Survey
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
* Your assessment is very important for improving the workof artificial intelligence, which forms the content of this project
ORIGINAL ARTICLE Sensate First Dorsal Metacarpal Artery Flap for Resurfacing Extensive Pulp Defects of the Thumb Shun-Cheng Chang, MD, Shao-Liang Chen, MD, Tim-Mo Chen, MD, Chia-Jueng Chuang, MD, Tian-Yeu Cheng, MD, and Hsian-Jenn Wang, MD Abstract: Finding an appropriate soft-tissue grafting material to close a wound located over the distal phalanx of the thumb, especially the pulp region, can be a difficult task. A sensate first dorsal metacarpal artery flap, mobilized from the dorsum of the adjacent index finger and used as an island pedicle skin flap, can be useful for this purpose. The pedicle includes the ulnar branch of the first dorsal metacarpal artery, the dorsal veins, and the cutaneous branch of the radial nerve. Although this tiny artery is anatomically variable, safe dissection can be achieved by including the radial shaft periosteum of the secondary metacarpal bone and the ulnar head fascia of the first interosseous muscle. This approach has been used for 8 individuals with extensive pulp defects of the thumb over the past 3 years. Skin defects in all patients were combined with bone, joint, or tendon exposure. All flaps survived completely. This 1-stage procedure is reliable and technically simple. It provides sensate coverage to the pulp of the thumb but also avoids nerve repair or more complicated microsurgery. Key Words: first dorsal metacarpal artery flap, pulp defect of thumb (Ann Plast Surg 2004;53: 449 – 454) E xtensive pulp defects of the thumb, with the exposure of tendon or bone, are challenging reconstructive problems because of the lack of locally available tissue. Surgical treatment includes the use of local, regional, and free flaps. The use of local flaps, including transposition and advancement flaps with random vascularity, is restricted because of the limited range of flap mobility and the limited amount of tissue movable from nearby areas.1 The use of a skin flap mobilized from an adjacent finger, such as the cross-finger flap, requires a staged approach and has limitations, including a considerable period of immobilization, with the risk of subsequent joint stiffness and a limited arc of transposition.2 The heterodigital neurovascular island flap formed from the ulnar pulp of the middle finger or the radial pulp of the ring finger, based on the proper palmar digital artery and nerve, is another option. However, with this flap, 2 major digital arteries are killed and extensive digital and palmar dissection is needed.3 Microvascular transfer of a free flap, like free partial toe transfer, can be used to remedy these problems, but such a technique requires microsurgical experience and prolonged operation.4 Since Foucher and Braun5 demonstrated that a sensate skin island flap created from the dorsum of the index finger could be raised and based upon the first dorsal metacarpal artery and sensory branch of the radial nerve, similar flaps have been reported subsequently and have been shown to be appropriate for resurfacing the defects of the dorsal thumb or the first web space.6 –9 Reports seldom comment on its use for pulp loss from the thumb. Here we report 8 cases of extensive pulp loss extending to the tip of the thumb, which were resurfaced with a sensate first dorsal metacarpal artery (FDMA) flap in a single stage procedure. Vascular Anatomy Received February 9, 2004; accepted for publication March 15, 2004. From the Division of Plastic Surgery, Department of Surgery, Tri-Service General Hospital, National Defense Medical Center, Taipei, Taiwan, R.O.C. Presented at the Annual Meeting of the Taiwan Association of Surgery, Taipei, March 28, 2003. Reprints: Shao-Liang Chen, Division of Plastic Surgery, Tri-Service General Hospital, 3F, No25, Alley 4, Lane 154, Yung-Chun Street, Taipei 100, Taiwan, R.O.C. E-mail: [email protected] Copyright © 2004 by Lippincott Williams & Wilkins ISSN: 0148-7043/04/5305-0449 DOI: 10.1097/01.sap.0000137134.15728.dd The FDMA is a constant vessel arising from the radial artery just