OBJECTIVE: To evaluate the positional relationship between protective channel and sural nerve while treating acute Achilles tendon rupture with channel assisted minimally invasive repair (CAMIR) technique based on anatomical observations of cadaver specimens. METHODS: Twelve adult cadaveric lower limb specimens (6 left, 6 right) were utilized. A CAMIR device was implanted at a distance of 4 cm from the proximal end of the specimen to the Achilles tendon insertion. The skin was incised along the tendon's medial side, the sural nerve was dissected, and the positional relationship with the protective channel was observed. The distance from the sural nerve-Achilles tendon intersection to the calcaneal insertion, the vertical distance between protective channel and the calcaneal insertion, and the horizontal distance between the sural nerve and protective channel were measured by using vernier caliper. RESULTS: Anatomical examination demonstrated a variable positional relationship between the sural nerve and protective channel, with the sural nerve positioned above (8 specimens) or below (4 specimens) the protective channel. The distance from the sural nerve-Achilles tendon intersection to the calcaneal insertion was (105.67±14.94) mm, the vertical distance between protective channel and the calcaneal insertion was (93.20±9.57) mm, and the horizontal distance between the sural nerve and protective channel was (0.31±0.14) mm. CONCLUSION The use of CAMIR technique for the treatment of acute Achilles tendon rupture can effectively avoid iatrogenic injury to the sural nerve.
Humans ; Achilles Tendon/injuries* ; Sural Nerve/anatomy & histology* ; Cadaver ; Minimally Invasive Surgical Procedures/methods* ; Tendon Injuries/surgery* ; Rupture/surgery* ; Adult ; Male ; Calcaneus/injuries* ; Female ; Plastic Surgery Procedures/methods*

Cross-leg flaps are a useful reconstructive option for complex lower limb defects when free flaps cannot be performed owing to vessel damage. We describe the use of the extended distally based sural artery flap in a cross-leg fashion for lower extremity coverage in three patients. To maximise the viability of these extended flaps, a delay was performed by raising them in a bipedicled fashion before gradual division of the tip over 5 to 7 days for cross-leg transfer. Rigid coupling of the lower limbs with external fixators was critical in preventing flap avulsion and to promote neovascular takeover. The pedicle was gradually divided over the ensuing 7 to 14 days before full flap inset and removal of the external fixators. In all three patients, the flaps survived with no complications and successful coverage of the critical defect was achieved. One patient developed a grade 2 pressure injury on his heel that resolved with conservative dressings. The donor sites and external fixator pin wounds healed well, with no functional morbidity. The cross-leg extended distally based sural artery flap is a reliable reconstructive option in challenging scenarios. Adequate flap delay, manoeuvres to reduce congestion, and postoperative rigid immobilization are key to a successful outcome.
Arteries ; Bandages ; Estrogens, Conjugated (USP) ; External Fixators ; Free Tissue Flaps ; Heel ; Humans ; Immobilization ; Leg Injuries ; Lower Extremity ; Perforator Flap ; Sural Nerve ; Surgical Flaps ; Tissue Donors ; Wounds and Injuries

OBJECTIVE: To explore clinical effects of ultrasound-guided minimal traverse-cross technique repair for acute closed Achilles tendon ruptures. METHODS: From January 2015 to March 2017, 20 patients with acute closed Achilles tendon rupture were treated by minimal traverse-cross technique repair with ultrasound guided. Among them, including 13 males and 7 females, aged from 28 to 49 years old with an average of(31.3 ±4.5) years old. All patients were single side injury. Fifteen patients on the left side and 5 patients were on the right side. The time from injury to operation ranged from 1 to 5 days with an average of (2.5±0.7) days. Operative time, postoperative complications were observed, and AOFAS score before and after operation at 12 months were compared. RESULTS: All patients were followed up for 12 to 27 months with an average of(15.2±4.9) months. Operative time ranged from 33 to 65 min with an average of(43.7±5.6) min. Incision of one patient were continued oozing and improved after changing dressings, other patients were healed at stage I. No sural nerve irritation symptoms and palindromic rapture of heel tendon occurred. AOFAS score was improved from 65.2±7.4 before operation to 97.7±4.7 after operation at 12 months (t=22.5, <0.01); 18 patients got excellent results and 2 good. CONCLUSIONS Ultrasound-guided minimal traverse-cross technique repair for acute closed Achilles tendon ruptures, which promise minimal incision, protect sural nerve, ensure quality of tendon anastomosis and fixation, and is a ideal method for repairing acute closed Achilles tendon ruptures.
Achilles Tendon ; Adult ; Female ; Humans ; Male ; Middle Aged ; Rupture ; Sural Nerve ; Sutures ; Tendon Injuries ; Treatment Outcome

