|Year : 2022 | Volume
| Issue : 1 | Page : 26-29
Intricacies of ultrasound-guided lumbar plexus block in octogenarians: A retrospective case series
Sandeep Diwan1, Abhijit Nair2, Madhuri Dadke1, Parag Sancheti3
1 Department of Anaesthesiology, Sancheti Hospital, Pune, Maharashtra, India
2 Department of Anaesthesiology, Ibra Hospital, Ministry of Health, Ibra, Sultanate of Oman
3 Department of Orthopedics, Sancheti Hospital, Pune, Maharashtra, India
|Date of Submission||16-Dec-2020|
|Date of Decision||11-Mar-2021|
|Date of Acceptance||01-Apr-2021|
|Date of Web Publication||02-Jul-2021|
Dr. Abhijit Nair
Department of Anaesthesiology, Ibra Hospital, Ministry of Health, Ibra
Sultanate of Oman
Source of Support: None, Conflict of Interest: None
Background: Ultrasound (US)-guided lumbar plexus block (LPB) could be technically challenging in elderly patients. The lumbar paravertebral sonoanatomy is undescribed in the elderly. In an attempt to understand the relevant sonoanatomy, identify the lumbar plexus elements, and understand the difficulties that encountered while performing LPB in elderly patients, we retrospectively analyzed US of 23 elderly patients who were administered US-guided LPBs. Methods: After institutional ethics committee approval, we retrospectively reviewed stored US images of lumbar paravertebral sonoanatomy in 23 elderly patients and analyzed psoas major muscle, lumbar vertebral body, lumbar nerve, and lumbar artery. Results: On US examination, features of psoas major muscle, lumbar vertebral body, lumbar nerve, and lumbar artery were noted and analyzed. Conclusion: US-guided visualization of the components of the lumbar paravertebral area is difficult and inconsistent in the elderly. Therefore, we suggest performing a scout scan, identify the structures, and use neurostimulation all the time for performing LPB in these patients.
Keywords: Geriatrics, lumbosacral plexus, nerve block, regional anesthesia, ultrasonography
|How to cite this article:|
Diwan S, Nair A, Dadke M, Sancheti P. Intricacies of ultrasound-guided lumbar plexus block in octogenarians: A retrospective case series. J Med Ultrasound 2022;30:26-9
|How to cite this URL:|
Diwan S, Nair A, Dadke M, Sancheti P. Intricacies of ultrasound-guided lumbar plexus block in octogenarians: A retrospective case series. J Med Ultrasound [serial online] 2022 [cited 2022 May 28];30:26-9. Available from: http://www.jmuonline.org/text.asp?2022/30/1/26/320546
| Introduction|| |
Ultrasound (US) improves the safety and efficacy of plexus blocks with low volumes. The needle to nerve contact and the local anesthetic (LA) spread are two important aspects of successful block, though neurostimulation during an US-guided block does not necessarily produce an evoked motor response., The lumbar paravertebral sonoanatomy is well described in young adults with normal body mass index. The psoas major muscle, quadratus lumborum muscle, and erector spinae muscles were well identified from L2 to 5 levels, except the lumbar plexus elements.
Literature search using relevant keywords (nerve block, ultrasonography, lumbosacral plexus, local anesthetic, and geriatrics) did not reveal any studies mentioning the lumbar paravertebral sonoanatomy in the elderly. Twenty-three elderly patients who were to undergo proximal femoral nail for a proximal femoral fracture were administered a lumbar and sacral plexus block as a primary anesthetic. In these cases, our aim was to understand the lumbar paravertebral sonoanatomy in the elderly, identify the lumbar plexus elements, and estimate the impracticability during the lumbar plexus block (LPB) in the elderly group of patients.
