Clubfoot (talipes equinovarus) is a congenital deformity involving the foot, otherwise known as congenital talipes equinovarus. It is among the most common congenital deformities and appears with varying degrees and severity of predictable contractures manifesting with four main deformities:
Clubfoot demonstrates excellent success rates in correction and overall patient outcomes if recognized early and treated appropriately. Thus, its recognition and diagnosis early on in the infant's life facilitate an ideal outcome long-term.
Although the exact etiology remains debated, the consensus favors multiple genetic and environmental risk factors that play varying levels of contributing roles in its clinical manifestations.
Environmental factors such as maternal smoking and maternal diabetes have the strongest association with clubfoot. Maternal alcohol consumption may also have an association. Seasonal variation has also been described, with a possible causative theory being variation in maternal temperature during embryonic development. In utero positioning has also been cited throughout the literature.
Genetics likely has a role to play, although a specific gene alteration remains unclear. Research shows that 24.4% of cases have an associated family history, though it has not identified a definite mode of inheritance. Studies of monozygotic twins have shown a concordance of 33% in comparison to 3% in dizygotic twins. In 20% of cases, clubfoot presents in association with at least one of the following conditions:
Approximately 7% of clubfoot cases will have another anomaly at birth, and 7.6% will have a neurodevelopmental condition of some degree.
Clubfoot has a reported incidence of between 0.5 and 2 cases per 1000 births. Certain ethnicities, such as the Hawaiians and Maori, demonstrate a predilection for higher prevalence rates, with the latter population cited at up to 6.8 per 1000 births.
Males are twice as likely as females to be born with a clubfoot, and cases are bilateral in approximately 50% of cases. In unilateral cases, the right is most commonly affected.
In clubfoot, the deformity predominantly exists in the tarsal bones, which are often in a position of maximal flexion and adduction. Clubfoot presentations vary from mild, postural forms to severe, rigid deformity.
The talus is characteristically medially deviated and in plantarflexion, while the calcaneus is in varus and is rotated medially around the talus. The navicular and the cuboid are displaced medially.
Clubfoot is often identifiable during routine intrauterine ultrasound of the fetus during the antenatal period. However, in countries without a prenatal ultrasound screening program, initial identification will usually occur at birth or during newborn screening.
During an examination of the foot, there are distinctive deformities associated with clubfoot. These include midfoot cavus, forefoot adductus, hindfoot varus as well as hindfoot equinus. These deformities may vary relative to the extent of deformity and their stiffness.
The above deformities are gradable to ascertain the severity of the clubfoot. Numerous scoring systems exist; however, the Pirani system is the most common system used, having demonstrated to be easily reproducible and reliable.
The Pirani system involves assessing six separate parameters in the foot. Each parameter is individually scored 0, 0.5, or 1 depending on severity. This ranking gives a minimum score per foot of 0, and a maximum of 6. Three parameters involve the hindfoot, and three involve the midfoot. The details are listed below:
Correct equinus deformity and assess crease over the posterior aspect of Achilles tendon.
Correct equinus as much as able with the knee in extension.
Palpate directly over calcaneum posteriorly.
Correct cavus deformity by gently lifting the 2nd toe and assess medial plantar crease.
Curved lateral border of the foot:
The examiner holds a pen or other straight object along the lateral border of the calcaneus.
Lateral head of the talus:
Palpate head of the talus and passively correct the clubfoot deformity to feel if the:
A higher Pirani score at the beginning of treatment correlates with an increase in the number of casts required as well as an increased requirement for Achilles tenotomy. Therefore the scoring system can be used for counseling of the family, as well as for monitoring the progressive correction of the deformity.
In unilateral cases, the affected foot is often smaller than the contralateral side, and the calf may appear underdeveloped. In up to 80% of patients, clubfoot appears to be an isolated deformity, although in the other in 20% of cases, it may be seen in association with other conditions such as arthrogryposis or diastrophic dysplasia.
Clubfoot may be associated with specific syndromes and deformities; therefore, care is necessary to examine the baby comprehensively and appropriately. The clinician should direct particular attention to the back for evidence of spina bifida or myelomeningocele.
