WALANT: A Discussion of Indications, Impact, and Educational Requirements

Shahab Shahid, Noman Saghir, Reyan Saghir, Quillan Young-Sing, Benjamin H Miranda, Shahab Shahid, Noman Saghir, Reyan Saghir, Quillan Young-Sing, Benjamin H Miranda

Abstract

Wide-awake, local anesthesia, no tourniquet (WALANT) is a technique that removes the requirement for operations to be performed with a tourniquet, general/regional anesthesia, sedation or an anesthetist. We reviewed the WALANT literature with respect to the diverse indications and impact of WALANT to discuss the importance of future surgical curriculum integration. With appropriate patient selection, WALANT may be used effectively in upper and lower limb surgery; it is also a useful option for patients who are unsuitable for general/regional anesthesia. There is a growing body of evidence supporting the use of WALANT in more complex operations in both upper and lower limb surgery. WALANT is a safe, effective, and simple technique associated with equivalent or superior patient pain scores among other numerous clinical and cost benefits. Cost benefits derive from reduced requirements for theater/anesthetic personnel, space, equipment, time, and inpatient stay. The lack of a requirement for general anesthesia reduces aerosol generating procedures, for example, intubation/high-flow oxygen, hence patients and staff also benefit from the reduced potential for infection transmission. WALANT provides a relatively, but not entirely, bloodless surgical field. Training requirements include the surgical indications, volume calculations, infiltration technique, appropriate perioperative patient/team member communication, and specifics of each operation that need to be considered, for example, checking of active tendon glide versus venting of flexor tendon pulleys. WALANT offers significant clinical, economic, and operative safety advantages when compared with general/regional anesthesia. Key challenges include careful patient selection and the comprehensive training of future surgeons to perform the technique safely.

Keywords: WALANT; education; local anesthesia no tourniquet; simulation; training; wide awake hand surgery.

Conflict of interest statement

Conflict of Interest None declared.

The Korean Society of Plastic and Reconstructive Surgeons. This is an open access article published by Thieme under the terms of the Creative Commons Attribution-NonDerivative-NonCommercial License, permitting copying and reproduction so long as the original work is given appropriate credit. Contents may not be used for commercial purposes, or adapted, remixed, transformed or built upon. ( https://creativecommons.org/licenses/by-nc-nd/4.0/ ).