Unlike the previous studies performed exclusively in young adults, the components of lumbar paravertebral sonoanatomy (lateral vertebral border, psoas major muscle, and lumbar plexus elements) are not clearly visible in the elderly. The distorted lumbar paravertebral sonoanatomy in the elderly mandates a cautious approach with a neurostimulation to guide the needle tip during a US-guided LPB.
| Materials and Methods|| |
We retrospectively reviewed the medical records from January 2018 to January 2019 and gathered data from 23 patients above the age of 80 years, who were classified as American Society of Anesthesiologists physical status III–IV. All patients had either two or three comorbidities in the form of cardiac, pulmonary, and renal disorders. Eight patients had undergone spine surgery with instrumentation. All patients underwent US-guided (shamrock method) and neurostimulation-aided LPB. As hip is innervated by lumbar and sacral plexus, blocking the sacral plexus is mandatory to achieve unilateral surgical anesthesia. Therefore, US-guided and neurostimulation-aided sacral plexus block was supplemented in all patients.
An ethics committee approval was obtained for this retrospective study. (The IRB approval number is EC-SIOR/Agenda 060, dated 29th May 2020). Informed consent was obtained from all the patients who received the intervention. US scout scan was performed to understand the lumbar paravertebral sonoanatomy with the shamrock method. The following components of lumbar paravertebral sonoanatomy were identified: the bony components of the vertebra, namely the transverse process and the lateral vertebral border. The visibility of the transverse process and the contour of the lumbar vertebral body were appraised for its echogenicity. The psoas major muscle was assessed for its echogenicity. Attempts were made to visualize the lumbar nerve root in the inter-transverse plane (between the two transverse process) as the they emerged from the intervertebral foramina [Figure 1]a.
|Figure 1: (a) Schematic representation of PMm and posteromedial quadrant (ESM: Erector spinae muscle, QLM: Quadratus lumborum muscle, PMm: Psoas Major, TP: Transverse process, Lnr: Lumbar nerve root, PMQ: Posterior-medial quadrant, Black arrow: Points toward PMQ [purple square]). (b) Lumbar paravertebral sonoanatomy; Lumbar nerve root (yellow) in patients aged 44 years. QLM: Quadratus lumborum muscle, TP: Transverse process, VB: Vertebral body, LVB: Lateral vertebral body, PMm: Psoas major muscle, LNr: Lumbar nerve root. (c) Lumbar paravertebral sonoanatomy; Lumbar vertebral artery in patients aged 44 years. QLM: Quadratus lumborum muscle, VB: Vertebral body, PMm: Psoas major muscle, LAr: Lumbar artery. (d) Lateral border of PMm (light yellow), Lateral vertebral body: Light blue arrows, TP: Dark blue arrow, Needle: White, Lnr: Dark yellow arrow|
Click here to view
| Observations and Results|| |
We analyzed the saved records of 23 elderly patients (mean age – 85.04 years, males – 10, females – 13). Structures identified on ultrasonography expressed in numbers and percentages are summarized in [Table 1]. The following features of psoas major muscle, lumbar vertebral body, lumbar nerve, and lumbar artery were noted and are discussed below.
|Table 1: Structures identified on ultrasonography expressed in numbers and percentages|
Click here to view
The psoas major muscle was hypoechoic [Figure 1]b in 07/23 (30.4%) and hyperechoic [Figure 1]c in 16/23 (69.5%). In 12/23 (52.1%) patients, the lumbar vertebral body had lost its typical rounded appearance and was replaced with hyperechoic border [Figure 1]d and [Figure 2]a. Of 11/23 (47.8%) patients, the lateral aspect of the vertebral body presented as hypoechoic borders [Figure 2]a and [Figure 2]d. The lumbar nerve was identified in 4/23 (17.3%). The echogenicity of the lumbar nerve root was similar to the hyperechoic psoas major muscle [Figure 2]c. The lumbar artery was identified in 6/23 (26.1%) patients, close to the lateral vertebral body [Figure 2]d.