distal to the tendon of the extensor pollicis longus and proximal to the point at which the radial artery pierces between the radial and ulnar heads of the first dorsal interosseous muscle.10 The artery runs over the fascial layer of the first dorsal interosseous muscle and divides into the radial branch to the thumb, the intermediate branch to the first web space, and the ulnar branch to the index finger. The ulnar branch usually courses distally within the musculo-osseous groove, between the ulnar head of the first dorsal interosseous muscle and the radial shaft of the second metacarpal bone, Annals of Plastic Surgery • Volume 53, Number 5, November 2004 449 Annals of Plastic Surgery • Volume 53, Number 5, November 2004 Chang et al until it reaches the metacarpophalangeal (MP) joint. Here a nutrient branch from the second palmar metacarpal artery joins the artery before it divides into a number of small vessels, which supply a rich subdermal plexus over the dorsum of the proximal phalanx (Fig. 1A).11 PATIENTS AND METHODS The FDMA flap was used to reconstruct the pulp defects of the thumbs in 8 patients over 3 years. The patients included 6 men and 2 women, ranging in age from 20 to 56 years. They all had avulsion injury or painful scar needing reconstruction. Tissue grafting was contraindicated for all patients because of the exposure of tendons or bones at the wound site. The flap was used in the acute stage for wound coverage in 7 patients, and 1 was performed in the late reconstructive stage. Operative Technique A skin marking, with its size determined by the defect of the thumb, is made over the dorsum of the proximal phalanx of the adjacent index finger. The flap margins are outlined proximally and distally to preserve the dorsal skin of the MP joint and the proximal interphalangeal (PIP) joint respectively. The width of the flap is designed so that it does not to extend beyond the radial and ulnar midaxial lines of the proximal phalanx. The estimated pivotal point is then marked on the site of origin of the FDMA. Operation is performed with the patient under general, axillary block, or regional anesthesia, with the aid of tourniquet control and loupe magnification. The flap is raised from the distal to the proximal side and from the ulnar to the radial side. Care is taken to leave the paratenon undisturbed to FIGURE 1. A, The first dorsal metacarpal artery (FDMA) divides into the FDMAr to the thumb, the FDMAi to the first web space, and the FDMAu to the index finger. The flap territory is limited between the MP joint and the proximal interphalangeal joint. The cutaneous branch of the radial nerve is included in the flap. The dotted line means the radial shaft periosteum of the secondary metacarpal bone will be included in the pedicle. B, FDMAu usually courses within the musculo-osseous groove, between the ulnar head of the first dorsal interosseous muscle and the radial shaft of the secondary metacarpal bone. C, After raising the flap, the FDMAu (arrows) sticks to the fascia of the musculo-osseous groove. The radial shaft periosteum (arrowheads) of the secondary metacarpal bone is included in the pedicle for safe dissection of this tiny artery. FDMAi, intermediate branch of FDMA; FDMAr, radial branch of FDMA; FDMAu, ulnar branch of FDMA; MC I, first metacarpal bone; MC II, second metacarpal bone; RA, radial artery; RN, radial nerve. 450 © 2004 Lippincott Williams & Wilkins Annals of Plastic Surgery • Volume 53, Number 5, November 2004 ensure the “take” of a skin graft and the free gliding of the tendon. The fascia pedicle will be taken through a zigzag skin incision and subdermal dissection along the radial border of the MP joint toward the pivot point; thus, the maximal potential length of the flap pedicle can be achieved, allowing it to reach the thumb tip without tension. The pedicle includes the fascia of the first dorsal interosseous muscle, the dorsal veins, and the sensory branch of the radial nerve (Fig. 1B). Although the ulnar branch of the FDMA is tiny and courses deeply within the musculo-osseous groove, no attempt is made to visualize the artery. Instead, safe dissection can be achieved by including the radial