Abstract
The increasing incidence of calcaneal tendon ruptures has substantially impacted orthopedic care and costs related to its treatment and prevention. Primarily motivated by the increasing of life expectancy, the growing use of tenotoxic drugs and erratic access to physical activity, this injury accounts for considerable morbidity regardless of its outcome. In recent years, the evolution of surgical and rehabilitation techniques gave orthopedists better conditions to decide the most appropriate conduct in acute tendon rupture. Although still frequent due to their high neglect rate, Achilles chronic ruptures currently find simpler and more biological surgical options, being supported by a new specialty-focused paradigm.
Keywords
calcaneus tendon; tendon rupture; acute disease; chronic disease
Resumo
A crescente incidência de rupturas do tendão calcâneo tem impactado substancialmente o cuidado ortopédico e os custos relacionados ao seu tratamento e prevenção. Motivada principalmente pelo aumento da expectativa de vida, o crescimento do uso de drogas tenotóxicas e o acesso errático à atividade física, essa lesão gera morbidade considerável aos pacientes qualquer seja o desfecho a ser considerado. A evolução das técnicas cirúrgicas e de reabilitação permitiu que ortopedistas, nos últimos anos, tivessem melhores condições para decidir a conduta mais apropriada nas roturas agudas do tendão calcâneo. Por mais que ainda frequentes pela sua alta taxa de negligência, as rupturas crônicas do Aquiles hoje encontram opções operatórias biológicas mais simples e são amparadas por um novo paradigma que se debruça sobre a especialidade.
Palavras-chave
tendão do calcâneo; ruptura tendínea; doença aguda; doença crônica
Introduction
Calcaneus Tendon Ruptures
The peculiar anatomy of the calcaneal tendon, which was duly explained in the first installment of this review article (Achilles Tendon Lesions – Part 1: Tendinopathies), was essential for human development, being one of the main protagonists in the progress of a quadruped into a biped animal. To obtain a firm and stable platform for bipedal gait, the hindfoot was rotated inferiorly to touch the ground, making the gastrocnemius one of the last muscles to stretch and gain power in the evolutionary process. The Achilles tendon can support up to 12 times the body weight during running and accounts for 93% of the ankle flexion torque.11 Amis J. The gastrocnemius: a new paradigm for the human foot and ankle. Foot Ankle Clin 2014;19(04):637-647
2 Komi PV. Relevance of in vivo force measurements to human biomechanics. J Biomech 1990;23(Suppl 1):23-34-33 Schmitt D. Insights into the evolution of human bipedalism from experimental studies of humans and other primates. J Exp Biol 2003;206(Pt 9):1437-1448
The microanatomy of the calcaneal tendon respects the organization of other human tendons. Up to 95% of its cellular component is formed by tenocytes and tenoblasts. These cells have different sizes and shapes and dispose themselves in long, parallel chains. A total of 90% of the extracellular element is composed of collagen tissue, predominantly type I (95%), organized in parallel bands bound by small proteoglycan molecules. About 2% is elastin, which accounts for the tendon deformation capacity before failure of up to 200%. Aging and the inability to provide optimal tissue healing modify this configuration, promoting the accumulation of mucin, fibrin and types III and VII collagen.44 Doral MN, Alam M, Bozkurt M, et al. Functional anatomy of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(05):638-643,55 Maffulli N, Barrass V, Ewen SWB. Light microscopic histology of achilles tendon ruptures. A comparisonwith unruptured tendons. Am J Sports Med 2000;28(06):857-863
The concentration of tissues devoid of native tensile, elastic and biological capacity weakens tendons and predisposes them to macroscopic tears. Authors stated that these tears would result from loads applied by a maximum muscle contraction in a tendon in its initial stretching phase. This risk would be potentiated by a failure in the ability of the body to control excessive and uncoordinated contractions, which are common findings in athletes under erratic training.66 Barfred T. Achilles tendon rupture. Aetiology and pathogenesis of subcutaneous rupture assessed on the basis of the literature and rupture experiments on rats. Acta Orthop Scand Suppl 1973;Suppl152:3-126
7 Inglis AE, Sculco TP. Surgical repair of ruptures of the tendo Achillis. Clin Orthop Relat Res 1981;(156):160-169-88 Egger AC, Berkowitz MJ. Achilles tendon injuries. Curr Rev Musculoskelet Med 2017;10(01):72-80 Reported rupture mechanisms occur mainly during the detachment phase (start of running or jumping) with the knee extended (53% of the cases), followed by inadvertent treading on a hole (17%) and abrupt extension of a flexed ankle (10%).99 Gross CE, Nunley JA II. Acute Achilles Tendon Ruptures. Foot Ankle Int 2016;37(02):233-239
Acute Achilles Tendon Ruptures
Epidemiology
The Achilles tendon is the most frequently ruptured tendon in the human body, with an annual incidence of 18 cases per 100,000 people.1010 Miller CP, Chiodo CP. Open Repair of Achilles Tendon Ruptures. Tech Foot Ankle Surg 2017;16:62-67 In 1575, Ambrose-Pare was the first to describe a treatment for acute Achilles rupture through immobilization and bandage.1111 Cetti R, Christensen SE, Ejsted R, Jensen NM, Jorgensen U. Operative versus nonoperative treatment of Achilles tendon rupture. A prospective randomized study and review of the literature. Am J Sports Med 1993;21(06):791-799 Since then, nonsurgical treatment was the choice until the early 20th century, when surgery was routinely indicated for acute calcaneal tendon ruptures. In the 1920s, Abrahamsen, Quenu and Stoianovitch reported the first positive results with tenorrhaphy in this type of injury.1212 Abrahamsen K. Ruptura Tendinis Achillis. Ugeskr Laeger 1923; 85:279-285
Clinical Features
During the initial assessment, a complete history and physical examination must be performed. Achilles tendon rupture presents three classic findings on clinical examination. These include weakness in ankle plantar flexion, a palpable gap of ∼ 4 to 6 cm proximal to the calcaneus and a positive Thompson sign for injury.1313 Hattrup SJ, Johnson KA. A review of ruptures of the Achilles tendon. Foot Ankle 1985;6(01):34-38 Soft tissue conditions should be evaluated for edema, bruising, previous incisions, and integrity of other flexor muscles. Pulses are palpated and, if absent, a vascular assessment should be considered. Medical comorbidities must also be identified, with emphasis on diabetes mellitus and history of poor wound healing and thromboembolic events.
