Pericapsular Nerve Group Block in Hip Surgery: A Narrative Review

Study Objective: This narrative review discusses the anatomy, mechanism of action, techniques, indications and complications of the pericapsular nerve group block in a hip surgery setting. Interventions: The MEDLINE, EMBASE and Google Scholar databases (inception to the first week of March 2023) were searched. For anatomy, mechanism of action, techniques, and complications, cadaveric research, randomized trials, retrospective studies and case series were considered. Nonetheless, for surgery indications, to highlight the best evidence available, only randomized trials without major discrepancies with their prospective registration, blinded assessment and sample size justification were retained for analysis. Main Results: The anatomical studies suggest that pericapsular nerve group block may work through a combination of different mechanisms (i.e., blocking lateral capsule nerves, local anesthetic spread to the femoral nerve, spread towards medial capsule nerves). Compared to alternatives, except for the periarticular local anesthetic infiltration, pericapsular nerves group block results in similar


Review Article
Open Access

Introduction
Major surgery of the hip, particularly arthroplasty and fracture repair, constitute increasingly common orthopedic procedures in an aging population.They often result in moderate to severe postoperative pain requiring multimodal analgesia.The relevance of this problem is such that it has become the focus of international societies efforts resulting in evidence-based guidelines for its management 1,2 .Periarticular local anesthesia infiltration (PAI) or peripheral nerve blocks are frequently included in perioperative analgesic protocols.Ideally, the latter should provide analgesia while minimizing motor block 3 , although lumbar plexus, fascia iliaca, and femoral nerve blocks are commonly performed for hip surgery, they inevitably result in motor weakness of the lower limb since they target the femoral nerve and the obturator nerve 3,4 .
In 2018, Giron-Arango et al. reported about the pericapsular nerve group (PENG) block for hip fracture, aiming to selectively cover the articular branches of the femoral nerve (FN) and accessory obturator nerve (AON) which would result in the sparing of the quadriceps and adductor muscles strength 5 .An additional early cadaveric study reports that the injectate could spread to the medial and inferior capsule, which are innervated by the articular branches of the obturator nerve (ON) 6 .Currently, the PENG block has been reported to provide analgesia for different types of hip procedures, particularly hip fracture fixation, total hip arthroplasty and hip arthroscopy.Anecdotal reports inform about other possible settings, but their analysis escapes the scope of this review [7][8][9][10] .Despite its growing popularity, the PENG block is still not fully understood.After an initial description of a motor-sparing effect, some recent studies have reported quadriceps weakness after its use [11][12][13][14] , proposing local anesthetic (LA) spread towards the femoral nerve as the cause.
This review article aims to dissect published evidence focusing on relevant anatomic research, case series, retrospective studies and randomized clinical trials (RCTs) that have studied the PENG block, thereby offering readers a scope for benefits and the best indications for patients undergoing hip procedures.

Innervation relevant to hip surgical procedures
Both the lumbar and sacral plexuses participate in the innervation of the region.In broad terms, the acetabulofemoral joint is usually divided into its anterior and posterior components, the former innervated by articular branches from the FN, ON and AON, while the posterior aspect is provided by the nerve to quadratus femoris, sciatic and superior gluteal nerves 15,16 .
The skin supply of the anterior hip region arises from the iliohypogastric nerve, genitofemoral nerve, and FN 17 .Nonetheless, the posterolateral area is the one involved in the incisions of most hip surgeries, receiving its cutaneous innervation from the superior cluneal, subcostal, iliohypogastric and lateral femoral cutaneous nerves 18 .