References

    1. Lalonde D H. “Hole-in-one” local anesthesia for wide-awake carpal tunnel surgery. Plast Reconstr Surg. 2010;126(05):1642–1644.
    1. Lalonde D, Bell M, Benoit P, Sparkes G, Denkler K, Chang P. A multicenter prospective study of 3,110 consecutive cases of elective epinephrine use in the fingers and hand: the Dalhousie Project clinical phase. J Hand Surg Am. 2005;30(05):1061–1067.
    1. Mckee D E, Lalonde D H, Thoma A, Dickson L. Achieving the optimal epinephrine effect in wide awake hand surgery using local anesthesia without a tourniquet. Hand (N Y) 2015;10(04):613–615.
    1. Ankle fracture fixation with use of WALANT (wide awake local anesthesia with no tourniquet) technique: an attractive alternative for the austere environment. J Bone Joint Surg. 2021;103(05):397–404.
    1. Moog P, Dozan M, Betzl J, Sukhova I, Kükrek H, Megerle K. WALANT-Epinephrine injection may lead to short term, reversible episodes of critical oxygen saturation in the fingertips. Arch Orthop Trauma Surg. 2021;141(03):527–533.
    1. Brown M, Bainbridge C, Wong J, Phillips A.Wide Awake Surgery Handbook British: British Society for Surgery of the Hand.Accessed July 20, 2021 at:
    1. Facchin F, Messana F, Sonda R, Faccio D, Tiengo C, Bassetto F. COVID-19: Initial experience of hand surgeons in Northern Italy. Hand Surg Rehabil. 2020;39(04):332–333.
    1. Hwee J, Chiew J, Sechachalam S. The impact of coronavirus disease 2019 (COVID-19) on the practice of hand surgery in Singapore. J Hand Surg Am. 2020;45(06):536–541.
    1. Sugrue C M, Sullivan P. The effect of the ongoing COVID-19 nationwide lockdown on plastic surgery trauma caseload? J Plast Reconstr Aesthet Surg. 2020;73(07):1357–1404.
    1. Miranda B H, Spilsbury Z P, Rosala-Hallas A, Cerovac S. Hand trauma: A prospective observational study reporting diagnostic concordance in emergency hand trauma which supports centralised service improvements. J Plast Reconstr Aesthet Surg. 2016;69(10):1397–1402.
    1. British Association of Plastic Reconstructive and Aesthetic Surgeons. COVID-19 advice for membersAccessed July 22, 2021 at:
    1. ;St Andrew's Collaborative . Miranda B H, Zberea D E, Pinto-Lopes R, Zweifel C J, Sierakowski A, Sood M K. St Andrew's COVID-19 surgery safety study: hand trauma. Ann R Coll Surg Engl. 2021;103(02):96–103.
    1. Maliha S G, Cohen O, Jacoby A, Sharma S. A cost and efficiency analysis of the WALANT technique for the management of trigger finger in a procedure room of a major city hospital. Plast Reconstr Surg Glob Open. 2019;7(11):e2509.
    1. Codding J L, Bhat S B, Ilyas A M. An economic analysis of MAC versus WALANT: a trigger finger release surgery case study. Hand (N Y) 2017;12(04):348–351.
    1. Yu J, Ji T A, Craig M, McKee D, Lalonde D H. Evidence-based sterility: the evolving role of field sterility in skin and minor hand surgery. Plast Reconstr Surg Glob Open. 2019;7(11):e2481.
    1. Lalonde D H. Latest advances in wide awake hand surgery. Hand Clin. 2019;35(01):1–6.
    1. Leblanc M R, Lalonde D H, Thoma A. Is main operating room sterility really necessary in carpal tunnel surgery? A multicenter prospective study of minor procedure room field sterility surgery. Hand (N Y) 2011;6(01):60–63.
    1. Far-Riera A M, Pérez-Uribarri C, Sánchez Jiménez M, Esteras Serrano M J, Rapariz González J M, Ruiz Hernández I M. Prospective study on the application of a WALANT circuit for surgery of tunnel carpal syndrome and trigger finger. Rev Esp Cir Ortop Traumatol (Engl Ed) 2019;63(06):400–407.
    1. Van Demark R E, Jr, Smith V JS, Fiegen A. Lean and green hand surgery. J Hand Surg Am. 2018;43(02):179–181.
    1. Olaiya O R, Alagabi A M, Mbuagbaw L, McRae M H. Carpal tunnel release without a tourniquet: a systematic review and meta-analysis. Plast Reconstr Surg. 2020;145(03):737–744.