|Figure 2: (a) Convex lateral border. Hyperechoic convex lateral vertebral body: Light blue arrows, TP: Dark blue arrow, PMm: Light yellow arrows, Needle: White. (b) Hypoechoic PMm: Light yellow, Lateral vertebral body: Light blue arrows, TP: Dark blue arrow, Lnr: Dark yellow. (c) Concave lateral border. Hypoechoic lateral vertebral body: Light blue arrows, TP: Dark blue arrow, PMm: Oval light yellow. (d) Lumbar hyperechoic nerve root. PMm: Light yellow arrows, Vertebral body: Light blue arrows, TP: Dark blue arrow, Needle: White, Lnr: Dark yellow arrow|
Click here to view
| Discussion|| |
The wedge-shaped area immediate lateral to the outer part of the intervertebral foramina which hosts the lumbar nerve root is the lumbar paravertebral space (LPVS). In this retrospective analysis of patients above 80 years old, the psoas major muscle was more hyperechoic with poor visibility of the lumbar plexus elements in the lumbar paravertebral area. Ultrasound of paravertebral sonoanatomy (lateral vertebral border, psoas major muscle, and lumbar plexus elements) were assessed for deformation of lateral vertebral border.
Studies claim that though the lumbar plexus elements were not visible in young adults, the needle could be positioned under US guidance close to the location of the lumbar plexus in the lumbar paravertebral area. The lumbar paravertebral sonoanatomy is vividly described by three different US approaches. The first one is through the acoustic window of a lumbar trident. The second is through the transverse scan named the “Shamrock technique” and the third one is the transverse scan through the lumbar intertransverse space (LITS)., All these approaches strive hard to demonstrate the lumbar plexus elements only in young adults and not the elderly.
In the acoustic window of lumbar trident, the psoas major muscle was visualized as multiple longitudinal hyperechoic striations against a hypoechoic background typical of muscle. The lumbar nerves were identified as hyperechoic structures in more than 50% of cases. In real time, the needle visibility was poor. Neurostimulation identified the lumbar plexus, and LA spread was observed in the psoas major muscle. The Shamrock and the transverse scan through the LITS provided good imaging of the anatomy relevant for LPB including the erector spinae, psoas major muscle and quadratus lumborum muscles, lumbar nerve root, lumbar paravertebral space, and the lumbar plexus. In the transverse scan through LITS apart from the demonstration of lumbar paravertebral sonoanatomy, the needle-nerve contact was appreciated in 93% and the LA spread in 40% of cases.
In clinical practice, we encounter elderly patients with serious comorbidities for surgical corrections of intertrochanteric fracture. The LPB is the regional anesthesia technique of choice since it produces minimal sympathetic block and effective hemodynamic stability.
The musculoskeletal structures, particularly in the elderly (>60 years), can reduce the contrast between a peripheral nerve and its surrounding muscles and eventually affect the resolution of US images. The echo intensity of muscle is significantly increased in the elderly. Echogenicity of muscle in the elderly is affected by diminished muscle composition due to an increase in the adipose tissue or fibrosis in the muscle. The visibility of the hyperechoic needle will be impaired within the hyperechoic psoas major muscle (69.5% in our case series). Needle redirections would be required whenever needle insertion is beyond the transverse process and contacts the deformed lumbar vertebral body. The lumbar nerve root was identified in 4 out of 23 patients. The distorted lumbar paravertebral sonoanatomy secondary to the deformed lateral vertebral border that alters the topographical anatomy of the hyperechoic psoas major muscle harboring the hyperechoic lumbar nerve root would obviously pose a serious challenge to identify the hyperechoic needle to target the lumbar plexus elements in the elderly. Autopsy studies on large number of subjects have found disc degeneration, facet joint osteoarthritis, or osteophytes in 90%–100% of subjects aged over 64 years. Some signature patterns such as “trefoil-shaped canal” or pagetic vertebra have been described in the literature.
The lumbar artery is lateral to the vertebral body, and the lumbar nerve is lateral to the lumbar artery. It is ideal to position the needle tip lateral to the lumbar nerve when performing a LPB. However, the lumbar artery was identified in only 26% of the patients, further complicating the LPB procedure.