Anatomical characteristics relevant for the PENG block
At the level where PENG block is performed, in between the anteroinferior iliac spine (AIIS) and the iliopubic eminence (IPE), several muscular, fascial, and neurovascular structures can be found.The muscular components include (from lateral to medial) the iliacus minor muscle (ImM), the iliacus muscle (IM) and the psoas major muscle (PMM).Additionally, the iliopsoas tendon (IPT), a conjoined tendon fused by the lateral PMM tendon and the medial iliacus tendon, is in the depth of this muscular complex and lateral to the IPE 19 .At this point, the fascia iliaca wraps all these muscular elements and, its thickened anteromedial portion which attaches inferomedially to the IPE, the iliopectineal fascia, separates them from the femoral vessels and the pectineus muscle (PeM) 20 .The iliopectineal bursa lies deep to the IPT, with its proximal end lying on the IPE and distally passing anteriorly to the capsule as it extends towards the lesser trochanter 19 .The FN and the femoral branch of the genitofemoral nerve can be seen in this anatomic section; the former in the anterior surface of the iliopsoas muscle (IPM), and the latter adjacent to the femoral vessels 17 .
Considering that the highest concentration of nociceptive fibers is located in the anterior and superolateral hip joint capsule, in contrast with mechanoreceptors with no nociceptive fibers in the posterior region 21 , special attention has been given to the origin and pathway of the articular branches originated in the lumbar plexus as a target of selective regional blocks for analgesia after hip surgical procedures.
The FN descends from its origin passing laterally through the PMM to be positioned on a groove formed between the IM and PMM as it moves caudally towards the inguinal ligament.The articular branches from the FN will innervate all four anterior quadrants to the hip capsule and mostly arise proximal to the inguinal ligament (high branches) and deepen into the thickness of the IM to reach the periosteal surface of the pubis in an area between the AIIS and the IPE as they travel caudally to the joint 16 .Low branches either pierce the IM or move inferiorly and then recur to innervate the hip capsule 16,22 .
The ON descends on the deep medial aspect of the PMM.The articular branches of this nerve will innervate the inferomedial and inferolateral hip capsule 16 and may arise before entering or within the obturator canal on its path to leave the pelvis (high branches).Alternatively, these branches can arise once the ON has divided into its anterior and posterior components (low branches).These small nerves are located in the sub pectineal plane and course over the inferomedial acetabulum 16 .
The presence of the AON ranges between 8-54% 16 .When found, this nerve initially travels with the ON, but as it moves caudally, the AON passes directly anterior to the IPE, deep to the PeM, giving off branches that will consistently innervate the medial capsule 15,16 .
Consequently, the three aforementioned nerves seem to be the primary transmitters of pain in the hip joint.A recent anatomical study suggests a higher incidence of AON presence than previously reported (53% versus 8-33%) 16 .Additionally, this trial revised the pattern of sensory distribution of the nerves to the anterior hip capsule, giving preponderance to the high branches of the FN and the AON 16 (Figure 1).However, other cadaveric studies have found a greater relevance of the FN low branches and lower frequency of the AON 23 .Nevertheless, these findings shouldn't be considered contradictory since they involve small sample sizes and (probably) different ethnic origins of the cadavers.

Technical aspects of PENG Block
Increasingly popular for its simplicity, security and effectiveness, the technique underlying the PENG block 5 can be divided into two separate components: 1) identification of the injection site, and 2) needle tip position / LA injection in the plane between the IPM and the iliac bone.

Identification of injection site
The PENG block was described as an ultrasound-guided single injection of LA targeting the musculofascial plane between the pubic ramus and the IPT 5 .Most commonly, the block is performed with the patient in the supine position, although anecdotal reports have described it in lithotomy position for urologic procedures 8 and also with a 90° hip abduction in the pediatric population 24 .
Predominantly, a curvilinear low-frequency ultrasound probe is used due to the wider field of vision and the depth of the target in the average adult population.However, the use of a linear high-frequency probe (8-13MHz), especially for thin or young patients, has been reported as well [24][25][26] .
After adequate skin disinfection, the selected probe is placed in a transverse position over the AIIS.Then, it is aligned with the pubic ramus by a 30-45º degrees rotation, clockwise or counterclockwise, depending on the side 5 .Alternatively, other authors first prefer to recognize the hip joint in a transverse section, and then move the probe cranially until the IPE and AIIS are visualized (Figure 2a) by achieving the alignment through slight probe rotation 27 .
Besides ultrasound guidance (USG), the PENG block can also be performed through anatomical landmarks 28 and fluoroscopy, more frequently in the setting of chronic pain management 29 .No RCT has compared the three modalities.However, the landmark technique, with its blind needle insertion, has been criticized for the inherent possibility of vascular puncture and subsequent risks of hematoma and/or systemic local anesthetic toxicity 28 .Furthermore, although theoretically better than surface landmarks, but hindered by its unavailability in most operative settings, fluoroscopy might not be exempt from the previously described risks.Moreover, fluoroscopy adds radiation/ contrast exposure without accurately certifying the injection plane.
A recent cadaveric study by Kitcharanant et al. 23 described a surgeon-performed PENG block for total hip arthroplasty (THA) with an anterior approach under direct vision, where no signs of intramuscular injection were observed while performing the blocks.
In summary, until adequate RCTs define the optimal technique for the PENG block musculofascial plane identification, we suggest anesthesiologists favor USG instead of surface landmarks or fluoroscopy.

