From March 1991 to October 1993, 6 the latissimus dorsi M. was transferred to reconstruct the flexor of the elbow following the injury of brachial plexus in 12 cases (8 males and 4 females). The average age was 31-year-old (6to 45-year-old). The patients were followed up for six months to two years. All of musculocutaneous flaps were survived. The contour of the upper arm was satisfactory. In 8 cases, the muscle strength was more than grade 4 and the active motion of the elbow was 135 degrees in flexion and 10 degrees in extension. The elbow could lift the load of l0kg. In 2 cases, the muscle strength was grade 4 and the active movement was 25 degrees in flexion and 25 degrees in extension. On 90 degrees flexion, the elbow could lift the load of 3kg. In 2 cases, the muscle strength was grade 3 and the active movement of elbow was 100 degrees in flexion 25 degrees in extension. Following the irreversible injury of the brachial plexus, the atrophy of the muscles was obvious. After the transfer of musculocutaneous flap, the circumference of the arm was increased while the tenseness of the skin was decreased. This faciliated the movement of the transferred muscle, improved the appearance of the upper limb and was convenient to observe the blood supply of the flap. When the brachial plexus was injuried at the root level, the latissimus dorsi M. was atrophied, after transfer of the nerve to the muscle, the function of the muscle recovered, then the tranferred muscle could be transferred to reconstruct the flexor of the elbow.
OBJECTIVE: To investigate the feasibility of segmentation of latissimus dorsi on the basis of anatomy and electrophysiology. METHODS: Ten cadaveric latissimus dorsi was dissected according to the blood supply, nerve innervation. Electromyelogram (EMG) of latissimus dorsi of 13 healthy persons was recorded with superficial electrode plate in the motion of shoulder joint. The results of record were managed with statistic methods. Ten patients(including reconstruction of breast and repair of scar on elbow joint and on chest wall) were treated with the lateral inferior myocutaneous island flap. RESULTS: According to the medial and lateral vasculonervous branches, latissimus dorsi can be divided into the medial superior and lateral inferior segments. The clinical application of the segment achieved good results in reconstructing breast and in repairing scars on elbow and on chest wall. CONCLUSION: Latissimus dorsi can be divided into two segments and applied separately. The lateral inferior segment is more useful in shoulder motion.
Objective To investigate the clinical value of computed tomographic angiography (CTA) and three-dimensional reconstruction technique in repairing scalp avulsion wound with large skull exposure by the free latissimus dorsi flap transplantation. Methods Between October 2007 and June 2012, 9 female patients with serious scalp avulsion and large skull exposure were treated, aged 23-54 years (mean, 38 years). The injury causes included machine twist injury in 6 cases, traffic accident injury in 2 cases, and falling from height injury in 1 case. Before admission, 3 patients had scalp necrosis after scalp in situ replantation, and 6 patients underwent debridement and dressing. The time from injury to admission was 8 hours to 7 days (mean, 1 day). The avulsed scalp area ranged from 75% to 90% of the scalp area (mean, 81%); the exposed skull area ranged from 55% to 70% of the scalp area (mean, 63%). Two patients had unilateral auricle avulse. CTA was used to observe the superficial temporal artery and vein, facial artery, external jugular vein, dorsal thoracic artery and vein, and measure the blood vessel diameter before operation. According to the CTA results, the latissimus dorsal skin flaps were desinged to repair wounds in 7 cases, the latissimus dorsal muscle flaps combined with skin graft were used to repair wounds in 2 cases. According to preoperative design, operation was successfully completed in 7 cases; great saphenous vein was used as vascular graft in 2 cases having poor images of superficial temporal vessels. The size of latissimus dorsal skin flaps ranged from 20 cm × 14 cm to 25 cm × 20 cm; the donor site was repaired with skin graft. The size of latissimus dorsal muscle flaps were 23 cm × 16 cm and 16 cm × 10 cm; the donor site was directly sutured. Results The blood vessel diameter measured during operation was close to the value measured before operation. The operation time was 6-8 hours (mean, 6.5 hours). The latissimus dorsal muscle (skin) flap and skin graft survived, with primary healing of wound or incision at donor site. The patients were followed up 3 months-2 years (mean, 6 months). The flap had soft texture and skin had no ulceration. Conclusion The free latissimus dorsi flaps can repair scalp avulsion with large skull exposure. Preoperative CTA can get the vessel anatomical structure and diameter at donor and recipient sites, which will guide the operation program design and implementation so as to shorten the operation time and improve the accuracy rate of vascular anastomosis.
