Primary malignant bone tumors are extremely rare. Osteosarcoma, chondrosarcoma, Ewing’s sarcoma, and myeloma are the most common malignancy in bone. Osteosarcoma and Ewing’s sarcoma are common in children and adolescents, and the tumors are high lethality due to the high rate of pulmonary metastasis. While chondrosarcoma, myeloma, and chordoma are more common in middle aged and elderly people. Japanese Orthopaedic Association (JOA) published the secondary clinical practice guideline on the management of primary malignant bone tumors. We put an emphasis on explanation some important issue of this guideline for help Chinese musculoskeletal tumor professionals in clinical practice.
This article reviews the development and progress in the field of limb salvage treatment, surgical techniques, and function reconstruction of pelvic malignant tumors in China in the past 30 years. Based on the surgical classification of pelvic tumor resection in different parts, the development of surgical techniques and bone defect repair and reconstruction methods were described in detail. In recent years, in view of the worldwide problem of biological reconstruction after pelvic tumor resection, Chinese researchers have systematically proposed the repair and reconstruction methods and prosthesis design for bone defects after resection of different parts for the first time in the world. In addition, a systematic surgical classification (Beijing classification) was first proposed for the difficult situation of pelvic tumors involving the sacrum, as well as the corresponding surgical plan and repair and reconstruction methods. Through unremitting efforts, the limb salvage rate of pelvic malignant tumors in China has reached more than 80%, which has preserved limbs and restored walking function for the majority of patients, greatly reduced surgical complications, and achieved internationally remarkable results.
The treatment of aortic dissection has already shifted to endovascular strategies. However, with the evolution of this disease and a deeper understanding of it, experts from various countries have developed a series of innovative endovascular techniques and devices in areas such as lumen reconstruction, false lumen embolization, entry sealing, and branch arteries reconstruction, targeting the long-term complication of chronic post-dissection thoracoabdominal aortic aneurysm. The past few decades have seen that Chinese vascular surgeons have gradually emerged on the world stage and contributed multiple “Chinese solutions” for post-dissection thoracoabdominal aortic aneurysm. The author in this review intends to provide an overview of these techniques and devices mentioned above.
Objective To assess the clinical outcome of thelimb salvage surgery and complications occurring in the lower extremities after a wide resection of sarcoma. 〖WTHZ〗Methods A total of 167 patients underwent a limb-sparing procedure by means of the implantation of a custom-made or modular tumor endoprosthesis from July 1997 to July 2004. Of the 167 patients, 100 were followed up, including 56 males and 44 females, with their ages ranging from 13 to 57 years at surgery.In 5 patients, a proximal femur prosthesis was implanted; in 57 patients, a distal femur prosthesis was implanted; and in 38 patients, a proximal tibia prosthesis was implanted. According to the Enneking staging, 3 patients were grouped in the stage of ⅡA, 85 in ⅡB, and 12 in Ⅲ. Seventy-one patients used a domestic prosthesis, and 29 patients used a prosthesis made in Link Company, Germany. For the reconstruction, 17 patients used an autograft prosthesis composite, 21 patients used the allograft prosthesis composite, and the remaining 62 patients used an artificial prosthesis. All the patients received chemotherapy for 1-2 courses and 3-5 courses before operation and after operation, respectively. After operation, The Musculoskeletal Tumor Society(MSTS) score was used to evaluate the recovery of their corresponding functions. Results According to the follow-up for 1-8 years, with a median of 3.5 years, and the assessment by the Kaplan-Meier estimate, the 3-year survival rate of the prostheses was 81.8%, and the 5year survival rate was 65%. As for the complications, prosthesis breakage occurred in 6 patients, periprosthesis infection in 13 patients, aseptic loosening in 2 patients, non-union between the host bone and graft bone in 5 patients, allograft absorption in 2 patients, prosthesis sinking in 2 patient, and periprosthesis fracture in 1 patient. Local recurrence developed in 7 patients within 6 months to 2 years after operation. Of the 7 patients, 4 had a recurrence of the softtissue tumor for which resection was performed; the other 3 patients underwent amputation of the diseased limb. The mean MSTS score was 23.30±5.17, with an excellent limb function in 62 patients, good in 27 patients, fair in 7 patients, and poor in 4 patients. The overall excellent and good function was obtained in 89% of the patients. Conclusion We conclude that tumor prostheses can give a satisfactory functional outcome after the tumor around the knee is removed; however, the tumor prostheses still need to be further improved because of a high complication rate.
