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Resumen Introducción : El Trastorno del Espectro Autista (TEA) es un trastorno del neurodesarrollo, y sus procedimien tos tradicionales de evaluación encuentran ciertas li mitaciones. El actual campo de investigación sobre TEA está explorando y respaldando métodos innovadores para evaluar el trastorno tempranamente, basándose en la detección automática de biomarcadores. Sin embargo, muchos de estos procedimientos carecen de validez ecológica en sus mediciones. En este contexto, la reali dad virtual (RV) presenta un prometedor potencial para registrar objetivamente bioseñales mientras los usuarios experimentan situaciones ecológicas. Métodos : Este estudio describe un novedoso y lúdi co procedimiento de RV para la evaluación temprana del TEA, basado en la grabación multimodal de bio señales. Durante una experiencia de RV con 12 esce nas virtuales, se midieron la mirada, las habilidades motoras, la actividad electrodermal y el rendimiento conductual en 39 niños con TEA y 42 compañeros de control. Se desarrollaron modelos de aprendizaje automático para identificar biomarcadores digitales y clasificar el autismo. Resultados : Las bioseñales reportaron un rendimien to variado en la detección del TEA, mientras que el modelo resultante de la combinación de los modelos de las bioseñales demostró la capacidad de identificar el TEA con una precisión del 83% (DE = 3%) y un AUC de 0.91 (DE = 0.04). Discusión : Esta herramienta de detección pue de respaldar el diagnóstico del TEA al reforzar los resultados de los procedimientos tradicionales de evaluación.
Abstract Introduction : Autism Spectrum Disorder (ASD) is a neurodevelopmental condition which traditional as sessment procedures encounter certain limitations. The current ASD research field is exploring and endorsing innovative methods to assess the disorder early on, based on the automatic detection of biomarkers. How ever, many of these procedures lack ecological validity in their measurements. In this context, virtual reality (VR) shows promise for objectively recording biosignals while users experience ecological situations. Methods : This study outlines a novel and playful VR procedure for the early assessment of ASD, relying on multimodal biosignal recording. During a VR experience featuring 12 virtual scenes, eye gaze, motor skills, elec trodermal activity and behavioural performance were measured in 39 children with ASD and 42 control peers. Machine learning models were developed to identify digital biomarkers and classify autism. Results : Biosignals reported varied performance in detecting ASD, while the combined model resulting from the combination of specific-biosignal models demon strated the ability to identify ASD with an accuracy of 83% (SD = 3%) and an AUC of 0.91 (SD = 0.04). Discussion : This screening tool may support ASD diagnosis by reinforcing the outcomes of traditional assessment procedures.
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El programa de las tecnologías de la información y las comunicaciones se ha implementado en todas las instituciones pertenecientes al sector de la salud en Cuba, pues favorece la formación a través de los entornos de enseñanza y aprendizaje en función del desarrollo y las perspectivas académicas, mediante plataformas tecnológicas para facilitar el intercambio de información. En el presente artículo se destaca la necesidad de incrementar el uso de la wiki como herramienta educativa, que favorece el aprendizaje colaborativo como un proceso de creación de conocimiento a través de la web 2.0, donde no solo se publican contenidos sino que contribuye a desarrollar habilidades de cooperación en los procesos formativos de la salud pública.
The program of information and communications technologies has been implemented in all the institutions belonging to the health sector in Cuba, because it favors the training through the teaching and learning environments in function of development and academic perspectives, by means of technological platforms to facilitate the exchange of information. In this work the necessity to increase the wiki use as educational tool in enhanced, that favors the collaborative learning as a process of knowledge creation through the web 2.0, where contents are not only published but also contributes to develop cooperation abilities in the training processes of public health.
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Enseignement à distance , Technologie de l'information , Stage interdisciplinaire , Santé publiqueRÉSUMÉ
La Organización Mundial de la Salud define la salud digital como la incorporación de tecnologías de información y comunicación para mejorar la salud. En los últimos años, se vio una fuerte aceleración en la adopción de estas herramientas digitales, lo que impactó de lleno en los modelos asistenciales tradicionales. Actualmente, estamos observando el surgimiento de un gran entorno virtual inmersivo llamado metaverso. Su aparición genera nuevas y desafiantes oportunidades en la salud. En este artículo se exploran algunos conceptos relacionados con este campo, se dan ejemplos concretos de su aplicación en pediatría, se mencionan algunas experiencias en el ámbito hospitalario para finalmente adentrarse en los desafíos y oportunidades que emergen.
The World Health Organization has defined "digital health" as the use of information and communication technologies to improve health. In recent years, there has been a strong acceleration in the adoption of these digital tools, which has had a major impact on traditional healthcare models. We are currently witnessing the emergence of a large immersive virtual environment called the "metaverse." Its emergence creates new and challenging opportunities in health care. This article explores some metaverse-related concepts, provides specific examples of its use in pediatrics, describes experiences in the hospital setting, and finally delves into the resulting challenges and opportunities.
