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The medical metaverse is a combination of medicine and other cutting-edge technologies such as computer and information ones. In the medical metaverse, medical knowledge in the real world will be transformed into a digital form, so that activities concerning diagnosis, treatment, education and clinical practice can be carried out in a virtual environment. Based on the latest research advances at home and abroad, this review expounds on the medical metaverse from the aspects of supporting technologies, applications in clinic and medical education, current deficiencies and future development.
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Orthopaedic surgery is complex and delicate. The Orthopaedic Navigation System is developed to provide an augmented reality three-dimensional (3D) visualization environment to improve treatment outcomes by analyzing preoperative, intraoperative and postoperative data. With the rapid development and clinical application of digital technology, artificial intelligence technology has been introduced into orthopaedic intraoperative navigation system. Artificial intelligence, combined with instrumentation devices and imaging technology, enhances the visualization capabilities of orthopaedic surgeons, allowing them to receive real-time feedback and guidance during surgery, which in turn provides optimal clinical decision-making. The application of artificial intelligence to intraoperative orthopaedic navigation also improves the repeatability of procedures and reduces the incidence of human error. This paper reviews the current status of the application of artificial intelligence in orthopaedic intraoperative navigation, and introduces the basic concepts of artificial and the development of image alignment, real-time tracking, and 3D visualization techniques based on artificial intelligence, as well as discusses the current limitations and shortcomings.
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Chronic refractory wound (CRW) is one of the most challengeable issues in clinic due to complex pathogenesis, long course of disease and poor prognosis. Experts need to conduct systematic summary for the diagnosis and treatment of CRW due to complex pathogenesis and poor prognosis, and standard guidelines for the diagnosis and treatment of CRW should be created. The Guideline forthe diagnosis and treatment of chronic refractory wounds in orthopedic trauma patients ( version 2023) was created by the expert group organized by the Chinese Association of Orthopedic Surgeons, Chinese Orthopedic Association, Chinese Society of Traumatology, and Trauma Orthopedics and Multiple Traumatology Group of Emergency Resuscitation Committee of Chinese Medical Doctor Association after the clinical problems were chosen based on demand-driven principles and principles of evidence-based medicine. The guideline systematically elaborated CRW from aspects of the epidemiology, diagnosis, treatment, postoperative management, complication prevention and comorbidity management, and rehabilitation and health education, and 9 recommendations were finally proposed to provide a reliable clinical reference for the diagnosis and treatment of CRW.
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In recent years, artificial intelligence-related technologies have been deeply combined with many medical fields, and the intersection of medicine and engineering has become a hot topic. There are problems with heavy data and difficulty making decisions in orthopedic disease diagnosis and treatment. Machine learning is an important method of artificial intelligence. Since it can automatically analyze and predict medical big data, it is widely used in the field of orthopedics. It also assists physicians in completing disease diagnosis and treatment efficiently. In this review paper, the application and progress of machine learning in preoperative, intraoperative, and postoperative diagnosis and treatment in orthopedics are reviewed, providing new ways for exploring more rational diagnosis and treatment strategies.
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Artificial Intelligence (AI) is an interdisciplinary subject developed on the basis of computer technology, cybernetics, mathematics, philosophy and brain science. The purpose of AI is to study new ways to extend the intelligence of human brain in various fields. In recent years, the rapid development of AI technology has brought innovation to medical science and health care. During the pandemic of coronavirus disease 2019 (COVID-19) AI has been widely used in epidemiological investigation and outbreak prediction, clinical diagnosis and treatment, hospital management, research and development of new drugs and vaccines. The application of AI has reduced the clinical workload and the consumption of medical resources, greatly assisted the battle against COVID-19.This article introduces the progresses on the applications of AI technology to provide information for its further application in the fighting against COVID-19.
