ObjectiveTo explore the dyeing conditions of reticular fiber staining of liver puncture tissue stained by BenchMark automatic special staining instrument, evaluate the staining effect, and share the using experience.MethodsA total of 30 cases of liver puncture specimens from April to May 2019 in West China Hospital of Sichuan University were selected. They were fixed with 4% neutral formaldehyde fix solution, treated with automatic dehydrator, embedded in paraffin, stained with adhesive slides, and baked in 65℃ oven for 30 min. Each specimen was sliced in duplicate, with a thickness of 5 μm. One was reticular fiber stained with BenchMark automatic special staining instrument under the dyeing condition according to the using experience of the laboratory, and the other was reticular fiber stained by manual Foot staining method according to the standard operating procedure of the laboratory. The staining effect under microscope was observed by a chief pathologist with extensive slide-reading experience.ResultsThe success rate of instrumental method was 100.0% (30/30), and that of the manual method was 76.7% (23/30). The difference in success rate between the two methods was statistically significant (χ2=5.143, P=0.023).ConclusionThe reticular fiber staining effect of BenchMark automatic special staining instrument is stable and reliable, and the success rate is higher than that of manual Foot staining.
Objective To summarize the clinical effects of the repairing methods for deep wounds of the foot and ankle. Methods From March 2002 to June 2006, 49 patients with skin and deep tissue defects of the foot and ankle underwent the repairing treatment. Of them, 36 were males and 13 were females, aged 16 to 67 years( 39 years on average). The causes of injuries included mangled injury in 24 cases, high fall injury in 9 cases, cut injury in 7 cases, malignant soft tissue tumor in 5 cases, decubital ulcer in 2 cases, and electric burn in 2 cases. Of the 49 cases, 19 were in left side and 30 in right side. The defect size of skin ranged from 3 cm×2 cm to 20 cm×15 cm and deep tissue injuries were accompanied by defects of tendon and ligament in 24 cases, by damage of joint in 12 cases, and by bone defect in 9 cases, and 35 of them had infections, and 2 of them had diabetes of stage 2. The time between the injury and surgery ranged from 4 hours to 1 year.The wounds were repaired separately by local flap(3 cm×3 cm to 6 cm×4 cm) in 15 cases, local island flap(8 cm×5 cm to 12 cm×7 cm) in 25 cases, free flap(15 cm×11 cm to 24 cm×17 cm) in 4 cases, and cross leg flap(5 cm×4 cm to 8 cm×6 cm) in 5 cases. In 24 cases of defects of tendon and ligament, 15 underwent the reconstruction in one-stage operations,9 in two-satge operation.In 9 cases accompanied by bone defect, twostage bone grafting (12-64 g) was given after wound healed. Results All of the 49 flaps survived. Fortysix healed by the first intention and 3 with distal edge necrosis healed after skin grafting. Two patients with sinus formation healed after 68 months of dressing change. All the cases were followed up 6 months to 3 years, and all the flaps were well developed, the functions of the foot and ankle were satisfactory. Conclusion It can get an excellent result of appearance and function recovery repairing deep wounds of the foot and ankle with proper flaps in earlier time.
Objective To investigate the effect of first to third metatarsus defect and the effect of reconstruction with ilium on foot function. Methods The first to third metatarsus defect was simulated in a 3D foot model and rebuilt by ilium. The maximal displacement and stress calculated by the method of finite elements were used as the index of estimation. Five cases treated from Mar. 1996 to Jan. 2003 with metatarsus defect rebuilding by free vascular iliac bone incorporating free flapwere evaluated. Results Foot function was affected largely by the defect of the first to third metatarsus. Compared with the normal foot, the maximal displacement was increased by 2.15 times and the maximal stress was increased by 2.12 times in 100% defected foot, and in 50%-defected foot maximal displacement and stress were increased by 1.65 times and 2.05 times respectively. Follow-up had been conducted for 1 to 2 years. All bones and flaps of the 5 cases survived (2 excellent, 2 good, and 1 passable) by function evaluation. Conclusion The first to third metatarsus defect should be repaired, and the method of transplanting iliac bone added by flap is effective.
