Osteocutaneous posterior interosseous flap for reconstruction of the metacarpal bone and soft-tissue defects in the hand

Newly repairing technique of deformed hand by a posterior interosseous flap in an infant: A case report

Introduction

Many non-surgical methods were performed to repair the deformities in the skeletal system to avoid severe complications post-open surgery, especially within the childhood stage or below. We aim, in this case, to present a new technique for repairing bony deformities in the childhood stage, which fewer studies have to instigate its efficacy versus open surgery.

Case presentation

We present a 14-months-old infant with wrist extravasation injury at the neonatal stage (day 1), end with a right wrist volar contraction and complete loss of brain homunculus of the right hand.

Discussion

We used a reverse posterior interosseous flap to reconstruct the soft tissue and release the flexor tendons of the hand. The flap was conducted entirely and was rapidly adapted to the recipient beds to achieve good color and texture harmonies. Within following up for 12 weeks, the patient restored hand function.

Conclusion

More global cohort studies are required to compare precisely the efficacy between surgical options and the used technique in our case for salvaging deformities in childhood.

•

Many obstacles face the surgeons in children, especially among orthopedics.

•

Fewer studies have reported newly non-surgical methods due to repairing the bone deformities may cause severe complications among children.

•

This article aims to highlight the utility and versatility of the flap and to show the possibility of using this flap at the age of fewer than two years old group.

Reconstruction of complex hand defects using trapezoidal osteocutaneous free fibular flap

BACKGROUND

Traumatic defects of multiple metacarpal bones can be addressed using conventional or vascularized bone grafts. When associated with extensive skin and tendon loss, the treatment becomes more challenging. The aim of the study was to describe the results of using free osteocutaneous fibular flap placed in a new fashion for the reconstruction of complex hand defects.

PATIENTS AND METHODS

Six patients with complex hand defects underwent reconstruction using free osteocutaneous fibular flap placed in trapezoidal fashion with two-stage tendon reconstruction using fascia lata graft. The mean age at the time of injury was 34.7 years (range: 14-54 years). The injury was caused by motor vehicle accident in four patients, machine injury in one patient, and falling from height in one patient. All patients had extensive three or four metacarpal bones defects, segmental loss of tendons, and large skin defect ranging from 6 × 10 cm to 10 × 15 cm. The fibular graft was divided into three segments and positioned in a trapezoidal fashion with the middle bone segment placed transversely to support the bases of the proximal phalanges while the first and third bone segments were placed obliquely along the metacarpal axis converging toward the remaining metacarpal bases and/or carpal bones. At final follow-up visit, the finger range of motion was assessed using the total active motion (TAM) scoring system. Functional outcome was evaluated by the disabilities of the arm, shoulder and hand (DASH) score. Active range of motion (AROM) of the pseudo-metacarpophalangeal (MP) joint was measured. The handgrip strength was measured using Jamar hydraulic dynamometer.

RESULTS

The mean length of the harvested fibular graft was 18 cm (range: 17-19). The mean size of the skin paddle was 7.5 × 13.1 cm (range: 6 × 10 cm to 10 × 15 cm). Fibular flaps survived in all patients. The mean follow-up period was 30.8 months (range: 24-40 months). The mean time to achieve bone healing was 3.8 months (range: 3-5 months). The mean TAM was 185° (range: 165-204°) and TAM percentage was described as excellent in two patients and good in four patients. The mean AROM at the pseudo-MP joint was 53.8° (range: 42-70°). The mean injured handgrip strength was 27.3 kg (range: 23-31 kg) and the mean grip strength ratio was 74.8% (range: 69-80%). The mean DASH score was 19.6 (range: 11.67-26.67). Pin tract infection, partial skin paddle necrosis, and wound infection were reported.

CONCLUSION

The fibular osteocutaneous flap arranged in trapezoidal fashion is a viable choice for the reconstruction of complex hand defects, particularly when the metacarpophalangeal joints are not preserved.

