 |
| About Bioline | All Journals | Testimonials | Membership | News |
|
||||||
|
||||||
Indian Journal of Plastic Surgery, Vol. 43, Supp. 1 , 2010, pp. 72-79 Review Article Management of post burn hand deformities S Raja Sabapathy, Babu Bajantri, R Ravindra Bharathi Department of Plastic, Hand, Reconstructive Microsurgery and Burns Surgery, Ganga Hospital, 313, Mettupalayam Road, Coimbatore, Tamil Nadu, India Correspondence Address: Code Number: pl10049 DOI: 10.4103/0970-0358.70727 Abstract The hand is ranked among the three most frequent sites of burns scar contracture deformity. One of the major determinants of the quality of life in burns survivors is the functionality of the hands. Burns deformities, although largely preventable, nevertheless do occur when appropriate treatment is not provided in the acute situation or when they are part of a major burns. Reconstructive procedures can greatly improve the function of the hands. Appropriate choice of procedures and timing of surgery followed by supervised physiotherapy can be a boon for a burns survivor.Keywords: Postburn hand deformity; contracture release; hand burns Introduction One of the major determinants of the quality of life in burns survivors is the functionality of the hands. Postburn hand deformities, if bilateral, can make a burn survivor a total cripple [Figure - 1]. The problem is largely preventable by good initial care, which would include elevation of the hand, appropriate splinting, early grafting of deep burns and supervised physiotherapy. Tredget [1] found that in patients with a mean total body surface area burn of 15%, 54% of the patients sustained burns to the hand and upper extremity. Because of the high frequency of occurrence of hand burns, the chances of the occurrence of a deformity is high. The hand is ranked as one of the three most frequent sites of burn scar contracture deformity. [2] /p> In this article, we have first explained the general principles that were found useful in treating burn hand deformities, followed by technical aspects pertaining to commonly seen deformities. General Principles in the Management of Postburn Hand Deformities
Management of Individual Deformities Dorsal hand deformities In the classical dorsal hand deformity, there is clawing of the fingers - hyperextension of the metacarpophalangeal joints and flexion of the interphalangeal joints. [Figure - 2]. The severe oedema in the dorsum of the hand causes hyperextension of the metacarpophalangeal joints. The palmar arches flatten. Flexion of the PIP joint occurs as a result of this oedema-imposed tension on the common digital extensor tendon system and concurrent hyperextension of the MP joints . The ring and the little fingers are affected 65% of the times. [5] With time, the joints become stiff and the extensor tendons undergo adaptive shortening. The poor quality of skin at the PIP joint may expose the tendon and the extensor may rupture secondary to stretch and ischaemia. The thumb may lie in the plane of the palm with a narrow first web space. The goal of treatment is to get the fingers straight, the MCP joints flexed and facilitate the thumb to oppose the tips of the other fingers. If the IP joints have fixed flexion deformity, they need to be released earlier to or along with the correction of the hyperextension deformity of the MCP joints . Otherwise, the fingertips will bury into the palm, functionally downgrading the hand. Adequate release of the IP joints that can be managed with skin grafts is performed if dorsal release is also attempted [Figure - 2]. If, after the correction of the IP flexion deformity, the raw areas would need a flap, then dorsal release is not combined. Skin over the MCP and the IP joints are highly flexible, with reservoirs of skin overlying the joints. It has been documented that there is a considerable increase in finger length when moving from a position of total finger extension to complete fisting. The fingers do not move like a door hinge; rather, the phalanges articulate around the head of the antecedent segment to account for the increase in length [Figure - 3]. This point has to be remembered when replacing skin after dorsal release. Apart from skin shortage, two factors limit release of the contracture. One is the joint problem. The anterior capsule becomes stiff and adherent to the joint surfaces, preventing the proximal phalanx to glide volarwards [Figure - 4]. On pressure, the base of the proximal phalanx may tilt upwards. When this happens, the capsule needs to be opened and, with the help of a curved dissector, a pocket needs to be created for the phalanx to glide forward. The other factor is the adaptive shortening of the extensor tendons. It is better to stretch the muscles as much as possible, fix the joint and further stretch the contracted muscles by physiotherapy. Cutting the tendon and putting in a tendon graft is not recommended. Excursion of the tendon is dependent on muscle fibre length. When the gap is bridged by tendon graft, the muscle remains short and the length of excursion of the tendon becomes limited [Figure - 5]. Sawhney feels that by staged release, skin grafting and rigorous physiotherapy, even very severe contractures can be corrected without resorting to flap cover and tendon grafting. [6] In very severe contractures, if the patient cannot afford the time for multiple procedures, the extensor tendons can be divided to obtain flexion of the fingers. Surprisingly, many patients adjust without extensor reconstruction. The release is performed by a transverse incision placed in such a way that, after full release, the distal flap migrates and still covers the MCP joints [Figure - 6]. Under the flap, MCP joint capsulotomy is performed. If the joint has to be temporarily stabilized, the K wires