RU2739693C1 - Method for surgical correction of congenital flat-valgus foot deformities in children - Google Patents

Abstract

FIELD: medicine.

SUBSTANCE: invention refers to medicine, namely to traumatology and surgery and can be used for surgical correction of congenital flat-valgus foot deformities in children. In the preoperative period prior to the surgical management, spatial visualization of the congenital flat-valgus deformation of the patient's foot is determined by multilayer helical computed tomography. Method of magnetic resonance tomography is used to assess the condition of surrounding soft tissues, vascular and nerve structures that are not visualized when multilayer helical computed tomography is performed. After the anesthesia is performed, a patient's back is presented with an arcuate skin incision 6-7 cm long on the posterior surface of the shin in a projection of an Achilles tendon. Base of the incision is oriented to the lateral part of the shin, the Achilles tendon is accessed, and the paratenon is opened. Achilles tendon is lifted on narrow elevators and the scalpel is incised in lengthwise direction of the Achilles tendon for 4-5 cm. Medial portion of the dissected Achilles tendon is used to isolate a longitudinal flap over the entire incision length, the medial portion of the Achilles tendon and the medial flap are proximally dissected away. Lateral flap is distally distal to Z-shaped elongation of Achilles tendon. Deep fascia of shin is opened and access to ankle and subtalar joints is opened. Ankle and thresher arthropathy capsulotomy is performed. Second incision 3-4 cm long is made on the lateral foot surface in the projection of the insertion point of the tendon of the short fibular muscle into the tuberosity of the fifth metatarsal bone. Tendon of the short fibular muscle is separated, cut off from the attachment point and sutured. In the wound of the first incision on the posterior surface of the shin one differentiates the tendon of the short fibular muscle and leads it to the wound along the posterior surface of the shin with traction on the elevator. Billroth’s clamp is used to form a canal in the tibiofibular syndesmosis on an anterior shin surface, where third linear 1, 5 cm incision of the skin at the clamp top is performed. Tendon of the short fibular muscle is delivered through the formed canal in the tibiofibular syndesmosis onto a front surface of the shin and brought into the third skin incision. Then the fourth arc-shaped skin incision is made along an internal surface of the foot with length of 6-7 cm; the base of the incision is oriented towards the rear, in a projection of the talonavicular joint. In the direction of the tarsal canal, the approach to the talonavicular and talocalcaneal joints is performed, the talonavicular and talocalcaneal joints are dissected by dissecting their capsules in a horizontal plane. Talus bone is sharply mobilized from a capsule in the neck area. From the back approach, the first fixing pin is delivered through a talus bone from behind-ahead, from the outside to the inside in the direction of the neck and head of talus bone. Foot is given a correction position with recovery of the height of the internal longitudinal arch and holds the forefoot in the correction position. First fixing wire is taken further into the navicular bone with fixation of an talus bone with navicular bone with one fixing wire in the position of midfoot correction. Calcaneal tubercle is brought up using a single-tooth crochet with restoration of the anatomical relationship between a heel, an ankle and a tibia. From the plantar surface of the foot through the calcaneal bone in the direction of the shin bone, two additional wires in the sagittal plane are additionally provided with fixation of the calcaneal, ankle and shin bones in an anatomically correct position. Billroth’s clamp is carried out from the medial surface of the ankle neck through the joint capsule under the extensor tendon holder in the direction of the third incision. Tendon of the short fibular muscle is grasped, held under the extensor tendon holder and brought out into the projection of the collar of the talus, then into ankle neck from medial side, as close as possible to the facet joint facet of the head, anchor fixation anchor with threads is introduced, to which tendon of short fibular muscle is fixed in tension position. Distal portion of the tendon of the short fibular muscle is transossally sutured with a suture to a back-medial surface of the navicular bone, closer to its tuberosity, with creation of an additional talonavicular ligament. Longitudinal flap is made from a medial part of an Achilles tendon along a medial foot surface by means of a Billroth’s clamp above a foot flexor tendon holder and anchored to the distal part of the tendon of the short fibular muscle in the region of the tuberosity of the navicular bone with creating an additional calcaneonavicular ligament. Talonavicular ligament is restored by suturing with creation of duplicate. Achilles tendon is sutured in a moderate end-to-end position. Postoperative wounds are closed in layers, aseptic wound dressings, immobilized with plaster bandage from metacarpophalangeal joints to upper third of shin.

EFFECT: method provides anatomical recovery of the foot shape and support function due to the sequence of the method steps.

1 cl, 3 ex

Description

The invention relates to medicine, namely to the field of traumatology, to a method of surgical correction of congenital planovalgus deformity of the feet in children and can be used in the treatment of patients in traumatological and orthopedic, surgical and other hospitals.