Needle tip positioning/Local Anesthetic Injection
After proper anatomical identification, a block needle is introduced under USG from lateral to medial in an in-plane approach to reach the aforementioned musculofascial plane 5 .The target is the bony structure between the AIIS and the IPE, deep to the IPT (Figure 2b).This plane continues with the hip pericapsular plane 6 .3 of Short et al. 16 Once the needle tip has been positioned, the LA solution is injected, aiming for a linear spread above the bone surface.As in other fascial plane blocks, the correct spread can be confirmed with small aliquots of normal saline solution to avoid wasting the anesthetic injectate in the wrong spot.After the initial reports of quadriceps motor compromise, the authors of the approach have provided additional tips to make sure that the desired plane has been achieved by piercing the fascia (i.e., to make rotational movements of the needle once the bone has been contacted), advocating the mechanism of the FN coverage by intramuscular deposition of LA 30 or to avoid a too medial injection site, which could result in migration of LA through the intermuscular plane between the PeM and IPM 31 .Additionally, an alert of the high-volume effect was provided 31 .
In summary, further investigation is required to determine the most efficient way of identifying the predefined injection site, the ideal injection site (if just one) and unequivocal ultrasonographic signs of block success while maintaining its motor-sparing purpose.

Mechanism of Action of PENG Block
The mechanism of action for the PENG block relies on the injectate spread of the injected solution in the plane between the IPM and the anteromedial hip capsule.This place for deposition of LA aims to selectively block the articular branches of the FN (high branches) and the AON 5 .However, the original clinical series of Giron-Arango et al. 3 left uncertainty regarding the ability of the injectate to reach the articular branches of the ON as they pass in the subpectineal plane (between the pectineus and obturator externus muscles).In a subsequent cadaveric exploration using dye injectate, the spread showed that the entire anterior hip joint capsule was stained, with 10 and 20mL, suggesting that the low branches from the FN and the twigs from the ON could be also covered 6 .Some authors hypothesized that the LA could spread through the lacuna musculorum and reach the subpectineal plane by following the ilioinfratrochanteric muscular bundle below the IPT 32 .However, the articular branches from the obturator nerve would require a subpectineal plane injection to be covered since the iliopectineal bursa obstructs the spread of injectate towards the obturator nerve 33 .
In the following years, several reports 9,25 and RCTs (that assessed sensory-motor function of the thigh) [11][12][13][14] have raised the alert of a more extensive spread where LA could advance ventrally toward the FN.The postulated mechanisms for this effect can be separated into; 1) an inadequate deposition of the LA or, 2) the use of a large volume that results in extensive hydro-dissection.In the first scenario, either frank intramuscular or unnoticed injection between de IM and its fascia could result in this clinical finding 25,31 .Additionally, advancing the needle too medially in relation to the IPT could also result in a spread through the intermuscular plane between the PeM and PMM 31 .On the other hand, the effect of volume can be seen in the very first cadaveric report, where dye spread reaches the FN with 20mL 6 , a finding that has been clinically enhanced using 30mL 9 .Other mechanisms can be encountered in the literature, such as LA tracking back along the high branches toward the FN 34 or even the piercing (and rupture) of the iliopectineal bursa can result in injection outside the iliopsoas plane, allowing the LA solution to migrate anteromedially or intraarticularly 19 .However, these are theories awaiting confirmation.
A PubMed database search (inception until the first week of March 2023) looking for anatomical studies of the PENG block investigating the mechanism of action resulted in three articles in correspondence form and two original research papers 6,23,[35][36][37] .Their characteristics and main findings are listed in Table 1.Besides the obvious scarcity of studies, it becomes evident that elements such as injected volume, underlying pathology (i.e., fracture, arthrosis, etc.), surgical approach and timing (pre, intra or post-surgery) may play a relevant role in the pattern of diffusion and, consequently, in the resulting block of the different nerve branches.From a pharmacological standpoint, PENG block has been performed using long-acting LA like bupivacaine and ropivacaine but in different concentrations [11][12][13][14]38,39 and in a few experiences with adrenalized mixtures [12][13][14] . Althogh adjuvants have been described 5,25 , there is no properly registered or designed trial that has studied the role of different LAs, different LA concentrations, and adjuvant addition (types, doses, or mixtures) in the analgesic or motor-sparing performance of this block.Furthermore, after Girón-Arango et al. 5 first report using an arbitrary volume of 20 mL, no dose-finding study or RCT has looked for or compared volumes/concentrations of LAs.
In summary, the combined literature findings suggest that the PENG block mechanism of action is the result of the blockade of the articular branches of the FN and AON, being the ON branches reached only in a volume-dependent manner, and when at least 20mL are used.This approach can result in LA migration towards the FN and ON main trunks; however, its occurrence may depend on factors such as volume of injectate and possible deviations from the original technique.Anatomical studies of the PENG block are still very limited and heterogeneous.Additionally, future research is granted to elucidate pharmacological aspects of the block, particularly for the setting of enhanced recovery after hip surgery.