Objective To explore the results of repairing widespread traumatic soft tissue defects in the heels and adjacent regions with free latissimus dorsi muscle-skin flaps. Methods From March 1998 to May 2005, 10 cases of widespread traumatic soft tissue defects in the heels and adjacent regions were repaired with free latissimus dorsi muscleskin flaps. Of the 10 patients, 9 were male and 1 was female, whose ages ranged from 32 to 60years, and the disease course was 2 hours to 2 months. The defect was by ploughmachine injury in 5 cases, by crush injury in 2 cases, by snake injury in 2 cases, and electricity injury in 1 case. Eight cases of defects involved in the posteriorof heel and leg, the defect area ranged from 21 cm×12 cm to 35 cm×15 cm; 2 cases had widespread soft tissue defects on heel, ankle, sole and dorsal foot, and the defect area was 27 cm×14 cm and 30 cm×21 cm respectively. All cases were accompanied by the exposure of bone; 6 cases by fracture; 4 cases by openinfection of ankle joint; and 2 cases by injuries of the posterior tibial vessel and the tibial nerve. The sizes of the dissected flap ranged from 25 cm×14 cm to 33 cm×24 cm. The donor sites were covered by large mid-thickness flap. Results There were no postoperative complication of vascular crisis and infection. Ten flaps survived completely and the wounds healed by first intention. After a follow-up of 3 to 24 months, five cases received twostageplastic operation because bulky flaps bring some trouble in wearing shoes. In 5cases of reconstructed sensation, two cases recovered pain and temperature sensation. All cases recovered the abilities to stand and walk without ulcer complication. Conclusion The free latissimus dorsi muscle-skin flap is an ideal flap for repairing widespread traumatic soft tissue defects and infectious wounds with muscle defects and bone exposure in the heel and adjacent regions, because it has such advantages as adequate blood supply, big dermatomic area, and excellent ability to resist infection.
From 1987, in 4 cases having muscle damage associated with extensive skin defeet, the repair was carried out by anastomosing the neurovascular pedicle of the free latissimus dorsi myocutaneous graft with the host. The patients were followed up from 6 months to 3 years. The muscle power of the injured part following repair had returned to about 4 degrees, and the external appearance and the function were satisfactory. The advantages and disadvantages of this operation, the preparation of the recipient area and the management of the tendon were discussed.
ObjectiveTo investigate the feasibility and effectiveness of the latissimus dorsi myocutaneous flap in repair of large complex tissue defects of limb and the relaying posterior intercostal artery perforator flap in repair of donor defect after latissimus dorsi myocutaneous flap transfer.MethodsBetween January 2016 and May 2017, 9 patients with large complex tissue defects were treated. There were 8 males and 1 female with a median age of 33 years (range, 21-56 years). The injury caused by traffic accident in 8 cases, and the time from post-traumatic admission to flap repair was 1-3 weeks (mean, 13 days). The defect in 1 case was caused by the resection of medial vastus muscle fibrosarcoma. There were 5 cases of upper arm defects and 4 cases of thigh defects. The size of wounds ranged from 20 cm×12 cm to 36 cm×27 cm. There were biceps brachii defect in 2 cases, triceps brachii defect in 3 cases, biceps femoris defect in 2 cases, quadriceps femoris defect in 2 cases, humerus fracture in 2 cases, brachial artery injury in 2 cases, and arteria femoralis split defect combined with nervus peroneus communis and tibia nerve split defect in 1 case. The latissimus dorsi myocutaneous flaps were used to repair the wounds and reconstruct the muscle function. The size of the skin flaps ranged from 22 cm×13 cm to 39 cm×28 cm; the size of the muscle flaps ranged from 12 cm×3 cm to 18 cm×5 cm. The wounds were repaired with pedicle flaps and free flaps in upper limbs and lower limbs, respectively. The donor sites were repaired with posterior intercostal artery perforator flaps. The size of flaps ranged from 10 cm×5 cm to 17 cm×8 cm. The second donor sites were sutured directly.ResultsAll the flaps survived smoothly and the wounds and donor sites healed by first intention. All patients were followed up 10-19 months (mean, 13 months). At last follow-up, the flaps had good appearances and textures. The muscle strength recovered to grade 4 in 5 cases and to grade 3 in 4 cases. After latissimus dorsi myocutaneous flap transfer, the range of motion of shoulder joint was 40-90°, with an average of 70°. The two-point discrimination of latissimus dorsi myocutaneous flap was 9-15 mm (mean, 12.5 mm), and that of posterior intercostal artery perforator flap was 8-10 mm (mean, 9.2 mm). There were only residual linear scars at the second donor sites.ConclusionThe latissimus dorsi myocutaneous flap combined with posterior intercostal artery perforator flap for the large complex tissue defects and donor site can not only improve the appearance of donor and recipient sites, but also reconstruct muscle function, and reduce the incidence of donor complications.