OBJECTIVE In order to increase the survival area of pedicled fasciocutaneous flap, a multiple pedicled blocking randomized fasciocutaneous flap was designed. METHODS From January 1991 to September 1998, this technique was used to repair 33 cases, including 27 males and 6 females and the ages ranged from 6 to 58 years. All of the patients were suffered from traffic accidents. In these cases, 22 cases had skin defects of legs and feet with bone, nerve and tendon exposed, 5 cases had osteomyelitis as well as internal fixaters exposed and the other 6 had deformity from scar. The size of the flap was 25.0 cm x 13.0 cm x 2.4 cm at its maximum and 6.0 cm x 3.5 cm x 1.5 cm at its minimum. Based on the traditional blocking flap, according to the severity of the wound and conditions of the neighboring tissues, a flap having 2 to 4 orthogonal pedicles with a width of 1.5 to 3.0 cm was designed. The medical-graded stainless steel sheet was implanted below the deep fascia, and after blocking for 3 to 6 days, the side pedicles were divided. 6 to 14 days later, one of the two remaining pedicles was divided and was transferred to repair the defect. RESULTS 31 cases were followed up for 6 months to 5 years without any trouble of the joints. The flap had a good external appearance and was high pressure-resistant. CONCLUSION The multiple pedicled blocking randomized fasciocutaneous flap increased the size of the flap and the length to width ratio. It had the following advantages: manage at will, high resistance to infection and a large survival area of flap.
Objective To give a review and commentary on the treatment of acute foot and ankle injuries. Methods Based on the treatment experience and recent l iterature, a commentary on acute foot and ankle injuries were given, included the basic and cl inical research results, evaluation before operation, and treatment methods of the soft tissue and bone injuries. Results The treatment of acute foot and ankle injuries is still a hot point in orthopaedic surgery. Operative and non-operative treatment of fresh Achilles tendon rupture can achieve satisfactory results, and early weight-bearing do not increase the re-rupture rate. The time delay between first debridement and injury within 24 hours does not increase the infection rate. For the treatment of severe ankle fractures, attentions should be paid to the cartilage injury, and anatomic reduction, good real ignment, and the congruity recovery are very important. The treatment determination of calcaneal fractures depends on the fully understanding injury mechanisms, classifications, and treatment method. Talus fractures should try to be treated by experienced surgeons. Operation and fixation methods of Lisfranc injury depends on different injury types. Conclusion Acute foot and ankle injuries are common in cl inical, to achieve a satisfactory result in evaluation and treatment, it is important to have a fully evaluation of the injury type, and choose the best operation time and suitable treatment methods, as well as to fully understand the biomechanical characteristics of different regions.
Objective To investigate the clinical application of relaying lateral gastrocnemius artery perforator flap in reconstruction of the donor defect after distally sural flap transferring. Methods Between January 2014 and January 2016, 12 cases with foot and ankle defects were treated. There were 10 males and 2 females with an average age of 23.4 years (mean, 14-52 years). The injury was caused by motorcycle accident in 7 cases and traffic accident in 5 cases. The injury located at left limb in 7 cases and right limb in 5 cases. The size of soft tissue ranged from 10 cm×4 cm to 12 cm×6 cm. The disease duration was 2-84 hours (mean, 26.2 hours). The foot and ankle defects were reconstructed by distally sural flaps, then the flap donor sites were reconstructed with relaying lateral gastrocnemius artery perforator flap at the same stage. The size of distally sural flap ranged from 11 cm×5 cm to 13 cm×7 cm. The size of relaying flap ranged from 7 cm×4 cm to 10 cm×6 cm. Results All flaps survived uneventfully. All recipient sites and donor sites healed smoothly. No vascular crisis, wound dehiscence, or evident swelling occurred. All patients were followed up 6-14 months (mean, 12.4 months) with satisfied esthetic and functional results in recipient and donor sites. There were only linear scar on the donor sites. The color and contour was satisfying, the function of calf and foot were not affected. Conclusion The relaying lateral gastrocnemius artery perforator flap combined with distally sural flap is an idea choice to reconstruct foot and ankle defect, which can avoid donor site skin grafting, minimize donor site morbidity.
