Двухэтапная тендопластика сухожилий сгибателей пальцев кисти у детей с застарелыми повреждениями в зоне фиброзно- синовиальных каналов Two-stage repair of finger flexor tendons in children with chronic tendon ruptures in fibro-synovial canals

Two-stage repair is a well-developed method that is commonly used to repair chronic ruptures of flexor digitorum profundus tendons. However, its use in pediatric hand surgery is limited due to the absence of tendon implants adapted for children. The article describes a modified Paneva-Holevich/Hunter technique for two-stage tendon reconstruction using original, oval, Lavsan-reinforced silicone prosthetic implants of four sizes (depending on patients’ age). The surgery was performed in 34 children aged 1.5–17 years. Long-term outcomes were assessed in 12 patients (8 boys and 4 girls) using the Total Active Motion scale. The follow-up period was 30 months. The average active range of motion accounted for 178.8° in boys and 218.8° in girls. The results of treatment (TAM %) were considered good in all the girls (average score of 84.3 %), and in those boys who received surgery for fingers IV and V (average score of 80.0 %). The boys who received tendon repair for fingers II and III had “good” and “poor” results (average score of 67.0 %). The proposed method of two-stage tendon repair of chronic tendon ruptures in fibro-synovial channels in children was shown to provide good results with minimal complication rates and acceptable donor site deficiency.


статья хирургия
Chronic ruptures of the flexor digitorum profundus tendons in children remain a pressing issue of pediatric hand surgery.This is a relatively uncommon injury [1], but its consequences are extremely negative for children.Long-term results of treatment remain unsatisfactory for a number of reasons: complexity of the initial diagnostic assessment, a large number of missed tendon injuries (up to 30 %); a small diameter of tendons, which hinders the use of multifilament sutures and does not allow the reconstructed tendon to achieve the desired strength.
In addition, the lack of cooperation and motivation in young patients precludes early active rehabilitation [2,3].The most challenging is the injury of flexor digitorum tendons in zone 2. This zone extends from the distal palmar crease (proximal end of the first annular ligament, or A1 pulley) to the middle of the middle phalanx.In this zone flexor digitorum superficialis and flexor digitorum profundus tendons criss-cross and glide into a narrow fibro-synovial canal.Injuries in zone 2 are associated with a high risk of scarring after surgical repair, which prevents normal sliding of tendons [4][5][6].Bunell [7] called this zone "critical" and "no-man's-land" (Fig. 1).
Two-stage repair is a well-established method of flexor digitorum profundus tendon repair in cases of extensive scarring in the area of the fibro-synovial canal.Various modifications of this method have been proposed [8][9][10][11][12][13][14][15][16][17].However, the use of this method in pediatric hand surgery is impeded due to the absence of prosthetic implants adapted for children.Using our experience in tendon repair according to Paneva-Holevich [9,10] and Hunter [8,12] techniques, we have developed an original method of two-stage repair with silicone oval Lavsanreinforced implants (developed jointly with Medsil, Russia).The implants are available in four sizes for children of different age.The use of these implants allows for the adaptation of the existing protocols of postoperative passive and active rehabilitation for children.Currently, a state patent for these implants is being filed.
The aim of the study was to assess the efficacy of treatment of chronic flexor digitorum profundus tendon ruptures in children using a modified two-stage repair and original implants.

METHODS
In 2010-2016, in the Department of Reconstructive Microsurgery of N. F. Filatov Children's Municipal Clinical Hospital No. 13 (Moscow), there were 34 patients aged 1.5 to 17 years with chronic ruptures of flexor digitorum produndus tendons in the fibro-synovial canal.Most tendon injuries were caused by knives (n = 18), an edge of a metal fence (n = 11) and glass (n = 5).The time of injury was approximately 54-90 days before admission.
Two-stage repair of flexor digitorum profundus tendons was performed in all children.At the first stage we used a Brunner zigzag skin incision (Fig. 2) that provided wide access to the fibro-synovial canal.The canal was opened; scar tissues and tendon remnants were excised.A-2 and A-4 pulleys were retained or reconstructed.As opposed to Paneva-Holevich and Hunter techniques, the proximal stumps of the flexor digitorum superficialis and flexor digitorum profundus tendons were retrieved and then sutured side-to-side and to the fibrous tissues with moderate tension at the base of the proximal phalanx.This enabled us to increase elasticity, improve the contractile function of the injured flexors, and avoid the "muscle tenotomy" effect.A silicone prosthetic implant was placed under the retained or repaired pulleys.Its distal end was fixed to the distal phalanx under the stump of the flexor digitorum profundus tendon, and the proximal end was placed freely under the flexor tendons on the palm (Fig. 3).For immobilization, the patients wore the dorsal plaster splint for 4 weeks.Passive range of motion exercises were started to achieve the full range of passive flexion immediately after the first stage of repair.The second stage of repair was performed 2-2.5 months later.Incisions were made in the distal phalanx, palm and middle third of the forearm (Fig. 4).The flexor digitorum superficialis tendon was retrieved from the middle third of the forearm, cut and transferred to the palm.Using the prosthetic implant as a guide, the autograft was passed through the canal to the distal phalanx and fixed transosseously.The excess of the fibrosynovial canal was dissected proximally to allow free movement of the autograft.Proximal tendon suturing was performed using the Pulvertaft technique.The graft tension was adjusted so that the repaired finger was at less angle of flexion than adjacent ulnar finger.

ARTICLE surgery
In the postoperative period, patients wore the dorsal plaster splint (flexion at the radiocarpal joint was 30°, flexion at the metacarpophalangeal joints was 70°) for 5 weeks.Range of motion exercises and physiotherapy were started on day 3 after the surgery.We used early active-passive mobilization in our rehabilitation program.
The results of treatment were assessed with the scale (Total Active Motion) scale.The total range of motion was determined as the sum of the angles of active flexion in the operated finger joints.The score was calculated as the ratio of the damaged finger TAM to the healthy finger TAM multiplied by 100 %.A score of 100 % was considered "excellent"; a 75-99 % score was considered "good"; a 50-74 % score was considered "satisfactory", less than 50 % score was considered "poor".The long-term results were evaluated in 12 of 34 patients (30 months of the follow-up).

RESULTS
Table shows the long-term results of treatment of 12 children with chronic ruptures of flexor digitorum profundus tendons measured by the range of active motion using the TAM scale.According to the absolute TAM value, the active range of motion was by 40° greater in boys than in girls.Excellent results were seen in boys who had received repair of finger tendons IV and V (average score of 80 %), good and poor results were seen in patients who had received repair of finger

Fig. 4 .
Fig. 4. The second stage of flexor digitorum profundus tendon repair: fixation of the autograft

Fig. 3 .
Fig. 3.The first stage of flexor digitorum profundus tendon repair: fixation of the silicone prosthetic implant