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Multiple injuries caused by trauma have high rates of disability and mortality and are difficult to treat, which have a negative impact on the patients, their families and the society. At present, the medical model of trauma treatment is still inadequate, and the treatment of trauma patients faces great challenges. Artificial intelligence (AI) is an intelligent technology based on machine learning, reinforcement learning and deep learning algorithm, and it has been applied to the treatment of patients with trauma. Its efficient and accurate computer vision, planning and decision-making, and big data statistical analysis not only improve the safety and efficiency in the treatment of trauma, but also reduce the workload of clinicians, which makes up for the deficiency of the traditional model of trauma care. After screening the recent studies of AI in trauma care, the authors review its application in emergency triage, diagnosis, treatment and prevention of war trauma, in order to introduce the latest research progress of AI in trauma care and provide references for future developments.
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With the development of virtual reality, augmented reality, and mixed reality technology, their application in medical education has become increasingly widespread. With the advantages of virtuality-reality combination, real-time interaction and exact registration, mixed reality technology is expected to improve the drawbacks of traditional medical education, and exerts great potential in virtual classroom, virtual laboratory, anatomy teaching, medical operation training, surgery simulation, and telemedicine education. This article mainly introduces the applications of mixed reality technology in medical education in recent years, and hopes to provide a reference for the integration of mixed reality technology into the field of education.
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Objective:To investigate the efficacy of internal fixation of Pipkin types I and II femoral head fractures through the modified Smith-Petersen (S-P) approach.Methods:A retrospective case control study was conducted to analyze the clinical data of 33 patients with Pipkin types I and II femoral head fractures admitted to Union Hospital Affiliated to Tongji Medical College, Huazhong University of Science and Technology from June 2015 to September 2019. There were 22 males and 11 females, aged 20-40 years (mean, 29.5 years). There were 15 patients with Pipkin type I fractures and 18 with Pipkin type II fractures. A total of 22 patients were treated using the modified S-P approach via the sartorius and tensor fascia lata space (modified S-P group) and 11 patients were treated using the modified K-L approach via the posterior superior iliac spine and gluteus maximus (modified K-L group). The operation duration, intraoperative blood loss, postoperative drainage volume, length of hospital stay, numeric rating scales (NRS) for pain assessment at postoperative 15 days, bone healing time, Harris hip joint score at postoperative one month, and complication rate were compared between the two groups.Results:All patients were followed up for 1-24 months (mean, 6.5 months). The operation duration, blood loss, drainage rate and length of hospital stay in modified S-P group were better than those in modified K-L group [(71.7±7.3)minutes vs. (112.1±6.7)minutes, (55.9±6.2)ml vs. (99.4±8.7)ml, (91.2±5.9)ml vs. (121.3±7.0)ml, (6.0±1.5)days vs. (10.5±1.6)days] ( P<0.01). There were no significant differences between two groups in terms of NRS, bone healing time and Harris score ( P>0.05). The incidence of complications was similar between the two groups, including femoral head ischemia necrosis, traumatic arthritis, and heterogenous ossification ( P>0.05). Conclusion:For Pipkin types I and II femoral head fractures, the modified modified S-P approach is superior to modified K-L approach in aspects of operative time, intraoperative blood loss, postoperative drainage and length of hospital stay.
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Mixed Reality (MR) is a new digital holographic imaging technology after Virtual Reality (VR) and Augmented Reality (AR). The recent rapid advances in medical MR have brought a new mode of clinical diagnosis and treatment for medical workers. In dealing with complex and changeable situations of injury in trauma orthopaedics, MR provides a new means of diagnosis and treatment for clinicians because it breaks the boundary between a digital world and a real world to present a new individualized and three-dimensional visualization. This paper intends to discuss the application value and prospect of MR in traumatic orthopaedics.
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Telemedicine includes remote teleradiology, remote ultrasound diagnostics, telesurgery, telemedicine consultation, and other forms. Telemedicine consultation is the most used form of telemedicine. However, the traditional telemedicine consultation is limited by a lack of communication and presentation methods, and its wide application is greatly limited. Mixed reality technology cuts through the boundaries between virtual reality and actual reality, bringing a new method of remote consultation.