Surgery, when indicated, can be performed up to 1 or even 2 weeks after the injury, allowing swelling resolution and facilitating the positioning of suture knots. Meanwhile, patients may be immobilized in slightly equinus, with or without weight-bearing, and limb elevation should be encouraged. A long orthopedic boot with hindfoot heels must be worn if weight-bearing is allowed.
Contraindications to open repair include nonambulatory status, severe peripheral arterial disease with soft tissue compromise, poorly controlled medical comorbidities, and inability to understand the specific postoperative rehabilitation. Smoking and diabetes are also relative contraindications due to the significant increase in postoperative complications.1414 Lantto I, Heikkinen J, Flinkkila T, et al. A Prospective Randomized Trial Comparing Surgical and Nonsurgical Treatments of Acute Achilles Tendon Ruptures. Am J Sports Med 2016;44(09):2406-2414
Subsidiary Exams
Ankle radiographs should be routinely obtained to ankle or posterior calcaneal tuberosity fractures, which change planning. Kager fat pad blur is an indirect sign of Achilles tendon injury.1515 Demetracopoulos CA, Gilbert SL, Young E, Baxter JR, Deland JT. Limited-Open Achilles Tendon Repair Using Locking Sutures Versus Nonlocking Sutures: An In Vitro Model. Foot Ankle Int 2014;35(06):612-618 Ultrasound (US) is the first test to be made when imaging confirmation is required. An US may even help the therapeutic decision. A recent study revealed that gaps > 10 mm at the first examination increased the risk of rerupture among nonsurgically treated patients. Patients submitted to a nonsurgical treatment and presenting gaps > 5 mm showed worse functional outcomes in 12 months.1616 Westin O, Nilsson Helander K, Grävare Silbernagel K, Möller M, Kälebo P, Karlsson J. Acute Ultrasonography Investigation to Predict Reruptures and Outcomes in Patients With an Achilles Tendon Rupture. Orthop J Sports Med 2016;4(10):2325967116667920
On specific occasions, a magnetic resonance imaging (MRI) may be performed to better assess the type of rupture, since oblique and longitudinal lesions require greater care in approach planning. Associated injuries, such as chronic Achilles tendinopathy, are also indications for more detailed examinations, as previous and severe degenerations may alter intra- and postoperative planning, including the need for reinforcement. Finally, MRI may be useful to identify additional changes in the clinical examination, such as an acute dislocation of the posterior tibial tendon in conjunction with ruptured Achilles tendon, for instance.1717 McCullough KA, Shaw CM, Anderson RB. Mini-open repair of achilles rupture in the national football league. J Surg Orthop Adv 2014;23(04):179-183
Nonsurgical Treatment
Historically, nonsurgical treatment has been characterized by higher rerupture rates and a lower plantarflexion strength. However, recent protocols using functional rehabilitation have produced better kinetic results and minor rerupture percentage.1818 Wilkins R, Bisson LJ. Operative versus nonoperative management of acute Achilles tendon ruptures: a quantitative systematic review of randomized controlled trials. Am J Sports Med 2012;40(09):2154-2160 Randomized controlled trials evaluated different forms of rehabilitation in nonsurgical treatment. Immediate protected loading with early functional training is recommended (Figure 1) to conservatively treated patients.1919 Barfod KW, Bencke J, Lauridsen HB, Ban I, Ebskov L, Troelsen A. Nonoperative dynamic treatment of acute achilles tendon rupture: the influence of early weight-bearing on clinical outcome: a blinded, randomized controlled trial. J Bone Joint Surg Am 2014;96(18):1497-1503 It should be performed with a stable immobilizing boot and appropriate shims to keep the ankle plantarflexed for the next 6 weeks. In services lacking quality functional rehabilitation programs, nonsurgical treatment should be an exception, since surgery decreases the risk of rerupture and loss of strength.2020 Soroceanu A, Sidhwa F, Aarabi S, Kaufman A, Glazebrook M. Surgical versus nonsurgical treatment of acute Achilles tendon rupture: a meta-analysis of randomized trials. J Bone Joint Surg Am 2012;94(23):2136-2143
Functional conservative treatment of an acute calcaneal tendon injury using immediate weight-bearing in a boot with edges to maintain the equinus.