    1. Ayhan E, Akaslan F. Patients' perspective on carpal tunnel release with WALANT or intravenous regional anesthesia. Plast Reconstr Surg. 2020;145(05):1197–1203.
    1. Gunasagaran J, Sean E S, Shivdas S, Amir S, Ahmad T S. Perceived comfort during minor hand surgeries with wide awake local anaesthesia no tourniquet (WALANT) versus local anaesthesia (LA)/tourniquet. J Orthop Surg (Hong Kong) 2017;25(03):2.309499017739499E15.
    1. Tan E, Bamberger H B, Saucedo J. Incorporating office-based surgery into your practice with WALANT. J Hand Surg Am. 2020;45(10):977–981.
    1. Kamal R N, Behal R. Clinical care redesign to improve value in carpal tunnel syndrome: a before-and-after implementation study. J Hand Surg Am. 2019;44(01):1–8.
    1. Evangelista T MP, Pua J HC, Evangelista-Huber M TP. Wide-awake local anesthesia no tourniquet (WALANT) versus local or intravenous regional anesthesia with tourniquet in atraumatic hand cases in orthopedics: a systematic review and meta-analysis. J Hand Surg Asian Pac Vol. 2019;24(04):469–476.
    1. Tang J B, Gong K T, Xing S G, Yi L, Xu J H. Wide-awake hand surgery in two centers in China: experience in Nantong and Tianjin with 12,000 patients. Hand Clin. 2019;35(01):7–12.
    1. Xing S G, Tang J B. Extending applications of local anesthesia without tourniquet to flap harvest and transfer in the hand. Hand Clin. 2019;35(01):97–102.
    1. Teo I, Lam W, Muthayya P, Steele K, Alexander S, Miller G. Patients' perspective of wide-awake hand surgery–100 consecutive cases. J Hand Surg Eur Vol. 2013;38(09):992–999.
    1. Feldman G, Orbach H, Rinat B, Rozen N, Rubin G. Internal fixation of metacarpal fractures using wide awake local anesthesia and no tourniquet. Hand Surg Rehabil. 2020;39(03):214–217.
    1. Woo S H, Yoo M J, Ahn H C. Lessons learned in the authors' first years of wide-awake hand surgery at the W Hospital in Korea. Hand Clin. 2019;35(01):59–66.
    1. Xu J, Yin L, Cao S. Application of WALANT technique for repairing finger skin defect with a random skin flap. J Orthop Surg Res. 2021;16(01):164.
    1. Khor W S, Lazenby D J, Campbell T. Reorganisation to a local anaesthetic trauma service improves time to treatment during the COVID-19 pandemic - experience from a UK tertiary plastic surgery centre. J Plast Reconstr Aesthet Surg. 2021;74(04):890–930.
    1. Turcotte J J, Petre B M, Jones C M, Gelfand J M. Maintaining access to orthopaedic surgery during periods of operating room resource constraint: expanded use of wide-awake surgery during the COVID-19 pandemic. J Am Acad Orthop Surg Glob Res Rev. 2020;4(12):100.
    1. Lalonde D H, Martin A L. Wide-awake flexor tendon repair and early tendon mobilization in zones 1 and 2. Hand Clin. 2013;29(02):207–213.
    1. Tahir M, Chaudhry E A, Zaffar Z. Fixation of distal radius fractures using wide-awake local anaesthesia with no tourniquet (WALANT) technique: A randomized control trial of a cost-effective and resource-friendly procedure. Bone Joint Res. 2020;9(07):429–439.
    1. Orbach H, Rozen N, Rubin G. Open reduction and internal fixation of intra-articular distal radius fractures under wide-awake local anesthesia with no tourniquet. J Int Med Res. 2018;46(10):4269–4276.
    1. Ahmad A A, Yi L M, Ahmad A R. Plating of distal radius fracture using the wide-awake anesthesia technique. J Hand Surg Am. 2018;43(11):10450–1.045E8.
    1. Huang Y-C, Hsu C-J, Renn J-H. WALANT for distal radius fracture: open reduction with plating fixation via wide-awake local anesthesia with no tourniquet. J Orthop Surg Res. 2018;13(01):195.
    1. Tahir M, Mehboob G, Phillips A M. Use of the wide-awake local anaesthetic no tourniquet in the management of distal radius fractures. J Pak Med Assoc. 2020;70(02):S42–S48.
    1. Huang Y-C, Chen C-Y, Lin K-C, Yang S W, Tarng Y W, Chang W N. Comparison of wide-awake local anesthesia no tourniquet with general anesthesia with tourniquet for volar plating of distal radius fracture. Orthopedics. 2019;42(01):e93–e98.