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With the rapid development of holographic imaging technology,virtual reality and augmented reality technology have been used in medicine for decades.However,due to the lack of compatibility between the virtual world and the real world and the lack of human-computer interaction,their widespread use is limited.As a research hotspot in recent years,the mixed reality technology has a huge prospect in the medical field by virtue of its unique advantages combined with the virtual world and the real world,as well as better human-machine realtime interaction and precise matching.This article will focus on the development of this technology in recent years,and introduce the application of mixed reality technology in medical education and clinical application.
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With the development of information technology,the concept of smart healthcare has gradually come to the fore.Smart healthcare uses a new generation of information technologies,such as the internet of things (IoT),big data,cloud computing,and artificial intelligence,to transform the traditional medical system in an all-round way,making healthcare more efficient,more convenient,and more personalized.With the aim of introducing the concept of smart healthcare,in this review,we first list the key technologies that support smart healthcare and introduce the current status of smart healthcare in several important fields.Then we expound the existing problems with smart healthcare and try to propose solutions to them.Finally,we look ahead and evaluate the future prospects of smart healthcare.
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Based on the development and application of new technology,as a new interdisciplinary subject,digital orthopedics becomes an important development direction of modern medicine in the past years.Using digital orthopedics technology,such as 3D digital printing technology,mixed reality technology,provides new impetus of orthopedic surgery and indicates its great potential of precision medicine and personalized therapy for orthopedic disorders.In 2017,Hubei Branch of China Digital Orthopaedic Society of Société Internationale de Chirurgie Orthopédique et de Traumatologie (SICOT) was founded.It is an important milestone and academic event for the development of digital orthopedics in Hubei.After that,Hubei's digital orthopedics professionals have made great progress in clinical,scientific research,conference and social activities.The development of 5G technologies in China will provide more opportunities and challenges for global digital orthopedics in the near future.
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Objective To evaluate the individualized 3D) printed drilling guide we developed and used for placement of C1/2 pedicle screws in the clinical treatment of fracture and dislocation of the atlantoaxial joint.Methods From January 2014 to June 2016,we treated a total of 17 patients with fracture and dislocation of the atlantoaxial joint.All the cervical CT data of the patients were imported into the digital orthopaedic workstation for 3D reconstruction,data modeling and 3D printing to design and manufacture individualized atlantoaxial vertebral guide templates.Intraoperatively,C1 and C2 pedicle screws were placed under the guide of individualized 3D printed drilling template.Cervical short-segment fixation and fusion were conducted for the patients.Postoperatively,regular clinical and radiographic follow-ups were carried out.Results No serious complications like injury to spinal cord and vertebral artery happened due to failed placement of C1/2 pedicle screws.The operation time ranged from 136 to 222 min (average,168.0 rmin);the intraoperative blood loss ranged from 260 to 556 mL (average,356.0 mL).The 17 patients were followed up for 6 to 36 months (average,13.5 months).The patients obtained bony union after 4 to 6 months (average,4.8 months).At the final follow-up,according to ASIA92 scoring system,the average sensory score was improved significantly from preoperative 7.4 + 3.2 to postoperative 13.1 + 5.9,and the average motor score was improved significantly from preoperative 5.3 + 3.1 to postoperative 11.7 + 5.1 (P < 0.05).No such complications as infection or implant failure occurred after operation.Conclusion Individualized 3D printed drilling guide for implantation of atlantoaxial pedicle screws can make the complicate and risky placement become accurate,safe and simple.