Accessory Nerve ; transplantation ; Birth Injuries ; complications ; surgery ; Brachial Plexus Neuropathies ; etiology ; surgery ; Child, Preschool ; Early Medical Intervention ; Elbow ; Humans ; Infant ; Intercostal Nerves ; transplantation ; Nerve Transfer ; methods ; Radial Nerve ; surgery ; Sural Nerve ; transplantation ; Time Factors ; Treatment Outcome ; Ulnar Nerve ; transplantation

BACKGROUND: The distally based sural artery flap is a reliable, local reconstructive option for small soft tissue defects of the distal third of the leg. The purpose of this study is to describe an adipofascial flap based on a single sural nerve branch without sacrificing the entire sural nerve, thereby preserving sensibility of the lateral foot. METHODS: The posterior aspect of the lower limb was dissected in 15 cadaveric limbs. Four patients with soft tissue defects over the tendo-achilles and ankle underwent reconstruction using the adipofascial flap, which incorporated the distal peroneal perforator, short saphenous vein, and a single branch of the sural nerve. RESULTS: From the anatomical study, the distal peroneal perforator was situated at an average of 6.2 cm (2.5-12 cm) from the distal tip of the lateral malleolus. The medial and lateral sural nerve branches ran subfascially and pierced the muscle fascia 16 cm (14-19 cm) proximal to the lateral malleolus to enter the subcutaneous plane. They merged 1-2 cm distal to the subcutaneous entry point to form the common sural nerve at a mean distance of 14.5 cm (11.5-18 cm) proximal to the lateral malleolus. This merging point determined the pivot point of the flap. In the clinical cases, all patients reported near complete recovery of sensation over the lateral foot six months after surgery. All donor sites healed well with a full range of motion over the foot and ankle. CONCLUSIONS: The distally based sural artery adipofascial flap allowed for minimal sensory loss, a good range of motion, an aesthetically acceptable outcome and can be performed by a single surgeon in under 2 hours.
Ankle ; Arteries* ; Cadaver ; Extremities ; Fascia ; Foot ; Humans ; Hypesthesia ; Leg ; Lower Extremity ; Perforator Flap ; Range of Motion, Articular ; Saphenous Vein ; Sensation ; Soft Tissue Injuries ; Sural Nerve* ; Surgical Flaps ; Tissue Donors

In this study we present our experiences with the reverse sural fasciocutaneous flap to reconstruct the distal lower limb soft tissue defects caused by traumatic injuries. These flap graftings were carried out from Oct. 2010 to Dec. 2012 in our department. The series consisted of 36 patients, including 21 men and 15 women with an average age of 46.2 years (14-83 years) and with a medium follow-up period of 18 months (12-24 months). Of all the cases of acute trauma, there were 10 cases of trauma of distal tibia, 9 cases of trauma of perimalleolus, and 17 cases of trauma of midfoot and forefoot. Related risk factors in the patients were diabetes (2 cases), advanced age (>65 years, 3 cases) and cigarette smoking (6 cases). The reverse flow sural island flap irrigation depended on lower perforators of the peroneal artery. The fasciocutaneous pedicle was 3-4 cm in width and the anatomical structures consisted of the superficial and deep fascia, the sural nerve, short saphenous vein, superficial sural artery together with an islet of subcutaneous cellular tissue and skin. The most proximal border of the flap was only 1.5 cm away from the popliteal skin crease and the pivot point was 5-7 cm above the tip of the lateral malleolus. All the flaps survived. No arterial crisis occurred in any case. The venous congestion occurred in 2 cases and got better after raising the limbs and bloodletting. Only in an old man, 1.5 cm necrosis of distal margin of his flap occurred and finally healed after continuous dressing change. One-stage skin grafting was performed, and all the donor sites were sutured and successfully healed. It was concluded that the reverse sural fasciocutaneous flap is safe and reliable to extend to the proximal third even near the popliteal skin crease. We also concluded this flap can be safely and efficiently used to treat patients with large and far soft-tissue defects from the distal leg to the forefoot with more versatility and it is easier to reach the recipient sites.
Adolescent ; Adult ; Aged ; Aged, 80 and over ; Fascia ; transplantation ; Female ; Graft Survival ; Humans ; Lower Extremity ; injuries ; surgery ; Male ; Middle Aged ; Reconstructive Surgical Procedures ; methods ; Saphenous Vein ; transplantation ; Skin Transplantation ; Soft Tissue Injuries ; surgery ; Sural Nerve ; transplantation ; Surgical Flaps ; Treatment Outcome ; Young Adult

Adult ; Foot ; innervation ; surgery ; Humans ; Male ; Soft Tissue Injuries ; surgery ; Sural Nerve ; surgery ; Surgical Flaps ; innervation

OBJECTIVETo explore the operative technique and clinical results of using peroneal perforator-based sural neurofasciocutaneous flaps to repair skin and soft tissue defects in lower extremities.