Other randomized controlled trials with patients submitted to nonsurgical or surgical treatment and the same type of functional rehabilitation showed similar clinical and functional outcomes.2121 Deng S, Sun Z, Zhang C, Chen G, Li J. Surgical Treatment Versus Conservative Management for Acute Achilles Tendon Rupture: A Systematic Review and Meta-Analysis of Randomized Controlled Trials. J Foot Ankle Surg 2017;56(06):1236-1243 However, the peak force on isokinetic evaluation demonstrated that surgery (10–18% difference compared to the contralateral side) provides better rates over 18 months of follow-up. This trend is also seen in other high-quality studies evaluating muscle strength in detail.2222 Willits K, Amendola A, Bryant D, et al. Operative versus nonoperative treatment of acute Achilles tendon ruptures: a multicenter randomized trial using accelerated functional rehabilitation. J Bone Joint Surg Am 2010;92(17):2767-2775
23 Keating JF,Will EM. Operative versus non-operative treatment of acute rupture of tendo Achillis: a prospective randomised evaluation of functional outcome. J Bone Joint Surg Br 2011;93(08):1071-1078-2424 Nilsson-Helander K, Silbernagel KG, Thomeé R, et al. Acute achilles tendon rupture: a randomized, controlled study comparing surgical and nonsurgical treatments using validated outcome measures. Am J Sports Med 2010;38(11):2186-2193 In fact, the vast majority of patients will experience greater plantar flexion strength loss when the treatment is nonsurgical. However, this difference does not compromise their daily living activities, especially in nonathletes and functionally-treated patients.2222 Willits K, Amendola A, Bryant D, et al. Operative versus nonoperative treatment of acute Achilles tendon ruptures: a multicenter randomized trial using accelerated functional rehabilitation. J Bone Joint Surg Am 2010;92(17):2767-2775
23 Keating JF,Will EM. Operative versus non-operative treatment of acute rupture of tendo Achillis: a prospective randomised evaluation of functional outcome. J Bone Joint Surg Br 2011;93(08):1071-1078-2424 Nilsson-Helander K, Silbernagel KG, Thomeé R, et al. Acute achilles tendon rupture: a randomized, controlled study comparing surgical and nonsurgical treatments using validated outcome measures. Am J Sports Med 2010;38(11):2186-2193
Surgical Treatment
The treatment of acute Achilles tendon ruptures is controversial and there is no consensus in the literature regarding approach (nonsurgical versus surgical) and the ideal surgical technique.2525 Khan RJ, Fick D, Keogh A, Crawford J, Brammar T, Parker M. Treatment of acute achilles tendon ruptures. A meta-analysis of randomized, controlled trials. J Bone Joint Surg Am 2005;87(10):2202-2210 A Cochrane review assessing differences between these approaches reported that surgical repair significantly reduces the risk of Achilles tendon rerupture, despite the higher complication rates, including surgical wound infection.2626 Hsu AR, Jones CP, Cohen BE, DavisWH, Ellington JK, Anderson RB. Clinical Outcomes and Complications of Percutaneous Achilles Repair System Versus Open Technique for Acute Achilles Tendon Ruptures. Foot Ankle Int 2015;36(11):1279-1286 Guidelines from the American Academy of Orthopaedic Surgery (AAOS) provide moderate evidence that the nonsurgical approach has fewer complications, with higher rates of rerupture compared to the surgical repair; in addition, it states that minimally invasive techniques, that is, using smaller incisions, have lower complication rates compared to open repair.2727 Chiodo CP, Glazebrook M, Bluman EM, et al. American Academy of Orthopaedic Surgeons. American Academy of Orthopaedic Surgeons clinical practice guideline on treatment of Achilles tendon rupture. J Bone Joint Surg Am 2010;92(14):2466-2468
The traditional open repair consists of a longitudinal, posteromedial 5- to 8-cm incision centered in the rupture gap, with paratendon dissection, hematoma evacuation, tendon stump debridement and Krackow technique for Direct suturing and stump overlaping. Although this repair technique is biomechanically strong and has good overall outcomes, it has been associated with superficial and deep wound dehiscence. In this context, mini-open techniques are attractive as they minimize soft tissue damage and provide a solid and firm direct repair. These attributes allowed functional gain and reduced surgical complications.1919 Barfod KW, Bencke J, Lauridsen HB, Ban I, Ebskov L, Troelsen A. Nonoperative dynamic treatment of acute achilles tendon rupture: the influence of early weight-bearing on clinical outcome: a blinded, randomized controlled trial. J Bone Joint Surg Am 2014;96(18):1497-1503
The Achilles Percutaneous Repair System (PARS; Arthrex Inc., Naples, FL, USA) is a modern mini-open technique using a transverse skin incision of ∼ 2 cm in combination with the introduction of a slightly curved metal apparatus inside the paratendon to pass locking sutures. The technique allows minimal opening of deep tissues and provides great stability to the sutured tendon (Figure 2). Recently, the PARS technique has been shown to accelerate recovery and return time, as well to reduce surgical wound dehiscence rates.2828 Zhang YJ, Zhang C, Wang Q, Lin XJ. Augmented Versus Nonaugmented Repair of Acute Achilles Tendon Rupture: A Systematic Review and Meta-analysis. Am J Sports Med 2018;46(07):1767-1772
An acute Achilles rupture treated with a minimally invasive tenorrhaphy. Forks are introduced into the proximal stumps within the paratendon, while sutures are passed through the device.