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The mobilization efficiency of granulocyte colony-stimulating factor (G-CSF) and stem cell factor (SCF) to bone marrow mononuclear cells (MNCs) in mice was observed, and the changes of CXCL12/CXCR4 signal were detected in order to find out the mobilization mechanism of stem cells. Kunming mice were randomly divided into two groups. The mice in treatment group were subjected to subcutaneous injection of G-CSF at a dose of 100 mug/kg and SCF at a dose of 25 mug/kg every day for 5 days, and those in control group were given isodose physiological saline. The MNCs were separated, counted and cultured, and the colony-forming unit-fibroblast (CFU-F) was evaluated. CD34(+)CXCR4(+) MNCs were sorted by flow cytometry. The expression of CXCL12 protein in bone marrow extracellular fluid was detected by ELISA, and that of CXCL12 mRNA in bone marrow was measured by RT-PCR. The results showed that the counts of MNCs in peripheral blood and bone marrow were increased after administration of G-CSF/SCF (P<0.01). The factors had a dramatic effect on the expansion capability of CFU-F (P<0.05). Flow cytometric of bone marrow MNCs surface markers revealed that CD34(+)CXCR4(+) cells accounted for 44.6%+/-8.7% of the total CD34(+) MNCs. Moreover, G-CSF/SCF treatment induced a decrease in bone marrow CXCL12 mRNA that closely mirrored the fall in CXCL12 protein. In this study, it is evidenced that G-CSF/SCF can effectively induce MNCs mobilization by disrupting the balance of CXCL12/CXCR4 signaling pathway in the bone marrow and down-regulating the interaction of CXCL12/CXCR4.
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The present study was aimed at finding an effective method to isolate and purify the subtype of type A spermatogonial stem cells (SSCs) in juvenile rats. Testes from 9-days-old rats were used to isolate germ cells by using two-step enzymatic digestion. The expression of c-kit in the testes of the rats was immunohistochemically detected. After isolation, cell suspension was enriched further by discontinuous density gradient centrifugation. Then type A1-A4 spermatogonia was isolated from the purified spermatogonia with c-kit as the marker by using fluorescence-activated cell sorting (FACS). Electron microscopy was used to observe their ultrastructure. Finally, highly purified and viable subtype of SSCs was obtained. Cells separation with discontinuous density gradient centrifugation significantly increased the concentration of c-kit positive cells [(18.65+/-1.69)% after the centrifugation versus (3.16+/-0.84)% before the centrifugation, P<0.01]. Furthermore, the recovery and viability were also high [(65.9+/-1.24)% and (85.6+/-1.14)%]. It is concluded that FACS with c-kit as the marker in combination with discontinuous density gradient centrifugation can well enrich type A1-A4 spermatogonia from the testes of 9-days-old rats.
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BACKGROUND: To discuss the feasibility of allogeneic freeze-drying radiation sterilization bone sheet applying in the prevention of post-laminectomy adhesion as an ideal biological material for filling and repairing bone defect. OBJECTIVE: To observe the preventive effect of allogeneic freeze-drying radiation sterilization bone sheet on the postlaminectomy adhesion and restenosis.DESIGN: Follow-up survey on cases.SETTINGS: Department of Orthopedics, Union Hospital, Tongji Medical School of Huazhong University of Science and Technology; Shanxi Medical Tissues of China Institute for Radiation Protection PARTICIPANTS: From March 2003 to June 2005, 58 patients with segmental lumbar spinal stenosis (LSS) were selected from Department of Orthopedics, Union Hospital, Tongji Medical School of Huazhong University of Science and Technology, including 34 males and 24 females, aged 30-78 years, including 25 cases of simple LSS and 33 combined LSS; and including 36 cases in L4-5 and 33 cases in L5, S1 segments. All the patients were similar in age, gender and healthy conditions.METHODS: The segmental whole laminectomies were performed in 58 patients with prolapse of lumbar intervertebral or LSS, and allogeneic freeze-drying radiation sterilization bone sheet in "H" shape was used to cover the vertebral laminae. According to the follow-up standard of lumbar spine operation recommended by the Orthopaedics Branch of Chinese Medical Association, all patients were followed up to evaluate their clinical symptoms, absorption of implanted bone as well as CT and MRI presentations.MAIN OUTCOME MEASURES: Improvements of clinical symptoms;Absorption of bone sheet in lumbar spinal canal.RESULTS: Totally 58 LSS patients were involved in the result analysis.In postoperative 0.5-year follow-up period, 17 of 21 patients showed excellent curative effects while other 4 patients showed fine effects. In postoperative 1-year follow-up period for 23 patients, CT and MRI results demonstrated that the spinal canal had been extended obviously. There was no tilt or displacement of the femoral sheet or compression of the spinal cord. As for 14 patients who were followed up for 1.5 years, CT results displayed that there was no rejective reaction observed in this study. The edgeof the allograft was inosculated with connective lamina of vertebra, and the shape of lumber spinal was good.CONCLUSION: Allogeneic freeze-drying radiation sterilization bone sheet is an ideal dressing material for epidural laminoplasty. The imaging results of patients in postoperative 1.5-year follow-up indicate that it can effectively reduce the post-laminectomy adhesion formation and prevent recurrence of post-laminectomy spinal restenosis, so as to apply on the segmental vertebral plate dressing.