There is a method of surgical treatment of planovalgus deformity of the feet in children, including making incisions in the skin of the foot and accessing the talocalcaneal joint, calcaneal-cuboid, ankle and subtalar joints, forming the correct anatomical position of the bones of the foot and fixing them by holding a fixing pin through the bones feet, perform immobilization with a plaster cast, modeling the arch of the foot, (see E.P. Kuznechikhin, A.S. Kuzin, A.S. Kozlov et al., "Congenital plano-valgus deformity of the feet in children and methods of its correction", Children's Hospital Journal, 2010, No. 4, pp. 32-36).

However, the known method, when used, has the following disadvantages:

- does not provide sufficient anatomical restoration of the shape and support function of the foot with the simultaneous absence of multiplanar displacements of the fixed bones,

- does not ensure the preservation of the capsule of the calcaneal-cuboid joint,

- insufficiently provides reliable fixation of the calcaneus, talus and tibia in the correction position,

- does not provide adequate restoration of the capsule of the talonavicular joint from the medial side,

- does not provide the creation of the so-called spring ligament for holding the longitudinal arch of the foot,

- to some extent disrupts the function of the anterior tibial muscle, without eliminating the hypertonicity of its antagonist - the short peroneal muscle, which can lead to relapses,

- does not provide sufficient improvement in the patient's quality of life. The objective of the invention is to create a method for the surgical correction of congenital planovalgus deformity of the feet in children.

The technical result is to ensure a sufficient degree of anatomical restoration of the shape and support function of the foot with the simultaneous absence of multiplanar displacements of the fixed bones, ensuring the preservation of the capsule of the calcaneo-cuboid joint, ensuring reliable fixation of the calcaneus, talus and tibia in the correction position, ensuring restoration of the capsule of the talonavicular joint from the medial side and the creation of an additional spring ligament for a more stable retention of the longitudinal arch of the foot, as well as ensuring a sufficient increase in the patient's quality of life.

The technical result is achieved by the fact that a method of surgical correction of congenital planovalgus deformity of the feet in children is proposed, characterized by the fact that in the preoperative period, before performing surgical treatment, spatial visualization of congenital planovalgus deformity of the patient's foot is determined by the method of magnetic resonance imaging by the method of multilayer spiral computed tomography tomography assesses the state of the surrounding soft tissues, vascular and nerve structures that are not visualized when performing multilayer spiral computed tomography, after the implementation of anesthesia, in the position of the patient on the back, an arcuate skin incision is performed 6-7 cm long along the posterior surface of the leg in the projection of the Achilles tendon, in this case, the base of the incision is oriented to the lateral part of the lower leg, access to the Achilles tendon is performed, the peritenon is opened, the Achilles tendon is lifted on narrow elevators and a longitudinal dissection of the Achilles is performed with a scalpel catching the tendon for 4-5 cm, a longitudinal flap is isolated from the medial portion of the dissected Achilles tendon along the entire length of the dissection, the medial portion of the Achilles tendon and the medial flap are proximally cut off, the lateral flap is cut distally with a Z-shaped deep lengthening of the Achilles tendon, the tibial fascia is opened and opened and open access to the ankle and subtalar joints, perform a capsulotomy of the ankle and subtalar joints, a second incision 3-4 cm long is performed along the lateral surface of the foot in the projection of the insertion site of the tendon of the peroneal muscle into the tuberosity of the fifth metatarsal bone, isolate the tendon of the short peroneal muscle from the places of attachment and sutured, in the wound of the first incision along the posterior surface of the leg, the tendon of the short peronealis is differentiated and it is brought into the wound along the posterior surface of the leg by traction on the elevator, then a channel is formed in the tibiofibular syndesmosis on the anterior surface of the leg with a Billroth clamp nor, where a third linear 1.5 cm incision of the skin is performed at the top of the clamp, then the tendon of the short peroneal muscle is passed through the formed channel in the tibiofibular syndesmosis to the anterior surface of the lower leg and taken out into the third skin incision, then the fourth arcuate incision of the skin is performed along the inner surface feet 6-7 cm long, while the base of the incision is oriented towards the rear, in the projection of the talo-navicular joint in the direction of the tarsal canal, access to the talo-navicular and talocalcaneal joints is performed, the talo-navicular and talocalcaneal joints are opened by dissecting their capsules in the horizontal plane, the talus is sharply mobilized from the capsule in the neck area, then from the posterior approach, the first fixing pin is carried out through the body of the talus from back to front, from outside to inside in the direction of the neck and head of the talus, the foot is given a position of correction with restoration of the height longitudinal arch and held in front of the lower part of the foot in the correction position, the first fixing pin is carried out further into the scaphoid bone to ensure fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction, then the calcaneal tubercle is lowered with a single-toothed hook with restoration of the anatomical relationship between the calcaneus, talus and tibia , then from the plantar surface of the foot through the calcaneus in the direction of the tibia, two additional wires are passed in the sagittal plane to ensure fixation of the calcaneus, talus and tibia in the anatomically correct position, then the Billroth clamp is carried out from the medial surface of the neck of the talus through the joint capsule under the tendon retainer extensors in the direction of the third incision, capture the tendon of the short peroneal muscle, hold under the extensor tendon retainer and bring it into the projection of the neck of the talus, then into the neck of the talus from the medial side, along possibilities closer to the articular facet of the head, an anchor fixator-self-tapping screw with threads is introduced, to which the tendon of the peroneal muscle is fixed in the tension position, the distal tendon of the peroneal muscle is transosally sutured with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation an additional talo-navicular ligament, a longitudinal flap is carried out from the medial part of the Achilles tendon along the medial surface of the foot by means of a Billroth clamp over the tendon retainer of the flexor of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the area of tuberosity of the navicular bone with the creation of an additional calcaneo-navicular ligament - the scaphoid ligament is sutured with the creation of a duplication, the Achilles tendon is sutured in a position of moderate tension "end to end", postoperative wounds are sutured in layers. Aseptic dressings for wounds. Immobilization is performed with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

