Systems-based integrated course is a advanced and mainstream educational mode in western medical education, and also it is a hotspot of current medical education reform in China. In this article, we introduce our practice and the students' feedback of the orthopedic module of 8-year clinical medicine systems-based integrated course. During practice, we follow the integral curriculum design of Sichuan University, establish a team of teachers, integrate the curriculum of relevant disciplines, and improve teaching methods, ameliorate evaluation forms, etc. Through the implementation of this course, we recognize that this new course system aims to cultivate excellent clinical doctors, which focuses on the bilateral permeation and reconstruction among disciplines, especially between basic curriculums and clinical curriculums, changes traditional teaching methods, and strengthens the ability of practice and lifelong learning.
Evidencebased medicine (EBM) is different fromtraditional medicine in that the practice of EBM comes from evidence and experience of the doctors. The objective evidence plays a key role in clinical practice. During the clinical teaching process, the following steps should be taken: firstly, the students should find a problem in their clinical practice; then, theyshould search for the evidence with the help of their teachers, evaluate the evidence, apply the evidence to the clinical practice, and solve the problem; finally, they should evaluate the effectiveness. An introduction of the principles and methods of EBM to the clinical practice can greatly improve the students’ ability to analyze and solve a clinical problem.
Mixed reality technology is new digital holographic imaging technology that generates three-dimensional simulation images through computers and anchors the virtual images to the real world. Compared with traditional imaging diagnosis and treatment methods, mixed reality technology is more conducive to the advantages of precision medicine, helps to promote the development of medical clinical application, teaching and scientific research in the field of orthopedics, and will further promote the progress of clinical orthopedics toward standardization, digitization and precision. This article briefly introduces the mixed reality technology, reviews its application in the perioperative period, teaching and diagnosis and treatment standardization and dataization in the field of orthopedics, and discusses its technical advantages, aiming to provide a reference for the better use of mixed reality technology in orthopedics.
【Abstract】 Objective To explore the clinical application and outcomes of preoperative second measurement of three-dimensional (3-D) CT reconstruction data for scoliosis orthopedic surgery. Methods Between August 2006 and March 2008, 11 patients with severe rigid scoliosis received surgery treatment, including 4 males and 7 females with an average age of 17.2 years (range, 15-19 years). Preoperative second measurement of 3-D CT reconstruction data was conducted to guide the surgery, including the angle and width of pedicle, the entry point, and the choice of screws whose lengths and diameters were suitable. A total of 197 pedicle screws were implanted. The operation time, blood loss, postoperative nerve function,and Cobb’s angles at sagittal and coronal view were all recorded, and the postoperative CT scan was performed to assess the accuracy of pedicle screw insertion according to Andrew classification. Results Pedicle screws were implanted within 1-11 minutes (mean, 5.8 minutes), and the blood loss was 450-2 300 mL (mean, 1 520 mL). The postoperative X-ray films showed the correction rates of Cobb’s angle were 68.5% in coronal view and 55.5% in sagittal view. The accuracy of pedicle screw insertion was rated as grade I in 77 screws (39.1%),grade II in 116 screws (58.9%), and grade III in 4 screws (2.0%) according to postoperative CT scan. All 11 cases were followed up 14 months to 2 years without any complications. Conclusion Preoperative second measurement of 3-D CT reconstruction data can make the surgery process easy and accurate in treatment of severe scoliosis.
Enhanced recovery after surgery (ERAS) has been carried out in many surgical fields such as orthopedics, galactophore, cardiothoracic surgery, gastrointestinal surgery, and obstetrics due to its standardized perioperative management process to reduce surgical stress and reduce surgical complications. After more than a decade of development, ERAS has achieved initial results. However, in China, the development of ERAS in orthopedic is still in its infancy. Most of the researches focus on the multidisciplinary management path of perioperative period. How to break through the existing bottlenecks is the key to accelerate the further development of rehabilitation. Therefore, this paper introduces the origin and development of ERAS, analyzes the challenges and opportunities of orthopedic ERAS in clinical advancement, proposes the important measures to promote the accelerated development of orthopedics, and provides new ideas for promoting the in-depth development of orthopedics accelerated rehabilitation.
Objective To analyze current research status of enhanced recovery after surgery of orthopedics in China, and to provide reference for further development of enhanced recovery after surgery in orthopedics department. Methods We searched Wanfang database and China National Knowledge Infrastructure (CNKI) database for articles about enhanced recovery after surgery of orthopedics department which were included by the Chinese Science and Technology Core Journal (2018 version) or Chinese Core Journal criterion of Peking University (2017 version), and bibliometric analysis was performed. Results A total of 135 articles were included in this study, 49 of which were collected in Chinese Core Journal criterion of Peking University. The amount of articles showed a rising trend in general over last decade. The main research topic was joint diseases (69 articles, 51.11%), followed by traumatic diseases (23 articles, 17.04%) and spinal diseases (21 articles, 15.56%); 35.56% (48 articles) of the articles were supported by different funds; Sichuan Province had the largest number of publications (36 articles) and the largest number of funds so far (8 items); clinical studies accounted for 37.78% (51 articles) with 78.43% (40 articles) randomized controlled trials, in which evaluation indicators focused on function scores, pain, length of hospital stay, complications or adverse reactions, patient satisfaction, and hospitalization costs. Conclusions The research on enhanced recovery after surgery of orthopedics in China was in a rising stage, and joint replacement was one of the hotspots. The funds are insufficient, and a series of guidelines should be developed according to the evidence-based study to accelerate the enhanced recovery after surgery of orthopedics.
