|Year : 2020 | Volume
| Issue : 2 | Page : 261-264
Total postoperative analgesia for total knee arthroplasty: ultrasound guided single injection modified 4 in 1 block
Ritesh Roy, Gaurav Agarwal, Chandrasekhar Pradhan, Debasis Kuanar
Department of Anaesthesia and Pain Management, CARE Hospitals, Bhubaneswar, Odisha, India
|Date of Submission||10-Aug-2019|
|Date of Acceptance||14-Jan-2020|
|Date of Web Publication||15-Jun-2020|
Dr. Gaurav Agarwal
Department of Anaesthesia and Pain Management, Care Hospitals, Bhubaneswar - 751 016, Odisha
Source of Support: None, Conflict of Interest: None
Background and Aims: Total pain free outcome following total knee arthroplasty has led to the evolution of regional blocks. In this series, the authors have revisited and modified Roy et al. 's technique of Ultrasound guided 4 in 1 block for knee and below knee surgeries, to provide a complete comprehensive yet simple single injection technique for postoperative analgesia for Total Knee Arthroplasty (TKA).
Material and Methods: After Instituional ethics approval, we performed the modified 4 in 1 block on 10 consenting patients scheduled to undergo total knee arthroplasty. A linear USG-probe was used to identify medial femoral condyle, then vastus and sartorius intersection was identified. The probe was slid till the descending genicular artery branching from superficial femoral artery was visualized proximal to hiatus. At this point the needle with PNS attached, was guided into the Vastus medialis muscle till the stimulation of the nerve to Vastus medialis (0.4-0.5 mA). At this point 5–7 mL of 0.2% Ropivacaine was injected. The needle was guided in plane to perivascular region and after negative aspiration 0.2%ropivacaine 20–25 ml was injected, visualised to push the femoral artery.
Results: All ten patients considered in this study had an optimum pain score of <5 and were comfortable along with no quadriceps weakness, except one patient had a pain score of more than 5 after 36 hr post-operatively and required rescue analgesia.
Conclusion: The addition of USG and PNS guided Vastus medialis nerve block to USG 4-in-1 block in the technique gives good post-operative analgesia for TKA.
Keywords: Total Knee arthroplasty, Postoperative analgesia, modified four in one block
|How to cite this article:|
Roy R, Agarwal G, Pradhan C, Kuanar D. Total postoperative analgesia for total knee arthroplasty: ultrasound guided single injection modified 4 in 1 block. J Anaesthesiol Clin Pharmacol 2020;36:261-4
|How to cite this URL:|
Roy R, Agarwal G, Pradhan C, Kuanar D. Total postoperative analgesia for total knee arthroplasty: ultrasound guided single injection modified 4 in 1 block. J Anaesthesiol Clin Pharmacol [serial online] 2020 [cited 2021 Jul 26];36:261-4. Available from: https://www.joacp.org/text.asp?2020/36/2/261/286778
| Introduction|| |
Total knee arthroplasty or replacement (TKA) has paved the way for a better quality of life for our geriatric population. The evolution from central neuraxial blocks like combined spinal epidural etc.,, to regional blocks like the Femoral, sciatic, Adductor, combined femoral and sciatic,, for targeting pain free TKA has paved way to more and more research into the subject. As the knee joint is supplied by various nerves (genicular nerves) from the femoral, obturator and sciatic nerves hence needs a comprehensive yet simple technique for complete analgesia postoperatively. In this series, the authors have revisited and modified Roy et al. 's technique of Ultrasound guided 4 in 1 block for knee and below knee surgeries, to provide a complete comprehensive yet simple single injection technique for postoperative analgesia for Total Knee Arthroplasty (TKA).
| Relevant Anatomy|| |
The Vasto-adductor membrane (VAM) forms the roof of the musculo-aponeurotic tunnel (Adductor Canal) between the vastus medialis muscle anterolaterally and the adductor longus and adductor magnus muscles posteromedially and the sartorius anteriorly.,,, Laurant et al. and De Souza et al. have shown that the canal consists of the femoral vessels along with the femoral nerve (mainly femoral cutaneous, Saphenous, and the nerve to vastus medialis), along with the anterior division of obturator nerve in the proximal canal. The Femoral vessels enters the Adductor Hiatus to form the Popliteal vessels [Figure 1] and [Figure 2]. The posterior division of the obturator nerve enters the adductor hiatus along with the femoral vessels., The knee joint is innervated by genicular nerves from: The nerve to vastus medialis (NVM) through its distal muscular branch continuing as medial retinacular nerve, Saphenous nerve, Tibial nerve and posterior division of obturator nerve.,
|Figure 1: Schematic description of Adductor Canal. Femoral Artery enters the adductor hiatus and forms the Popliteal artery in the popliteal fossa. (Permission taken from Roy et al.)|
Click here to view
|Figure 2: Schematic description of popliteal Fossa. Femoral Artery enters the adductor hiatus and forms the Popliteal artery in the popliteal fossa. (Permission taken from Roy et al.)|
Click here to view
Material and Methods
An Institutional ethical committee clearance was obtained. A series of ten patients of ASA physical status I and II were chosen. Informed consent was obtained from each of the patients posted for TKA. All standard ASA minimum mandatory monitoring were instituted. A wide bore intravenous line was secured prior to induction of anesthesia.
