Objective To describe the characteristics of short arm deformity in patients with achondroplasia, and summarize the progress of its lenthening and reconstruction, so as to provide reference for clinical diagnosis and treatment. MethodsThe literature on the lenthening of upper limb with achondroplastic short arm deformity at home and abroad in recent years was reviewed, and the characteristics, extension methods, postoperative management, effectiveness evaluation, and related complications of short arm deformity were summarized. Results Achondroplastic short arm deformity affect the patient’s daily perineal hygiene activities. Although the upper limb is proportionately shortened, the humerus is mainly short limb deformity. Bilateral humeral lengthening is a common treatment method, and the traditional lengthening tools are mainly external fixation, guided by Ilizarov distraction osteogenesis concept; intramedullary lengthening is the latest treatment method. Lengthening percentage and healing index are commonly used for clinical evaluation indexes, and complications such as nerve injury may occur during upper limb lengthening. Conclusion In addition to appearance improvement, achondroplastic short arm lengthening is of great significance in achieving self-management of individual perineal hygiene. Lenthening and reconstruction methods are constantly being innovated and improved.
External fixation devices are essential tools in the field of foot and ankle reconstruction. Mastering the fundamental knowledge and skills of external fixation is crucial for the effective application of this technique. Currently, domestically produced external fixation systems for the foot and ankle can meet the needs of treating various foot and ankle traumas, deformities, and functional reconstruction. Through this special issue on “External fixation and foot and ankle reconstruction”, we provide a detailed introduction to the essential knowledge and skills that physicians must acquire to proficiently manage external fixation and foot and ankle reconstruction.
Ilizarov’s technology is an internationally recognized clinical treatment method for limb orthopedics, but there are many complications related to external fixation. With the development and progress of the times, the remote-control intramedullary lengthening nails had risen to prominence on the international stage as the second generation of orthomelic technology based on Ilizarov’s technology. Since the first remote-control intramedullary lengthening nail appeared in the 1980s, after more than 40 years of development, there are currently more than 3 types of extension mechanisms in remote-control intramedullary lengthening nails and a mature and stable clinical treatment model has been formed during the past long-term clinical treatment and experiments, such as the End-Point-First (EPF) program proposed by Professor Peter H. Thaller in Germany. Compared with Ilizarov’s technology, the remote-control intramedullary lengthening nail has obvious advantages in convenience, comfort, risk of infection, soft tissue injury, postoperative pain, and controllability of limb lengthening. This article mainly introduces the development and clinical treatment concept of remote-control intramedullary lengthening nail and the latest clinical treatment status of limb lengthening therapy abroad, hoping to provide new cognition and ideas for the further development of limb orthopedics in China.
Objective To explore the effectiveness of QIN Sihe’s surgical strategy combined with Ilizarov technique in treating foot and ankle deformities on the verge of amputation. Methods A retrospective analysis was conducted on the clinical data of 56 patients (62 feet) with foot and ankle deformities on the verge of amputation treated with QIN Sihe’s surgical strategy and Ilizarov technique between May 2010 and December 2020. Among them, there were 39 males and 17 females. The age ranged from 8 to 62 years (median, 27.5 years). QIN Sihe’s surgical strategy: subcutaneous release or open lengthening of contracted Achilles tendons, limited correction of bony deformities through multiple osteotomies during surgery, tendon transfer to balance the power of the foot and ankle, simultaneous percutaneous osteotomy and correction of tibial torsion deformity to restore the weight-bearing line of the lower extremity, and installation of Ilizarov foot and ankle distraction devices for slow distraction and correction of residual foot and ankle deformities. After removal of external fixation, individualized braces were used for protection during exercise and walking. For patients with bilateral deformities, staged surgeries were performed. The effectiveness was evaluated according to the QIN Sihe’s Postoperative Evaluation Criteria for Lower Limb (Foot and Ankle) Deformity Correction and Functional Reconstruction at last follow-up. Results All patients achieved the preoperative expected orthopedic and functional reconstruction goals. The postoperative wearing time of external fixator was 3-7 months, with an average of 5.5 months. The incidence of pin tract infection during the treatment period was 6.5% (4/62). All patients were followed up 25-132 months (median, 42 months). All 56 patients successfully retained their limbs. At last follow-up, foot and ankle deformities were corrected, the weight-bearing line was basically restored, and plantigrade feet were restored. At last follow-up, according to QIN Sihe’s Postoperative Evaluation Criteria for Lower Limb (Foot and Ankle) Deformity Correction and Functional Reconstruction, the effectiveness was rated as excellent in 37 cases (39 feet), good in 18 cases (21 feet), and fair in 1 case (2 feet). The excellent and good rate was 96.8% (60/62). Conclusion The combination of QIN Sihe’s surgical strategy and Ilizarov technique in treating foot and ankle deformities on verge of amputation is minimally invasive, safe, and the therapeutic effect is controllable. This combined approach has unique advantages in preserving limb function and restoring biomechanical balance.