The method is carried out as follows. In the preoperative period, before performing surgical treatment, the spatial visualization of the patient's congenital planovalgus deformity is determined by the method of multilayer spiral computed tomography. Magnetic resonance imaging is used to assess the state of the surrounding soft tissues, vascular and nerve structures that are not visualized when performing multilayer spiral computed tomography.

After the implementation of anesthesia, in the position of the patient on the back, an arcuate skin incision 6-7 cm long is performed along the posterior surface of the leg in the projection of the Achilles tendon, while the base of the incision is oriented towards the lateral part of the leg. Access to the Achilles tendon is performed, the peritenon is opened, the Achilles tendon is lifted on narrow elevators and a longitudinal dissection of the Achilles tendon is performed with a scalpel for 4-5 cm. A longitudinal flap is isolated from the medial portion of the dissected Achilles tendon along the entire length of the dissection. The medial portion of the Achilles tendon and the medial flap are dissected proximally.

The lateral flap is dissected distally with a Z-shaped lengthening of the Achilles tendon, the deep fascia of the leg is opened and access to the ankle and under the talus joints is opened. Capsulotomy of the ankle and subtalar joints is performed. The second incision, 3-4 cm long, is performed along the lateral surface of the foot in the projection of the site of insertion of the tendon of the peronealis muscle into the tuberosity of the fifth metatarsal bone.

The tendon of the short peroneal muscle is isolated, cut off from the attachment site and stitched. In the wound of the first incision along the posterior surface of the lower leg, the tendon of the short peronealis is differentiated and withdrawn into the wound along the posterior surface of the lower leg by traction on the elevator. Next, a channel in the tibiofibular syndesmosis is formed with a Billroth clamp on the anterior surface of the lower leg, where a third linear 1.5 cm incision of the skin is made at the top of the clamp. Then, through the formed canal in the tibiofibular syndesmosis, the tendon of the short peroneal muscle is passed to the anterior surface of the lower leg and brought out into the third skin incision.

Next, a fourth arcuate incision of the skin is performed along the inner surface of the foot 6-7 cm long, while the base of the incision is oriented to the rear, in the projection of the talonavicular joint in the direction of the tarsal canal. Access to the talonavicular and talocalcaneal joints is performed, the talonavicular and talocalcaneal joints are opened by dissecting their capsules in the horizontal plane. The talus is sharply mobilized from the capsule in the neck area.

From the posterior approach, the first fixing pin is passed through the body of the talus from back to front, from outside to inward in the direction of the neck and head of the talus. The foot is given a correction position with the restoration of the height of the inner longitudinal arch and the forefoot is held in the correction position. The first fixing pin is passed further into the scaphoid bone with the provision of fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction. The calcaneal tubercle is reduced with a one-toothed hook with restoration of the anatomical relationship between the calcaneus, talus and tibia.

From the plantar surface of the foot through the calcaneus in the direction of the tibia, two additional wires are additionally passed in the sagittal plane to ensure fixation of the calcaneus, talus and tibia in the anatomically correct position. The Billroth clamp is carried out from the medial surface of the talus neck through the joint capsule under the extensor tendon retainer in the direction of the third incision, the tendon of the short peroneal muscle is captured, held under the extensor tendon retainer and brought out into the projection of the talus neck. Then, in the neck of the talus from the medial side, as close as possible to the articular facet of the head, a self-tapping anchor fixator with threads is introduced, to which the tendon of the short peroneal muscle is fixed in the tension position.

The distal part of the tendon of the short peroneal muscle is transosssally sutured with a thread to the dorsal-medial surface of the scaphoid bone, closer to its tuberosity, with the creation of an additional talonavicular ligament. A longitudinal flap is carried out from the medial part of the Achilles tendon along the medial surface of the foot by means of a Billroth clamp over the tendon retainer of the flexors of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the region of the tuberosity of the scaphoid bone to create an additional calcaneonavicular ligament.