Indication of PENG Block
The PENG block has been reported in different hip procedures in adult and pediatric patients.However, to avoid biased anecdotal findings, this section includes the results derived from RCTs comparing PENG block to sham/ no block/other blocks.We chose to exclude all RCTs without proper prospective trial registration or major discrepancies between registered and reported protocols.Additionally, properly registered trials without blinded assessment or sample size justification were also discarded in order to provide readers with the highest quality evidence available 40 .The bibliography of all retained references was also hand-searched for additional RCTs.The co-authors (DB-RA-DM-JA) conducted the final literature search using the MEDLINE, EMBASE and Google Scholar databases (inception until the first week of March 2023).
The Cochrane Database Tool to assess the risk of bias was applied to the selected RCTs.The domains evaluated included: the adequacy of sequence generation; allocation concealment; blinding; how incomplete outcome data was addressed; selective outcome reporting; and other sources of bias (i.e., study design issues, early trial termination, baseline imbalance in study groups).Thereafter, domains were categorized as "yes" (green i.e., low risk of bias) "no" (red i.e., high risk of bias) and "unclear" (yellow i.e., unknown risk of bias) (Figure 3).
After its first description as part of a multimodal analgesic regimen in five patients admitted with hip fracture diagnosis 60 , PENG block has been studied for analgesia in hip fracture patients 11 , postoperative analgesia in hip arthroscopy 39 and postoperative analgesia and motor blockade in THA [12][13][14]38,41 .

Hip Fracture
In the single retained trial studying PENG block in the context of patients with hip fracture, Lin et al. 11 compared PENG block to femoral nerve block (FNB) in patients undergoing surgery, including intra-and extracapsular fractures.Differently from the first reported experience of Girón-Arango et al., in this study the allocated block was performed 15-45 minutes before surgery and both techniques received 20 mL of 0.75% ropivacaine.Surgical technique and type of anesthesia were performed at the discretion of the treating physicians and the primary outcome was the postoperative pain measured in the post-anesthetic care unit (PACU) 4 hours after surgery.As a result, significant differences were found in terms of pain in the PACU but not on the postoperative day (POD) 1.Although the quadriceps strength was significantly more preserved with PENG block, interestingly 33% of patients in this group had a reduced or absent quadriceps strength in PACU and 7% on POD 1. Regarding postoperative complications, there were no differences.Regretfully, the level of pain assessment immediately after the block and a sub-analysis between intra-and extracapsular fractures, or types of surgeries, were not performed, thus, limiting the possible conclusions of this study.

