Quadratus Lumborum Block: a Technical Review
Purpose of Review
Ultrasound-guided quadratus lumborum block (QLB) is gaining popularity in regional anesthesia for various surgical procedures. The purpose of this review is to understand the relevant clinical anatomy, different mechanisms of actions, and techniques used for the block and clinical evidence so far.
The current data suggests a wide dermatomal distribution of the local anesthetic from T7-L2. The evidence regarding its utility is still evolving but has shown reduced opioid requirements for cesarean sections, lower abdominal surgery, and hip surgery. Prolonged analgesia has been reported as compared with more conventional transversus abdominis plane (TAP) block. This block has also been reported for above knee amputation, femoral-pop bypass, lumbar laminectomy and fusion, iliac crest bone graft, and iliac and acetabulum fracture.
Quadratus lumborum can be performed through different approaches which requires sound knowledge of anatomy. Further research to determine which approach yields best results is warranted.
KeywordsQuadratus lumborum block Ultrasound Regional anesthesia Cesarean section Abdominal procedures Hip surgery
Quadratus lumborum block (QLB) under ultrasound has been one of the interfascial plane blocks being popularized in regional anesthesia over the last few years given the vast number of indications in a variety of abdomino-pelvic surgeries in pediatrics and adults. In clinical studies, it also has been shown to have opioid sparing effects [1, 2, 3, 4, 5] and prolonged post-operative analgesia than more conventional procedures like TAP blocks [6••]. The current review focuses on the anatomical considerations, different approaches, and a review of the safety and clinical efficacy of this block. Differences in technique may result in a differential spread of local anesthetic leading to variation in sensory and motor dermatomal blockade [7, 8, 9]. Further research regarding the best technique to do this block is warranted.
Quadratus lumborum is surrounded by thoracolumbar fascia. Posterior thoracolumbar fascia surrounds the erector spinae muscle. Middle thoracolumbar fascia lies between the erector spinae and quadratus lumborum, whereas the anterior layer lies anterior to quadratus lumborum and psoas major . Anterior thoracolumbar fascia is continuous with the transversalis fascia, the deep fascia of the abdomen in a two-layer model. The anatomy of the anterior thoracolumbar fascia/transversalis fascia is unique and may be crucial to our understanding of the pattern of spread following injections ventral to the QLM. Transversalis fascia divides into two layers: the inner layer is continuous with endothoracic fascia in the thorax and the outer layer blends with the arcuate ligaments of the diaphragm. Endothoracic fascia provides a potential pathway for cephalad spread of local anesthetic from the abdomen to the thoracic paravertebral space [7, 11, 12]. While there is a channel for the injectate deposited on the ventral aspect of the QLM to reach the thoracic paravertebral space, whether this is clinically relevant needs further studies. Another important anatomical consideration is that the psoas major muscle lies in close proximity to QLM and is ventro-medially located. The psoas major muscle while housing the lumbo-sacral plexus may be commonly split by a fascial layer between the posterior 1/3 and anterior 2/3 of the muscle thereby allowing a continuity with the transversalis fascia over the ventral aspect of the quadratus lumborum. This may be a potential path of local anesthetic spread from QLB to the lumbar plexus.
The iliohypogastric, ilioinguinal, and subcostal nerves lay on the ventral aspect of quadratus lumborum muscle and are encased within the transversalis fascia . The consistent level of sensory dermatomal level achieved through quadratus lumborum block involves T12-L2 with various techniques [14, 15, 16, 17, 18, 19, 20, 21]. This explains the consistent blockade of these three nerves since these nerves travel over the QLM and are directly related to the muscle [7, 9•, 14, 15, 16, 17, 18, 19, 20, 21, 22]. The lateral femoral cutaneous nerve, obturator, and femoral nerve lie within the psoas muscle at L4 or L5 vertebral level and exit the muscle more caudally [23, 24]. The data does not show consistent blockade of these nerves but there is a potential for the spread as discussed above. Posterior to quadratus lumborum are the dorsal rami of spinal nerves innervating the erector spinae muscles. Sympathetic nerve fibers innervating abdominal muscles are also located posterior to quadratus lumborum and innervate thoracolumbar fascia . This could be one of the reasons for analgesia provided through the posterior approach of quadratus lumborum block . Lumbar arteries travel in close proximity and sometimes within the substance of the QLM. They may be a source of bleeding following the block and we recommend color doppler query in the path of needle trajectory before performing the block.
Although there is some controversy regarding nomenclature of different approaches to perform the block, the most popular consensus is to name on the basis of anatomical location of needle tip in relation to quadratus lumborum muscle [27••]. Hence, the three different approaches that can be easily remembered are with respect to the QLM itself which are the lateral, posterior, and anterior quadratus lumborum block.
Standard safety and aseptic measures prior to performing for all regional blocks should be followed. The patient can be positioned in prone, lateral, or sitting position depending on patient and physician preferences. We recommend in-plane ultrasound approach with direct needle visualization along with hydro dissection using a low-frequency curvilinear probe given that it is a deeper block. Typical needle length used is 80–150 mm depending on body habitus of the patient. The block can be done as a single shot injection as well as a continuous catheter infusion, which determines gauge of the needle. The most common local anesthetics used are 0.2–0.5% ropivacaine [2•, 3] or 0.1–0.25% bupivacaine [1, 5••, 6••]. Due to large volumes injected, special attention should be made regarding toxic threshold of local anesthetic selected for blockade. Typical volume used ranges from 0.2–0.5 ml/kg (ref) on each side [1, 2, 3, 4, 5, 6].
