This consensus aims to introduce the applications of 4K high-definition technology and fluorescence technology in thoracic surgery, summarize and categorize the technical support for pulmonary segment surgery, and innovatively propose technical support for precise sleeve resection of pulmonary segments. It provides a reference for clinical use, points out the direction for the research and innovation of domestically produced high-end endoscopes, promotes the widespread application of excellent domestically produced medical endoscopes, and facilitates the development of domestically produced medical equipment.
ObjectiveTo report an improved classification system of Kümmell’s disease and its clinical application.MethodsBased on CT and MRI, an improved classification system of Kümmell’s disease was proposed in terms of the integrity of sagittal endplate, the integrity of posterior wall of vertebral body, and the degree of vertebral compression. Between January 2011 and March 2018, the improved classification system was used to evaluate and guide the treatment of 78 patients with Kümmell’s disease. There were 13 males and 65 females. The mean age was 69.1 years (range, 54-85 years). The mean disease duration was 4.0 months (range, 1-8 months). The mean T value of bone mineral density was ?3.66 (range, ?3.86- ?3.34).The fractures located at thoracic vertebrae in 47 cases and lumbar vertebrae in 31 cases. According to the modified classification system of Kümmell’s disease, there were 11 cases of type A1, 13 cases of type A2, 2 cases of type A3, 10 cases of type B1, 18 cases of type B2, 4 cases of type B3, 4 cases of type C1, 5 cases of type C2, and 11 cases of type C3. According to the classification results, the patients of types A and B were treated with percutaneous kyphoplasty (PKP), while the patients of type C were treated with PKP or intra- vertebral fixation according to the degree of vertebral reduction. Visual analogue scale (VAS) score and Oswestry Disability Index (ODI) were used to evaluate clinical efficacy. The heights of the anterior, middle, and posterior edges of the vertebrae and the Cobb angle were measured to evaluate the reduction of the injured vertebrae and the improvement of kyphosis deformity. The complications were recorded.ResultsThe statistical analysis showed that the improved classification system has good consistency. All patients were followed up 12-36 months (mean, 24.3 months). The heights of anterior, middle, and posterior edges of the vertebrae, Cobb angle, VAS score, and ODI of all types of patients at last follow-up showed significant differences when compared with those before operation (P<0.05). After operation, 4 patients of type A2 had different degree of vertebral height loss; 2 patients of type B2, 3 patients of type C1, and 2 patients of type C2 developed asymptomatic bone cement leakage during PKP; 2 patients of type B3 and 3 patients of type C2 underwent percutaneous internal fixation and vertebral augmentation due to bone cement loosening.ConclusionThe modified classification system of Kümmell’s disease can be used to guide treatment of Kümmell’s disease, but the number of clinical application cases is limited, and further application and observation are needed.
It has been 20 years since the first transcatheter aortic valve replacement (TAVR) was performed internationally in 2002, and the development of TAVR technology in China has also been more than 10 years. The reliability of TAVR has been clinically proven, and it has also brought good benefits to patients with aortic stenosis. With the gradual progress of technology, TAVR has a trend to surpass surgical aortic valve replacement and become the mainstream surgery for patients with aortic stenosis. This article will review the relevant issues in the development of TAVR technology in recent years, based on existing research, and provide certain clinical references for the future development of TAVR technology.
Objective To systematically review the effect of inspiratory muscle training (IMT) on postoperative clinical outcomes among esophageal cancer patients. Methods The PubMed, EMbase, Web of Science, The Cochrane Library, CNKI, WanFang Data and VIP databases were searched from inception to January 16th, 2022 for randomized controlled trials (RCTs) and cohort studies on the clinical application of IMT among postoperative esophageal cancer patients. Two reviewers independently screened the literature, extracted data, and assessed the risk of bias of the included studies. Meta-analysis was then performed using RevMan 5.4 software. Results Eight studies were included, including 7 RCTs and 1 cohort study, involving 728 participants. The results of the meta-analysis demonstrated that IMT significantly enhanced postoperative respiratory muscle function [maximum inspiratory pressure (MIP): MD=5.75, 95%CI 0.81 to 10.70, P=0.02; maximum expiratory pressure (MEP): MD=8.19, 95%CI 4.14 to 12.24, P<0.001] and pulmonary function (FEV1%: MD=6.94, 95%CI 5.43 to 8.45, P<0.001; FVC%: MD=4.65, 95%CI 2.70 to 6.60, P<0.001; MVV: MD=8.66, 95%CI 7.17 50 10.14, P<0.001; FEV1/FVC%: MD=8.04, 95%CI 4.68 to 11.40, P<0.001). Additionally, the results indicated that IMT could substantially improve postoperative functional performance [six-minute walk test (6MWT): MD=66.99, 95%CI 10.13 to 123.85, P=0.02; Borg index: MD=?1.03, 95%CI ?1.26 to ?0.81, P<0.001]. However, no significant reduction in the incidence of postoperative complications was observed. Conclusion IMT can improve the postoperative clinical outcomes of esophageal cancer patients and facilitate patient recovery after surgery, which has high clinical value. Due to the limited quantity and quality of the included studies, more high-quality studies are needed to verify the above conclusion.