Hip Arthroscopy
Just one trial investigating the benefits of PENG block in arthroscopic hip surgery has been published and has met the criteria for retention and further analysis in this review 39 .Amato et al. hypothesized that a PENG block with 20 mL of 0.5% ropivacaine would provide superior analgesia compared with a sham block.Seventy patients undergoing hip arthroscopy under standardized general anesthesia, multimodal analgesia, and local infiltration anesthesia of port sites with 30 mL of 0.25% bupivacaine were randomized and received the block prior to the intervention.The primary outcome was the worst reported pain score within 30 minutes after emergence from general anesthesia.Secondary outcomes included pain at 24hrs, opioid consumption, patient satisfaction, and opioidrelated side effects.No differences were found for primary or secondary outcomes.Remarkably, the reported worst pain was moderate to severe in both groups, averaging numeric rating scores of 6.0 (2.6), 7.4(1.5)and 6.5 (1.7) at 30 minutes, 24hrs and 48hrs, respectively, in the PENG group.The postoperative motor blockade was not included among the evaluated outcomes.

Primary Total Hip Arthroplasty
Among the nine published trials researching PENG block for THA, five trials were selected for final analysis [12][13][14]38,41 .
Pascarella et al. 38 compared a preoperative PENG block with 20 mL of 0.375% ropivacaine to no block in patients receiving spinal anesthesia and postoperative wound infiltration by surgeons.Additionally, the patients received multimodal systemic analgesia, including intraoperative dexamethasone 0.1mg/Kg.The primary outcome, postoperative pain, was significantly lower in the PENG block group.Among secondary outcomes, the opioid consumption and functional outcomes were better with PENG block, but there were no differences in terms of length of stay (LOS).Motor blockade was just assessed 24 hrs after surgery and focused on hip flexion and not on leg extension.In a similar trial 41 , Zheng et al. randomized 71 subjects to a preoperative PENG block with 20 mL of 0.5% ropivacaine or a sham block with 20 mL of normal saline solution.Both groups received general anesthesia and a postoperative intraarticular injection of 20 mL of 0.5% ropivacaine.The authors looked for a 33% decrease in the highest postoperative pain score at PACU and confirmed it.However, no significant differences were found either for pain scores later or for postoperative opioid consumption up to 48 hrs after surgery.Different from Pascarella's study 38 , Zheng assessed the sensory block 30 minutes after its performance and motor and sensory blockade in PACU and at 6hrs, 24 hrs and 48 hrs after surgery.Surprisingly, sensory block was present, without differences, in both groups during the PACU stay.Regarding the quadriceps strength, there were no significant between-group differences on either the operated side or the non-operated side during the study period.
Two trials compared the PENG block with a suprainguinal fascia iliac block (SIFIB) 12,13 .First, Choi et al. 13 hypothesized that the PENG block with 20 mL of adrenalized 0.2% ropivacaine would provide better analgesia and less quadriceps weakness than a SIFIB with 30 mL of the same solution.The blocks were performed preoperatively after general anesthesia induction in 58 patients.The primary outcomes were pain scores at rest and during 45º passive hip flexion up to 48 h following surgery.Pain scores just differed at rest at 6 and 24hrs, but not in other timeframes or during movement.The postoperative opioid consumption was similar in both blocks.Hip flexion and knee extension were assessed preoperatively and 6 hrs, 24 hrs and 48 hrs after surgery.Surprisingly, compared with preoperative values, the quadriceps strength was similarly decreased in the two groups.Differing from Choi et al.'s protocol, Aliste et al. 12 randomized 