Objective To investigate the accuracy and safety of percutaneous screw fixation for pelvic and acetabular fractures with remote navigation of orthopedic robot based on 5G technology. Methods Between January 2021 and December 2021, 15 patients with pelvic and/or acetabular fractures were treated with percutaneous screws fixation which were placed by remote navigation of orthopedic robot based on 5G technology. There were 8 males and 7 females. The age ranged from 20 to 98 years, with an average of 52.1 years. The causes of trauma included traffic accident injury in 6 cases, falling from height injury in 6 cases, fall injury in 2 cases, and heavy object smashing injury in 1 case. The time from injury to operation ranged from 3 to 32 days, with an average of 10.9 days. There were 8 cases of simple pelvic fractures, 2 simple acetabular fractures, and 5 both pelvic and acetabular fractures. There were 7 cases of pelvic fractures of Tile type B2, 2 type B3, 1 type C1, and 3 type C2; 4 cases of unilateral anterior column fracture of the acetabulum, 2 bilateral anterior column fractures, and 1 anterior wall fracture. CT images within 5 days after operation were collected for screw position assessment. The screw planning time and guidewire placement time were recorded, as well as the presence of intraoperative adverse events and complications within 5 days after operation. Results All patients achieved satisfactory surgical results. A total of 36 percutaneous screws were inserted (20 sacroiliac screws, 6 LC Ⅱ screws, 9 anterior column screws, and 1 acetabular apical screw). In terms of screw position evaluation, 32 screws (88.89%) were excellent and 4 screws (11.11%) were good; there was no screw penetrating cortical bone. The screw planning time ranged from 4 to 15 minutes, with an average of 8.7 minutes. The guidewire placement time ranged from 3 to 10 minutes, with an average of 6.8 minutes. The communication delayed in 2 cases, but the operation progress was not affected, and no serious intraoperative adverse events occurred. No delayed vascular or nerve injury, infection, or other complications occurred within 5 days after operation. No cases need surgical revision. ConclusionThe fixation of pelvic and acetabular fractures by percutaneous screw with remote navigation of orthopedic robot based on 5G technology is accurate, safe, and reliable.
To introduce the current situation of platelet-rich plasma (PRP) and its appl ication in orthopedics field. Methods The latest l iterature was reviewed, concerning the preparations of PRP, physiological mechanism and the latest appl ications in orthopedics field. Results PRP represent a new biotechnology for the stimulation and acceleration of tissue heal ing and bone regeneration. To succeed, some of the challenges need to be addressed including standardization and definition of the different PRP preparations, the complete characterization of the platelet released factors and proteins. Furthermore, well-designed studies and cl inical trials are needed to evaluate the potential therapeutic impact ofPRP. Conclusion PRP provides a novel appl ication for orthopedics field.
ObjectiveTo investigate the current situation of orthopedic quality control and management in county-level regional general hospitals in Guangdong, and to provide a scientific basis for further standardizing the procedures of orthopedic quality control and management in county-level regional general hospitals and continuously improving the work of provincial orthopedic quality control center.MethodsFrom June 2019 to July 2020, online and offline questionnaire survey and field survey were used to investigate the quality control and management of orthopedic departments in 22 county-level regional general hospitals in Guangdong.ResultsAmong the overall scores of the surveyed hospitals, the highest score was 96.5, the lowest score was 72.0. There were 6 hospitals with a total score of “excellent” (accounting for 27.3%). The “facilities and equipment” and “medical quality” of the surveyed hospitals were relatively valued. Taking Guangzhou, the capital of Guangdong as the center, the districts and counties were divided into the east, the south, the west and the north regions, and the difference in overall scores of orthopedics among the four regions was statistically significant (F=6.299, P=0.004). The unqualified rates of department setting, key technology development, average hospitalization days of representative diseases, equipment allocation, personnel allocation, department management and building layout were relatively high, which were 77.3%, 63.6%, 45.5%, 40.9%, 40.9%, 36.4% and 36.4%, respectively. Most hospitals had set up special debridement rooms in orthopedic department (95.5%), and the management and monitoring of the use of antibacterial drugs was mostly reasonable (90.9%). In terms of the level of orthopedic medical treatment, only 3 hospitals with sufficient key technologies reached the standard, accounting for 13.6%, and only 7 hospitals reached the standard of scientific research capacity, accounting for 31.8%. In terms of quality control, the numbers of hospitals with qualified medical record sampling (72.7%), perfect management and supervision mechanism (86.4%) and quality management team in departments (77.3%) were the least. In addition, among the investigated hospitals, beds were in short supply in orthopedic departments, with 12 hospitals accounting for 54.5% being deducted; 16 hospitals (72.7%) were deducted for unqualified doctor-patient ratio and 11 hospitals (50.0%) were deducted for unqualified nurse-patient ratio.ConclusionsThe overall level of orthopedics construction and management in the surveyed hospitals is uneven. The medical professional and technical level is insufficient. It is difficult to meet the practical needs, and there is an imbalance in the ratio of medical personnel. In the future, it is necessary to strengthen the quality control of orthopedic medical care, strengthen the medical technology training of county-level regional general hospitals and increase the medical and health resources and capital investment, so as to improve the quality control of county-level regional general hospitals.
This paper describes the latest definition, connotation, content and working mode of orthopedic rehabilitation. It points out that the main contents of orthopedic rehabilitation should include the rehabilitation of patients with orthopedic diseases after surgery and non-surgical treatment. The research progress of stem cells, especially mesenchymal stem cells, in the treatment of osteoarthritis and lumbar intervertebral disc degeneration are reviewed. The latest progress of platelet-rich plasma in the treatment of injury of articular cartilage, ligament and tendon injuries are also reviewed.