Objective To investigate the effectiveness of applying a standardized rehabilitation process in correction of adult clubfoot with the Ilizarov technique. Methods Thirty-eight adult patients who underwent orthopedic treatment with Ilizarov technique for clubfoot between August 2022 and December 2024 were retrospectively analyzed. The patients were divided into a study group and a control group with 19 cases in each group according to the different rehabilitation management processes and methods. The differences in baseline data such as gender, age, side, and preoperative Holden walking function grading between the two groups were not significant (P>0.05). In both groups, most of the clubfoot deformities were surgically corrected first, and the residual deformities were corrected by dynamic slow retraction with Ilizarov ring-type external fixation frame. The study group adopted standardized rehabilitation process management mode, including preoperative lower limb muscle strength training, postoperative pain and swelling management, weight-bearing management, gait and lower limb stability training. The control group adopted the conventional postoperative rehabilitation management mode. The occurrence of complications was recorded, including pin tract infection, ankle stiffness and pain, and deformity recurrence. Holden walking function grading was used to evaluate the walking ability of the patients. Clinical efficacy was evaluated by the QIN Sihe Deformity Correction Disability Repair and Functional Reconstruction Postoperative Efficacy Evaluation Scale. Patient satisfaction was evaluated by Likert score. Results Patients in both groups successfully completed surgery and rehabilitation and were followed up. The follow-up time ranged from 8 to 29 months, with a mean of 18.5 months. Among them, the follow-up time was (18.8±5.5) months in the study group and (18.2±5.7) months in the control group, and the difference between groups was not significant (t=0.316, P=0.754). The postoperative incidences of pin tract infection, ankle stiffness and pain, and deformity recurrence in the study group were 10.53%, 5.26%, and 5.26%, respectively, and in the control group were 21.05%, 36.84%, and 15.79%, respectively. And the difference between groups in the incidence of ankle stiffness and pain was significant (P=0.042). At last follow-up, both groups showed an improvement in Holden walking function grading compared to preoperative levels (P<0.05), and the grading of the study group was significantly higher than that of the control group (P=0.006). According to the QIN Sihe Deformity Correction Disability Repair and Functional Reconstruction Postoperative Efficacy Evaluation Scale, the grade difference between groups was not significant (P=0.089), and the excellent and good rates of clinical efficacy in study group and control group were 89.47% (17/19) and 73.68% (14/19), respectively. Patient satisfaction in study group was significantly better than that in control group (P=0.036). Conclusion Standardized rehabilitation process can effectively promote the postoperative functional recovery of adult clubfoot treated with Ilizarov technique, reduce the risk of complications and improve effectiveness.
ObjectiveTo review the research progress on correction of severe foot and ankle deformities with digital hexapod external fixators. Methods The relevant research literature on digital hexapod external fixators at home and abroad in recent years was reviewed and analyzed. Taking Taylor spatial frame (TSF) as a representative, this article elaborates on the research progress of this technology in the treatment of severe foot and ankle deformities from aspects such as device principle, technical characteristics, clinical application, complication management, and controversial perspectives, aiming to provide theoretical references for clinical application. Results The treatment of severe foot and ankle deformities is a complex challenge in orthopedics, often involving multiple plane alignment abnormalities, muscle weakness, soft tissue contractures, and joint dysfunction. The digital hexapod external fixators (such as TSF), based on the principle of six degrees of freedom motion and combined with computer-assisted technology, enables precise correction of multi-dimensional deformities. Conclusion The digital hexapod external fixators provides a minimally invasive and efficient option for the treatment of severe foot and ankle deformities, and shows significant advantages in the treatment of complex post-traumatic deformities, neuromuscular deformities, diabetes Charcot arthropathy, and other diseases.
Objective To analyze the characteristics of patients with secondary lower limb deformity of spina bifida based on the QIN Sihe Orthopedic Surgery Case Data, and provide the references for clinical research, diagnosis, and treatment. Methods A clinical data of 1 012 patients with secondary lower limb deformity of spina bifida between October 12, 1986 and December 31, 2020 selected from QIN Sihe Orthopedic Surgery Case Data was retrospectively analyzed. Among them, 231 cases (22.83%) had undergone orthopedic surgery for lower extremity deformities in other hospitals. The gender, age at surgery, indicators related to spina bifida (deformity side, comorbidity, sensory disturbance level), and information related to surgery (operating time, surgical site, postoperative fixation method) were analyzed. Results Of the 1012 patients, 457 were males and 555 were females. The age was 3-51 years at the time of surgery, with a median of 18.0 years; among them, the 15-30 years old group had the most patients, accounting for 53.16%. Most deformities involved both lower limbs (652 cases, 64.43%). There were 111 cases of ulcers in the weight-bearing area of the foot, 265 cases of gatism, 554 cases of sensory disturbance, and 85 cases of abnormal hair on the waist. From 2010 to 2019, there were significantly more patients undergoing surgery than before 2010, reaching 61.17%. Sensory disturbances mostly occurred in the ankle and foot. A total of 1 149 sites were treated with surgery, of which the most ankle joint deformities were corrected by surgery, accounting for 84.33%. The main fixation methods after orthopedic surgery were external fixation, including Ilizarov external fixation (442 cases), combined external fixation (315 cases), and plaster fixation (189 cases). Conclusion Spina bifida can be secondary to severe deformities of the lower limbs, mainly in the ankles. Common complications include ulcers in the weight-bearing area, dysfunction of urine and feces, and sensory disturbances; external fixation is the main method of fixation after surgery.