This study describes the characteristic features of lumbar paravertebral sonoanatomy above 80 years of age. Several studies regarding the lumbar paravertebral sonoanatomy are in young adults in whom a LPB may be unwarranted. LPBs are indicated in elderly patients with comorbidities like for instance proximal femoral fractures mentioned in this article. It is of great importance to demonstrate the lumbar paravertebral sonoanatomy in elderly patients, since the anatomy of lumbar vertebral body, the psoas major muscle, and the topography of the lumbar paravertebral area hosting the lumbar nerve are altered when compared to young adults. A cautious needle approach with a continuous neurostimulation to guide the needle tip close to the lumbar plexus elements is mandatory. Ilfeld et al. recommended estimating depth of the transverse process with US and predicting the actual needle-to-plexus intercept depth for LPB. Based on our study in these elderly patients, we suggest a scout scan to understand the lumbar paravertebral area followed by a continuous neurostimulation to obtain a needle-nerve contact with careful maneuver of the needle tip in the lumbar paravertebral area.
| Conclusion|| |
As opposed to lumbar paravertebral sonoanatomy in adults and children, the US image in patients above the age of 80 years is not appropriately visualized and is of poor quality. The skewed lateral vertebral border and the degenerative and atrophic psoas major muscle distort the lumbar paravertebral area which hosts the lumbar nerve. Visibility of the hyperechoic needle would be severely hampered in the hyperechoic psoas major muscle. We therefore recommend a thorough scout scan of the lumbar paravertebral area in the elderly, to obtain contact of the TP under US and maneuver needle tip in lumbar paravertebral area aided by neurostimulation.
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Nowakowski P, Bieryło A, Duniec L, Kosson D, Łazowski T. The substantial impact of ultrasound-guided regional anaesthesia on the clinical practice of peripheral nerve blocks. Anaesthesiol Intensive Ther 2013;45:223-9.
Albrecht E, Kirkham KR, Taffé P, Endersby RV, Chan VW, Tse C, et al
. The maximum effective needle-to-nerve distance for ultrasound-guided interscalene block: An exploratory study. Reg Anesth Pain Med 2014;39:56-60.
Marhofer D, Karmakar MK, Marhofer P, Kettner SC, Weber M, Zeitlinger M. Does circumferential spread of local anesthetic improve the success of peripheral nerve block? Br J Anaesth 2014;113:177-85.
Kirchmair L, Entner T, Kapral S, Mitterschiffthaler G. Ultrasound guidance for the psoas compartment block: An imaging study. Anesth Analg 2002;94:706-10.
Axel R. Sauter, The “Shamrock Method” - a new and promising technique for ultrasound guided lumbar plexus blocks, BJA: British Journal of Anaesthesia, Volume 111, Issue eLetters Supplement, 22 April 2013, No Pagination Specified, https://doi.org/10.1093/bja/el_9814
Kirchmair L, Lirk P, Colvin J, Mitterschiffthaler G, Moriggl B. Lumbar plexus and psoas major muscle: Not always as expected. Reg Anesth Pain Med 2008;33:109-14.
Karmakar MK, Ho AM, Li X, Kwok WH, Tsang K, Ngan Kee WD. Ultrasound-guided lumbar plexus block through the acoustic window of the lumbar ultrasound trident. Br J Anaesth 2008;100:533-7.
Karmakar MK, Li JW, Kwok WH, Hadzic A. Ultrasound-guided lumbar plexus block using a transverse scan through the lumbar intertransverse space: A prospective case series. Reg Anesth Pain Med 2015;40:75-81.
de Visme V, Picart F, Le Jouan R, Legrand A, Savry C, Morin V. Combined lumbar and sacral plexus block compared with plain bupivacaine spinal anesthesia for hip fractures in the elderly. Reg Anesth Pain Med 2000;25:158-62.
Maurits NM, Bollen AE, Windhausen A, De Jager AE, Van Der Hoeven JH. Muscle ultrasound analysis: Normal values and differentiation between myopathies and neuropathies. Ultrasound Med Biol 2003;29:215-25.
Szpalski M, Gunzburg R. Lumbar spinal stenosis in the elderly: An overview. Eur Spine J 2003;12 Suppl 2:S170-5.
Ilfeld BM, Loland VJ, Mariano ER. Prepuncture ultrasound imaging to predict transverse process and lumbar plexus depth for psoas compartment block and perineural catheter insertion: A prospective, observational study. Anesth Analg 2010;110:1725-8.
[Figure 1], [Figure 2]