In syndromes affecting collagen such as arthrogryposis, a deformity may also be evident in other joints. For example, Larsen syndrome can present in association with clubfoot patients.
Hips should have appropriate screening for developmental dysplasia. Though there is no clear causative link yet found, research has identified a correlation. Patients with clubfoot are approximately 25 times more likely to have developmental dysplasia of the hip than those without dysplasia.
Clubfoot deformity is usually identified either on prenatal ultrasound or on clinical evaluation at birth. Radiographs of the foot are of little benefit during the immediate postnatal period, as many of the tarsal bones will not have started ossification.
In older children with either a delayed presentation or incomplete correction, weight-bearing radiographs may help assess the severity of the residual deformity. AP films may show parallelism of the talus and calcaneus, with a talocalcaneal angle of fewer than 20 degrees. An AP film may also identify a negative talus-first metatarsal angle with the apex-lateral malalignment.
In patients where an underlying syndromic condition is suspected, then a genetic investigation may be appropriate.
Ponseti technique for correcting clubfoot deformity was developed in the 1940s and remained the gold standard for treatment. This procedure involves two phases of treatment, the first being the serial casting of the foot, and the second is the maintenance of the correction. Casting should ideally begin in the first week or two following birth, but this technique can be used up to the age of 2 years. Casts are changed every 5 to 7 days, and typically 5 to 9 casts are required depending on the stiffness of the foot. This process allows sufficient time for soft tissue remodeling.
Plaster of Paris is typically the substance used for casting as it is relatively cheap and easily moldable in comparison to other casting materials such as fiberglass. Casts need to extend above the knee, with approximately 110 degrees of flexion at the knee to prevent the cast from slipping.
Correction of the deformity needs to occur in a stepwise manner to sequentially correct the three-dimensional deformity. Following gentle manipulation, the first casting stage involves correcting the cavus by elevating the first metatarsal, which will adjust the alignment of the forefoot with the hindfoot.
Once the cavus has undergone sufficient correction, the next stage is the abduction of the forefoot around the talus. The head of the talus requires clinical identification via palpation to do this safely. Abduction of up to 60 degrees relative to the tibia may be possible with sequential casting. Through abduction of the forefoot, the hindfoot varus will also get corrected. Varus should not have correction attempted through direct pressure on the hindfoot. Pronation should also be avoided during the casting process as it may prevent the abduction of the calcaneus and recreate a cavus deformity.
Once full abduction has been achieved, the foot can then be brought up into dorsiflexion. If dorsiflexion remains less than 10 degrees, then percutaneous Achilles tenotomy is indicated. Approximately 80% of patients will require a percutaneous tenotomy. This process is performable under local anesthesia in a clinic environment once appropriate counseling of the family has taken place. Following percutaneous Achilles tenotomy, a final cast is applied with approximately 60 degrees of abduction and 20 degrees of dorsiflexion for three weeks.
Bracing is the second phase of treatment, which maintains the correction achieved. Ponseti protocol recommends abduction bracing with boot and bar, and this should commence immediately after the final cast. The patient should wear the brace should be worn 24 hours per day for the first three months, reducing to 12 hours at night with 2 to 4 hours during the day up to 4 years of age. The boot positioning should be shoulder-width apart, and the affected foot in 70 degrees of external rotation.
Compliance with bracing is crucial, and appropriate counseling and support are essential. With poor compliance, there are recurrence rates of up to 80% reported, in comparison to 6% in those who are compliant. Close observation is required, and if there is evidence of early recurrence, then a further period of casting should commence.
Surgical intervention may be required those with residual deformities or recurrent relapses. Tibialis anterior transfer is indicated if the child is over 30 months old and develops dynamic supination. Tibialis anterior may overpower the weakened personals, and its transfer to the lateral cuneiform aims to balance the foot. Its transfer is necessary in approximately 20% of cases. Additional procedures, such as open Achilles lengthening, may also be required.
Other congenital foot deformities include calcaneovalgus foot and congenital vertical talus. However, in both of these conditions, the foot appears to be in dorsiflexion rather than equinus with cavus.
An equinovarus foot may appear like an untreated clubfoot, but is not present at birth and often develops secondary to a neuromuscular condition such as cerebral palsy or spina bifida.