METHODSFrom January 2009 to March 2012, 26 patients with skin and soft tissue defects at distal region of leg and foot were hospitalized. Among them, 9 patients suffered from tendon or bone exposure at the distal region of leg after injury due to traffic accident; 4 patients suffered from skin defects in the ankle as a result of electric injury; 8 patients suffered from chronic ulcer at the distal part of leg and foot; 5 patients suffered from plantar pressure ulcer. After debridement, soft tissue defect sizes ranged from 11 cm×5 cm to 18 cm×13 cm. According to the position and size of the defects, peroneal perforator-based sural neurofasciocutaneous flaps were designed and procured to repair the skin and soft tissue defects. The size of flaps ranged from 12 cm×6 cm to 20 cm×15 cm. Flap donor sites were closed by direct suture or skin grafting.

RESULTSTwenty-five flaps survived completely. Only one flap suffered partial margin necrosis in the size of 2 cm×1 cm, which was healed after dressing change. Patients were followed up for 6 to 12 months. The appearance and sensation of flaps were satisfactory; no ulcer occurred; the movement of lower extremities was normal.

CONCLUSIONSIt is suitable to repair the skin and soft tissue defects at distal region of leg and foot with the peroneal perforator-based sural neurofasciocutaneous flap, as it possesses reliable blood supply, long and non-bulky pedicle, and sufficient available size. The operation is also easy to perform.

Adult ; Aged ; Female ; Humans ; Lower Extremity ; surgery ; Male ; Middle Aged ; Reconstructive Surgical Procedures ; methods ; Soft Tissue Injuries ; surgery ; Sural Nerve ; transplantation ; Surgical Flaps ; blood supply ; innervation ; Young Adult

OBJECTIVETo report the operative techniques and clinical results of specially designed sural neurocutaneous vascular flap pedicled on a dominant perforator (the diameter > or = 0.8 mm) of the peroneal artery for coverage of soft tissue defects overlying the Achilles tendon.

METHODSAn approximately rectangular sural neurocutaneous vascular flap pedicled on the lowest dominant perforator arising from the peroneal artery was designed and harvested to repair defects over the Achilles tendon. The pedicle was located at a certain part of the flap, which divided the flap into the distal and the proximal parts. After the tendon was repaired, the flap was rotated 180 degrees based on the perforator and the position of the distal and proximal parts of the flap was changed to cover the defects and part of the donor site respectively. In most cases, skin graft was not needed.

RESULTSThe modified flaps were applied in 15 cases. All flaps (ranged from 13 cm x 15 cm - 18 cm x 9 cm ) were transplanted successfully without necrosis, and no vascular problems occurred. Following up for 10-17 months showed both satisfactory functional and cosmetic results.

CONCLUSIONSThe modified flap has reliable blood supply and the special design provides nearly normal outline of the ankle which favorites shoe wearing. It' s an excellent option for covering defects overlying the Achilles tendon.

Achilles Tendon ; injuries ; surgery ; Adolescent ; Adult ; Arteries ; transplantation ; Child ; Female ; Humans ; Male ; Middle Aged ; Skin Transplantation ; methods ; Sural Nerve ; blood supply ; Surgical Flaps ; blood supply ; innervation ; Wound Healing ; Young Adult

nerve injuries in the oral and maxillofacial regions require nerve repairs for the recovery of sensory and/or motor functions. Primary indications for the peripheral nerve grafts are injuries or continuity defects due to trauma, pathologic conditions, ablation surgery, or other diseases, that cannot regain normal functions without surgical interventions, including microneurosurgery. For the autogenous nerve graft, sural nerve and greater auricular nerve are the most common donor nerves in the oral and maxillofacial regions. The sural nerve has been widely used for this purpose, due to the ease of harvest, available nerve graft up to 30 to 40 cm in length, high fascicular density, a width of 1.5 to 3.0 mm, which is similar to that of the trigeminal nerve, and minimal branching and donor sity morbidity. Many different surgical techniques have been designed for the sural nerve harvesting, such as a single longitudinal incision, multiple stair-step incisions, use of nerve extractor or tendon stripper, and endoscopic approach. For a better understanding of the sural nerve graft and in avoiding of uneventful complications during these procedures as an oral and maxillofacial surgeon, the related surgical anatomies with their harvesting tips are summarized in this review article.]]>
Humans ; Organic Chemicals ; Peripheral Nerve Injuries ; Peripheral Nerves ; Regeneration ; Sural Nerve ; Tendons ; Tissue Donors ; Transplants ; Trigeminal Nerve