The ram-navicular ligament is restored by suturing with the creation of duplication, the Achilles tendon is sutured in the position of moderate tension "end-to-end". Postoperative wounds are sutured in layers. Aseptic dressings for wounds. Immobilization is performed with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

Among the essential features characterizing the proposed method of surgical correction of congenital plano-valgus deformity of the feet in children, the following are distinctive:

- determination of spatial visualization of congenital planovalgus deformity of the patient's foot in the preoperative period before performing surgical treatment by multilayer spiral computed tomography,

- assessment by magnetic resonance imaging of the state of the surrounding soft tissues, vascular and nervous structures that are not visualized when performing multilayer spiral computed tomography,

- after the implementation of the anesthetic, in the position of the patient on the back, an arcuate skin incision 6-7 cm long along the posterior surface of the leg in the projection of the Achilles tendon, while the base of the incision is oriented to the lateral part of the leg,

- performing access to the Achilles tendon, opening the peritenon, the Achilles tendon is lifted on narrow elevators and the longitudinal dissection of the Achilles tendon is performed with a scalpel for 4-5 cm,

- isolation from the medial portion of the dissected Achilles tendon of the longitudinal flap for the entire length of the dissection, proximal cutting off the medial portion of the Achilles tendon and the medial flap.

- cutting off the lateral flap distally with a Z-shaped lengthening of the Achilles tendon, opening the deep fascia of the leg and providing access to the ankle and under the talus joints,

- performance of capsulotomy of the ankle and under the talus joints,

- performing a second incision 3-4 cm long along the lateral surface of the foot in the projection of the insertion site of the tendon of the peronealis muscle into the tuberosity of the fifth metatarsal bone,

- isolation of the tendon of the short peroneal muscle, cutting it off from the place of attachment and suturing,

- in the wound of the first incision along the posterior surface of the leg, differentiation of the tendon of the short peroneal muscle and its removal into the wound along the posterior surface of the leg by traction on the elevator,

- the formation of a channel in the tibiofibular syndesmosis with a Billroth clamp on the anterior surface of the lower leg, where the third linear 1, 5 cm incision of the skin at the top of the clamp is performed, then through the formed channel in the tibiofibular syndesmosis, the tendon of the short peroneal muscle is drawn to the anterior surface of the lower leg and it is introduced into the third skin incision ,

- execution of the fourth arcuate incision of the skin along the inner surface of the foot 6-7 cm long, while the base of the incision is oriented towards the rear,

- execution in the projection of the talo-navicular joint in the direction of the tarsal canal of access to the talo-navicular and talocalcaneal joints,

- opening the talo-navicular and talocalcaneal joints by dissecting their capsules in the horizontal plane,

- mobilization of the talus sharply from the capsule in the neck area,

- passing from the posterior approach of the first fixation pin through the body of the talus from back to front, from outside to inward towards the neck and head of the talus,

- giving the foot a correction position with the restoration of the height of the inner longitudinal arch and keeping the forefoot in the correction position,

- carrying the first fixing pin further into the scaphoid bone with the provision of fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction,

- bringing down the calcaneal tuberosity with a one-toothed hook with restoration of the anatomical relationship between the calcaneus, talus and tibia,

- additional conduction from the plantar surface of the foot through the calcaneus in the direction of the tibia of two wires in the sagittal plane with the provision of fixation of the calcaneus, talus and tibia in the anatomically correct position,

- holding a Billroth clamp from the medial surface of the neck of the talus through the joint capsule under the extensor tendon retainer in the direction of the third incision, grasping the tendon of the peroneal muscle, holding the extensor tendons under the retainer and bringing the talus neck into the projection,

- the introduction into the neck of the talus from the medial side, as close as possible to the articular facet of the head, an anchor self-tapping fixer with threads, to which the tendon of the short peroneal muscle is fixed in the tension position,

- stitching the distal part of the tendon of the short peroneal muscle transosseally with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation of an additional talonavicular ligament,

- carrying out a longitudinal flap from the medial part of the Achilles tendon along the medial surface of the foot by means of the Billroth clamp over the tendon retainer of the flexors of the foot and suturing to the distal part of the tendon of the short peroneal muscle in the area of the tuberosity of the scaphoid with the creation of an additional calcaneonavicular ligament,

- restoration of the talonavicular ligament by suturing with the creation of a duplicate,

- stitching the Achilles tendon in a moderate tension "end to end",

- immobilization with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

Experimental and clinical studies of the proposed method of surgical correction of congenital plano-valgus deformity of the feet in children have shown its high efficiency. The proposed method for the surgical correction of congenital planovalgus deformity of the feet in children during its use provided a sufficient anatomical restoration of the shape and support function of the foot with the simultaneous absence of multiplanar displacements of the fixed bones, preservation of the capsule of the calcaneo-cuboid joint, reliable fixation of the calcaneus, talus and tibia the position of correction, restoration of the capsule of the talo-navicular joint from the medial side and the creation of an additional spring ligament for more stable retention of the longitudinal arch of the foot, and also provided a sufficient increase in the patient's quality of life.