A biomechanical comparison of PARS repair with the mini-open technique using only unlocked sutures revealed that PARS had the greatest strength in terms of cyclic loading and load until failure.2929 Wagner P, Wagner E, López M, Etchevers G, Valencia O, Guzmán-Venegas R. Proximal and Distal Failure Site Analysis in Percutaneous Achilles Tendon Rupture Repair. Foot Ankle Int 2019;40(12):1424-1429 A large recent series comparing 101 PARS and 169 traditional Achilles tendon open repairs reported that PARS significantly reduced operative duration; in addition, a larger number of PARS patients could return to regular physical activity 5 months after surgery compared with open repair. The overall rate of postoperative complications was 5% for PARS and 11% for open repair; most complications were related to dehiscence and infections. There were no cases of rerupture, sural neuritis or deep infection in the PARS group.2626 Hsu AR, Jones CP, Cohen BE, DavisWH, Ellington JK, Anderson RB. Clinical Outcomes and Complications of Percutaneous Achilles Repair System Versus Open Technique for Acute Achilles Tendon Ruptures. Foot Ankle Int 2015;36(11):1279-1286
Current studies do not support acute augmentation in calcaneal tendon ruptures. A recent systematic review with meta-analysis with 169 participants (83 with reinforcement and 86 with isolated Achilles suture) showed that there were no differences in satisfaction, rerupture rates and complication rates.2828 Zhang YJ, Zhang C, Wang Q, Lin XJ. Augmented Versus Nonaugmented Repair of Acute Achilles Tendon Rupture: A Systematic Review and Meta-analysis. Am J Sports Med 2018;46(07):1767-1772
It is worth noting that the literature has also favored early and functional rehabilitation over isolated immobilization in the first postoperative weeks, regardless of the technique used.2929 Wagner P, Wagner E, López M, Etchevers G, Valencia O, Guzmán-Venegas R. Proximal and Distal Failure Site Analysis in Percutaneous Achilles Tendon Rupture Repair. Foot Ankle Int 2019;40(12):1424-1429 Generally speaking, the postoperative protocol for both open and mini-open surgical approaches is the same. Patients are kept in ∼ 20° of plantar flexion, or symmetrical to the healthy side, for 2 weeks. Next, a removable boot is placed with Achilles-specific shims.3030 Ellison P, Molloy A, Mason LW. Early ProtectedWeightbearing for Acute Ruptures of the Achilles Tendon: Do Commonly Used Orthoses Produce the Required Equinus? J Foot Ankle Surg 2017;56(05):960-963 Sutures are removed after 3 weeks, and flexion is reduced from the 4th to the 6th week. We believe that Achilles tendon protection during the first 4 weeks is crucial due to the potential for tendon stretching. In athletic patients, onset of weight-bearing in equinus at week 2 has resulted in safe and rapid return to sports.1717 McCullough KA, Shaw CM, Anderson RB. Mini-open repair of achilles rupture in the national football league. J Surg Orthop Adv 2014;23(04):179-183 The goal is that patients achieve full weight-bearing in neutral by the end of the 6th or 7th week. Between weeks 8 and 12, patients started wearing regular shoes, avoiding ankle extension beyond the neutral position, using an internal heel heel edge for elevation and protection. Activities such as running and jumping are usually allowed after 16 weeks, and 5 to 6 months are required for full return to sports.
The surgeon must decide which surgical technique to use based on his/her individual analysis of each patient, and especially on his/her technical ability and experience. However, increasing evidence should be considered that less invasive techniques may be superior to the classic treatment for acute Achilles tendon tears. Treatment modality indications based on currently available scientific evidence are summarized in Table 1.
Chronic Achilles Tendon Ruptures
Epidemiology
Although common, Achilles rupture still has a diagnostic failure rate at the first medical evaluation of 20% to 25%, resulting in delayed diagnosis and treatment, which contribute to an increased prevalence of chronic cases.3131 Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728,3232 Malagelada F, Clark C, Dega R. Management of chronic Achilles tendon ruptures-A review. Foot 2016;28:54-60 This high percentage has several causes, including that these patients do not seek medical attention (many people credit symptoms to a minor muscle injury); in addition, many individuals are unable to access specialized health services and many professionals cannot make a correct, early diagnosis. .3333 Maffulli N, Ajis A, Longo UG, Denaro V. Chronic rupture of tendo Achillis. Foot Ankle Clin 2007;12(04):583-596, vi,3434 Den Hartog BD. Surgical strategies: delayed diagnosis or neglected achilles' tendon ruptures. Foot Ankle Int 2008;29(04):456-463
Some criteria may be used to define chronic lesions, including the existence of fibrous scar tissue interposed between stumps, the presence of a large defect after separation and retraction of the stumps, time elapsed from lesion occurrence to diagnosis > 6 weeks or symptoms of weakness and difficulty in walking and climbing stairs.3131 Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728,3232 Malagelada F, Clark C, Dega R. Management of chronic Achilles tendon ruptures-A review. Foot 2016;28:54-60,3535 Vernois J, Bendall S, Ferraz L, Redfern D. Arthroscopic FHL harvest and transfer for neglected TA rupture. Tech Foot Ankle Surg 2016;15(01):32-38
Pathophysiology
Tendon rupture causes a natural separation between its ends. Right after injury, local bleeding and regional inflammatory signaling lead to the start of reparative tissue formation.3636 Carden DG, Noble J, Chalmers J, Lunn P, Ellis J. Rupture of the calcaneal tendon. The early and late management. J Bone Joint Surg Br 1987;69(03):416-420 Persistence of muscle contraction and local mobilization promotes a proximal migration of the triceps and consequent adherence of the stumps to the paratendon and adjacent tissues.3131 Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728 An elongated fibrous scar tissue, with no mechanical capability, usually forms at the rupture zone. In some cases, there is no healing scarring formation and a major defect is established. Whatever the outcome, there is a substantial sural tricipital weakness due to musculotendinous unit stretching or the lack of communication between origin and attachment.3737 Myerson MS. Achilles tendon ruptures. Instr Course Lect 1999; 48:219-230,3838 Schweitzer KM Jr, Dekker TJ, Adams SB. Chronic Achilles Ruptures: Reconstructive Options. J Am Acad Orthop Surg 2018;26(21):753-763