Objective To identify the postoperative function and short-term outcome of Global Modular Replacement System (GMRS) for reconstruction of defect after removal of tumor so as to supply information for cl inical appl ication. Methods Between March 2007 and May 2009, 30 l imb-salvage cases reconstructed with GMRS were retrospectively reviewed, including 18 males and 12 females with a median age of 25 years (range, 11-57 years). The preoperative diagnoses were osteosarcoma in 15 cases, mal ignant fibro-histiocytoma in 4, giant cell tumor in 3, chondrosarcoma in 2, and Ewing’s sarcoma and angiosarcoma in 1 respectively. The duration of symptom ranged from 1 to 15 months with an average of 5.6 months. There were 4 revision cases at mean time of 3.4 years after index surgeries. The locations were the proximal femur in 3 cases, distal femur in 22 cases, and proximal tibia in 5 cases. According to Enneking stage, 2 cases were rated as stage IB, 1 as stage IIA, and 27 as stage IIB. Four cases were compl icated by pathologic fracture. Results The average operation time was 165 minutes (range, 120-240 minutes); the mean blood loss was 448.3 mL (range, 100-1 500 mL); and the mean resection length was 14.1 cm (range, 7.5-22.5 cm). All the wounds healed by first intention. All 30 patients were followed up 10-35 months (22.3 months on average). Local recurrence occurred in 2 cases (6.7%) at 5 and 14 months respectively and distal metastasis occurred in 5 cases (16.7%) at 4-12 months (7.3 months on average) postoperatively. One patient died of multiple lung metastases at 10 months postoperatively. Twenty-nine patients survived at last follow-up, including 25 cases of tumor-free survival and 4 cases of tumor bearing survival. Aseptic loosening occurred in 2 cases (6.7%) at 1.5 years and 2 years postoperatively respectively. Deep infection occurred in 1 case (3.3%) at 1 year postoperatively. At last follow-up, the Musculoskeletal Tumor Society (MSTS) 93 scores were 4.6% ± 0.7% for pain, 3.7% ± 0.9% for function, 3.2% ± 1.3% for satisfactory degree, 4.3% ± 0.9% for orthesis, 3.7% ± 0.7% for walking, 3.3% ± 1.0% for gait; total score was 75.9% ± 14.2%. The Toronto Extremity Salvage Score (TESS) score was 87.0 ± 7.0. Conclusion Reconstruction for defect after removal of tumor with GMRS has satisfactory short-term outcome with good function recovery and low compl ication rate.
ObjectiveTo explore the training mode for improving the innovative scientific research ability of postgraduates of thoracic surgery.MethodsTwenty-two postgraduate students enrolled in the Department of Thoracic Surgery, Ruijin Hospital from September 2016 to June 2019 were targeted for training, and the teachers were 13 doctors in our department. Training methods included grant-based learning, formative learning and translational medical learning. In addition to the postgraduate education provided by the medical school, the training content also included more than 50 lectures about thoracic surgery, including surgical video explanation, perioperative management of thoracic surgery, interpretation of clinical guidelines, and intensive reading of the literature; it also included half-year clinical internship, 100 surgical operations and management of 5 medical beds in ward.ResultsClinical ability of the postgraduates were improved. Six postgraduate students enrolled in 2016 graduated successfully. They published 15 SCI papers and won more than 20 awards.ConclusionCultivating postgraduates of thoracic surgery oriented by innovative scientific research ability is conducive to the comprehensive understanding of thoracic diseases and the ability of innovative translation research.