Form April 1991 to August 1994, ten cases of extensive soft tissue injury of the extremities with bone and tendons exposed were treated by emergency transfer of latissimus dorsi myocutaneous flaps. The types of the myocutaneous flap were as follows: with vascular pedicle in 1 case, free latissimus dorsi myocutaneous flap in 8 cases,and transfer of combined bilateral latissimus dorsi myocutaneous flaps in 1 case. There were 8 males and 2 females with the ages ranging from 7 to 44 years (an average of 24.4 years). The operations were all performed within 6 hours after trauma except in 1 case, due to its delayed arrival to our hospital, the operation was carried out 14 days after trauma. The results were as follows: total survival of the flap in 6 cases, necrosis of the distal portion of the skin of the flap in 3 cases and necrosis of a greater portion of the skin in one case who had been subjected the transfer of combined bilateral latissimus dorsi myocutaneous flap. but the deep muscle layerwas intact. However, the result was encouraging. The operative technique and the advantages of emergency coverage of the wound were discussed.
ObjectiveTo investigate the clinical value of pedicled latissimus dorsi Kiss flap in repairing chest wall large skin defect after tumor operation. MethodsA retrospective analysis was made on the clinical data from 15 cases of chest wall tumors treated between December 2010 and December 2015. There were 2 males and 13 females with an average age of 51.8 years (range, 43-60 years); there were 11 cases of locally advanced breast cancer, 3 cases of fibrosarcoma in chest wall, and 1 case of chest wall radiation ulcer with a median disease duration of 24.1 months (range, 6 months to 8 years). The area of skin defects was 17 cm×12 cm to 20 cm×18 cm after primary tumor resection; the pedicled latissimus dorsi Kiss flap was designed to repair wounds. The flap was a two-lobed flap at a certain angle on the surface of latissimus dorsi based on the thoracodorsal artery, with a size of 17 cm×6 cm to 20 cm×9 cm for each lobe. The donor site was sutured directly. ResultsFourteen flaps survived with primary healing of wound; delayed healing was observed in 1 flap because of distal necrosis; and healing by first intention was obtained at the donor sites. The follow-up time was from 6 months to 3 years (mean, 21.6 months). The flap had good appearance with no bloated pedicle. The shoulder joint activities were normal. No local recurrence occurred, but distant metastasis in 2 cases. No obvious scar was found at donor sites. ConclusionThe application of pedicled latissimus dorsi Kiss flap to repair chest wall skin defects after tumor resection has important clinical value, because of the advatages of simple operation, minor donor site damage and rapid postoperative recovery, especially for late stage cancer patients.
Latissimus dorsi muscle flap (LDMF) is an important autogenous tissue for autogenous breast reconstruction after mastectomy. LDMF harvesting using a conventional open method is traumatic, and the scar is obvious. With the application of minimally invasive technology in various surgical fields, endoscopic and robotic technology for breast surgery, especially LDMF breast reconstruction, is also becoming mature. Endoscopic or robotic LDMF breast reconstruction has the advantages of no incision in the back, superior cosmetic effect of back, clear vision of surgical field, and low incidence of postoperative complications. It is a safe and effective method of breast reconstruction.
Transplantation of composite latissimus dorsi myocutaneous flap and vascularized fibula was performed primarily to repair the tibial defects in 12 cases and radial defects in 2 cases, both of which were associated with large-sized skin defects. The peroneal artery and vein of the fibula were anastomosed to the circumflex scapular artery and vein of the myocutaneous flap, the subscapular artery and vein, as the common vascular pedicle of the two transplants, are anastomosed to the nutrient vessels in the recipient site. Cross-bridge vascular anastomosis was used in 13 cases . All of tfe transplanted tissues survived, Follow-up revealed a good growthof the transplanted flaps, solid union between the transplanted fibulas and the host bones, and the good functional recovery of the repaired extremities. The operative indication and technique were introduced, ahd the merit of the repair ahd reliability of the cross-bridge procedure were discussed.