Clinical Features
As a result of the time elapsed after the initial injury, many patients do not complain of posterior leg pain or swelling. The evolution of the condition commonly leads these individuals to seek care for plantar ankle flexion weakness. Although intact due to the secondary plantarflexors integrity, this force is extremely amortized by the functional main role of the triceps surae. This impairment directly affects daily activities of patients, as it can incapacitate them to stand on tiptoe or walk with quality.3131 Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728,3939 Steginsky BD, Van Dyke B, Berlet GC. The Missed Achilles Tear: Now what? Foot Ankle Clin 2017;22(04):715-734
The rich propaedeutic of an acute rupture may not be present in chronic lesions. An irregular gait can be observed, along with ipsilateral stride shortening, intermediate phase and second rocker increase and absence of a good limb detachment. The classic gap may not be palpable due the presence of a regional scar tissue, which may also confuse the Thompson test. Leg muscle hypotrophy is evident and the Matles test reveals asymmetry between evaluated sides, corroborating the presence of the lesion.3838 Schweitzer KM Jr, Dekker TJ, Adams SB. Chronic Achilles Ruptures: Reconstructive Options. J Am Acad Orthop Surg 2018;26(21):753-763,3939 Steginsky BD, Van Dyke B, Berlet GC. The Missed Achilles Tear: Now what? Foot Ankle Clin 2017;22(04):715-734
Subsidiary Exams
Although the diagnosis is essentially clinical, some ancillary tests are helpful for picturing the condition and plan the treatment. Lateral radiographs may reveal insertional ruptures with posterior calcaneal tuberosity avulsions. An ankle MRI is restricted to cases of diagnostic doubt. Ultrasonography has been used to evaluate musculotendinous stretching, with incipient results. An isokinetic study may contribute to determine clinical weakness in patients with more not so exuberant presentations and assist in the therapeutic decision.3939 Steginsky BD, Van Dyke B, Berlet GC. The Missed Achilles Tear: Now what? Foot Ankle Clin 2017;22(04):715-734,4040 de Cesar Netto C, Chinanuvathana A, Fonseca LFD, Dein EJ, Tan EW, Schon LC. Outcomes of flexor digitorum longus (FDL) tendon transfer in the treatment of Achilles tendon disorders. Foot Ankle Surg 2019;25(03):303-309
As knowledge evolved, the advent of a leg MRI became crucial when studying patients with chronic Achilles tendon ruptures. Previous studies have shown changes in the bipenation angle and muscle fatty infiltration over the course of this condition, as discussed in the tendinopathy chapter (Achilles Tendon Lesions – Part 1: Tendinopathies). Grade 0 and 1 fatty infiltrations (adapted Goutallier classification) in the triceps surae permits reconstructive tendon procedures because the muscle is still functional. Grade 2, 3 or 4 fatty degeneration demands substitution procedures with tendon transfers, since the gastrosoleus muscle complex display irreversible losses.3939 Steginsky BD, Van Dyke B, Berlet GC. The Missed Achilles Tear: Now what? Foot Ankle Clin 2017;22(04):715-734,4141 Maffulli N, Oliva F, Maffulli GD, Buono AD, Gougoulias N. Surgical management of chronic Achilles tendon ruptures using less invasive techniques. Foot Ankle Surg 2018;24(02):164-170
Nonsurgical Treatment
There is almost no space for conservative treatment in patients with chronic Achilles tendon ruptures due to the high degree of limitation and weakness of the posterior superficial compartment of the leg. Nonsurgical treatment must be reserved for patients with severe comorbidities and absolute contraindications to any surgery. Conservative treatment is based on strengthening of the secondary ankle flexors (hallux, toes, fibularis, posterior tibialis) strengthening and in the use of anterior orthoses (AFO) that limit ankle hyperextension and calcaneal gait.3131 Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728,3333 Maffulli N, Ajis A, Longo UG, Denaro V. Chronic rupture of tendo Achillis. Foot Ankle Clin 2007;12(04):583-596, vi
Even patients with low demand or underlying diseases that impair tissue healing (vasculopathies, diabetes, smokers, rheumatic diseases etc.) may benefit substantially from a procedure, especially when considering the less invasive options available today. The necessity of surgery in patients with these profiles due the condition elevated functional disability is another strong argument in favor of policies that prevents neglected cases. This population could benefit from a positive outcome if they were submitted to the correct nonsurgical treatment after an acute injury.4141 Maffulli N, Oliva F, Maffulli GD, Buono AD, Gougoulias N. Surgical management of chronic Achilles tendon ruptures using less invasive techniques. Foot Ankle Surg 2018;24(02):164-170,4242 Maffulli N, Via AG, Oliva F. Chronic Achilles Tendon Rupture. Open Orthop J 2017;11(01):660-669
Surgical Treatment
Traditionally, the surgical technique is chosen based on the size of the defect observed after stump debridement and release. These flowcharts are based on expert opinions (level V) and the proposed surgeries are supported only by level IV evidence studies. There is still no consensus on the best technique for these ruptures.3737 Myerson MS. Achilles tendon ruptures. Instr Course Lect 1999; 48:219-230,4343 Kuwada GT. Classification of tendo Achillis rupture with consideration of surgical repair techniques. J Foot Surg 1990;29(04):361-365
Minor failures (up to 2 cm) can be treated with direct sutures after posterior compartment releases. Moderate defects (2 to 6 cm) can be managed with an V-Y lengthening, local flaps or tendon transfers. Larger lesions (> 6 cm) require allografts, synthetic grafts, releases, flaps or a combination of these methods.4343 Kuwada GT. Classification of tendo Achillis rupture with consideration of surgical repair techniques. J Foot Surg 1990;29(04):361-365,4444 Maffulli N, Loppini M, Longo UG, Maffulli GD, Denaro V. Minimally invasive reconstruction of chronic achilles tendon ruptures using the ipsilateral free semitendinosus tendon graft and interference screw fixation. Am J Sports Med 2013;41(05):1100-1107 However, these classic approaches have complication rates of up to 72%, including dehiscence, infection, donor morbidity and loss of strength. The high rate of problems due the long incisions and adherences has led researchers in pursuit for options with less local aggressiveness.4545 Maffulli N, Longo UG, Spiezia F, Denaro V. Free hamstrings tendon transfer and interference screw fixation for less invasive reconstruction of chronic avulsions of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(02):269-273