Extensor digiti minimi muscular flap: From a clinical case to an anatomical study

We present a case report of a failed posterior interosseous flap with distal pedicle rescued by an extensor digiti minimi (EDM) island pedicle flap supplied by the posterior interosseous artery (PIOA) in reverse flow to cover a soft tissue defect in the hand of a 25-year-old man. We subsequently performed an anatomical study on 5 cadaver limbs to determine the EDM muscle's vascularization: it was segmental, multiple and came from the PIOA. The rotation arc reached the dorsal side of the metacarpophalangeal (MCP) joints, as well as the distal part of the thumb. The indications selected are the same as those of the distal pedicle flap: defect on dorsal side of the hand and MCP joints, coverage of carpal tunnel, failure of posterior interosseous flap. This study describes a new flap and adds to our understanding of the EDM muscle's vascularization.

The use of chimeric musculocutaneous posterior interosseous artery flaps for treatment of osteomyelitis and soft tissue defect in hand

INTRODUCTION

There is growing evidence of the superior ability of muscular tissue to clear bacterial bone infection. Unfortunately, in the hand, there are almost no small local muscular flaps, and muscular transfers to the hand are mainly microsurgical free transfers. In this report, we present the results of the use of a chimeric posterior interosseous flap including part(s) of the forearm muscles to treat osteomyelitis and soft tissue defect of hand from a series of patients.

PATIENTS AND METHODS

Four male patients with an average age of 32 years (range 20-46 years), were affected by acute osteomyelitis in hand. Previous fracture fixation with percutaneous K-wires was the cause of bone infection in three case. In one case, the osteomyelitis was a consequence of an open fracture. The bones affected were four metacarpals and one proximal phalanx, all with a minimal cortical defect (from the K-wire) obscuring a larger medullary infection, which required extensive bone and overlying soft tissue debridement, leaving a soft tissue defect to be reconstructed of size ranging from 2 x 4 cm to 5 x 7 cm. The soft tissue defects were due to concomitant superficial infection and consequent debridement. All patients were treated with bone debridement and a chimeric posterior interosseous flap, which included part of the extensor digiti minimi and/or extensor carpi ulnaris to fill the intramedullary canal of the bones. No fixation of bone was necessary.

RESULTS

The skin paddle of the flaps ranged from 2 x 5 cm to 5 x 6 cm, replicating the defect area, plus a teardrop tail of skin circa 1.5 cm wide and as long as the pedicle of the flap. The muscular components of the flaps used to fill the intramedullary canals ranged from 1 x 1 x 1.5 cm to 1.5 x 1.5 x 4 cm. All flaps survived and osteomyelitis resolved in all cases without major complications. At the final follow-up at 16 months (range 12-26 months), assessment of the hands using TAM, Power Grip and Key Pinch Strength measurements and, where appropriate, Kapandji scores, demonstrated satisfactory hand function.

CONCLUSION

The chimeric posterior interosseous flap including part of the muscles of the forearm may be a robust solution for augmenting the flap bulk and may be used in cases of severe osteomyelitis of the hand.

Central Column Reconstruction Following Total Resection of a Third Metacarpal Giant Cell Tumour

A wide resection of a giant cell tumour involving the entire middle metacarpal is presented. Reconstruction preserving the central column and metacarpophalangeal joint was achieved using autologous iliac crest bone as a spacer and structural support. The fibro-osseous cartilage portion of the iliac graft was used as a “hemi-joint” replacement. By using a bridging bone graft and screw to fuse the adjacent proximal phalanges of the middle and index fingers, a stable “internal syndactyly” was achieved. Although independent index and middle finger motion was sacrificed, the approach allowed wide resection for local tumour control, re-established structural integrity, preserved metacarpophalangeal joint motion and allowed early motion. The aesthetic result was also good.

Treatment of complex metacarpal defects with free chimeric iliac osteocutaneous flaps

OBJECTIVE

The aim of this report is to present the clinical results of using free chimeric iliac osteocutaneous flaps based on the periosteal branch of the superficial circumflex iliac artery (SCIA) in complex metacarpal reconstructions.

METHODS

Reconstruction using free chimeric iliac osteocutaneous flaps was performed in a series of seven patients who underwent metacarpal reconstruction for complex metacarpal defects between March 2009 and March 2012. The procedure was performed for bone and soft tissue losses associated with posttraumatic infections (four patients) and posttraumatic bone and soft tissue defects (three patients).