40 subjects undergoing THA under spinal anesthesia and sedation to receive a postoperative PENG block with 20 mL of adrenalized 0.5% bupivacaine or a SIFIB with 40 mL of adrenalized 0.25% bupivacaine.The primary outcome of this trial was the incidence of quadriceps motor block at 6 hrs after surgery.As a result, motor blockade was significantly more frequent in the SIFIB patients at 3 hrs and 6 hrs, without differences in pain scores, opioid consumption, ability to perform physiotherapy or LOS.Unexpectedly, the incidence of quadriceps weakness in the PENG group reached 45% and 25% at 3 hrs and 6 hrs.
In an Aliste et al.'s follow-up trial 14 , Bravo et al., in 60 patients undergoing THA under spinal anesthesia and sedation, compared PENG block to a periarticular local anesthetic infiltration (PAI) with 60 mL of adrenalized 0.25% bupivacaine.This time, the primary outcome was the incidence of quadriceps blockade at 3 hrs after surgery, hypothesizing that PAI would decrease its occurrence.However, unanticipatedly, and not differing from the PENG block group, the incidence of motor block with the selected PAI technique reached 33% and 13% at 3 hrs and 6 hrs, respectively.Additionally, the PAI group had less postoperative static pain in all evaluated intervals and less active pain at 3 hrs and 6 hrs after surgery.Furthermore, no intergroup differences were found in terms of sensory block or motor block at other time intervals; time to first opioid request; cumulative breakthrough morphine consumption; opioid-related side effects; ability to perform physiotherapy; and LOS.
In summary, for THA, no trial has compared the PENG block to a no regional technique group.In Pascarella´s 38 a wound infiltration was performed at the end of surgery in both groups in the context of spinal anesthesia.
The preoperative PENG block determined better pain management with less opioid requirement and improved range of motion and time to first walk.Zheng et al. proved that a preoperative PENG block in addition to an intraarticular injection of LA in patients under general anesthesia just determined differences in pain scores at PACU but not later 41 .In general, in both trials, the reported static and dynamic pain level was mild for PENG block patients.When directly compared to alternative techniques, the PENG block offers similar analgesia to SIFIB 12,13 .However, in the context of spinal anesthesia, in Aliste et al.'s trial 12 , the reported pain scores were milder than in Choi et al.'s 13 , where patients received general anesthesia.Both studies used standardized multimodal systemic analgesia in both study arms.More recently, when Bravo et al. compared the PENG block to PAI, PAI showed a better analgesic performance.Although in both groups, static and dynamic pain was mild, and there were no differences in other relevant outcomes 14 .
In the context of hip fracture surgery, Lin et al. showed a better analgesic performance of PENG block than FNB just in the PACU but did not do so later, with a similar opioid consumption during hospital stay 11 .
In arthroscopic hip surgery, Amato et al. demonstrated that PENG block does not improve immediate postoperative pain, at least when performed preoperatively, in patients under general anesthesia 39 .
Finally, regarding the timing of the block in the hip perioperative setting, in the seven RCTs retained in this review, the PENG block was performed prior to surgery, except for the group of Aliste and Bravo, who performed it postoperatively 12,14 .Independently of the timing and apart from the trial of Amato et al. 39 , the PENG block determined adequate postoperative analgesia but also decreased quadriceps strength when assessed.Direct comparisons between pre and postoperative PENG blocks have not been conducted and may help to elucidate the optimal timing for the block, both for analgesia and motor-sparing effects.