The figure demonstrates different approaches of block in relation to anatomy (Fig. 1). There is insufficient evidence recommending one approach over the other for specific surgical indications.
Indications and Clinical Evidence
Based on the current randomized trials and case reports, quadratus lumborum blocks have been used for multiple surgeries, including cesarean section [1, 2, 3••, 6••] and gynecological  and lower abdominal surgeries [5••, 32]. It has also been used for analgesia for colostomy closure , hernia repairs [33, 34], gastrectomy , and nephrectomy [17, 36, 37, 38, 39]. It has been used for various lower limb surgeries like hip arthroplasty [4, 14, 18, 20, 40, 41, 42], above knee amputation in combination with sciatic block , iliac crest bone graft, and iliac and acetabulum fracture . It has been used in conjunction with lumbar plexus block and sciatic nerve blocks for femoral-popliteal bypass . There has been a case report regarding the utilization of this block of lumbar laminectomy and fusion . The use of posterior quadratus lumborum block for breast reconstruction using transverse rectus abdominis flaps has also been reported .
Posterior quadratus lumborum block has been shown to reduce morphine requirements for 48 h as compared with placebo and TAP block after cesarean sections in two randomized control trials [1, 6••]. Two further randomized control trials using lateral quadratus lumborum block also showed reduced opiate consumption after cesarean sections [2•, 3]. Lateral quadratus lumborum block has been shown to reduce Visual Analogue Scale (VAS) pain score and 24-h opioid consumption as compared with femoral nerve block for hip hemiarthroplasty for femoral nerve fracture in another randomized control trial . Reduced Numeric Rating Scale (NRS) pain scores have been shown in laparoscopic gynecological surgery with posterior quadratus lumborum block . A randomized control trial done in the pediatric age group for inguinal hernia surgery/orchiopexy showed reduced rescue analgesia requirements using posterior quadratus lumborum block as compared with TAP block [5••]. Transmuscular quadratus lumborum block used in patients undergoing total hip arthroplasty showed reduction in length of stay and intraoperative opioid use .
Allergy to local anesthetics, local site infection, sepsis, bleeding disorder, and anticoagulation are absolute contraindications for the procedure since it is a deep block. Relative contraindications include known neurological disorder, anatomic abnormalities, and hemodynamically unstable patient.
Lower extremity weakness has been reported with quadratus lumborum block leading to delay in mobilization and prolonged hospital stay [47, 48]. Local anesthetic distribution to the nerve roots or branches of lumbar plexus through spread in paravertebral spaces or via transversalis fascia is likely responsible for weakness of hip flexors (psoas and iliacus) and knee extensors (quadriceps). Quadriceps weakness was reported to be most commonly associated with anterior quadratus lumborum block, followed by posterior and lateral approaches respectively . There is insufficient data on the recommended approach of the block as well as concentration or volume of local anesthetic to be used to avoid this complication.
Hypotension has been reported and is possibly related to spread of local anesthetic in the paravertebral spaces . Other considerations should be local anesthetic toxicity due to large volume used specially in cases of bilateral blocks .
The complications related to technical challenges of the deeper block and inadequate visualization and hence injury to surrounding structures should be kept in mind. Injury to pleura, kidney, retroperitoneal hematoma, and nerve roots are potential complications. Full aseptic precautions should be used to avoid infection or abscess formation.
Interfascial blocks have variability in injectate spread. This is also true for QLB as evident from both clinical and anatomical studies. Thus, an injectate following QLB definitely covers the T12-L1 nerves as they travel in direct relation to the muscle itself but depending on the surrounding anatomy and injectate pressure, it can spread cephalad to the lower thoracic paravertebral space, laterally into the TAP plane, anteriorly into the psoas major muscle, and thus to the lumbar plexus.
Anatomical studies and case reports are only hypothesis generating and should not be taken as clinical evidence. Hence, clinical decision-making should not be based on their findings.
There is still a need for better evidence with regard to the best approach and the utility of the technique itself in the form of multicenter randomized controlled trials (RCT) and in comparison with the current gold standard techniques such as thoracic epidurals for abdominal surgeries and probably peripheral nerve blocks for lower extremity surgeries.
QLB are deep blocks and hence may offset the presumed safety advantages of other interfascial plane blocks such as TAP blocks and rectus sheath blocks. We are still unfamiliar with the clinical presentation of hematological complications and based on the limited evidence, it seems that the hematological complications may have a delayed and atypical presentation.
There is upcoming clinical evidence that quadratus lumborum block can provide perioperative analgesia for various lower abdominal, pelvic, and hip surgeries due to a consistent dermatomal coverage of the surgical site. While it has also been used for upper abdominal, renal, and vascular surgeries, further evidence is warranted. Different approaches have been described to perform the block requiring a sound knowledge of anatomy and technical expertise of ultrasound. The data, although limited to few studies, shows prolonged analgesia, reduced hospital stay, and reduced opioid requirements for abdominal surgeries, cesarean section, and hip surgery.
Compliance with Ethical Standards
Conflict of Interest
Avni Gupta, Rakesh Sondekoppam, and Hari Kalagara declare they have no conflict of interest.
Human and Animal Rights and Informed Consent
This article does not contain any studies with human or animal subjects performed by any of the authors.
Papers of particular interest, published recently, have been highlighted as: • Of importance •• Of major importance
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