Current articles move towards procedures that respect local biology and the quality of the gastrosoleus complex musculature. In the presence of grade 0 or 1 fatty infiltrations, attempts for muscle unit salvage using tendon reconstruction are valid. In grade 2, 3 or 4 degeneration, the irrevocable muscular condition compels the surgeon to look for triceps surae substitutes.4646 Fischer MA, Pfirrmann CWA, Espinosa N, Raptis DA, Buck FM. Dixon-based MRI for assessment of muscle-fat content in phantoms, healthy volunteers and patients with achillodynia: comparison to visual assessment of calf muscle quality. Eur Radiol 2014;24(06):1366-1375
47 Hoffmann A, Mamisch N, Buck FM, Espinosa N, Pfirrmann CW, Zanetti M. Oedema and fatty degeneration of the soleus and gastrocnemiusmuscles on MR images in patients with Achilles tendon abnormalities. Eur Radiol 2011;21(09):1996-2003-4848 Rahm S, Spross C, Gerber F, Farshad M, Buck FM, Espinosa N. Operative treatment of chronic irreparable Achilles tendon ruptures with large flexor hallucis longus tendon transfers. Foot Ankle Int 2013;34(08):1100-1110
Maffulli et al4545 Maffulli N, Longo UG, Spiezia F, Denaro V. Free hamstrings tendon transfer and interference screw fixation for less invasive reconstruction of chronic avulsions of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(02):269-273 published a series of papers using free grafts for chronically ruptured Achilles tendons reconstruction through small incisions with the preservation of the skin bridge over the tendon sacar (or gap). These authors reported good results and opened possibilities for less morbid techniques. The proximal tendon stump (in a good quality muscle) is prepared with the free graft (e.g., semitendinosus) and the construct is fixed to the posterior and distal region of the posterior calcaneal tuberosity (Figure 3) through a tunnel with an interference screw.4545 Maffulli N, Longo UG, Spiezia F, Denaro V. Free hamstrings tendon transfer and interference screw fixation for less invasive reconstruction of chronic avulsions of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(02):269-273,4949 Asaumi I, Nery C, Raduan F, MansurN, Apostolico Netto A, LoTurco D. Amodified Maffulli technique for Achilles Tendon lesions. Foot Ankle Surg 2017;23:151
Reconstruction of a chronic calcaneal tendon injury using an autologous semitendinosus graft in a viable muscle semitendinosus autograft in viable muscle.
Different donor tendons are reported for transfers in chronic calcaneal tendon ruptures. Today, it is understood that this indication is more focused on muscles with fatty degeneration and no functionality for a potential reconstruction. The choice between flexor hallucis longus (FHL), extensor digitorum longus or peroneal brevis should be based on the quality of local tissues, the functional characteristics of each patient and the expected transposition losses (loss of toe-off and sprint strength, loss of power in the toes, loss of a secondary lateral ankle stabilizer). No technique showed superiority to another, despite the more frequent use of FLH, which is preferred by many authors. Less invasive techniques have also been used for transfers, currently with the possibility of endoscopic FLH transposition (Figure 4).5050 Baumfeld D, Baumfeld T, Figueiredo AR, et al. Endoscopic Flexor Halluces Longus transfer for Chronic Achilles Tendon rupture - technique description and early post-operative results. Muscles Ligaments Tendons J 2017;7(02):341-346 51 Wapner KL, Pavlock GS, Hecht PJ, Naselli F, Walther R. Repair of chronic Achilles tendon rupture with flexor hallucis longus tendon transfer. Foot Ankle 1993;14(08):443-449
51 Wapner KL, Pavlock GS, Hecht PJ, Naselli F, Walther R. Repair of chronic Achilles tendon rupture with flexor hallucis longus tendon transfer. Foot Ankle 1993;14(08):443-449
52 Oksanen MM, Haapasalo HH, Elo PP, Laine HJ. Hypertrophy of the flexor hallucis longus muscle after tendon transfer in patients with chronic Achilles tendon rupture. Foot Ankle Surg 2014;20(04):253-257
53 Den Hartog BD. Flexor hallucis longus transfer for chronic Achilles tendonosis. Foot Ankle Int 2003;24(03):233-237-5454 Gossage W, Kohls-Gatzoulis J, Solan M. Endoscopic assisted repair of chronic achilles tendon rupture with flexor hallucis longus augmentation. Foot Ankle Int 2010;31(04):343-347 Treatment indications based on currently available scientific evidence are summarized in Table 2.
Endoscopic transfer of the flexor hallucis longus to the posterior calcaneal tuberosity in a patient with chronic Achilles injury and fatty infiltrated triceps.
Final Considerations
The past two decades have been critical to the progress of knowledge about acute Achilles tendon tears. The evolution of surgical techniques, nonoperative treatment and rehabilitation has shed light on a topic of interest and increasing incidence. The excellent results that can be obtained with current therapeutic modalities provide good conditions to decide the best treatment for an specific individual. Current publications offer grade “B” of recommendation for functional nonsurgical treatment and grade “A” for both open and minimally invasive tenorrhaphy. Whatever the choice, it should be followed by a dynamic rehabilitation protocol addressing early controlled mobility and weight-bearing.
Although with less exuberance, the science involving chronic Achilles tendon ruptures also had developments. Negligence prevention policies, which would decrease the need for major reconstructive procedures, remain virtually nonexistent. However, the morbidity of traditional techniques has been supplanted by surgeries with greater respect for local biology and muscle quality. Even observing that maximum degree of recommendation is “C” for such surgical treatments, these procedures have allowed more encouraging and much better functional results than those reported in the past.