The implementation of the proposed method for surgical correction of congenital planovalgus deformity of the feet in children is illustrated by the following clinical examples.

Example 1. Patient V., 4 years old, was admitted to the 10th department of the FSBI “NMITs TO im. N.N. Priorov "with a diagnosis of Planovalgus deformity of both feet.

Complaints about gait disturbance, deformity of the feet, rapid fatigability. Clinically, on admission, there is a flat-valgus deformity of both feet in the form of rocking-feet, when walking, the support is on the middle section of both feet, the anterior sections are diverted outward, the calcaneal sections are tightened. Longitudinal arches of both feet with outward convexity. The tone of the extensors and pronators prevails. He performs active movements in the ankle joints within 20 °, moves his toes. Abduction of the fore part of the left foot 10 °. right 20 °. Valgus of the calcaneal sections on the right - 30 °, on the left - 20 °, equinus of the calcaneal sections on the right and left - 20 °, valgus deviation of the tarsus of both feet. The feet are not brought into the correct position.

The patient underwent surgical correction of congenital planovalgus deformity of each foot.

In the preoperative period, before performing the surgical treatment, the spatial visualization of the patient's congenital plano-valgus deformity was determined by multilayer spiral computed tomography. Magnetic resonance imaging was used to assess the state of the surrounding soft tissues, vascular and nerve structures, which were not visualized when performing multilayer spiral computed tomography.

Performed after the implementation of anesthesia, with the patient in the supine position, performed an arcuate skin incision 6 cm long along the posterior surface of the leg in the projection of the Achilles tendon, while the base of the incision was oriented to the lateral part of the leg. An access to the Achilles tendon was performed, the peritenon was opened, the Achilles tendon was lifted on narrow elevators and a longitudinal dissection of the Achilles tendon was performed with a scalpel for 5 cm.From the medial portion of the dissected Achilles tendon, a longitudinal flap was isolated along the entire length of the dissection. The medial portion of the Achilles tendon and the medial flap were dissected proximally.

The lateral flap was dissected distally with a Z-shaped lengthening of the Achilles tendon, the deep fascia of the leg was opened, and access to the ankle and subtalar joints was opened. Capsulotomy of the ankle and subtalar joints was performed. The second incision, 3 cm long, was made along the lateral surface of the foot in the projection of the site of insertion of the tendon of the short peroneal muscle into the tuberosity of the fifth metatarsal bone.

The tendon of the peronealis muscle was isolated, cut off from the insertion site and sutured. In the wound of the first incision along the posterior surface of the tibia, the tendon of the short peroneal was differentiated and brought into the wound along the posterior surface of the lower leg by traction on an elevator. Next, a channel was formed in the tibiofibular syndesmosis with a Billroth forceps on the anterior surface of the lower leg, where a third linear 1.5 cm incision of the skin was made at the apex of the forceps. Then, through the formed canal in the tibiofibular syndesmosis, the tendon of the short peroneal muscle was passed to the anterior surface of the tibia and brought out into the third incision of the skin.

Next, a fourth arcuate incision of the skin was performed along the inner surface of the foot 6 cm long, with the base of the incision oriented to the rear, in the projection of the talonavicular joint in the direction of the tarsal canal. Access to the talonavicular and talocalcaneal joints was performed, the talonavicular and talocalcaneal joints were opened by dissecting their capsules in the horizontal plane. The talus was sharply mobilized from the capsule at the neck.

From the posterior approach, the first fixing wire was passed through the body of the talus from back to front, from outside to inside in the direction of the neck and head of the talus. The foot was placed in a correction position with the restoration of the height of the inner longitudinal arch and the forefoot was kept in the correction position. The first fixing pin was passed further into the scaphoid bone, ensuring the fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction. The calcaneal tubercle was lowered with a single-toothed hook with the restoration of the anatomical relationship between the calcaneus, talus and tibia.

From the plantar surface of the foot through the calcaneus in the direction of the tibia, two additional wires were additionally held in the sagittal plane to ensure the fixation of the calcaneus, talus and tibia in the anatomically correct position. The Billroth forceps was held from the medial surface of the talus neck through the joint capsule under the extensor tendon retainer in the direction of the third incision, the tendon of the peronealis muscle was captured, held under the extensor tendon retainer, and brought into the projection of the talus neck. Then, an anchor self-tapping fixator with threads was inserted into the neck of the talus from the medial side, as close as possible to the articular facet of the head, to which the tendon of the short peroneal muscle was fixed in the tension position.

The distal part of the tendon of the peroneus muscle was transosssally sewn with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation of an additional talonavicular ligament. A longitudinal flap was held from the medial part of the Achilles tendon along the medial surface of the foot by means of a Billroth clamp over the flexor tendon retainer of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the area of the tuberosity of the scaphoid bone, creating an additional calcaneonavicular ligament.