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Humains , Télémédecine , Communication , Technologie de l'information , Établissements de santé , HôpitauxRÉSUMÉ
Objetivo: Verificar a percepção de enfermeiros com experiência em educação, a respeito da proposta metodológica de treinamento baseado em simulação virtual usando uma plataforma de treinamento imersivo. Métodos: Uma plataforma educacional foi desenvolvida baseada em simulação virtual e metodologias ativas para o engajamento, aprendizado e avaliação dos alunos. A mesma emprega um processo andragógico na construção do conteúdo expondo os enfermeiros a situações simuladas da sua prática diária com foco na melhoria de sua atitude. Os conteúdos são relacionados aos cuidados específicos com o acesso venoso periférico, desde a punção, manutenção, prevenção e manejo de complicações. Foi composto um comitê de especialistas com 12 enfermeiras, com experiência mínima de cinco anos na área da educação, que praticaram o treinamento simulado, e posteriormente, preencheram um formulário da percepção que foi tabulado e analisado pelos pesquisadores do projeto. Resultados: 92% das enfermeiras acreditam que o treinamento simulado aproxima os usuários dos desafios da prática diária, e que realmente pode contribuir para a consolidação do conhecimento. Com relação ao conteúdo experimentado nos roteiros, 67% das profissionais consideraram a proposta "muito importante ou imprescindível" e 33% entenderam ser "importante". Conclusões: A percepção geral das enfermeiras foi muito positiva, especialmente com relação à importância do conteúdo apresentado, à proposta metodológica de imersão em cenários próximos à realidade, que trouxeram os desafios da prática; além das questões problematizadoras que possibilitaram uma reflexão para a melhor tomada de decisão.
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OBJECTIVE To construct the simulated traditional Chinese medicine pharmacy based on virtual simulation technology, and assist in the development of the new mode of traditional Chinese medicine dispensing education training. METHODS The field research and questionnaire surveys were conducted to identify the needs of Chinese medicine students and practitioners for the content and presentation of knowledge on the construction of simulated traditional Chinese medicine pharmacy. Taking the laws and regulations on the construction of traditional Chinese medicine pharmacy and the related teaching materials and literature on traditional Chinese medicine preparation as the knowledge source, the virtual simulation technology was applied to build a simulated traditional Chinese medicine pharmacy so as to achieve the functions of browsing the traditional Chinese medicine pharmacy, learning the knowledge of traditional Chinese medicine preparation and practical skills training. A multi-site simulated traditional Chinese medicine pharmacy evaluation scale study was conducted based on platform operational testing. RESULTS A simulated traditional Chinese medicine pharmacy was constructed, consisting of four core modules: video teaching, animation video, simulated pharmacy, and simulated experience. The overall score of evaluation scale was 93.31, with all entries scoring above 80; the ones with evaluation scales above 90 accounted for 92.31% (60/65). CONCLUSIONS Simulated traditional Chinese medicine pharmacy based on virtual simulation technology meets the learning needs of users and enhances the teaching effect of traditional Chinese medicine dispensing technology training.
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Objective To evaluate the effect of head-mounted virtual reality display on the visual function of adult myopia.Methods Thirty-four myopia patients were divided into two groups by random number table method:test group(n=18)and control group(n=16).After routine eye examination of the subjects,the naked vision,corrected vision,dynamic stereopsis,near stereopsis,contrast sensitivity,assemble value,disperse value,positive relative accommodation(PRA),negative relative accommodation(NRA),flexibility of accommodation,and amplitude of accommodation(AMP)before the test,after the test 1 time and after the test 10 times;the visual fatigue questionnaire score and the visual work ability answer score were performed before the test and after the test 10 times.Results There was significantly statistically significant of naked eye vision in test group after the test 10 times compared with the pre-test and the control group(P were 0.040,0.011);There was significantly statistically significant in assemble value of the test group after the test 10 times compared with the pre-test and the control group(P were 0.036,0.010);there were significantly statistically signifi-cant in the NRA and adjustment flexibility of the test group compared with the pre-test and the control after after the test 10 times(P were<0.0001,<0.0001,0.008,0.017);there were not statistical differences in corrected visual acuity,contrast sensitivity,spread value,dynamic stereopsis,near stereopsis,PRA,AMP,visual fatigue questionnaire scores and visual work ability were not statistically significant in comparison between the control group and the test group on the corresponding time points(P>0.05).Conclusion This is helpful to improve some of the visual function parameters of myopia patients appropriate using of head-mounted virtual reality technology training such as naked vision,NRA,insufficient collection,and flexibility of adjustment.
