Pedicled Radial Forearm Flap

10.1055/b-0034-78091

Pedicled Radial Forearm Flap

David J. Slutsky

The radial forearm flap is a useful and versatile fasciocutaneous flap designed on the radial artery. It was initially developed as a free flap in 1978 by Yang Goufan and coworkers in China.1 It was subsequently described as a pedicled flap using either antegrade or retrograde blood flow.2 In 1979 Foucher and Braun reported mobilizing the radial artery in the snuffbox and passing an island flap underneath the thumb extensors to allow the flap to reach the thumb tip.3 The flap includes the volar forearm skin, the underlying antebrachial fascia, and the intermuscular fascia, which contains the radial artery and its cutaneous branches. It can be innervated by the medial and lateral antebrachial cutaneous nerves. With retrograde flaps, neurorrhaphy to the local nerves is required.

Indications

A reverse pedicled radial forearm flap can be used for acute and chronic soft-tissue reconstruction of the upper limb.
There is no specific age range or time limit for this procedure.
It can be used for coverage of the palm or extensor surface of the carpus, with or without vascularized tendon.
An antegrade flap can be used for coverage of elbow defects. It provides a durable surface for coverage of amputation stumps near the wrist.

Contraindications

Underdevelopment of the radial artery or injury to the superficial and deep palmar arches would preclude the use of this flap, as would the absence of a connection between the radial and ulnar arteries.
In a cadaver dissection of 650 cadaver arms, only 3.2% had no communication between the radial and ulnar artery, and 3% had an incomplete deep arch. If both of these variations are present, the thumb will be dependent on the radial artery (~ 1 in 1,100). This can be identified by a preoperative Allen test. Vein graft reconstruction of the radial artery would be necessary in these cases.
Care should be exercised in acute trauma when hematoma extends to the snuffbox.

Examination/Imaging

An Allen test with the aid of Doppler ultrasound is needed to assess the patency of the radial artery.
Angiography may be necessary if there is any doubt.

Relevant Anatomy

The skin of the forearm flexor surface does not have any truly axial artery. An axial pattern flap is effectively created by raising a flap, including the fascial and subcutaneous vessels with their longitudinal orientation and interconnections.
The entire radial artery from its brachial artery origin to the wrist can be transferred. For most of its course, the radial artery lies under the brachioradialis.
The pronator teres, flexor pollicis longus, and pronator quadratus lie deep to the artery. The superficial radial nerve (SRN) is lateral to the artery under the brachioradialis.
After giving off the radial recurrent artery near its origin, the radial artery has no named branches until it reaches the wrist. Here it gives off a superficial palmar branch and a palmar carpal branch.
One cadaver study demonstrated between 9 and 17 branches from the radial artery to the fascia along the flexor surface of the forearm. The branches supplying the skin are contained in an intermuscular septum between the brachioradialis and the flexor carpi radialis ( Fig. 4.1 ). These branches are arranged into a proximal and distal group, with corresponding zones of perfusion.

Intermuscular fascia with the septocutaneous perforators (*) arising from the radial artery (RA).

In the distal half of the forearm, there are branches every 1 to 2 cm. As elsewhere, one vascular zone can be extended into another. The distal zone vessels can perfuse a fasciocutaneous flap as far proximal as the elbow. In a reverse pedicled flap, the skin blood supply is dependent on retrograde flow from the ulnar artery through the deep palmar arch.
Venous drainage of the radial forearm flap is by means of both the superficial and deep veins. There are three subcutaneous veins, including the cephalic, basilic, and median forearm vein, as well as the paired deep venae comitantes of the radial artery.
A reverse pedicled flap is drained by means of retrograde flow through the venae comitantes. Normally, the venous valves prevent backflow. When a distally based flap is raised, the veins are denervated. The veins are kept filled by blood from the wrist and hand, which leads to an increased venous pressure after ligation of their proximal ends. One author postulated that the combination of these factors allows reverse flow through the venous valves.
The SRN, the brachioradialis, flexor carpi radialis, and palmaris longus tendons are each supplied by direct branches and branches off cutaneous vessels.
The medial and lateral antebrachial cutaneous nerves enter the proximal margin of the flap and supply sensibility to the volar forearm.
The radial artery gives off at least two periosteal branches of 0.2 mm to 0.5 mm in size along the lateral aspect of the radius, immediately distal to the pronator teres insertion. These branches are accompanied by two small venae comitantes and pass along the fascial layer deep to the extensores carpi radialis longus and brevis.
Musculoperiosteal vessels form a constant source of blood supply over the anterior aspect of the distal shaft. They are in turn fed by branches of the radial artery supplying the flexor pollicis longus and pronator quadratus.
The skin can be innervated by including the medial or lateral antebrachial cutaneous nerve.
The flap can include the entire volar forearm skin from the subcutaneous border of the ulna around to the radial dorsum of the forearm, extending as far proximal as the antecubital fossa. Forearm flaps as large as 35 × 15 cm have been reported.

Variations

The radial forearm flap can be raised as a composite skin flap, including vascularized bone and tendon for thumb reconstruction.
A purely fascial radial forearm flap can be used to cover exposed tendons on the dorsum of the hand, but it has to be skin-grafted, and innervation is not possible.
A reverse radial fascial fat flap preserves the radial artery and has been used to cover a scarred median nerve.