The talonavicular ligament was restored by suturing to create a duplicate, the Achilles tendon was sutured in the position of moderate tension "end-to-end". The postoperative wounds were sutured in layers. Aseptic dressings for wounds. Performed immobilization with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

Example 2. Patient M, 7 years old, was admitted to the 10th department of the FSBI “NMITs TO im. N.N. Priorov "with a diagnosis of Planovalgus deformity of both feet.

He was admitted with complaints from his mother about gait disturbance, deformity of both feet. According to the mother, at the age of three, attention was paid to the deformity of the feet. Clinically, upon admission, there was a plano-valgus deformity of both feet in the form of rocking feet, when walking, the support on the middle section of both feet, the anterior sections were taken outward, the calcaneal sections were tightened. Longitudinal arches of both feet with outward convexity. The tone of the extensors and pronators prevails. Performs active movements in the ankle joints within 15 °. Abduction of the forefoot of the left foot 10 °, right 15 °. Valgus of the calcaneal sections on the right - 25 °, on the left - 20 °, equinus of the calcaneal sections on the right and left - 20 °, valgus deviation of the tarsus of both feet. The feet are not brought into the correct position.

The patient underwent surgical correction of congenital planovalgus deformity of each foot.

In the preoperative period, before performing the surgical treatment, the spatial visualization of the patient's congenital plano-valgus deformity was determined by multilayer spiral computed tomography. Magnetic resonance imaging was used to assess the state of the surrounding soft tissues, vascular and nerve structures, which were not visualized when performing multilayer spiral computed tomography.

After the implementation of anesthesia, in the position of the patient on his back, an arcuate skin incision 7 cm long along the posterior surface of the leg in the projection of the Achilles tendon was performed, while the base of the incision was oriented to the lateral part of the leg. An access to the Achilles tendon was performed, the peritenon was opened, the Achilles tendon was lifted on narrow elevators and a longitudinal dissection of the Achilles tendon was performed with a scalpel for 4.5 cm.From the medial portion of the dissected Achilles tendon, a longitudinal flap was isolated along the entire length of the dissection. The medial portion of the Achilles tendon and the medial flap were dissected proximally.

The lateral flap was dissected distally with a Z-shaped lengthening of the Achilles tendon, the deep fascia of the leg was opened, and access to the ankle and subtalar joints was opened. Capsulotomy of the ankle and subtalar joints was performed. The second incision with a length of 3.5 cm was made along the lateral surface of the foot in the projection of the place of insertion of the tendon of the peronealis muscle into the tuberosity of the fifth metatarsal bone.

The tendon of the peronealis muscle was isolated, cut off from the insertion site and sutured. In the wound of the first incision along the posterior surface of the tibia, the tendon of the short peroneal was differentiated and brought into the wound along the posterior surface of the lower leg by traction on an elevator. Next, a channel was formed in the tibiofibular syndesmosis with a Billroth forceps on the anterior surface of the lower leg, where a third linear 1.5 cm incision of the skin was made at the apex of the forceps. Then, through the formed canal in the tibiofibular syndesmosis, the tendon of the short peroneal muscle was passed to the anterior surface of the tibia and brought out into the third incision of the skin.

Next, a fourth arcuate incision of the skin was performed along the inner surface of the foot 6.5 cm long, while the base of the incision was oriented to the rear, in the projection of the talo-navicular joint in the direction of the tarsal canal. Access to the talonavicular and talocalcaneal joints was performed, the talonavicular and talocalcaneal joints were opened by dissecting their capsules in the horizontal plane. The talus was sharply mobilized from the capsule at the neck.

From the posterior approach, the first fixing wire was passed through the body of the talus from back to front, from outside to inside in the direction of the neck and head of the talus. The foot was placed in a correction position with the restoration of the height of the inner longitudinal arch and the forefoot was kept in the correction position. The first fixing pin was passed further into the scaphoid bone, ensuring the fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction. The calcaneal tubercle was lowered with a single-toothed hook with the restoration of the anatomical relationship between the calcaneus, talus and tibia.

From the plantar surface of the foot through the calcaneus in the direction of the tibia, two additional wires were additionally held in the sagittal plane to ensure the fixation of the calcaneus, talus and tibia in the anatomically correct position. The Billroth forceps was held from the medial surface of the talus neck through the joint capsule under the extensor tendon retainer in the direction of the third incision, the tendon of the peronealis muscle was captured, held under the extensor tendon retainer, and brought into the projection of the talus neck. Then, an anchor self-tapping fixator with threads was inserted into the neck of the talus from the medial side, as close as possible to the articular facet of the head, to which the tendon of the short peroneal muscle was fixed in the tension position.