ObjectiveTo investigate the effectiveness of abdominal free flap carrying bilateral superficial circumflex iliac arteries for repairing large skin and soft tissue defects of foot and ankle.MethodsBetween June 2016 and June 2019, 15 patients with large skin and soft tissue defects of foot and ankle were admitted, including 10 males and 5 females with an average age of 30 years (range, 10-60 years). The causes of injury included 6 cases of traffic accident, 3 cases of machine strangulation, 3 cases of heavy object injury, 2 cases of fall, and 1 case of electric shock. The time from injury to admission was 3 hours to 10 days, with an average of 2 days. The wound located at dorsal foot in 5 cases, ankle in 6 cases, dorsal foot and ankle in 3 cases, and dorsal foot and sole in 1 case. All wounds were contaminated to varying degrees and accompanied by tendon and bone exposure, including 5 cases of extensive necrosis of the dorsal skin with infection. The area of defects ranged from 18 cm×6 cm to 25 cm×8 cm. There were 9 cases of foot and ankle fractures and dislocations, and 2 cases of foot and ankle bone defects. The wound was repaired with abdominal free flap carrying bilateral superficial circumflex iliac arteries. The area of the flaps ranged from 20 cm×8 cm to 27 cm×10 cm; the skin flaps were thinned under the microscope to make the thickness of 0.5-1.0 cm, with an average of 0.7 cm. All incisions at the donor site were sutured directly.ResultsDuring the operation, 1 case was replaced with an abdominal free flap carrying the superficial abdominal artery because the superficial iliac circumflex artery was thin and the superficial abdominal artery was thicker. The skin flaps of 15 cases survived smoothly, and the wounds healed by first intention; the donor incisions all healed by first intention. All patients were followed up 8-36 months, with an average of 15 months. The flap shape was satisfactory, with good texture and mild pigmentation of the flap edge, without obvious bloating, effect on shoe wear, or secondary surgical thinning of the flap. The linear scar left in the donor site and had no effect on hip joint movement. All fractures healed well, and the healing time ranged from 3 to 8 months, with an average of 6 months.ConclusionThe abdominal free flap carrying bilateral superficial iliac circumflex arteries has concealed donor site, with little damage, and can be sutured in one stage. The blood vessel is anatomically constant, with less variation, and reliable blood supply. It is one of the ideal flaps for repairing large skin and soft tissue defects of foot and ankle.
Objective To explore a suitable repairing method for skin defects of the foot and ankle, and to evaluate the therapeutic effects of the different repairing methods. Methods From January 2000 to October 2005, 36 patients with skin defects of the foot and ankle underwentthe repairing treatment, of whom 35 were males and 1 was female, aged 5-62 years, averaged 38 years. Of the 36 patients, 12 had an injury by a machine, 22 had a traffic accident, 1 had an infection, and 1 had a cold injury. And the injuries involved the dorsum of the foot, heel, forefoot, and medial or lateral malleolus. The injuries were respectively treated by 2 different repairing methods, the repair with the coverage by the lateral supramalleolar flaps and the repair with the coverage by the reverse sural neurocutaneous flaps. The skin defectsranged in area from 5 cm×4 cm to 20 cm×10 cm. The lateral supramalleolar flapwas used in 15 patients (15 flaps) with a flap area of 5 cm×4 cm-15 cm×8 cm,and the reverse sural neurocutaneous flap was used in 21 patients (22 flaps) with a flap area of 6 cm×4 cm20 cm×10 cm. We retrospectively observed the therapeutic results and compared the success rates of the two methods. Results Of the 36 patients, 15 underwent the repair with the coverage by 15 lateral supramalleolar flaps; 10 achieved a complete survival of the flaps, 2 developed an epidermal necrosis over the distal part, and 3 developed a complete necrosis.The other 21 patients underwent the repair with the coverage by 22 reverse sural neurocutaneous flaps. Of the 22 flaps, 21 had a complete survival, and only 1 failed to survive. The comparison revealed that there was no difference in the color, texture, and contour of the flaps between the 2 repaired groups. And the patients in the 2 groups were equally satisfied with the repairing treatments. The sensation of the flaps recovered to S0-S1. Conclusion The repairing of the foot and ankle skin defects with the coverage by the lateral supramalleolar flaps or by the reverse sural neurocutaneous flaps can achieve a similar good therapeutic result. However, the repair with the lateral supramalleolarflaps is more suitable for the skin defect of a smaller area over the medial orlateral malleolus, or the proximal dorsum of the foot; the repair with the reverse sural neurocutaneous flaps is more suitable for the skin defect of a larger area over the foot and ankle without serious destruction of the malleolar arterial rete.