The Ponseti method has a reported initial correction rate of 98%. Approximately 80% of patients will require percutaneous Achilles tenotomy at the end of their casting, and approximately 20% will require an anterior tibialis transfer.
Long term studies of patients treated for idiopathic clubfoot via the Ponseti method have reported good or excellent outcomes in 78% of patients. Patients may have a foot that is 1 to 2 sizes smaller than the unaffected side in unilateral cases.
The most common complication associated with clubfoot treatment is recurrence. This complication predominantly occurs due to compliance during the maintenance period with boot and bars. Inadequate compliance may result in up to an 80% recurrence rate. It is, therefore, crucial to appropriately counsel and educate families from an early stage and ensure that appropriate support is available.
When surgical intervention is required, additional risk factors such as infection and damage to surrounding structures come in to play. Aggressive surgical intervention such as extensive soft tissue release should be avoided where possible as this may also lead to the long term development of arthritis, overcorrection, mechanical weakness, and even avascular necrosis.
As mentioned previously, appropriate family education and counseling are crucial to achieving compliance and good long term results. Families need to be aware from the start that treatment via the Ponseti technique is likely to be a 4 to 5-year commitment, but long term results are excellent if compliant. Failure to comply is likely to lead to further periods of casting and surgical intervention.
Clubfoot can be a challenging but rewarding condition to manage. An interprofessional team approach is crucial to ensure good outcomes are achievable. This team typically includes neonatologists, primary care providers, physiotherapists, orthopedic surgeons, orthopedic nurses, plaster technicians, play therapists, and orthotic providers. Clinics must provide the necessary cast changes on at least a weekly basis, as well as give appropriate support to patients and families in case any difficulties occur. Orthopedic nurses often assist with casting, encourage follow up, educate families, and inform the rest of the team of significant issues. The interprofessional team paradigm, using open communication and collaboration, will result in optimal outcomes for patients with clubfoot. [Level 5]
|||Kruse LM,Buchan JG,Gurnett CA,Dobbs MB, Polygenic threshold model with sex dimorphism in adolescent idiopathic scoliosis: the Carter effect. The Journal of bone and joint surgery. American volume. 2012 Aug 15 [PubMed PMID: 22992817]|
|||Honein MA,Paulozzi LJ,Moore CA, Family history, maternal smoking, and clubfoot: an indication of a gene-environment interaction. American journal of epidemiology. 2000 Oct 1; [PubMed PMID: 11032161]|
|||Parker SE,Mai CT,Strickland MJ,Olney RS,Rickard R,Marengo L,Wang Y,Hashmi SS,Meyer RE, Multistate study of the epidemiology of clubfoot. Birth defects research. Part A, Clinical and molecular teratology. 2009 Nov; [PubMed PMID: 19697433]|
|||Halmesmäki E,Raivio K,Ylikorkala O, A possible association between maternal drinking and fetal clubfoot. The New England journal of medicine. 1985 Mar 21; [PubMed PMID: 3974658]|
|||Barker SL,Macnicol MF, Seasonal distribution of idiopathic congenital talipes equinovarus in Scotland. Journal of pediatric orthopedics. Part B. 2002 Apr; [PubMed PMID: 11943986]|
|||Mandlecha P,Kanojia RK,Champawat VS,Kumar A, Evaluation of modified Ponseti technique in treatment of complex clubfeet. Journal of clinical orthopaedics and trauma. 2019 May-Jun [PubMed PMID: 31061597]|
|||Gelfer Y,Wientroub S,Hughes K,Fontalis A,Eastwood DM, Congenital talipes equinovarus: a systematic review of relapse as a primary outcome of the Ponseti method. The bone & joint journal. 2019 Jun [PubMed PMID: 31154846]|