are to be obliquely inserted to avoid transfixing the extensor hood. Skin coverage is dependent on the bed and grafts are preferred if the bed would accept a graft or a flap is given. Skin flaps are preferable to muscle or fascial flaps with grafts because skin flaps allow easy access for secondary procedures. Whatever flap is used, the ultimate outcome is dependent on the physiotherapy to maintain the gains of surgery. While it is easier to institute early physio with free flaps, even with pedicled abdominal flaps as cover, it is possible to institute early physiotherapy [Figure - 7]. Volar deformities Burns to the palm are less frequent when compared with dorsal burns and, more often, are superficial due to the thickness of the palmar skin. Deep burns of the palm occur in camphor burns associated with religious practices, industrial accidents and in electrical injuries. In the later two instances, hand deformities may be aggravated by the associated compartment syndrome and carpal tunnel syndrome. Early recognition of compartment syndrome and carpal tunnel syndrome and decompression will reduce deformities associated with palmar burns. Established plamar contracture results in narrowing of the metacarpal arch with the thenar eminence approaching the hypothenar area. This results in hyperextension deformity of the MCP joint of the thumb and flexion at the IP joint. Full release of palmar contracture is usually possible and the raw area is covered by full-thickness or thick split-thickness grafts [Figure - 8]. The first metacarpal may need to be fixed in extension till the grafts settle. It is better to use thick skin grafts in the palm than a flap. The bulkiness of the flap prevents cupping of the palm and the ability to hold objects. The patients feel like they are already holding something in their hand. Flaps, if they have to be used, are to be thin or have to undergo multiple secondary thinning procedures. Skin grafts, even if they have to be used in multiple stages, ultimately provide a better outcome as they help in holding objects better. Deformities of the thumb The most obvious deformity in the thumb appears at the MCP joint. When there is hyperextension contracture at the MCP joint, swan neck-type deformity occurs in the thumb and, with flexion contracture at the MCP joint, a boutonniere deformity occurs. Both may be associated with first-web contracture. When the deformities are of short duration and are due to skin contracture, release of the contractures will correct the problem. If the deformities are severe, an overall plan has to be made and it is linked with the deformities that the patient has in the other fingers. Adduction contractures of the first-web space can have a significant impact on overall hand function. [7] It might require release of the origin of the first dorsal interosseous from the first metacarpal and the adductor origin from the third metacarpal. Fibrous tissue overlying these muscles must also be released. In addition to gaining abduction, the aim is to obtain a certain amount of pronation of the thumb so that at the end of the contracture release, the pulp of the thumb will face the pulp of the other fingers. Release of the skin and first-web muscles will gain abduction, but pronation will be obtained only when the contracture at the CMC joint is released. This has to be done avoiding injury to the radial vessels. The raw area after first-web release almost always would need a flap cover. Posterior interosseous flap is an ideal choice if the donor site is available [Figure - 9]. Otherwise, a distant pedicle flap or a free flap can be used. At the same sitting, the thumb can be brought into a functional position by release of the contracture at the MCP joint. If difficult, an arthrodesis of the MCP joint of the thumb can be performed. The level and the inclination of bone freshening can be used to position the thumb in the most appropriate position. A good and adequate first-web and a stable MCP joint of the thumb will provide a functionally and aesthetically acceptable thumb in most instances. Swan neck deformities A burn swan neck deformity occurs mainly due to three causes. They are, one: due to rupture of the extensor insertion at the distal interphalangeal joint causing a mallet deformity, which, secondarily, causes a swan neck deformity. A second cause is due to the skin contracture because of deep burns of the dorsum of the fingers. The third cause is due to tightening of the intrinsics due to ischaemic fibrosis of the intrinsic muscles secondary to compartment syndrome in the acute phase. Correction addressing the problem can only be effective if the deformity is not fixed. In acute trauma, the swan neck deformity secondary to a mallet deformity does not progress to a fixed deformity and, hence, correction of the mallet deformity corrects the swan neck deformity. In burns, most often, the extent of injury also extends proximally and the swan neck deformity quickly becomes a fixed deformity. Swan neck deformity affects function, and it needs to be corrected. The choice will depend on the cause. If it is due to dorsal skin contracture, release incisions proximal and distal to the PIP joint and grafting will correct the deformity. Similarly, mallet deformity correction will correct it in the early stages. In all fixed deformities, the most viable option would be arthrodesis of the PIP joint in the functional position with increasing flexion from the index (25-30 degrees) to the little (40-50 degrees) fingers. [8] Boutonniere deformity The deformity, characterized by flexion at the PIP joint and hyperextension at the DIP joint, is due to the rupture of the central slip insertion at the base of the middle phalanx. Tension ischaemia can result when the injured tendon is compressed