All ten patients received subarachnoid block with 0.5% bupivacaine heavy using 25-gauge Quincke spinal needle in sitting position. Patients were then made supine and the desired effect checked.
The supine position was maintained with the ipsilateral leg kept in external rotation, slight abduction and knees slightly flexed (frog leg position). The medial femoral condyle was marked. A linear high frequency ultrasound probe (6–13 Hz) was used. The probe was placed over the femoral condyle and vastus medialis muscle was identified and scanned proximally. The vastus and sartorius intersection (anteromedial intermuscular septum) were identified and the probe was slid proximally till the superficial femoral artery appeared in the adductor hiatus. The probe was slid slowly proximally till the descending genicular artery branching from superficial femoral artery was visualized in the hiatus. This point was the point of interest. The point was 8–10 cm above the femoral condyle. At this point the superficial structures were re-visualised and needle with PNS attached. The needle was guided under USG guidance into the Vastus medialis muscle till the stimulation of the nerve to Vastus medialis, generating a Vastus medialis contraction, which was elicited even at the threshold current of 0.4-
0.5 mA. At this point 5–7 mL of 0.2% Ropivacaine was injected [Figure 3]. The needle was guided further in plane from lateral to medial side under USG guidance to reach perivascular region and after negative aspiration 0.2% ropivacaine 20–25 ml was injected, visualised to push the femoral artery posteriorly [Figure 4].
|Figure 4: LA injection perivascular around Femoral artery in Adductor hiatus|
Click here to view
The surgery commenced as proposed and all patients received a single dose of paracetamol 15 mg/kg intravenous along with tramadol 1 mg/kg. All patients received paracetamol 15 mg/kg intravenous along with tramadol 1 mg/kg every 8 hours, along with diclofenac (aqueous preparation) 1.5 mg/kg intravenous 12 hourly. The pain score was compared at 3, 6, 12, 24, 36 hours postoperatively and tabulated. Injection butorphanol 1 mg slow intravenous was proposed to be administered as rescue analgesic when the pain VAS score was more than 5.
| Results|| |
All of the patients considered in this study had an optimum pain score of <5 and were comfortable along with no quadriceps weakness, except one patient had a pain score of more than 5 after 36 hr post-operatively and required rescue analgesia. [Table 1] and [Table 2]
| Discussion|| |
The postoperative pain following a medial parapatellar arthrotomy, which is the most common modality of arthrotomy for TKA arises from the area innervated by mainly four nerves namely: The nerve to vastus medialis (NVM) through its distal muscular branch continuing as medial retinacular nerve, saphenous nerve, tibial nerve and posterior division of obturator nerve.
Roy et al. previously described 4 in 1 block technique aimed to block all these four nerves by spreading up to the adductor canal in midthigh and below to the popliteal fossa but few of our patients who complained postoperative pain in the medial side even after successful spread of drug. We reviewed the course of nerve to vastus medialis and revisited the Roy et al. block technique. In this series of cases we observed that all patients who received this combination technique had an optimum pain score of less than five, and was comfortable with no quadriceps weakness, except one patient who required rescue analgesia after 36 hr.
Ozer et al. performed anatomical studies on twenty thighs from six male and four female cadavers perfused with 10% formalin. Ozer et al. observed that nerve to vastus medialis arises from the posterior division of the femoral nerve. It runs distally along the anteromedial border of vastus medialis muscle and saphenous nerve. The nerve gives three to four branches from the main trunk, supplying the middle third of the VM muscle in the tunnel. The remaining part of the nerve continues distally and pierces the distal third of the VM muscle and continues as medial retinacular nerve supplying the knee joint. The nerve to vastus medialis is close to femoral vessels and saphenous nerve proximally in its course but in midthigh it runs in a different bilayer fascial sheath separate from the Hunters canal or adductor canal.
Bendtsen et al. performed dissections of the Adductor canal in four cadavers to elucidate the course of nerve to vastus medialis. All eight dissections showed that the nerve to vastus medialis lies outside the Adductor canal in a separate fascial tunnel on the medial vastus muscle. The medial retinacular nerve lies in a fascial tunnel between the sartorius muscle and the vastus medialis muscle.
Thiranagama performed dissection of thirty human vastus medialis muscles and their nerves and revealed a consistent bipartite nerve supply from the posterior division of the femoral nerve. One part, a short and slender nerve termed the lateral branch, supplies the upper lateral portion of the muscle. The other part, a medial branch, supplies the middle and lower portion of the muscle. One of the distal set of terminal branches usually innervated the medial part of the capsule of the knee joint.