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To study the effect of tumor necrosis factor-related apoptosis inducing ligand (TRAIL)on PC-3M cell line, PC-3M cell line was incubated with gradient concentrations of TRAIL for 4-24h. Annixin-Ⅴ fluorescence staining and TUNEL method were employed to detect the apoptosis of PC-3M cells. The morphology of apoptotic PC-3M cells was observed by electron microscopy. The relationship between TRAIL concentrations and the percentage of apoptotic cells was evaluated by flow cytometry. The proliferation inhibitory ratio was calculated by using MTT colorimetry. Our results showed that apoptosis of PC-3M cells could be induced by treatment with TRAIL for at most 4 h. The results of flow cytometry and MTT colorimetry demonstrated a time- and concentration-dependent relationship between cell apoptosis rate and TRAIL concentration. It is concluded that apoptosis of PC-3M cells can be induced by TRAIL. Because of the selective killing effect of TRAIL on tumor ceils, it may become a potential alternative for the treatment of advanced prostate cancer.
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To study the effect of tumor necrosis factor-related apoptosis inducing ligand (TRAIL) on PC-3M cell line, PC-3M cell line was incubated with gradient concentrations of TRAIL for 4--24 h. Annixin-V fluorescence staining and TUNEL method were employed to detect the apoptosis of PC-3M cells. The morphology of apoptotic PC-3M cells was observed by electron microscopy. The relationship between TRAIL concentrations and the percentage of apoptotic cells was evaluated by flow cytometry. The proliferation inhibitory ratio was calculated by using MTT colorimetry. Our results showed that apoptosis of PC-3M cells could be induced by treatment with TRAIL for at most 4 h. The results of flow cytometry and MTT colorimetry demonstrated a time- and concentration-dependent relationship between cell apoptosis rate and TRAIL concentration. It is concluded that apoptosis of PC-3M cells can be induced by TRAIL. Because of the selective killing effect of TRAIL on tumor cells, it may become a potential alternative for the treatment of advanced prostate cancer.
Sujet(s)
Apoptose/effets des médicaments et des substances chimiques , Lignée cellulaire tumorale , Tumeurs de la prostate/métabolisme , Tumeurs de la prostate/anatomopathologie , Ligand TRAIL/pharmacologieRÉSUMÉ
To study the expression of mTERT gene in the testis of SD rats and its significance, in situ hybridization (ISH) techniques were used to detect the expression of telomerase gene mTERT mRNA in the testis of SD rats. The expression of mTERT was detectable in different-age male SD rats testis. There was a positive correlation between the expression of mTERT and the location of germ cells (spermatogonia, spermatocyte, spermatid). In Sertoli cells, leydig cell and spermatozoa, telomerase mTERT was not detected. Type A spermatogonia expressed the highest level of telomerase mTERT mRNA. Our results suggest that the expression of mTERT gene in the testis of SD rats is of lifetime and coincide with the telomerase activity.