Surgical Technique

The patient is positioned supine with the arm abducted on an arm board. The surgeon sits facing the volar forearm when harvesting the flap but may switch to the other side when insetting the flap. The procedure is done under brachial block or general anesthesia using loupe magnification, but the operating microscope may be needed for any venous anastomoses or neurorrhaphy. A tourniquet is used for the initial dissection, and the limb is only partially exsanguinated with an Ace wrap rather than an Esmarch bandage to facilitate identification of the vessels.
The courses of the radial artery and the superficial veins are marked. The flap axis is slightly medial to the course of the radial artery.
Using a pattern from the recipient site, outline the size of the defect on the proximal forearm. If the flap is outlined over the proximal ulnar forearm, it will be thinner and less hair-bearing ( Fig. 4.2a–c ).
A thin skin island can be left over the course of the radial artery to prevent the need for skin grafting the pedicle later on and to avoid an overlying skin bridge ( Fig. 4.3 ).
Incise the flap down to the deep fascia. Harvest veins along the proximal medial border of the flap. This allows an easier anastomosis with local veins once the flap has been rotated 180 degrees.
Identify the medial or lateral antebrachial cutaneous nerve, and then make a proximal extensile incision for a longer nerve pedicle ( Fig. 4.4a–c ). The SRN should be protected to preserve sensation to the radial aspect of the hand.
Develop a plane deep to the radial artery at the wrist and find the intermuscular septum between the flexor carpi radialis (FCR) and the brachioradialis. Incise the deep fascia over the FCR muscle belly, well medial to the intermuscular septum.

The flap axis is shown by a straight line down the midline of the forearm that is slightly medial to the radial artery (RA). The flap may be outlined anywhere along the flap axis. **(b)** The flap (*in blue*) is raised subfascially to the lateral border of the flexor carpi radialis (FCR). The deep dissection includes the intermuscular septum. PL, palmaris longus; FDS, flexor digitorum sublimus; FCU, flexor carpi ulnaris. **(c)** Cross-section through the forearm distal to the pronator teres showing the position of the radial artery (RA) and plane of dissection for elevation of a fasciocutaneous flap. FCR, flexor carpi radialis; FPL, flexor pollicus longus; FDS, flexor digitorum sublimus; FDP, flexor digitorum profundus; FCU, flexor carpi ulnaris; BR, brachioradialis; UA, ulnar artery.

Reverse pedicle skin flap with a skin bridge (SB) over the radial artery pedicle.

Diagram of the flap, which includes the radial artery (RA) and venae comitantes, the cephalic vein (CV), and potentially either the medial (MABCN) or lateral (LABCN) antebrachial cutaneous nerve. **(b)** Elevation of a reverse pedicle flap. Note the proximal extensile incision (*arrow*) for harvest of a nerve graft. **(c)** Pedicled flap with incorporation of the lateral antebrachial cutaneous nerve (*arrow*) and vascularized palmaris longus tendon (*).

Dissect the interval between the deep fascia and the muscle. Suture the deep fascia to the skin flap to minimize shear on the septocutaneous perforators. Continue the dissection deep to the radial artery on both sides of the septum. The fascia superficial to the radial artery is left undisturbed because it contains the septocutaneous perforators that supply the skin flap ( Fig. 4.5a–e ).
After the flap dissection is complete, apply a micro-vascular clamp to the proximal radial artery prior to releasing the tourniquet. If there is adequate perfusion to the flap and the thumb with the tourniquet deflated, then the artery is divided.
Raise the flap, ligating all the perforators deep to the artery. Transpose the flap to the dorsum of the hand. If desired, perform a venous anastomosis prior to insetting the flap ( Fig. 4.6 ).

**(a)** Gunshot wound with bone and soft-tissue loss. **(b)** Iliac crest bone graft reconstruction of metacarpal. **(c)** Plate fixation and extensor indicis proprius tendon graft. **(d)** 3 × 3 cm reverse pedicled radial forearm flap outlined on proximal forearm. **(e)** Immediate postoperative result.

Venous anastomoses (*clamps*) after flap coverage of transmetacarpal amputation.

Pearls

Distally based radial forearm flaps designed on the proximal forearm can easily reach the dorsal and palmar surfaces of the hand. They can include vascularized tendon and bone.
Pedicle lengths up to 15 cm are possible. If the flap is less than 6 cm in width, the donor site can be closed primarily. A thin skin island can be left over the course of the radial artery to prevent the need for skin grafting the pedicle later on and to avoid an overlying skin bridge.
The flap arc of rotation can be increased by freeing the radial artery in the snuffbox and passing the flap underneath the thumb extensors. This allows the flap to reach as far as the thumb tip.
Over the distal volar forearm, the flap is thin with little fat, but it leaves a poor bed for skin grafting, consisting of tendons covered only by paratenon.
A proximal flap is hair-bearing and thicker since it has more subcutaneous fat. The donor site contains muscle bellies, which is more favorable for skin grafting.
Avoidance of the distal forearm as a donor site and covering the tendons with adjacent muscle fibers from portions of the brachioradialis, flexor digitorum, superficialis, and flexor carpi ulnaris provide a better skin graft bed.
Unmeshed skin grafts can be used to maximize the bridging phenomenon. Preoperative tissue expansion can also be used.
The forearm flap permits postoperative elevation and early mobilization of the injured limb.
Proximally based flaps can be used to resurface defects well above the elbow joint. These flaps are directly innervated by including the medial or lateral cutaneous nerve of the forearm.