Complications of PENG Blocks
Since 2018, no study has reported specific complications related to PENG block.However, as with any block, potential injuries to surrounding structures are possible when the necessary conditions to execute a regional technique are not available.
Although not a complication, postoperative quadriceps paresis and paralysis have been reported in several publications and the possible mechanisms for it have been described previously in this article.In general, it has represented a transitory condition that has not delayed physiotherapy and hospital discharge.Additionally, the PAI, which might have represented a better motor-sparing alternative to the PENG block, has also been related to motor blockade requiring further research in order to find the best technique for it.
In summary, the literature accumulated over the last four years suggests that PENG blocks are not associated with severe complications.

Alternative Anterior Pericapsular Blocks
So far, only the iliopsoas plane block (IPB) has emerged as a comparator to the PENG block.Nielsen et al. have proposed a technical alternative to achieve an improved spread of LA into the iliopsoas space with the aim of reducing the incidence of quadriceps motor block 61 .A cadaveric study from the same group postulates that all sensory hip branches of the FN must pass through the anatomical plane between the IPM and the iliofemoral ligament, the so-called iliopsoas plane (IPP) 22 .There is a ligamentous IPP that extends inferolaterally from the acetabular rim and a muscular IPP, a complex formed by the ImM and IM with their lateral and medial fibers, which is a potential space between the capsular ligaments of the hip and the iliopsoas complex.As the ImM grows caudally, the IPP becomes an L-shaped fascial plane formed vertically by the muscular IPP and horizontally by the ligamentous IPP.In the IPB, the needle tip position lies at the junction of the muscular and ligamentous IPP.Nielsen et al. suggest that an injection of LA in this plane will provide regional analgesia of the articular sensory branches from the femoral nerve to the hip joint without spreading to any motor branches 22 .Thus, keeping the needle tip more laterally away from the undersurface of the IPT may help reduce the risk of incidental iliopectineal bursa injection and its resultant bursal rupture/puncture, which may continue anteromedially to flood the femoral nerve causing undesired quadriceps weakness 19 .Currently, there are no trials directly comparing the PENG block and the IPB.

Future Research
The PENG block has become an attractive analgesic alternative for different types of hip surgery.Despite its popularity, well-designed trials are still needed to elucidate some technical aspects in order to identify clear indications and control excessive expectations.
From an anatomical standpoint, clinical research inquiring into the articular branches will always be limited by the possibility of assessing the resulting block.Hence, a combination of cadaveric, imaging, and clinical studies (i.e., presence or absence of cutaneous or motor block) will be necessary.Thus, defining the optimal dosing volume seems to be the paramount element to revise.However, since different patterns of spread have been observed when tissue is distorted, logic dictates that settings such as underlying pathology (i.e., fracture, arthrosis, dysplasia) and surgical timing (pre, intra or post-surgery) should be added to the equation.
When analyzing the technical aspects of the block, besides some variations in the selection of the LA, its concentration, and the addition of adrenaline in the injectate, all the trials analyzed in this review maintained the arbitrary 20 mL volume selected by Giron-Arango et al. on their first report 3 .Up to now, no adequately designed and registered study has compared different technical aspects like injection sites, number of injections, LAs, concentration, volume, adjuvants, or continuous techniques.After the reported incidence of motor block with the original technique, it looks plausible that researching variations might permit finding an ideal approach to the pericapsular nerves group when early aggressive rehabilitation requiring optimal quadriceps function is needed.Furthermore, after the study of Bravo et al. 14 it is possible that future research will turn into improving the analgesic qualities of the PENG block or, alternatively, look to decrease the motor blockade described with PAI.Certainly, both techniques still have a margin for improvement.
In terms of indications, THA seems to be the clearest since the PENG block determined adequate analgesia and low opioid consumption in all the trials analyzed in this review.Besides the results of Bravo et al. 14 , the better analgesic performance of PAI still needs to be corroborated by properly empowered trials.However, independently of what happens with PAI, the PENG block will probably keep having a role in centers where surgeons do not perform local anesthetic infiltration consistently and with good results.
Alternatively, in hip fracture cases, it is necessary to decrease the heterogeneity of protocols in order to validate the indication.For instance, when studying the analgesic role in subjects waiting for surgery, a distinction between intra and extracapsular fractures is needed.Similarly, different types of surgeries need to be studied separately.After all, the benefits may change from percutaneous fixations to arthroplasties.In contrast, secondary to the periarticular infiltrative characteristic of arthroscopic procedures, perhaps future studies need to reconsider the indication, timing, and ideal block technique (if any) for this surgery.
Agreeing with previous efforts to mitigate the reporting bias related to popular technical innovations 40 , we followed a similar approach to provide readers with a conservative reading of available RCTs.Thus, we have also purposefully excluded all trials that did not implement blinded assessment, sample size justification or trial registration.Also, we systematically excluded all RCTs displaying discrepancies between registered and reported protocols.Thus, maybe erring on the side of precaution, our analysis permits recommending the use of PENG blocks in hip replacement surgery when the possibility of quadriceps weakness in the immediate postoperative hours does not represent a delay with the plan of rehabilitation.

Figure 3 :
Figure 3: Risk of bias summary of randomized controlled trials pertaining the use of pericapsular nerve group block in hip surgeries.

Table 1 :
Anatomical studies investigating mechanism of action of PENG block.