RESULTS

The skin paddles of the chimeric flaps had a median size of 3 × 7 cm, and the iliac segments had a mean size of 1 × 1 × 3 cm. The median follow-up time was 18 months. All the flaps survived completely with no signs of infection. Osseous union occurred within a mean period of 3 months, and the range of motion achieved for the metacarpal phalangeal joints was 0-80°. The patients were satisfied with the aesthetic outcome.

CONCLUSIONS

Chimeric iliac osteocutaneous flaps may be a useful alternative for treating complex metacarpal defects because they yield a thinner skin paddle and less bulky bone segment than traditional flaps.

Thinned chimeric radial collateral artery perforator flap in complex distal thumb reconstruction

INTRODUCTION

Tissue loss accompanied by bone defects in the thumb is a challenging reconstruction problem. Traditional repair methods are unsatisfactory.

METHODS

Microsurgical thumb reconstruction was performed using 13 thinned chimeric radial collateral artery (RCA) perforator flaps. The flap was created with a thinned skin paddle and humeral bone segments using independent perforators. Primary defatting was completed when the thickness of the perforator entry was approximately similar to that in the periphery. The posterior cutaneous nerve of the arm was carried to make a sensory flap. Defects were 8.5 × 4.5 cm(2) on average (ranging in size from 4.5 × 1.5 to 15.0 × 6.0 cm(2)), and flap size was 9.0 × 5.5 cm(2) on average (ranging in size from 5.0 × 2.0 to 16.0 × 7.0 cm(2)), whereas the humeral fragments were 2.0 × 1.0 cm(2) on average (ranging in size from 1.5 × 0.5 to 4.0 × 1.5 cm(2)). All data were expressed as mean ± SD. The cosmetic appearance of the donor and recipient sites, Kapandji opposition score and static two-point discrimination of the operated thumb were evaluated during a follow-up visit.

RESULTS

Follow-up time was 16.6 months (ranging from 14 to 28 months). Flap thickness before defatting, measured immediately after flap elevation was 14.5 mm (ranging from 10.0 to 25.0 mm). Average flap thickness after defatting was 3.5 mm (ranging from 3.0 to 6.0 mm). Venous congestion occurred in two cases. Successful microsurgical revision was achieved in both cases. All flaps survived. Bone components achieved union in all cases at an average period of 4.8 months (ranging from 3 to 6 months). Based on Kapandji opposition score, the mean thumb opposition score was 6. The mean sensation of flap was 7.5 mm (ranging from 6 to 11 mm). No further flap revision or defatting procedures were required in all cases. Cosmetically acceptable results were achieved for all patients.

CONCLUSIONS

Findings proved that thinned chimeric RCA perforator flap is a beneficial microsurgical alternative for reconstructing complex bone and soft tissue defects in thumb.

Microsurgical soft tissue and bone transfers in complex hand trauma

Treatment of complex hand trauma includes adequate debridement of nonviable tissue, early reconstruction, and careful selection of various available surgical procedures tailored to patients' needs and requests. Debridement of all necrotic tissue is crucial before any attempt at reconstruction. Surgeons should also consider cosmetic outcomes of the reconstructed hand and donor-site morbidity. For best results reconstruction should be performed early, with proper early postoperative therapy. This article reviews the principles and surgical options in the management of complex hand injuries involving the dorsal and the palmar aspects of the hand, and the different types of tissue in the hand.

Posterior interosseous artery distal radius graft for ulnar nonunion treatment

The aim of our study was to describe a dorsal distal radius vascularized bone graft pedicled on the posterior interosseous artery (PIA), and its clinical application in 2 cases of ulnar nonunion. We studied the surgical technique in 5 freshly injected cadavers. The 4th extensor compartment artery originates from the anastomotic arch between the posterior division of the anterior interosseous artery and the PIA and provides periosteal branches to supply the dorsal distal radius metaphysis. A 2-cm vascularized bone graft can be harvested from the radius, and dissection of the PIA enables a long pedicle with a wide arc of rotation able to reach the ulnar diaphysis. The approach is limited to the forearm and distal radius and has minimal donor morbidity.