References
-
1Amis J. The gastrocnemius: a new paradigm for the human foot and ankle. Foot Ankle Clin 2014;19(04):637-647
-
2Komi PV. Relevance of in vivo force measurements to human biomechanics. J Biomech 1990;23(Suppl 1):23-34
-
3Schmitt D. Insights into the evolution of human bipedalism from experimental studies of humans and other primates. J Exp Biol 2003;206(Pt 9):1437-1448
-
4Doral MN, Alam M, Bozkurt M, et al. Functional anatomy of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(05):638-643
-
5Maffulli N, Barrass V, Ewen SWB. Light microscopic histology of achilles tendon ruptures. A comparisonwith unruptured tendons. Am J Sports Med 2000;28(06):857-863
-
6Barfred T. Achilles tendon rupture. Aetiology and pathogenesis of subcutaneous rupture assessed on the basis of the literature and rupture experiments on rats. Acta Orthop Scand Suppl 1973;Suppl152:3-126
-
7Inglis AE, Sculco TP. Surgical repair of ruptures of the tendo Achillis. Clin Orthop Relat Res 1981;(156):160-169
-
8Egger AC, Berkowitz MJ. Achilles tendon injuries. Curr Rev Musculoskelet Med 2017;10(01):72-80
-
9Gross CE, Nunley JA II. Acute Achilles Tendon Ruptures. Foot Ankle Int 2016;37(02):233-239
-
10Miller CP, Chiodo CP. Open Repair of Achilles Tendon Ruptures. Tech Foot Ankle Surg 2017;16:62-67
-
11Cetti R, Christensen SE, Ejsted R, Jensen NM, Jorgensen U. Operative versus nonoperative treatment of Achilles tendon rupture. A prospective randomized study and review of the literature. Am J Sports Med 1993;21(06):791-799
-
12Abrahamsen K. Ruptura Tendinis Achillis. Ugeskr Laeger 1923; 85:279-285
-
13Hattrup SJ, Johnson KA. A review of ruptures of the Achilles tendon. Foot Ankle 1985;6(01):34-38
-
14Lantto I, Heikkinen J, Flinkkila T, et al. A Prospective Randomized Trial Comparing Surgical and Nonsurgical Treatments of Acute Achilles Tendon Ruptures. Am J Sports Med 2016;44(09):2406-2414
-
15Demetracopoulos CA, Gilbert SL, Young E, Baxter JR, Deland JT. Limited-Open Achilles Tendon Repair Using Locking Sutures Versus Nonlocking Sutures: An In Vitro Model. Foot Ankle Int 2014;35(06):612-618
-
16Westin O, Nilsson Helander K, Grävare Silbernagel K, Möller M, Kälebo P, Karlsson J. Acute Ultrasonography Investigation to Predict Reruptures and Outcomes in Patients With an Achilles Tendon Rupture. Orthop J Sports Med 2016;4(10):2325967116667920
-
17McCullough KA, Shaw CM, Anderson RB. Mini-open repair of achilles rupture in the national football league. J Surg Orthop Adv 2014;23(04):179-183
-
18Wilkins R, Bisson LJ. Operative versus nonoperative management of acute Achilles tendon ruptures: a quantitative systematic review of randomized controlled trials. Am J Sports Med 2012;40(09):2154-2160
-
19Barfod KW, Bencke J, Lauridsen HB, Ban I, Ebskov L, Troelsen A. Nonoperative dynamic treatment of acute achilles tendon rupture: the influence of early weight-bearing on clinical outcome: a blinded, randomized controlled trial. J Bone Joint Surg Am 2014;96(18):1497-1503
-
20Soroceanu A, Sidhwa F, Aarabi S, Kaufman A, Glazebrook M. Surgical versus nonsurgical treatment of acute Achilles tendon rupture: a meta-analysis of randomized trials. J Bone Joint Surg Am 2012;94(23):2136-2143
-
21Deng S, Sun Z, Zhang C, Chen G, Li J. Surgical Treatment Versus Conservative Management for Acute Achilles Tendon Rupture: A Systematic Review and Meta-Analysis of Randomized Controlled Trials. J Foot Ankle Surg 2017;56(06):1236-1243
-
22Willits K, Amendola A, Bryant D, et al. Operative versus nonoperative treatment of acute Achilles tendon ruptures: a multicenter randomized trial using accelerated functional rehabilitation. J Bone Joint Surg Am 2010;92(17):2767-2775
-
23Keating JF,Will EM. Operative versus non-operative treatment of acute rupture of tendo Achillis: a prospective randomised evaluation of functional outcome. J Bone Joint Surg Br 2011;93(08):1071-1078
-
24Nilsson-Helander K, Silbernagel KG, Thomeé R, et al. Acute achilles tendon rupture: a randomized, controlled study comparing surgical and nonsurgical treatments using validated outcome measures. Am J Sports Med 2010;38(11):2186-2193
-
25Khan RJ, Fick D, Keogh A, Crawford J, Brammar T, Parker M. Treatment of acute achilles tendon ruptures. A meta-analysis of randomized, controlled trials. J Bone Joint Surg Am 2005;87(10):2202-2210
-
26Hsu AR, Jones CP, Cohen BE, DavisWH, Ellington JK, Anderson RB. Clinical Outcomes and Complications of Percutaneous Achilles Repair System Versus Open Technique for Acute Achilles Tendon Ruptures. Foot Ankle Int 2015;36(11):1279-1286
-
27Chiodo CP, Glazebrook M, Bluman EM, et al. American Academy of Orthopaedic Surgeons. American Academy of Orthopaedic Surgeons clinical practice guideline on treatment of Achilles tendon rupture. J Bone Joint Surg Am 2010;92(14):2466-2468
-
