang SA, Dust WN Combined femoral 3-in-1 nerve block and intraarticular local anesthesia for knee arthroscopy. Reg Anesth 1995, 20: S29.
  9. Vloka JD, Hadzic A., Mulcare R., et al: Femoral and genitofemoral nerve blocks versus spinal anesthesia for outpatients undergoing long saphenous vein stripping surgery. Anesth Analg 1997, 84: 749-752.
  10. Wang H., Boctor B., Verner J. The effect of single-injection femoral nerve block on rehabilitation and length of hospital stay after total knee replacement. Reg Anesth Pain Med 2002, 27:139-144.
  11. Edwards ND, Wright EM Continuous low-dose 3-in-1 nerve blockade for postoperative pain relief after total knee replacement. Anesth Analg 1992, 75:265-267.
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Techniques in Regional Anesthesia and Pain Management (2006) 10, 150-158

NEUROPATHY OF THE EXTERNAL CUTANEOUS NERVE OF THE FEMOR (n. cutaneus femoris lateralis)

This is a sensory nerve; it is responsible for sensitivity in the area of ​​the outer (lateral) thighs.

Neuropathy is manifested by burning persistent pain in the area of ​​the outer surface of the thigh and a feeling of numbness, “crawling”, tingling in the same area.

These phenomena intensify when standing up and walking.

People suffering from neuropathy of the external cutaneous nerve of the thigh describe pain when standing up as a flashing, “ball of fire” in the lateral thigh area and spreading down the thigh, before reaching the knee.

The pain point for this type of neuropathy is detected under the anterosuperior iliac spine.

Treatment

At the First Medical Clinic, an integrated approach is used to treat neuritis (neuralgia) of the lateral cutaneous nerve of the thigh.

First of all, efforts are aimed at eliminating pain. Therapeutic blockades have proven especially effective in this regard - the introduction of local anesthetics or their mixture with anti-inflammatory drugs at the point of maximum sensation. The delivery of drugs directly to the affected area interrupts the transmission of nerve impulses and blocks the attack of pain.

To suppress inflammatory processes, relieve muscle spasms, eliminate or correct causative factors, local injection therapy - anti-inflammatory, muscle relaxant, antibacterial, painkillers, vitamins and other drugs are injected into the area of ​​​​disorders.

The course of treatment for neuritis (neuralgia) of the lateral cutaneous nerve of the thigh may also include methods such as:

  • transcutaneous electromyoneurostimulation - exposure to weak pulses of electric current to restore muscle activity, improve blood circulation and tissue nutrition;
  • shock wave therapy;
  • manual therapy and osteopathy;
  • laser therapy;
  • massotherapy;
  • reflexology;
  • ozone therapy;
  • hirudotherapy;
  • physical therapy, etc.

The required amount of therapeutic assistance can only be determined by a specialist after diagnostic procedures. If symptoms of neuritis (neuralgia) of the lateral cutaneous nerve of the thigh appear, we recommend that you contact the First Medical Clinic in a timely manner.

You can make an appointment for a consultation and appointment by phone

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