Objective To analyse and summarize the diagnosis, treatment, and cl inical effects of talus lateral process fracture. Methods Between February 2001 and March 2009, 21 male patients with an average age of 33.6 years (range, 18-46years) with talus lateral process fractures were treated. Fracture was caused by fall ing from height in 18 cases, by tumbl ing in 2 cases, and by sprain in 1 case. According to Hawkins classification, there were 4 cases of type I, 15 cases of type II, and 2 cases of type III, all being closed fractures. The disease course was from 2 hours to 26 days. In 17 patients whose fracture fragments were more than 1 cm × 1 cm × 1 cm or whose fracture fragments shifting was more than 1 mm, open reduction and internal fixation with AO hollow titanium nails were performed in 14 patients, open reduction and internal fixation with door-shape self-made nail in 1 patient, and open reduction and internal fixation with absorbable screws in 2 patients. In 4 patients whose fracture fragments were less than 0.6 cm × 0.5 cm × 0.5 cm or whose fracture fragments shifting was less than 1 mm, fragments removel was performed in 2 patients, Kirschner pins in 1 patient, and plaster conservative therapy in 1 patient. In patients with l igaments injury, the l igaments was reconstructed during the operation. Results All the incisions achieved primary heal ing. Twenty-one patients were followed up 9.5 months to 8 years. No ankle pain occurred and the range of joint motion was normal after operation. The X-ray films showed that all cases achieved fracture union. And the healing time was from 8 weeks to 14 weeks (10 weeks on average). According toAmerican Orthopeadic Foot amp; Ankle Society (AOFAS) for foot, the results were excellent in 17 cases, good in 3 cases, and moderate in 1 case; the excellent and good rate was 95.24%. Conclusion The size and displacement of fracture fragment should be considered first in the treatment of lateral process fracture of talus; in patients who are compl icated by lateral malleolus l igament injury, the l igament should be reconstructed to avoid the chronic non-stabil ity of lateral ankle.
Objective To discuss the etiology, cl inical manifestation, imaging, staging, and treatment of bone necrosis of the second metatarsal head, the navicular bone, and the talus so as to provide more information for cl inical appl ication. Methods The related home and abroad l iterature concerning bone necrosis of the second metatarsal head, the navicular bone, and the talus in recent years was reviewed extensively. And the cl inical manifestation, imaging, staging, and treatment were summarized and analyzed. Results Bone necrosis of the second metatarsal head, the navicular bone, and thetalus were more closely related to the particular anatomy; the environmental and genetic factors also lead to such diseases. The cl inical presentation was typically local pain and swell ing around the joint, frequently with restricted joint motion in severe cases. Both radiographs and MRI were used to be the main criteria for diagnosis and staging of these diseases. According to different phases, conservative therapy was effective in treating osteonecrosis at early stage. While surgical treatments such as osteotomy, fixation, and arthrodesis were used in late-stage bone necrosis. Conclusion The current methods of treatment have achieved good effect, but long-term cl inical follow-up is needed and the new surgery should be further studied.
In order to study the curative effect of vascularized bone graft in the treatment of avascular necrosis of talus, 24 patients were treated with vascularized bone grafts, in which 9 cases had received 1st cuneiform bone graft with a malleolaris anteriomedialis, 4 cases with the 1st cuneiform bone graft with the medial tarsal artery and 11 cases with vascularized cuboid bone graft with the lateral tarsal artery. All of the patients were followed up for 3-5.5 years. The clinical observation and X-ray examination showed that function of the ankle joint was completely or almost normal in 16 cases, and the bone repair was excellent. There was slight pain in the ankle joint in 4 cases. The efficiency rate of the treatment was 83.3%. It could be concluded that vascularized bone graft might be an effective method in the treatment of avascular necrosis of talus.
Teh transposition of the first cuneiform bone with the anterior medial malleolar artery peidcel had been utilized successfully. It provided a new donor bone for repairing talus neck fracture. necrosis of the talus body and for fusing the joints of the ankle and foot. The position of the artery was comparatively constant, sothat the bone flap could be easily accessible. The operations was simple and easily performed.