The above and many more cadaveric studies highlight that nerve to vastus medialis runs in a separate bilayer fascial sheath, rather than the adductor canal, in few of the individuals. This phenomena may be the cause of pain in on the medial side of thigh despite successful ultrasound guided 4-in-1 block with documented spread of drug in the adductor canal till midthigh in few patients of our case series.
We revisited and modified Roy et al. 's ultrasound 4 in 1 block -a newer, single injection technique for complete post-operative analgesia for knee and below knee surgeries. We incorporated addition of blocking nerve to vastus medialis by eliciting peripheral nerve stimulation guided vastus medialis contraction at 0.4–0.5 mA current and rest of the technique as before for TKA.
This being a case series, the modality needs extensive and larger sample size randomised controlled study for better corroboration of the results. The authors are in the process of registering a larger randomised study for this modality.
| Conclusion|| |
Total knee arthroplasty or replacement (TKA) with pain free post-operative period is the demand for the coming years and regional anaesthesia techniques have ensured the same for a better quality of lifestyle. The addition of USG and PNS guided Vastus medialis nerve block to USG 4-in-1 block in the technique provides good post-operative analgesia for TKA.
We want to thank the institutional ethics committee for trusting our intention of patient first and complete postoperative analgesia for TKA and allowing us to do this series. We also thank our Hospital Administration, Surgeons, OT staff and personnel for facilitating this series of cases. We also thank our beloved patients to have the faith in us and consenting for this series
Financial support and sponsorship
Conflicts of interest
There are no conflicts of interest.
| References|| |
Rodgers A, Walker N, Schug S, McKee A, Kehlet H, van Zundert A, et al
. Reduction of postoperative mortality and morbidity with epidural or spinal anaesthesia: Results from overview of randomised trials. BMJ 2000;321:1493.
Cousins M, Bridenbaugh P, editors. Neural Blockade in Clinical Anesthesia and Management of Pain. 2nd
ed. Philadelphia: J B Lippincott; 1988.
Kehlet H. Modification of responses to surgery by neural blockade: Clinical implications. In: Cousins M, Bridenbaugh P, editors. Neural Blockade in Clinical Anesthesia and Management of Pain. 2nd
ed. Philadelphia: J B Lippincott; 1988. p. 145-88.
Li XM, Huang CM, Zhong CF. Intrathecal morphine verse femoral nerve block for pain control in total knee arthroplasty: A meta-analysis from randomized control trials. Int J Surg 2016;32:89-98.
Bauer MC, Pogatzki-Zahn EM, Zahn PK. Regional analgesia techniques for total knee replacement. Curr Opin Anaesthesiol 2014;27:501-6.
Kadic L, Boonstra MC, DE Waal Malefijt MC, Lako SJ, VAN Egmond J, Driessen JJ. Continuous femoral nerve block after total knee arthroplasty? Acta Anaesthesiol Scand 2009;53:914-20.
Orduña Valls JM, Vallejo R, López Pais P, Soto E, Torres Rodríguez D, Cedeño DL, et al
. Anatomic and ultrasonographic evaluation of the knee sensory innervation: A cadaveric study to determine anatomic targets in the treatment of chronic knee pain. Reg Anesth Pain Med 2017;42:90-8.
Roy R, Agarwal G, Pradhan C, Kuanar D, Mallick DJ. Ultrasound guided 4 in 1 block-a newer, single injection technique for complete postoperative analgesia for knee and below knee surgeries. Anaesth Pain Intensive Care 2018;22:87-93.
Bendtsen TF, Moriggl B, Chan V, Pedersen EM, Borglum J. Defining adductor canal block. Reg Anesth Pain Med 2014;39:253-4.
Bendtsen TF, Moriggl B, Chan V, Borglum J. Basic topography of the saphenous nerve in the femoral triangle and the adductor canal. Reg Anesth Pain Med 2015;40:391-2.
Bendtsen TF, Moriggl B, Chan V, Borglum J. The optimal analgesic block for total knee arthroplasty. Reg Anesth Pain Med 2016;41:711-9.
Cunningham DJ, Robinson A. Cunningham's Text-book of Anatomy. Edinburgh: Henry Frowde; 1915.
de Souza RR, de Carvalho CA, Konig B Jr. Topographical anatomy of adductor canal: Form, limits and constitution of its walls. Rev Paul Med 1978; 92:6-9.
Burckett-St Laurant D, Peng P, Giron Arango L, Niazi AU, Chan VW, Agur A, et al
. The nerves of the adductor canal and the innervations of the knee: Ananatomic study. Reg Anesth Pain Med 2016;41:321-7.
Dello AL. Partial knee joint denervation for knee pain: A review. Orthop Muscul Syst 2014;3:167.
Ozer H, Tekdemir I, Elhan A, Turanli S, Engebretsen L. A clinical case and anatomical study of the innervation supply of the vastus medialis muscle. Knee Surg Sports Traumatol Arthrosc 2004;12:119-22.
Thiranagama R. Nerve supply of the human vastus medialis muscle. J Anat 1990;170:193-8.
[Figure 1], [Figure 2], [Figure 3], [Figure 4]
[Table 1], [Table 2]