Median nerve electrical stimulation is a common peripheral nerve electrical stimulation treatment technology in clinic. With simple operation, it has been widely used in clinical to promote coma after craniocerebral trauma, relieve pain, improve cognition, Parkinson’s disease and so on. However, its mechanism has always been a hot topic and difficult part. At present, there are a large number of clinical efficacy studies and animal experiments of median nerve electrical stimulation at home and abroad. This article reviews the clinical application and animal experiments of median nerve electrical stimulation in recent years, and summarizes its mechanism, hoping to contribute to relevant clinical applications and research.
The postoperative symptom burden in patients with lung cancer is severe and adversely impairs their quality of life. Symptom management is the cornerstone of medical care. Patient-reported outcome (PRO)-based symptom management is being increasingly recognized as the best "patient-centered care" model in clinical practice. However, the precise implementation of this model in patients undergoing lung cancer surgery is hindered by the lack of a lung cancer surgery-specific scale, implementation standards, clinical application parameters and high-quality researches. The use of a precise and simple PRO scale and an electronic PRO platform may greatly improve the feasibility of implementing this model. Currently, the application of PRO-based symptom management in lung cancer surgery is still being explored and needs to be improved in clinical research and practice.
Objective To summarize the application and progress of the indocyanine green-fluorescence imaging in liver tumor surgery, at the same time, to demonstrate the advantages, limitations, and prospects of this technology. Methods Clinical researches about indocyanine green-fluorescence imaging in liver tumor surgery were collected, to review the introduction and principle of indocyanine green-fluorescence imaginging, and its clinical application of detecting small lesions and demarcating boundaries in liver tumor surgery. Results Indocyanine green-fluorescence imaging had been used in liver tumors surgery. In the aspect of locating the tumors, detecting small lesions, and demarcating boundaries, it had begun to show its unique value. And it was provided to be a new way to reduce tumor recurrence, improve treatment effect, and prolong survival time. Conclusions Indocyanine green-fluorescence imaging is now in the stage of development and promotion, and it has great development potential in technology. But, it also needs advancement in identification ability of benign and malignant lesions, and the depth of detection.
Artificial intelligence (AI) has been widely used in all walks of life, including healthcare, and has shown great application value in the auxiliary diagnosis of pulmonary nodules in the medical field. In the face of a large amount of lung imaging data, clinicians use AI tools to identify lesions more quickly and accurately, improving work efficiency, but there are still many problems in this field, such as the high false positive rate of recognition, and the difficulty in identifying special types of nodules. Researchers and clinicians are actively developing and using AI tools to promote their continuous evolution and make them better serve human health. This article reviews the clinical application and research progress of AI-assisted diagnosis of pulmonary nodules.
ObjectiveTo summarize the application and research progress of robotic-arm in total knee arthroplasty (TKA).MethodsRelevant literature at home and abroad was extensively reviewed to analyze the advantages and disadvantages of robotic-arm assisted TKA (RATKA).ResultsAccurate reconstruction of lower extremity alignment and rotation alignment, accurate osteotomy and implant prosthesis in TKA are very important to improve the effectiveness and prolong the life of the prosthesis. Traditional TKA deviations occur in key links such as osteotomy due to operator’s operation. RATKA solves the above problems to a certain extent and can assist accurate osteotomy and implant prosthesis, and protect the soft tissues around the knee joint. Patients’ satisfaction after RATKA is high, and the operator’s learning curve is shorter, which improves the efficiency of the operation. But it also has disadvantages such as prolonged operation time, increased complications and medical costs.ConclusionPreliminary clinical application studies have shown that RATKA has satisfactory effectiveness, but its definite advantages compared with traditional TKA need to be confirmed by a large number of randomized controlled trials and long-term follow-up.
Objective To summarize the application progress of three-dimensional (3D) printed metal prosthesis in joint surgery. Methods The related literature was extensively reviewed. The effectiveness of 3D printed metal prosthesis in treatment of joint surgery diseases were discussed and summarized, including the all key issues in prosthesis transplantation such as prosthesis stability, postoperative complications, bone ingrowth, etc. Results 3D printed metal prosthesis has good matching degree, can accurately reconstruct and restore joint function, reduce operation time, and achieve high patient satisfaction in short- and medium-term follow-up. Its application in joint surgery has made good progress. Conclusion The personalized microporous structure prostheses of different shapes produced by 3D printing can solve the problem of poor personalized matching of joints for special patients existing in traditional prostheses. Therefore, 3D printing technology is full of hope and will bring great potential to the reform of orthopedic practice in the future.