The distal part of the tendon of the peroneus muscle was transosssally sewn with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation of an additional talonavicular ligament. A longitudinal flap was held from the medial part of the Achilles tendon along the medial surface of the foot by means of a Billroth clamp over the flexor tendon retainer of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the area of the tuberosity of the scaphoid bone, creating an additional calcaneonavicular ligament.

The talonavicular ligament was restored by suturing to create a duplicate, the Achilles tendon was sutured in the position of moderate tension "end-to-end". The postoperative wounds were sutured in layers. Aseptic dressings for wounds. Performed immobilization with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

Example 3. Patient M., 2.5 years old, was admitted to the 10th department of the FSBI “NMITs TO im. N.N. Priorov "with a diagnosis of" Abduct-flat-valgus deformity of both feet. "

She was admitted with complaints from her mother about gait disturbance, deformity of the feet. For the first time, flat-valgus deformity of the feet was revealed at the age of 1 year during a routine examination in a polyclinic. Delayed neuropsychic development. Clinically on admission: planovalgus deformity of the right and left feet. Left foot - heel valgus at an angle of 25 °, tarsus up to 30 °, anterior abduction 15 °, medial dislocation of the talus head, flattened arch. Right foot - heel valgus at 23 °, tarsus up to 27 °, anterior abduction 15 °, with medial dislocation of the talus head, the arch is completely flattened. Movement in the ankle joints and in the joints of the toes in full.

The patient underwent surgical correction of congenital planovalgus deformity of each foot.

In the preoperative period, before performing the surgical treatment, the spatial visualization of the patient's congenital plano-valgus deformity was determined by multilayer spiral computed tomography. Magnetic resonance imaging was used to assess the state of the surrounding soft tissues, vascular and nerve structures, which were not visualized when performing multilayer spiral computed tomography.

An arcuate skin incision 6.5 cm long along the posterior surface of the leg in the projection of the Achilles tendon was performed after the implementation of the anesthetic, with the patient in the supine position, while the base of the incision was oriented to the lateral part of the leg. An access to the Achilles tendon was performed, the peritenon was opened, the Achilles tendon was lifted on narrow elevators and a longitudinal dissection of the Achilles tendon was performed with a scalpel for 4 cm.From the medial portion of the dissected Achilles tendon, a longitudinal flap was isolated along the entire length of the dissection. The medial portion of the Achilles tendon and the medial flap were dissected proximally.

The lateral flap was dissected distally with a Z-shaped lengthening of the Achilles tendon, the deep fascia of the leg was opened, and access to the ankle and subtalar joints was opened. Capsulotomy of the ankle and subtalar joints was performed. The second incision, 3 cm long, was made along the lateral surface of the foot in the projection of the site of insertion of the tendon of the short peroneal muscle into the tuberosity of the fifth metatarsal bone.

The tendon of the peronealis muscle was isolated, cut off from the insertion site and sutured. In the wound of the first incision along the posterior surface of the tibia, the tendon of the short peroneal was differentiated and brought into the wound along the posterior surface of the lower leg by traction on an elevator. Next, a channel was formed in the tibiofibular syndesmosis with a Billroth clamp on the anterior surface of the lower leg, where a third linear 1.0 cm incision of the skin was made at the apex of the clamp. Then, through the formed canal in the tibiofibular syndesmosis, the tendon of the short peroneal muscle was passed to the anterior surface of the tibia and brought out into the third incision of the skin.

Next, a fourth arcuate incision of the skin was performed along the inner surface of the foot 5.5 cm long, with the base of the incision oriented to the rear, in the projection of the talo-navicular joint in the direction of the tarsal canal. Access to the talonavicular and talocalcaneal joints was performed, the talonavicular and talocalcaneal joints were opened by dissecting their capsules in the horizontal plane. The talus was sharply mobilized from the capsule at the neck.

From the posterior approach, the first fixing wire was passed through the body of the talus from back to front, from outside to inside in the direction of the neck and head of the talus. The foot was placed in a correction position with the restoration of the height of the inner longitudinal arch and the forefoot was kept in the correction position. The first fixing pin was passed further into the scaphoid bone, ensuring the fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction. The calcaneal tubercle was lowered with a single-toothed hook with the restoration of the anatomical relationship between the calcaneus, talus and tibia.

From the plantar surface of the foot through the calcaneus in the direction of the tibia, two additional wires were additionally held in the sagittal plane to ensure the fixation of the calcaneus, talus and tibia in the anatomically correct position. The Billroth forceps was held from the medial surface of the talus neck through the joint capsule under the extensor tendon retainer in the direction of the third incision, the tendon of the peronealis muscle was captured, held under the extensor tendon retainer, and brought into the projection of the talus neck. Then, an anchor self-tapping fixator with threads was inserted into the neck of the talus from the medial side, as close as possible to the articular facet of the head, to which the tendon of the short peroneal muscle was fixed in the tension position.