28Zhang YJ, Zhang C, Wang Q, Lin XJ. Augmented Versus Nonaugmented Repair of Acute Achilles Tendon Rupture: A Systematic Review and Meta-analysis. Am J Sports Med 2018;46(07):1767-1772
-
29Wagner P, Wagner E, López M, Etchevers G, Valencia O, Guzmán-Venegas R. Proximal and Distal Failure Site Analysis in Percutaneous Achilles Tendon Rupture Repair. Foot Ankle Int 2019;40(12):1424-1429
-
30Ellison P, Molloy A, Mason LW. Early ProtectedWeightbearing for Acute Ruptures of the Achilles Tendon: Do Commonly Used Orthoses Produce the Required Equinus? J Foot Ankle Surg 2017;56(05):960-963
-
31Padanilam TG. Chronic Achilles tendon ruptures. Foot Ankle Clin 2009;14(04):711-728
-
32Malagelada F, Clark C, Dega R. Management of chronic Achilles tendon ruptures-A review. Foot 2016;28:54-60
-
33Maffulli N, Ajis A, Longo UG, Denaro V. Chronic rupture of tendo Achillis. Foot Ankle Clin 2007;12(04):583-596, vi
-
34Den Hartog BD. Surgical strategies: delayed diagnosis or neglected achilles' tendon ruptures. Foot Ankle Int 2008;29(04):456-463
-
35Vernois J, Bendall S, Ferraz L, Redfern D. Arthroscopic FHL harvest and transfer for neglected TA rupture. Tech Foot Ankle Surg 2016;15(01):32-38
-
36Carden DG, Noble J, Chalmers J, Lunn P, Ellis J. Rupture of the calcaneal tendon. The early and late management. J Bone Joint Surg Br 1987;69(03):416-420
-
37Myerson MS. Achilles tendon ruptures. Instr Course Lect 1999; 48:219-230
-
38Schweitzer KM Jr, Dekker TJ, Adams SB. Chronic Achilles Ruptures: Reconstructive Options. J Am Acad Orthop Surg 2018;26(21):753-763
-
39Steginsky BD, Van Dyke B, Berlet GC. The Missed Achilles Tear: Now what? Foot Ankle Clin 2017;22(04):715-734
-
40de Cesar Netto C, Chinanuvathana A, Fonseca LFD, Dein EJ, Tan EW, Schon LC. Outcomes of flexor digitorum longus (FDL) tendon transfer in the treatment of Achilles tendon disorders. Foot Ankle Surg 2019;25(03):303-309
-
41Maffulli N, Oliva F, Maffulli GD, Buono AD, Gougoulias N. Surgical management of chronic Achilles tendon ruptures using less invasive techniques. Foot Ankle Surg 2018;24(02):164-170
-
42Maffulli N, Via AG, Oliva F. Chronic Achilles Tendon Rupture. Open Orthop J 2017;11(01):660-669
-
43Kuwada GT. Classification of tendo Achillis rupture with consideration of surgical repair techniques. J Foot Surg 1990;29(04):361-365
-
44Maffulli N, Loppini M, Longo UG, Maffulli GD, Denaro V. Minimally invasive reconstruction of chronic achilles tendon ruptures using the ipsilateral free semitendinosus tendon graft and interference screw fixation. Am J Sports Med 2013;41(05):1100-1107
-
45Maffulli N, Longo UG, Spiezia F, Denaro V. Free hamstrings tendon transfer and interference screw fixation for less invasive reconstruction of chronic avulsions of the Achilles tendon. Knee Surg Sports Traumatol Arthrosc 2010;18(02):269-273
-
46Fischer MA, Pfirrmann CWA, Espinosa N, Raptis DA, Buck FM. Dixon-based MRI for assessment of muscle-fat content in phantoms, healthy volunteers and patients with achillodynia: comparison to visual assessment of calf muscle quality. Eur Radiol 2014;24(06):1366-1375
-
47Hoffmann A, Mamisch N, Buck FM, Espinosa N, Pfirrmann CW, Zanetti M. Oedema and fatty degeneration of the soleus and gastrocnemiusmuscles on MR images in patients with Achilles tendon abnormalities. Eur Radiol 2011;21(09):1996-2003
-
48Rahm S, Spross C, Gerber F, Farshad M, Buck FM, Espinosa N. Operative treatment of chronic irreparable Achilles tendon ruptures with large flexor hallucis longus tendon transfers. Foot Ankle Int 2013;34(08):1100-1110
-
49Asaumi I, Nery C, Raduan F, MansurN, Apostolico Netto A, LoTurco D. Amodified Maffulli technique for Achilles Tendon lesions. Foot Ankle Surg 2017;23:151
-
50Baumfeld D, Baumfeld T, Figueiredo AR, et al. Endoscopic Flexor Halluces Longus transfer for Chronic Achilles Tendon rupture - technique description and early post-operative results. Muscles Ligaments Tendons J 2017;7(02):341-346 51 Wapner KL, Pavlock GS, Hecht PJ, Naselli F, Walther R. Repair of chronic Achilles tendon rupture with flexor hallucis longus tendon transfer. Foot Ankle 1993;14(08):443-449
-
51Wapner KL, Pavlock GS, Hecht PJ, Naselli F, Walther R. Repair of chronic Achilles tendon rupture with flexor hallucis longus tendon transfer. Foot Ankle 1993;14(08):443-449
-
52Oksanen MM, Haapasalo HH, Elo PP, Laine HJ. Hypertrophy of the flexor hallucis longus muscle after tendon transfer in patients with chronic Achilles tendon rupture. Foot Ankle Surg 2014;20(04):253-257
-
53Den Hartog BD. Flexor hallucis longus transfer for chronic Achilles tendonosis. Foot Ankle Int 2003;24(03):233-237
-
54Gossage W, Kohls-Gatzoulis J, Solan M. Endoscopic assisted repair of chronic achilles tendon rupture with flexor hallucis longus augmentation. Foot Ankle Int 2010;31(04):343-347
Publication Dates
-
Publication in this collection
03 Feb 2021 -
Date of issue
Nov-Dec 2020
History
-
Received
10 Sept 2019 -
Accepted
05 Dec 2019