Deprecated: The PSR-0 `Requests_...` class names in the Requests library are deprecated. Switch to the PSR-4 `WpOrg\Requests\...` class names at your earliest convenience. in /home/u851360980/domains/satyahospital.com/public_html/wp-includes/class-requests.php on line 24
India's Leading Trauma & Maternity Centre | Satya Hospitals

Club Foot (Talipes) in babies photo

During Pregnancy, the development of a baby is dependent on factors like nourishment received form the mother, the mother’s health and genetics. Sometimes, babies are bone with congenital Disabilities, one being clubfoot.

Clubfoot is a birth defect where one or both feet are rotated inward and downward.The affected foot and leg may be smaller than the other. Approximately 50% of cases of clubfoot affect both feet. Most of the time, it is not associated with other problems.  Without treatment, the foot remains deformed, and people walk on the sides of their feet. This may lead to pain and difficulty walking.

The exact cause is usually not identified. Both genetic and environmental factors are believed to be involved. If one identical twin is affected, there is a 33% chance the other one will be as well. The underlying mechanism involves disruption of the muscles or connective tissue of the lower leg, leading to joint contracture. Other abnormalities are associated 20% of the time, with the most common being distal arthrogryposis and myelomeningocele. The diagnosis may be made at birth by examination or before birth during an ultrasound exam.

Initial treatment is most often with the Ponseti method. This involves moving the foot into an improved position followed by casting, which is repeated at weekly intervals. Once the inward bending is improved, the Achilles tendon is often cut, and braces are worn until the age of four. Initially, the brace is worn nearly continuously and then just at night. In about 20% of cases, further surgery is required. Treatment can be carried out by a range of healthcare providers and can generally be achieved in the developing world with few resources. Clubfoot occurs in 1 to 4 of every 1,000 live births, making it one of the most common birth defects affecting the legs. About 80% of cases occur in developing countries where there is limited access to care. Clubfoot is more common in firstborn children and males. It is more common among Māori people, and less common among Chinese people.

Signs and symptoms

In clubfoot, feet are rotated inward and downward. The affected foot and leg may be smaller than the other, while in about half of cases, clubfoot affects both feet. Most of the time clubfoot is not associated with other problems.

Without treatment the foot remains deformed and people walk on the sides or tops of their feet, which can cause calluses, foot infections, trouble fitting into shoes, pain, difficulty walking, and disability

  • The affected leg is slightly shorter and weaker along with smaller calf muscles.
  • Tight Achilles tendon
  • The Foot remains twisted
  • The heel point down wards and the front half of the foot turns in ward

Cause

Hypotheses about the precise cause of clubfoot vary, but genetics, environmental factors or a combination of both are involved. Research has not yet pinpointed the root cause, but many findings agree that “it is likely there is more than one different cause and at least in some cases the phenotype may occur as a result of a threshold effect of different factors acting together.” The most commonly associated conditions are distal arthrogryposis or myelomeningocele.

Some researchers hypothesize, from the early development stages of humans, that clubfoot is formed by a malfunction during gestation. Early amniocentesis (11–13 wks) is believed to increase the rate of clubfoot because there is an increase in potential amniotic leakage from the procedure. Underdevelopment of the bones and muscles of the embryonic foot may be another underlying cause. In the early 1900s, it was thought that constriction of the foot by the uterus contributed to the occurrence of clubfoot.

Underdevelopment of the bones also affects the muscles and tissues of the foot. Abnormality in the connective tissue causes “the presence of increased fibrous tissue in muscles, fascia, ligaments and tendon sheaths”

Genetics

If one identical twin is affected, there is a 33% chance the other one will be as well.

Mutations in genes involved in muscle development are risk factors for clubfoot, specifically those encoding the muscle contractile complex (MYH3TPM2TNNT3TNNI2 and MYH8). These can cause congenital contractures, including clubfoot, in distal arthrogryposis (DA) syndromes.] Clubfoot can also be present in people with genetic conditions such as Loeys–Dietz syndrome and Ehlers-Danlos syndrome.

Genetic mapping and the development of models of the disease have improved understanding of developmental processes. Its inheritance pattern is explained as a heterogenous disorder using a polygenic threshold model. The PITX1-TBX4 transcriptional pathway has become key to the study of clubfoot. PITX1 and TBX4 are uniquely expressed in the hind limb.

Diagnosis

Clubfoot is diagnosed through physical examination. Typically, babies are examined from head-to-toe shortly after they are born. There are four components of the clubfoot deformity:

Factors used to assess severity include the stiffness of the deformity (how much it can be corrected by manually manipulating the foot), the presence of skin creases at the arch and heel, and poor muscle consistency.

Sometimes, it is possible to detect clubfoot before birth using ultrasound. Prenatal diagnosis by ultrasound can allow parents to learn more about this condition and plan ahead for treatment after their baby is born.

More testing and imaging is typically not needed, unless there is concern for other associated conditions.

Treatment

Treatment is usually with some combination of the Ponseti method and French method.The Ponseti method involves a combination of casting, Achilles tendon release, and bracing. It is widely used and highly effective under the age of two.  The French method involves realignment, taping, and long-term home exercises and night splinting. It is also effective but outcomes vary and rely on heavy involvement of caregivers. Generally, the Ponseti method is preferred. Another technique, the Kite method, does not appear to be as effective. In about 20% of cases, additional surgery is required after initial treatment.