shaft periosteum of the second metacarpal bone, continued by the ulnar head fascia of the first dorsal interosseous muscle (Fig. 1C). Another key point for successful flap dissection is near the MP joint, where the nutrient branch needs to be carefully identified and divided. Also, distal to this critical area, the FDMA starts to ramify into small vessels. If the fascia overlying the first dorsal interosseous muscle is not included, dissection will be difficult. After raising the flap, the tourniquet is released and vascular flow to the flap is ascertained. A subcutaneous tunnel is made, and the flap is transferred by gentle traction into the pulp defect of the thumb. The donor site is grafted with either a splitthickness or full-thickness skin graft, depending on convenience during surgery. RESULTS Clinical data were summarized in Table 1. The flap sizes ranged from 3 ⫻ 1.5 cm to 5 ⫻ 3 cm, and all survived completely. The eventual static 2-point discrimination of the flap ranged from 6 to 14 mm, and the patients needed 4 to 8 months to reorient the flap in the new location. The skin grafts applied to the donor area were satisfactory, and full recovery of flexion and extension of the index finger Metacarpal Artery Flap for Resurfacing Pulp Defects was also obtained. The only complaint from the patients was graft discoloration. CASE REPORTS Case 2 A 28-year-old man experienced a crushing injury with soft tissue loss and joint exposure over the pulp of his left thumb. A sensate FDMA flap, 3 ⫻ 1.5 cm in size, was raised to cover the defect. The flap was completely viable following surgery, and its static 2-point discrimination was 8 mm, as for the contralateral side of the dorsal index finger (Fig. 2A-D). Case 7 A 37-year-old man sustained an electric saw injury with extensive pulp loss and bone exposure to his right thumb. A sensate FDMA flap, 5 ⫻ 3 cm in size, was raised to restore the pulp defect. The vascular pedicle, including the radial shaft periosteum of the second metacarpal bone, was dissected to the origin of the FDMA. The flap survived well and the contour of the thumb appeared to be nicely restored. The static 2-point discrimination of the flap was 9 mm (Fig. 3A-D). DISCUSSION As an island sensory flap, the FDMA flap has a pedicle length up to 7 cm, allowing a wide arc of rotation, and has proved to be very useful in resurfacing pulp defects of the thumb.12 Although there are some variations of the FDMA and its ulnar branch is tiny and fragile, the vascularity of the FDMA flap can be maintained if the fascia overlying the musculo-osseous groove is included in the pedicle. Because the ulnar branch of the FDMA usually sticks to the fascia within the groove, this modified method avoids the need for meticulous dissection of the artery or raising the flap on a nondominant arterial branch. TABLE 1. Patient Data Patient Sex/age (y) Cause Flap Size (cm) Complication Static 2-PD (mm) Reorientation (months) 1 2 3 4 5 6 7 8 M/20 M/28 M/21 F/42 M/20 F/56 M/37 M/40 Avulsion Avulsion Avulsion Avulsion Avulsion Scar contracture Avulsion Avulsion 3.5 ⫻ 3 3 ⫻ 1.5 3.5 ⫻ 2 3.5 ⫻ 2.5 4⫻2 4⫻2 5⫻3 4 ⫻ 2.5 Flap congestion Nil Nil Nil Nil Nil Nil Nil 14 8 7 8 6 6 9 7 8 4 6 4 6 4 5 6 F, female; M, male; 2-PD, 2-point discrimination. © 2004 Lippincott Williams & Wilkins 451 Chang et al Annals of Plastic Surgery • Volume 53, Number 5, November 2004 FIGURE 2. A, A pulp defect of the left thumb with joint exposure. B, A sensate FDMA flap, 3 ⫻ 1.5 cm in size, was designed on the dorsum of the proximal index finger. C, Immediately after the operation, the pulp has been nicely restored. D, View at 2-year follow-up. The static 2-point discrimination was 8 mm, as on the contralateral side of the index finger. The dorsal cutaneous branch from the radial nerve is included in the flap for obtaining sensory restoration.13 The nerve enters the flap lateral to the MP joint and superficial to the extensor apparatus. It is easily identified. All cases in our series recovered good or excellent tactile gnosis, while the eventual static 2-point discrimination was in the order of 6 to 14 mm. Although the sensation pattern of this flap in the new 452 location of thumb