    1. Ahmad A A, Sabari S S, Ruslan S R, Abdullah S, Ahmad A R. Wide-awake anesthesia for olecranon fracture fixation. Hand (N Y) 2021;16(03):402–406.
    1. Gregory S, Lalonde D H, Fung Leung L T. Minimally invasive finger fracture management: wide-awake closed reduction, K-wire fixation, and early protected movement. Hand Clin. 2014;30(01):7–15.
    1. Hagert E, Lalonde D H. Wide-awake wrist arthroscopy and open TFCC repair. J Wrist Surg. 2012;1(01):55–60.
    1. Müller C T, Christen T, Heidekruger P I. Wide-awake anesthesia no tourniquet trapeziometacarpal joint prosthesis implantation. Plast Reconstr Surg Glob Open. 2018;6(04):e1714.
    1. Ahmad A A, Ikram M A. Plating of an isolated fracture of shaft of ulna under local anaesthesia and periosteal nerve block. Trauma Case Rep. 2017;12:40–44.
    1. Li Y-S, Chen C-Y, Lin K-C, Tarng Y W, Hsu C J, Chang W N. Open reduction and internal fixation of ankle fracture using wide-awake local anaesthesia no tourniquet technique. Injury. 2019;50(04):990–994.
    1. Poggetti A, Del Chiaro A, Nicastro M, Parchi P, Piolanti N, Scaglione M.A local anesthesia without tourniquet for distal fibula hardware removal after open reduction and internal fixation: the safe use of epinephrine in the foot. A randomized clinical study J Biol Regul Homeost Agents 201832(06, Suppl 1):57–63.
    1. Bilgetekin Y G, Kuzucu Y, Öztürk A, Yüksel S, Atilla H A, Ersan Ö. The use of the wide-awake local anesthesia no tourniquet technique in foot and ankle injuries. Foot Ankle Surg. 2021;27(05):535–538.
    1. Thomson J E, Poudrier G, Stranix J T, Motosko C C, Hazen A. Current status of simulation training in plastic surgery residency programs: a review. Arch Plast Surg. 2018;45(05):395–402.
    1. Farrell D A, Miller T J, Chambers J R, Joseph V A, McClellan W T. Three-dimensionally-printed hand surgical simulator for resident training. Plast Reconstr Surg. 2020;146(05):1100–1102.
    1. Prsic A, Boyajian M K, Snapp W K, Crozier J, Woo A S. A 3-dimensional-printed hand model for home-based acquisition of fracture fixation skills without fluoroscopy. J Surg Educ. 2020;77(06):1341–1344.
    1. Papavasiliou T, Chatzimichail S, Chan J CY, Bain C J, Uppal L. A standardized hand fracture fixation training framework using novel 3D printed ex vivo hand models: our experience as a unit. Plast Reconstr Surg Glob Open. 2021;9(02):e3406.
    1. Tulipan J, Miller A, Park A G, Labrum J T, IV, Ilyas A M. Touch surgery: analysis and assessment of validity of a hand surgery simulation “App”. Hand (N Y) 2019;14(03):311–316.
    1. British Orthopaedic Association; Orthopaedic Trauma Society; The British Society for Surgery of the Hand; The British Association of Plastic Reconstructive and Aesthetic Surgeons; The British Association of Hand Therapists; British Society for Childrens Orthopaedic Surgery. Management of patients with urgent orthopaedic conditions and trauma during the coronavirus pandemicAccessed April 12, 2022 at:
    1. Hobday D, Welman T, O'Neill N, Pahal G S. A protocol for wide awake local anaesthetic no tourniquet (WALANT) hand surgery in the context of the coronavirus disease 2019 (COVID-19) pandemic. Surgeon. 2020;18(06):e67–e71.
    1. Farkash U, Herman A, Kalimian T, Segal O, Cohen A, Laish-Farkash A. Keeping the finger on the pulse: cardiac arrhythmias in hand surgery using local anesthesia with adrenaline. Plast Reconstr Surg. 2020;146(01):54e–60e.
    1. Thomson C J, Lalonde D H, Denkler K A, Feicht A J. A critical look at the evidence for and against elective epinephrine use in the finger. Plast Reconstr Surg. 2007;119(01):260–266.
    1. Sylaidis P, Logan A. Digital blocks with adrenaline. An old dogma refuted. J Hand Surg Br. 1998;23(01):17–19.

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