Objective To provide the anatomic basis for thedesign of the intermediate dorsal neurocutaneous flap on the foot and to reportthe clinical results. Methods On 32 adult cadaver lower limb specimens perfused with red latex, the origins, diameters, courses, branches, and distributions of the intermediate dorsal cutaneous nerve of the foot and its nutrient vessels were observed. On this anatomic basis, from June 2004 to October2005, 5 flaps were developed and applied to the repair of the soft tissue defect in the feet of 4 patients. Results The intermediate dorsal cutaneous nerve of the foot was found to arise from the superficial peroneal nerve. Crossing the intermalleolar line, it was located 1.3±0.6 cm lateral to the midpoint of the line with a diameter of 2.05±0.56 mm. The nerve stem divided into branches 2.8±1.3 cm distal to the line. They distributed the dorsal skin of the second, third and fourth metatarsal and toe. On average, 5.1 perforators per specimen were identified. At least 3 nutrient vessels were always found in each. They originated from the cutaneous branches of the anterior tibial artery and the dorsalis pedis artery in the proximal end and the dorsalis metatarsal artery in the distal end. They perforated the deep fascia 4.3±0.4 cm proximal to the intermalleolar, 1.6±0.3 cm proximal to the tip of the third toe webspace and 1.5±0.3 cm proximal to the tip of the forth toe webspace, respectively. The external diameters of them were 0.82±0.13, 0.42±0.07 and 0.49±0.09 mm, respectively. The patients were followed up for 4-10 months. All theflaps survived completely. Their appearance and function were satisfactory. Conclusion The distallybased intermediate dorsal neurocutaneousflap on the foot has an abundant blood supply. This kind of flap is especially useful in repair of the soft tissue defect in the foot.
To evaluate the effectiveness of tumor-segmental resection and autologous il iac bone graft reconstruction combined with internal fixation in treating hand-foot-giant cell tumor of bone. Methods Between August 1997 and April 2008, 8 cases of hand-foot-giant cell tumor of bone were treated, including 3 males and 5 females with an average age of 28.5 years (range, 16-42 years). The locations were metacarpal bones in 3 cases, metatarsal bones in 4 cases, and phalanges of toes in 1 case. According to Campanacci’s gradation of X-ray films, there were 1 case of grade I and 7 cases of gradeII; according to pathological examination before opration, there were 3 cases of grade I to II, 4 cases of grade II, and 1 case of grade II to III; and according to TNM staging, there were 1 case of TisN0M0, 4 cases of T1N0M0, and 3 cases of T2N0M0. There were 2 cases of recurrence, the time from the first operation to recurrence were 11 and 14 months, respectively. The tumor size was 1.8 cm × 1.0 cm to 6.0 cm × 2.0 cm, the cortical bone became thinner, and the boundary between tumor and periosteum was clear. All patients underwent tumor-segmental resection combined with autologous il iac bone graft reconstruction, and miniplate internal fixation by lumbar anesthesia or trachea cannula anesthesia. Results All incision healed by first intention. Eight patients were followed up 10 to 84 months with an average of 46 months. Radiographs showed that fracture union was achieved at 3 to 9 months (mean, 5 months). No significant rotation, angular, and shortening deformity occurred in il iac bone graft. The function of il iac bone donor site recovered excellently. The pathological examination showed giant cell tumor of bone in all cases, including 2 case of grade I-II, 5 cases of grade II, and 1 case of grade II-III. The hand or foot function recovered excellently. No tumor recurrence or lung metastasis occurred during follow-up. Conclusion Tumor-segmental resection combined with autologous il iac bone graft reconstruction plus internal fixation has excellent effectiveness for hand-foot-gaint cell tumor of bone.