between the eschar and the head of the proximal phalanx as the PIP joint is flexed. [9] The deformity could be prevented by splinting the PIP joint in extension in the acute stage. While it is advisable to encourage early movement in superficial burns, it is prudent to splint deep burns of the dorsum in the acute situation. If some movement is desired, it is better to advice isolated movement at each joint separately than a composite movement of all joints, which would put more stress on the injured tendons. In addition, pressure and tension on the tendons also causes ischaemic changes, promoting rupture of the tendon insertion. Contrary to swan neck deformity, persons with boutonniere deformities continue to possess a fair amount of function. Surgery is indicated when the skin overlying the PIP joint is open, when there is severe hyperextension of the DIP or the MCP joints. Tendon-rebalancing procedures are rarely possible in burns because of the poor quality of the overlying skin, and arthrodesis is resorted to when there are problems of opposition to the thumb. Burn syndactyly Circumferential burns of the fingers when allowed to heal without grafting cause syndactyly. The outcome of separation of burns syndactyly depends on the status and the depth of the burns of the other parts of the fingers. Usually, the IP joints are stiff and there is paucity of skin to make flaps, as is performed in congenital conditions. Most of the times, longitudinal division has to be made and the raw areas have to be grafted. This is the reason for the increased incidence of web creep after burn syndactyly separation than after congenital cases. When separating burn syndactyly, as far as possible, the best available skin is used to make the web flap. Full-thickness skin at the web prevents creep. Web contractures are separated by using different types of Z plasty or by using the square flap technique. In burn contractures, in addition to deepening the web, fibrous tissue at the web also needs to be excised to promote lateral movement (abduction and adduction) of the fingers. Unless that is done, chances of recurrence are high. Postoperatively, padded splints are to be worn to prevent recurrence. The burnt little finger The little finger is the most affected finger in burn deformities. Groenevelt, who performed a study on this, feels that little finger bears the brunt of burn trauma because it most exposed in the protective posture of the hand and, most often, suffers circumferential burns than other fingers. [10] The deformity could be a combination of flexion and rotation due to more loss of skin on the outer aspect of the finger. Initial management is to release the flexion and lateral contractures and get it out of the palm. If the finger is totally buried into the palm and if the other fingers can easily be restored to functional position, even amputation of the deformed little finger may be an advantage than undergoing multistage procedures with residual compromised function. Management of digital losses Digital amputation may be an isolated digital loss like the thumb in case of electrical burns or multiple digital losses that occur in major burns. When the digital loss is an isolated one, the most valuable microsurgery procedure is toe transfer. [11],[12] In large total body surface area burns with involvement of the feet and multiple digital amputations, free toe to hand transfers may not be possible. In them, finger lengthening techniques by distraction osteosynthesis are useful. [13] Corticotomy of the shortened digit is performed after placement of a mini-Hoffman device for subsequent distraction. After 2 weeks, early callus formation occurs with immature woven bone and osteoprogenitor cells. Subsequent distraction of the healing callus can occur followed by a 2-4-week period of stabilisation to allow the new bone to solidify. Distraction lengthening is mostly performed in the thumb and the index to restore pinch. For it to be effective, at least most of the first metacarpal must be present and skin coverage of the amputation stump should be adequate. Traditional techniques like phalangisation and osteoplastic thumb reconstruction are also rarely used. [14],[15] Physiotherapy and aftercare of postburn hand deformities The gains made by surgery have to be maintained by properly splinting the released joints. If Kirshner wires have been used to hold the joints in position, they are retained for 3 weeks to enable the grafts or flaps to settle. The grafts must be massaged and custom-made compression garments worn for 6 months for the grafts and flaps to settle. The scars have a grater tendency to contract in the early period, relentlessly acting throughout the day. Therefore, therapy has to be performed multiple times a day and the joints have to be splinted in between. Good physiotherapy will make all the efforts worthwhile. References
Copyright 2010 - Indian Journal of Plastic Surgery The following images related to this document are available:Photo images[pl10049f2.jpg] [pl10049t1.jpg] [pl10049f6.jpg] [pl10049f1.jpg] [pl10049f3.jpg] [pl10049f8.jpg] [pl10049f7.jpg] [pl10049f9.jpg] [pl10049f4.jpg] [pl10049f5.jpg] |
| |||||||||
![[Figure - 1]](/showimage?pl/photo/pl10049f1.jpg){kind=link}
![[Table - 1]](/showimage?pl/photo/pl10049t1.jpg){kind=link}
![[Figure - 2]](/showimage?pl/photo/pl10049f2.jpg){kind=link}
![[Figure - 3]](/showimage?pl/photo/pl10049f3.jpg){kind=link}
![[Figure - 4]](/showimage?pl/photo/pl10049f4.jpg){kind=link}
![[Figure - 5]](/showimage?pl/photo/pl10049f5.jpg){kind=link}
![[Figure - 6]](/showimage?pl/photo/pl10049f6.jpg){kind=link}
![[Figure - 7]](/showimage?pl/photo/pl10049f7.jpg){kind=link}
![[Figure - 8]](/showimage?pl/photo/pl10049f8.jpg){kind=link}
![[Figure - 9]](/showimage?pl/photo/pl10049f9.jpg){kind=link}