pulp was still felt as if it was at the donor site—the dorsum of the proximal index finger—most patients adapted it to well within 4 to 8 months. Size limitation is a restricting factor for the FDMA flap, which can extend distally to the PIP joint and proximally to the MP joint.14 –16 There is no single artery that traverses the dorsal skin of the proximal phalanx after the ulnar branch of © 2004 Lippincott Williams & Wilkins Annals of Plastic Surgery • Volume 53, Number 5, November 2004 Metacarpal Artery Flap for Resurfacing Pulp Defects FIGURE 3. A, Extensive pulp loss of the right thumb with bone exposure. B, A large sensate first dorsal metacarpal artery flap, 5 ⫻ 3 cm in size, was raised from the dorsum of the index finger. C, The flap resurfaced the pulp defect completely and the donor site was covered with skin graft. D, View at 1-year followup. The contour of the pulp has been restored and the static 2-point discrimination was 9 mm. Free joint motion of the index finger was also noted. the FDMA ramifies into small branches distal to the MP joint, so the flap is a random flap, and its length should be confined within the dorsum of the proximal phalanx. If the flap extends beyond the PIP joint, the viability of its distal part and scar contracture of the donor region will be the major concerns. In our series, there was no morbidity related to the donor area on the dorsum of the index finger. Good take of the skin graft on preserved paratenon and maintaining the specialized skin © 2004 Lippincott Williams & Wilkins over the MP and PIP joints intact were factors contributing to this. The main goal of the plastic surgeon facing a complex soft-tissue defect is to replace “like with like” tissue at minimal donor site cost and with maximal efficacy. The FDMA flap, which allows the surgeon to accomplish the goal better, should serve as a valuable alternative for sensory resurfacing in the thumb. 453 Annals of Plastic Surgery • Volume 53, Number 5, November 2004 Chang et al REFERENCES 1. Argamazo RV. Rotation/transposition method for the soft tissue replacement on the distal segment of the thumb. Plast Reconstr Surg. 1974;19: 37– 40. 2. Gaul JS. Radial-innervated cross-finger flap from index to provide sensory pulp to injured thumb. J Bone Joint Surg. 1969;51A:1257–1263. 3. Littler JW. The neurovascular pedicle method of digital transposition for reconstruction of the hand. Plast Reconstr Surg. 1953;12:303–319. 4. EL-Gammal TA, Wei FC. Microvascular reconstruction of the distal digits by partial toe transfer. Clin Plast Surg. 1997;24:49 –55. 5. Foucher G, Braun JB. A new island flap transfer from the dorsum of the index to the thumb. Plast Reconstr Surg. 1979;63:344 –349. 6. Rybka FJ, Pratt FE. Thumb reconstruction with a sensory flap from the dorsum of the index finger. Plast Reconstr Surg. 1979;64:141–144. 7. Earley MG, Milner RH. Dorsal metacarpal flaps. Br J Plast Surg. 1987;40:333–341. 8. Small JO, Brennen MD. The first metacarpal artery neurovascular island flap. J Hand Surg 1988;13B:136 –145. 454 9. Yang JY. The first dorsal metacarpal flap in first web space and thumb reconstruction. Ann Plast Surg. 1991;27:258 –264. 10. Earley MJ. The arterial supply of the thumb, first web and index finger and its surgical application. J Hand Surg. 1986;11B:163–174. 11. Sherif MM. First dorsal metacarpal artery flap in hand reconstruction, I: anatomy study. J Hand Surg. 1994;19A:26 –31. 12. Sherif MM. First dorsal metacarpal artery flap in hand reconstruction, II: clinical application. J Hand Surg. 1994;19A:32–38. 13. Tubiana R, Duparc J. Restoration of sensibility in the hand by neurovascular skin island transfer. J Bone Joint Surg. 1961;43B:474 – 480. 14. Ratcliffe RJ, Regan PJ, Scerri GV. First dorsal metacarpal artery flap cover for extensive pulp defects in the normal length thumb. Br J Plast Surg. 1992;45:544 –546. 15. El-Khatib HA. Clinical experiences with the extended first dorsal metacarpal artery island flap for thumb reconstruction. J Hand Surg. 1998; 23A:647– 652. 16. Gebhard B, Meissl G. An extended first dorsal metacarpal artery neurovascular island flap. J Hand Surg. 1995;10B:529 –531. © 2004 Lippincott Williams & Wilkins