Objective To analyze the effectiveness of free vascularized fibula grafts (FVFG) for extensive bone defects after resection of lower limb malignant bone tumors. Methods Between November 2015 and July 2018, 15 cases of lower limb malignant bone tumors were treated. There were 12 males and 3 females with an average age of 12.3 years (range, 9-21 years). There were 11 cases of osteosarcoma and 4 cases of Ewing’s sarcoma. The tumor located at middle femur in 8 cases, lower femur in 4 cases, and middle tibia in 3 cases. The disease duration was 2-6 months (mean, 3.2 months). The tumor was completely removed, and the length of the bone defect was 8-23 cm (mean, 17.7 cm). The bone defect was repaired by FVFG, and combined inactivated tumor bone was used in 8 cases of femoral bone defect. Results The average operation time was 280 minutes (range, 180-390 minutes). The average blood loss was 310 mL (range, 200-480 mL). All incisions healed by first intention. All patients were followed up 2-24 months with an average of 14.5 months. Bone healing achieved in all patients at 9-18 months (mean, 12.3 months) after operation except 1 patient which was followed up only 2 months. The fibula grafts had active metabolism and the average bone metabolism score was 184 (range, 111-257) in effected side and 193 (range, 127-259) in contralateral side. There was no difference between bilateral sides. The average Enneking score was 24.6 (range, 20-30) at last follow-up. No ankle instability or paralysis of common peroneal nerve occurred. Conclusion FVFG appeared very efficient in repair of extensive bone defect after resection of lower limb malignant bone tumor.
Abstract: Due to complicated procedures and severe trauma, esophagectomy still remains an operation with high mortality and morbidity. With the advancement of anesthetic and surgical technique, as well as perioperative management, the mortality and morbidity after esophagectomy decreased significantly in recent years. The optimal perioperative management, normalized and individualized treatment was of importance in preventing postoperative complications and decreasing mortality after esophagectomy. This review summarizes the current state of perioperative management for esophagectomy.
Objective To evaluate the effectiveness of soft tissue reconstruction after resection of musculoskeletal tumor and to discuss the strategy of soft tissue reconstruction. Methods Between June 2003 and December 2010, 90 patients with musculoskeletal tumor underwent tumor resection and soft tissue reconstruction. There were 59 males and 31 females with a median age of 37.2 years (range, 9-85 years), including 52 bone tumors and 38 soft tissue tumors. One stage reconstruction of soft tissue was performed after tumor resection in 75 cases; reconstruction of soft tissue was performed after debridement in 7 cases of wound dehiscence; and two stage reconstruction of soft tissue was performed after debridement and vacuum sealing drainage placement in 8 cases of infected wounds. The gastrocnemiums flap was used in 40 cases, the latissimus dorsi myocutaneous flap in 6 cases, rectus abdominis myocutaneous flap in 4 cases, gluteus maximus musculocutaneous flap in 1 case, pectoralis major muscle flap in 1 case, cross-abdominal flap in 1 case, local transfer flap in 27 cases, pedicled flaps in 5 cases, and skin grafts in 5 cases. The size of the flap ranged from 6.5 cm × 4.5 cm to 21.0 cm × 9.0 cm. Results Eighty-seven flaps survived, and incisions healed by first intention in 81 cases. In 6 cases of healing by second intention, 2 had partial flap necrosis, which was cured by dressing change; 3 had delayed healing; 1 had mild infection, which was cured after conservative treatment. Wound of donor site healed primarily, and the grafted skin survived. Seventy-three patients were followed up 10-102 months (mean, 36.1 months). Local tumor recurrence was observed in 6 patients, who received second resection at 2-27 months (mean, 8.2 months) after operation. Thirteen patients dead of primary disease at 6-34 months (mean, 19.2 months) after operation. Conclusion The defects caused by resection of musculoskeletal tumor require soft tissue reconstructions. Optimal reconstruction can enhance wound closure, decrease incidence of wound complication, preserve limb function.
Objective To review the development of the reconstruction methods following total sacrectomy, and to provide reference for finding a better reconstruction method following total sacrectomy. Methods The case reports and biomechanical and finite element studies of reconstruction following total sacrectomy at home and abroad were searched. Development and current situation were summarized. Results After developing for nearly 30 years, great progress has been made in the reconstruction concept and fixation techniques. The fixation methods can be summarized as the following three strategies: spinopelvic fixation (SPF), posterior pelvic ring fixation (PPRF), and anterior spinal column fixation (ASCF). SPF has undergone technical progress from intrapelvic rod and hook constructs to pedicle and iliac screw-rod systems. PPRF and ASCF could improve the stability of the reconstruction system. Conclusion Reconstruction following total sacrectomy remains a challenge. Reconstruction combining SPF, PPRF, and ASCF is the developmental direction to achieve mechanical stability. How to gain biological fixation to improve the long-term stability is an urgent problem to be solved.