Free vascularized metacarpal bone graft combined with extended dorsal metacarpal artery flap for phalangeal bone and soft tissue loss: case report

A 45-year-old man suffered from a complex bone and soft tissue defect of the middle phalanx of his left middle finger after an electric saw injury. Here, we present the patient's clinical and radiological outcomes after reconstruction with a free vascularized metacarpal II bone graft and an extended distally based second dorsal metacarpal artery skin flap (DMCA). To our knowledge, this is the first description of a free vascularized metacarpal bone graft combined with DMCA for distal finger reconstruction.

Vascularized medial femoral condyle graft for thumb metacarpal reconstruction: case report

The vascularized medial femoral condyle bone graft has many clinical applications. It can be harvested as a thin, pliable, corticoperiosteal graft and wrapped around recalcitrant nonunions in long bones to achieve osseous union. It can also be harvested as a small, structural, corticocancellous graft and used to treat small defects such as scaphoid avascular nonunion. We present a case of thumb metacarpal osteomyelitis resulting in a large segmental osseous defect. Reconstruction was performed using a large, structural, vascularized bone graft from the medial femoral condyle.

Rational flap selection and timing for coverage of complex upper extremity trauma

Reconstruction of complex extremity trauma continues to be a challenging task for plastic surgeons. Characteristics of such injuries include destruction of functional structures, often due to high energy trauma that causes significant invalidity. Before the era of free flaps, pedicled fasciocutaneous and muscle flaps were the only option for reconstruction of the severely injured upper extremity. The management of complex injuries of the upper extremity has changed with the development of reconstructive microsurgery. Nowadays, we have a great variety of different free flaps to cover defects of the upper extremity and restore function by innervated free flaps. Sensibility, skin thickness, texture, colour, durability, binding of the flap to the underlying structures, donor site morbidity, possibility of secondary reconstructive procedures, the surgeon's experience and operative facilities must all be taken into consideration for choosing the optimal reconstructive procedure. Not only the reconstructive und functional requirements but the timing of reconstruction is extremely important for final result. The purpose of this paper is to define the principles of flap selection and timing of flap reconstruction, according to the assessment of trauma in the upper limb.

Reverse radial artery bone flap reconstruction of segmental metacarpal losses

A vascularised bone segment of the distal radius was harvested as a distally based flap to treat segmental metacarpal bone loss in three patients. One reconstruction followed resection of a giant cell tumour excision and the other two were to replace traumatic bone loss. The bone defects were in the second metacarpal in two cases and in the second and third metacarpal in one case and included three shaft and one distal metacarpal reconstruction. The mean length of the metacarpal defects was 6 cm. All of the flaps survived and no complications occurred at the donor site. Clinical and radiological union was established in all cases after an average of 3 months.

Vascularized bone blocks from the toe phalanx to solve complex intercalated defects in the fingers

PURPOSE

Vascularized bone transplants resist infection and allow rapid healing but keeping small bony segments vascularized, as needed for a finger defect, is a challenge. The purpose of this article is to present a cohort of patients with traumatic intercalated compound bony defects in the fingers that were reconstructed by a vascularized toe phalanx (or part of a phalanx) in a single stage.

METHODS

Eight patients were treated with an intercalary vascularized bone graft that included a part of the proximal phalanx (3 patients), most of the middle phalanx (4 patients), or a portion of each phalanx (1 patient) of a second toe (totaling 9 bone blocks). There was an associated soft-tissue defect in each patient, an infection in 6 patients, and cartilage loss in 4 patients. The toes were pedicled on the proper digital artery (6 patients) or a segment of the first dorsal metatarsal artery (2 patients). A mean length of 12 mm of vascularized bone was transferred. The associated skin island varied from a minimum of 2 x 1 cm to a maximum of 5 x 3 cm. Bleeding from all of the bone surfaces was evidenced once the clamps were released. The homolateral digital nerve and the contralateral neurovascular pedicle of the toe were kept in place. The toe defect was treated by soft-tissue arthroplasty or arthrodesis. No toe was amputated.

RESULTS

Radiologic bony union was evident at 4 to 6 weeks, except in 1 patient with an acute infection whose distal union failed to unite at 6 weeks because the infection recurred. Finger length loss averaged 3 mm. All patients returned to their preoperative occupation.

CONCLUSIONS

In this group of patients the toe phalanx reliably maintained its vascularization, allowing us to solve compound osteocutaneous defects in the fingers in a single stage. Donor site morbidity was minimal.