Objective To explore the clinical efficacy of external fixation combined with autogenous periosteal iliac bone for repairing cartilage injury of the talus. Methods The data of 18 patients with talus cartilage injury treated in Mianyang Central Hospital between January 2018 and January 2022 were retrospectively analyzed. All patients received autogenous periosteal iliac bone transplantation and external fixation brackets. The Visual Analogue Scale (VAS), joint range of motion, and the American Orthopedic Foot and Ankle Society (AOFAS) ankle posterior foot score were assessed before surgery and 6 months after surgery. The changes of cartilage damage of the talus on MRI before and after surgery were compared. The complications related to the operation were recorded. Results The patients included 5 males and 13 females, with an average age of (50.7±5.4) years. There were 6 cases injured on the left side and 12 cases injured on the right side. The Hepple’s classification was type Ⅲ in 8 cases and type Ⅳ in 10 cases. The average follow-up time was (17.6±8.2) months. The preoperative VAS score, ankle range of motion, and AOFAS score were 5.5±1.5, (48.0±10.5)°, and 54.9±11.1, respectively. Six months after surgery, the VAS score, ankle range of motion, and AOFAS score were 2.1±0.9, (64.8±7.8)°, and 82.6±8.7, respectively, and the differences from preoperative scores were all statistically significant (P<0.05). The preoperative MRI showed that the area of talus cartilage injury was (2.6±0.6) cm2, and the depth was (10.0±0.4) mm; the 1-year follow-up MRI showed that the area of talus cartilage injury was (0.6±0.2) cm2, and the depth was (5.5±0.3) mm, which statistically differed from those before surgery (P<0.05). By the last follow-up, no postoperative complications such as incision infection, bone graft fracture, and nonunion of the inner ankle were found. Conclusions Autogenous periosteal iliac bone graft can repair cartilage injury of the talus. External fixation stent provides early joint stability, avoiding uneven joint compression or joint impact.
Objective To provide a comprehensive overview of the surgical treatments of osteochondral lesion of talus (OLT) and offer valuable insights for clinical practice. Methods The advantages and limitations of surgical treatments for OLT were comprehensively summarized through an extensive review of domestic and abroad relevant literature in recent years. Results Currently, there exist numerous surgical treatments for the OLT, all of which can yield favorable outcomes. However, each method possesses its own set of merits and demerits. The short-term effectiveness of bone marrow stimulation in treating primary OLT with a diameter less than 15 mm is evident, but its long-term effectiveness diminishes over time. Autologous osteochondral transplantation (AOT) and osteochondral allograft transplantation (OAT) are suitable for OLT with large defects and subchondral bone cysts. However, incomplete anatomical matching between the donor and recipient bones may results in the formation of new subchondral bone cysts, while AOT also presents potential complications at the donor site. In contrast to AOT and OAT, particulated juvenile cartilage allograft transplantation obviates the need for additional osteotomy. Furthermore, juvenile cartilage exhibits enhanced potential in delivering active chondrocytes to the site of cartilage defect, surpassing that of adult cartilage in tissue repair efficacy. Cell transplantation has demonstrated satisfactory effectiveness; however, it is associated with challenges such as the requirement for secondary surgery and high costs. Autologous matrix-induced chondrogenesis technology has shown promising effectiveness in the treatment of primary and non-primary OLT and OLT with large defect and subchondral bone cysts. However, there is a scarcity of relevant studies, most of which exhibit low quality. Adjuvant therapy utilizing biological agents represents a novel approach to treating OLT; nevertheless, due to insufficient support from high-quality studies, it has not exhibited significant advantages over traditional treatment methods. Furthermore, its long-term effectiveness remain unclear. Conclusion The optimal choice of surgical treatment for OLT is contingent not only upon the characteristics such as nature, size, and shape but also takes into consideration factors like advancements in medical technology, patient acceptance, economic status, and other pertinent aspects to deliver personalized treatment.