The distal part of the tendon of the peroneus muscle was transosssally sewn with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation of an additional talonavicular ligament. A longitudinal flap was held from the medial part of the Achilles tendon along the medial surface of the foot by means of a Billroth clamp over the flexor tendon retainer of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the area of the tuberosity of the scaphoid bone, creating an additional calcaneonavicular ligament.

The talonavicular ligament was restored by suturing to create a duplicate, the Achilles tendon was sutured in the position of moderate tension "end-to-end". The postoperative wounds were sutured in layers. Aseptic dressings for wounds. Performed immobilization with a plaster cast from the metacarpophalangeal joints to the upper third of the thigh.

Claims (1)

The method of surgical correction of congenital planovalgus deformity of the feet in children, characterized by the fact that in the preoperative period, before performing surgical treatment, spatial visualization of congenital planovalgus deformity of the patient's foot is determined by the method of multilayer spiral computed tomography, the state of the surrounding soft tissues is assessed by the method of magnetic resonance imaging, vascular and nerve structures that are not visualized when performing multilayer spiral computed tomography, after the implementation of anesthesia, with the patient in the supine position, perform an arcuate skin incision 6-7 cm long along the posterior surface of the leg in the projection of the Achilles tendon, while the base of the incision is oriented to the lateral parts of the lower leg, access the Achilles tendon, open the peritenon, lift the Achilles tendon on narrow elevators and perform a longitudinal dissection of the Achilles tendon with a scalpel for 4-5 cm, from the medial The section of the dissected Achilles tendon isolates a longitudinal flap for the entire length of the dissection, the medial portion of the Achilles tendon and the medial flap are proximally cut off, the lateral flap is dissected distally with a Z-shaped lengthening of the Achilles tendon, the deep tibial fascia of the lower leg is opened and access to the ankle capsulum is performed and subtalar joints, the second incision 3-4 cm long is performed along the lateral surface of the foot in the projection of the insertion site of the tendon of the peroneal muscle into the tuberosity of the fifth metatarsal bone, the tendon of the short peroneal muscle is isolated, cut off from the site of attachment and stitched, in the wound of the first incision along the posterior the surfaces of the leg differentiate the tendon of the short peroneal muscle and bring it into the wound along the posterior surface of the leg by traction on the elevator, then with the Billroth clamp they form a channel in the tibiofibular syndesmosis on the anterior surface of the leg, where the third linear 1.5 cm incision is performed from the skin at the top of the clamp, then through the formed canal in the tibiofibular syndesmosis, the tendon of the short peroneal muscle is passed to the anterior surface of the lower leg and brought out into the third skin incision, then the fourth arcuate incision of the skin is performed along the inner surface of the foot 6-7 cm long, with the base the incision is oriented to the rear, in the projection of the talo-navicular joint in the direction of the tarsal canal, access is made to the talo-navicular and talocalcaneal joints, the talo-navicular and talocalcaneal joints are opened by dissecting their capsules in the horizontal plane, the talus is sharply mobilized from the capsule the neck area, then from the posterior approach, the first fixing pin is carried out through the body of the talus from back to front, from outside to inside in the direction of the neck and head of the talus, the foot is given a correction position with restoration of the height of the internal longitudinal arch and the forefoot is held in the correction position, spend the first fixing pin further into the scaphoid bone with the provision of fixation of the talus with the scaphoid with one fixing pin in the position of the midfoot correction, then the calcaneal tubercle is lowered with a single-toothed hook with the restoration of the anatomical relationship between the calcaneus, talus and tibia, then from the plantar surface of the foot through the heel bone in the direction of the tibia, two additional wires are passed in the sagittal plane to ensure fixation of the calcaneus, talus and tibia in the anatomically correct position, then the Billroth clamp is carried out from the medial surface of the neck of the talus through the joint capsule under the extensor tendon retainer in the direction of the third incision, grasp the tendon short peroneal muscle, carried out under the extensor tendon retainer and brought out into the projection of the neck of the talus, then into the neck of the talus from the medial side, as close as possible to the articular facet of the head, a self-tapping anchor fixator with threads is introduced, to which the tendon of the short peroneal muscle is fixed in the tension position, the distal part of the tendon of the short peroneal muscle is transosssally sutured with a thread to the dorsal-medial surface of the scaphoid, closer to its tuberosity, with the creation of an additional talonavicular ligament, a longitudinal flap from the medial part of the Achilles tendon along the medial surface of the foot by means of the Billroth clamp over the tendon retainer of the flexors of the foot and sutured to the distal part of the tendon of the short peroneal muscle in the area of the tuberosity of the scaphoid with the creation of an additional calcaneonavicular ligament, restoring the talo-scaphoid ligament , the Achilles tendon is sutured in a position of moderate tension "end-to-end", postoperative wounds are sutured in layers, aseptic dressings on wounds, immobilization is performed with a plaster cast from the metacarpophalangeal joints to the upper third of the leg.