Ponseti Method

The Ponseti Method is highly effective with short-term success rates of 90%.However, anywhere from 14% to 41% of children experience a recurrence of the deformity. The most common reason for this is inadequate adherence to bracing, such as not wearing the brace properly, not keeping it on for the recommended length of time, or not using it every day. Children who do not follow proper bracing protocol have up to seven times higher recurrence rates than those who follow bracing protocol, as the muscles around the foot can pull it back into the abnormal position. Recurrence is more common when there is poor compliance with the bracing, because the muscles around the foot can pull it back into the abnormal position. Low parental education level and failure to understand the importance of bracing is a major contributor to non-adherence. Relapses are managed by repeating the casting process. Relapsed feet may also require additional, more extensive surgeries and have a reduced chance of achieving subsequent correction

Another reason for recurrence is a congenital muscle imbalance between the muscles that invert the ankle (tibialis posterior and tibialis anterior muscles) and the muscles that evert the ankle (peroneal muscles). This imbalance is present in approximately 20% of infants successfully treated with the Ponseti casting method, and makes them more prone to recurrence. This relapse is usually treated with Ponseti casting and can be done multiple times before resorting to surgery. If after all non-surgical casting and bracing options have been exhausted, and when the child is over 4 years of age (many doctors prefer to wait till after 7 years old), this can be addressed with a surgery to transfer the tibialis anterior tendon from its medial attachment (on the navicula) to a more lateral position (on the lateral cuneiform). The surgery requires general anesthesia and subsequent casting while the tendon heals, but it is a relatively minor surgery that re-balances the muscles of the foot without disturbing any joints.

French Methad

The French method is a conservative, non-operative method of clubfoot treatment that involves daily physical therapy for the first two months followed by thrice-weekly physical therapy for the next four months and continued home exercises following the conclusion of formal physical therapy. During each physical therapy session the feet are manipulated, stretched, then taped to maintain any gains made to the feet’s range of motion. Exercises may focus on strengthening the peroneal muscles, which is thought to contribute to long-term correction. After the two month mark, the frequency of physical therapy sessions can be weaned down to three times a week instead of daily, until the child reaches six months. After the conclusion of the physical therapy program, caregivers must continue performing exercises at home and splinting at night in order to maintain long-term correction

Compared to the Ponseti method which uses rigid casts and braces, the French method uses tape which allows for some motion in the feet. Despite its goal to avoid surgery, the success rate varies and surgery may still be necessary. The Ponseti method is generally preferred over the French method.

Surgery

If non-operative treatments are unsuccessful or achieve incomplete correction of the deformity, surgery is sometimes needed. Surgery was more common prior to the widespread acceptance of the Ponseti method. The extent of surgery depends on the severity of the deformity. Usually, surgery is done at 9 to 12 months of age and the goal is to correct all the components of the clubfoot deformity at the time of surgery. For feet with the typical components of deformity (cavus, forefoot adductus, hindfoot varus, and ankle equinus), the typical procedure is a Posteromedial Release (PMR) surgery. This is done through an incision across the medial side of the foot and ankle, that extends posteriorly, and sometimes around to the lateral side of the foot. In this procedure, it is typically necessary to release (cut) or lengthen the plantar fascia, several tendons, and joint capsules/ligaments. Typically, the important structures are exposed and then sequentially released until the foot can be brought to an appropriate plantigrade position. Specifically, it is important to bring the ankle to neutral, the heel into neutral, the midfoot aligned with the hindfoot (navicula aligned with the talus, and the cuboid aligned with the calcaneus). Once these joints can be aligned, thin wires are usually placed across these joints to hold them in the corrected position. These wires are temporary and left out through the skin for removal after 3–4 weeks. Once the joints are aligned, tendons (typically the Achilles, posterior tibialis, and flexor halluces longus) are repaired at an appropriate length. The incision (or incisions) are closed with dissolvable sutures. The foot is then casted in the corrected position for 6–8 weeks. It is common to do a cast change with anesthesia after 3–4 weeks, so that pins can be removed and a mold can be made to fabricate a custom AFO brace. The new cast is left in place until the AFO is available. When the cast is removed, the AFO is worn to prevent the foot from returning to the old position

For feet with partial correction of deformity with non-operative treatment, surgery may be less extensive and may involve only the posterior part of the foot and ankle. This might be called a posterior release. This is done through a smaller incision and may involve releasing only the posterior capsule of the ankle and subtalar joints, along with lengthening the Achilles tendon.

Surgery leaves residual scar tissue and typically there is more stiffness and weakness than with nonsurgical treatment. As the foot grows, there is potential for asymmetric growth that can result in recurrence of foot deformity that can affect the forefoot, midfoot, or hindfoot. Many patients do fine, but some require orthotics or additional surgeries. Long-term studies of adults with post-surgical clubfeet, especially those needing multiple surgeries, show that they may not fare as well in the long term. Some people may require additional surgeries as they age, though there is some dispute as to the effectiveness of such surgeries, in light of the prevalence of scar tissue present from earlier surgeries.

Leave a Comment

I accept the Privacy Policy

Subscribe to My Newsletter


About

Established in 1995, Satya Hospital committed to provide “ The Best” in the fields of orthopedics, obstetrics, and gynecology. With 25 years of experience in the healthcare sector, Satya Hospital is known for providing quality healthcare.
Learn more

Contact

Satya Healthline No: 0512-22-821-11/12Reception: 9838968996For Checkup: 983-895-1052Email: contact@satyahospital.comWebsite: www.satyahospital.com
Learn more

Address

Satya Trauma & Maternity Centre,HIG-1/2, 1/3, Satya Chawk, Barra 6,Kanpur,Uttar Pradesh 208027,India.
Learn more

Satya Hospital Ⓒ 2024. Designed By OG Advertising

  Privacy Policy   Terms and Conditions    Refund Policy