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.
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.
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.
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.
Objective To observe the clinical application of multidisciplinary team (MDT) treatment in the management of geriatric hip fractures and evaluate its effectiveness. Methods The clinical data of 76 elderly patients with hip fracture managed by MDT approach between August 2016 and February 2018 (MDT group) were retrospectively analyzed and compared with 102 patients managed by traditional orthopedics approach between January 2014 and December 2015 (conventional group). There was no significant difference in gender, age, fracture type, surgical procedure, and other general data between the two groups (P>0.05). However, the number of comorbidities in the MDT group was significantly higher than that in the conventional group (t=6.295, P=0.000), and the proportion of the number of comorbidities between the two groups was also significantly different (χ2=28.442, P=0.000). The consultation rate and transfer rate, time to surgery, rate of surgery within 2 or 3 days, operation time, postoperative hospitalization stay, length of hospitalization stay, hospitalization expense, rate of loss to follow-up, and mortality during hospitalization, 30-day mortality, 90-day mortality, and 1-year mortality after operation were compared between the two groups. Results The rates of total consultations of the conventional group and the MDT group were 56.86% (58/102) and 56.58% (43/76), respectively, and the rates of total transferred patients were 15.69% (16/102) and 15.79% (12/76), respectively, with no significant differences (P>0.05). Among them, the proportion of patients who transferred into intensive care unit (ICU) in conventional group was significantly higher than that in MDT group and the rates of patients who received geriatric consultation or transferred into geriatric department in MDT group were both significantly higher than those in conventional group (P<0.05). There was no significant difference in rates of other department consultation or transfer between the two groups (P>0.05). The time to surgery, operation time, postoperative hospitalization stay, and length of hospitalization stay in MDT group were significantly less than those in conventional group, but the proportion of patients who received surgery within 3 days in MDT group was significantly higher than that in conventional group (P<0.05). There was no significant difference in the proportion of patients who received surgery within 2 days (χ2=2.027, P=0.155). The hospitalization expenses of total patients, femoral neck fracture, and intertrochanteric fracture subgroups in MDT group were all significantly higher than those in conventional group (P<0.05). However, there was no significant difference in hospitalization expense of subtrochanteric fracture subgroup between the two groups (Z=−1.715, P=0.086). The rate of loss to follow-up in conventional group and MDT group was 6.86% (7/102) and 3.95% (3/76), respectively, with no significant difference (χ2=0.698, P=0.403). The mortalities at hospitalization, 1 month, 3 months, and 1 year after operation in conventional group were 0, 1.05% (1/95), 3.16% (3/95), and 7.37% (7/95), respectively, and in MDT group were 0, 0, 2.74% (2/73), 6.85% (5/73), respectively, showing no significant differences in mortalities between the two groups (P>0.05). Conclusion MDT model in the management of geriatric hip fractures has been shown to reduce time to surgery, postoperative hospitalization stay, length of hospitalization stay, operation time, and the proportion of patients who received ICU consultation or transferred into ICU. Furthermore, MDT can improve the capacity for developing operations for patients with complex medical conditions and make medical resources used more rationally.
As a low-load physiological monitoring technology, wearable devices can provide new methods for monitoring, evaluating and managing chronic diseases, which is a direction for the future development of monitoring technology. However, as a new type of monitoring technology, its clinical application mode and value are still unclear and need to be further explored. In this study, a central monitoring system based on wearable devices was built in the general ward (non-ICU ward) of PLA General Hospital, the value points of clinical application of wearable physiological monitoring technology were analyzed, and the system was combined with the treatment process and applied to clinical monitoring. The system is able to effectively collect data such as electrocardiogram, respiration, blood oxygen, pulse rate, and body position/movement to achieve real-time monitoring, prediction and early warning, and condition assessment. And since its operation from March 2018, 1 268 people (657 patients) have undergone wearable continuous physiological monitoring until January 2020, with data from a total of 1 198 people (632 cases) screened for signals through signal quality algorithms and manual interpretation were available for analysis, accounting for 94.48 % (96.19%) of the total. Through continuous physiological data analysis and manual correction, sleep apnea event, nocturnal hypoxemia, tachycardia, and ventricular premature beats were detected in 232 (36.65%), 58 (9.16%), 30 (4.74%), and 42 (6.64%) of the total patients, while the number of these abnormal events recorded in the archives was 4 (0.63%), 0 (0.00%), 24 (3.80%), and 15 (2.37%) cases. The statistical analysis of sleep apnea event outcomes revealed that patients with chronic diseases were more likely to have sleep apnea events than healthy individuals, and the incidence was higher in men (62.93%) than in women (37.07%). The results indicate that wearable physiological monitoring technology can provide a new monitoring mode for inpatients, capturing more abnormal events and provide richer information for clinical diagnosis and treatment through continuous physiological parameter analysis, and can be effectively integrated into existing medical processes. We will continue to explore the applicability of this new monitoring mode in different clinical scenarios to further enrich the clinical application of wearable technology and provide richer tools and methods for the monitoring, evaluation and management of chronic diseases.
Objective To explore the clinical value of metagenomic next-generation sequencing (mNGS) in the diagnosis and treatment of severe and complex infection of malignant hematological disorder. Methods The mNGS test results, traditional etiology test results and general clinical data of inpatients with malignant hematological disorder in the Department of Hematology, the Affiliated Hospital of Southwest Medical University between June 2020 and February 2022 were retrospectively analyzed. To explore the clinical application value of mNGS in the diagnosis and treatment of severe complicated infection of hematological disorder. Results A total of 21 patients were included. The samples included 18 peripheral blood samples, 2 pleural fluid samples and 1 alveolar lavage fluid sample. In the included patients, through mNGS, pathogenic bacteria were directly detected in 17 patients, including 8 fungi, 9 bacteria and 10 viruses, of which 9 were mixed infections. The positive rate (81.0% vs. 33.3%, P=0.002), sensitivity (85.7% vs. 30.0%), granulocytopenia (9 vs. 3 cases, P=0.031) and the types of pathogen (Z=−3.416, P=0.001) detected by mNGS were all higher than those by traditional method. The infection control of 17 patients improved in varying degrees after adjusting the treatment plan according to the test results. ConclusionsmNGS has significantly higher detection rate and sensitivity for bacteria, fungi, viruses and mixed infections. Compared with the traditional method, mNGS has more efficient characteristics. Its clinical application can further improve the diagnosis and treatment efficiency of severe complicated infection of malignant hematological disorder, and thus improve the survival rate of patients.
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.
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.
Pulmonary hypertension (PH), characterized by diverse etiologies and intricate pathological mechanisms, is a complex cardiopulmonary vascular disorder featuring high morbidity and mortality. Percutaneous pulmonary artery denervation (PADN) represents an emerging interventional treatment method, which shows good prospects in the clinical practice of PH. The PADN has attained preliminary achievements in terms of safety and efficacy. Nevertheless, its long-term prognosis, the characteristics of the appropriate patient populations, and the optimization strategies combined with targeted pharmacotherapy remain to be further explored. This article reviews the current clinical applications of PADN as well as the challenges it confronts.