|||Lochmiller C,Johnston D,Scott A,Risman M,Hecht JT, Genetic epidemiology study of idiopathic talipes equinovarus. American journal of medical genetics. 1998 Sep 1; [PubMed PMID: 9741465]|
|||[PubMed PMID: 18611198]|
|||Di Mascio D,Buca D,Khalil A,Rizzo G,Makatsariya A,Sileo F,Liberati M,Benedetti Panici P,Acharya G,D'Antonio F, Outcome of isolated fetal talipes: a systematic review and meta-analysis. Acta obstetricia et gynecologica Scandinavica. 2019 Apr 29; [PubMed PMID: 31034582]|
|||Smythe T,Kuper H,Macleod D,Foster A,Lavy C, Birth prevalence of congenital talipes equinovarus in low- and middle-income countries: a systematic review and meta-analysis. Tropical medicine [PubMed PMID: 28000394]|
|||Ching GH,Chung CS,Nemechek RW, Genetic and epidemiological studies of clubfoot in Hawaii: ascertainment and incidence. American journal of human genetics. 1969 Nov; [PubMed PMID: 5365759]|
|||Wallander H,Hovelius L,Michaelsson K, Incidence of congenital clubfoot in Sweden. Acta orthopaedica. 2006 Dec; [PubMed PMID: 17260191]|
|||[PubMed PMID: 19202124]|
|||Kamegaya M,Shinohara Y,Kuniyoshi K,Moriya H, MRI study of talonavicular alignment in club foot. The Journal of bone and joint surgery. British volume. 2001 Jul; [PubMed PMID: 11476314]|
|||[PubMed PMID: 31082130]|
|||Kadhum M,Lee MH,Czernuszka J,Lavy C, An Analysis of the Mechanical Properties of the Ponseti Method in Clubfoot Treatment. Applied bionics and biomechanics. 2019; [PubMed PMID: 31019550]|
|||Ippolito E,Ponseti IV, Congenital club foot in the human fetus. A histological study. The Journal of bone and joint surgery. American volume. 1980 Jan; [PubMed PMID: 7351421]|
|||Flynn JM,Donohoe M,Mackenzie WG, An independent assessment of two clubfoot-classification systems. Journal of pediatric orthopedics. 1998 May-Jun; [PubMed PMID: 9600557]|
|||Dyer PJ,Davis N, The role of the Pirani scoring system in the management of club foot by the Ponseti method. The Journal of bone and joint surgery. British volume. 2006 Aug; [PubMed PMID: 16877610]|
|||[PubMed PMID: 30252299]|
|||Perry DC,Tawfiq SM,Roche A,Shariff R,Garg NK,James LA,Sampath J,Bruce CE, The association between clubfoot and developmental dysplasia of the hip. The Journal of bone and joint surgery. British volume. 2010 Nov; [PubMed PMID: 21037357]|
|||Radler C, The Ponseti method for the treatment of congenital club foot: review of the current literature and treatment recommendations. International orthopaedics. 2013 Sep; [PubMed PMID: 23928728]|
|||Morcuende JA,Dolan LA,Dietz FR,Ponseti IV, Radical reduction in the rate of extensive corrective surgery for clubfoot using the Ponseti method. Pediatrics. 2004 Feb; [PubMed PMID: 14754952]|
|||Zionts LE,Sangiorgio SN,Ebramzadeh E,Morcuende JA, The current management of idiopathic clubfoot revisited: results of a survey of the POSNA membership. Journal of pediatric orthopedics. 2012 Jul-Aug; [PubMed PMID: 22706469]|
|||Bor N,Coplan JA,Herzenberg JE, Ponseti treatment for idiopathic clubfoot: minimum 5-year followup. Clinical orthopaedics and related research. 2009 May; [PubMed PMID: 19130158]|
|||Morcuende JA,Abbasi D,Dolan LA,Ponseti IV, Results of an accelerated Ponseti protocol for clubfoot. Journal of pediatric orthopedics. 2005 Sep-Oct; [PubMed PMID: 16199943]|
|||Herzenberg JE,Radler C,Bor N, Ponseti versus traditional methods of casting for idiopathic clubfoot. Journal of pediatric orthopedics. 2002 Jul-Aug; [PubMed PMID: 12131451]|
|||Cooper DM,Dietz FR, Treatment of idiopathic clubfoot. A thirty-year follow-up note. The Journal of bone and joint surgery. American volume. 1995 Oct; [PubMed PMID: 7593056]|
|||Goyal R,Gujral S,Paton RW, Long-term follow-up of patients with clubfeet treated with extensive soft-tissue release. The Journal of bone and joint surgery. American volume. 2006 Nov; [PubMed PMID: 17079417]|