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Objective To explore the effect of virtual reality treadmill training on balance and gait in stroke patients. Methods From March,2022,to March,2023,40 stroke patients in Beijing Tiantan Hospital,Capital Medical University were randomly divided into control group(n = 20)and experimental group(n = 20).Both groups received rou-tine rehabilitation training.The control group received ordinary treadmill walking training,and the experimental group received treadmill walking training with virtual reality,for two weeks.They were assessed with Berg Bal-ance Scale(BBS)and Timed Up and Go Test(TUGT),and the envelope ellipse area,center of pressure(COP)av-erage speed of movement,step length,stride length and stride width were compared between two groups before and after treatment. Results After treatment,the scores of BBS and time of TUGT improved in both groups(|t|>3.508,P<0.01),and they were better in the experimental group than in the control group(|t|>3.019,P<0.01);there was no significant dif-ference in the envelope ellipse area,COP average speed,and stride width between two groups(P>0.05);howev-er,the step length and stride width improved in the experimental group(|t|>4.008,P<0.01). Conclusion Treadmill training with virtual reality can improve the balance and walking ability of stroke patients.
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Fear of flying (FOF) is a common type of specific phobia, and exposure therapy is often used as the main psychological treatment in clinical treatment. However, traditional exposure therapy is limited by time and space, making it difficult to achieve real-time adjustment of exposure scenarios. Meanwhile, due to the high cost of treatment and reliance on therapist guidance, it is difficult to promote and implement it on a large scale. Virtual reality exposure therapy (VRET) is a new therapy developed in recent years, which can enhance the applicability and effectiveness of exposure therapy. More and more studies have demonstrated the effectiveness of VRET in treating FOF, thus providing more options for the treatment of patients suffering from FOF. In addition, in order to further enhance its effectiveness and scalability, more researches has made new attempts to enhance users' sense of presence, explore factors influencing efficacy, and develop low-cost, self-service treatments and has made certain progress. Reviewing recent applications of VRET for FOF holds crucial clinical significance. These findings not only provide practical information for doctors and psychological therapists to treat FOF, but also have the potential to benefit more and more patients and sub-clinical populations. Furthermore, they may foster innovation in the treatment of various other mental disorders. This article aims to review recent applications of VRET in treating FOF, summarize research results, and discuss the limitations of current research and future development directions in order to provide useful inspiration for future research directions and future clinical work in the treatment of FOF.
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Objective:To analyze the correlation between the expressions of human epidermal growth factor receptor 2(HER2)and carbohydrate antigen 153(CA153)and the technical parameter of acoustic palpation tissue imaging quantification(VTIQ)in patients with breast cancer.Methods:A total of 80 female patients with breast cancer admitted to The Third People's Hospital of Hefei from May 2018 to May 2020 were selected,including 14 cases at WHO stage Ⅰ,22 cases at WHO stage Ⅱ,31 cases at WHO stage Ⅲ and 13 cases at WHO stage Ⅳ.Another 53 female patients with benign breast diseases who were treated during the same period were selected as controls.At first,all patients underwent routine ultrasound examination,and then they entered the ultrasound VTIQ imaging mode to obtain the mean value of shear wave velocity(SWV).An immunohistochemistry was used to detect HER2 expressions in breast tissues,and Roche E411 electrochemiluminescence immunoassay analyzer was used to detect serum CA153 levels of them.Pearson method was used to analyze the correlation between serum CA153 levels and SWV mean values in patients with breast cancer.Results:Compared with benign patients,the SWV mean value of VTIQ technical parameter,serum CA153 level and HRR2 positive expression rate in patients with breast cancer were significantly higher,and the difference was statistically significant(F=39.107,78.353,P<0.05),respectively.Compared with patients at stages Ⅰ + Ⅱ of breast cancer,the SWV mean value of VTIQ technical parameter,serum CA153 level and HRR2 positive expression rate of patients at stages Ⅲ and Ⅳ of breast cancer significantly increased(t=2.685,3.556,8.326,10.455,P<0.05),respectively.Compared with patients at stage Ⅲ of breast cancer,the SWV mean value of VTIQ technical parameters,serum CA153 level and HRR2 positive expression rate of patients at Ⅳ stage of breast cancer were significantly higher(t=4.632,8.659,P<0.05),respectively.Compared with the SWV mean value of patients with HER2 negative expression of breast cancer,that of patients with HER2 positive expression of breast cancer was significantly higher(x2=59.751,P<0.05).There was a positive correlation between serum CA153 levels and SWV mean values in patients with breast cancer(r=0.501,P<0.05).Conclusion:The SWV mean value of VTIQ parameters is closely related to the expression levels of biomarkers HER2 and CA153 in patients with breast cancer.
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Digital intelligence technologies, including artificial intelligence, big data, surgical navigation, surgical robots, and virtual reality, have been widely used in basic and clinical research in trauma and orthopedics. In order to provide trauma orthopedists with a quick overview of the current application of these technologies, this paper elaborates on the orthopedic workflow of fracture open reduction and internal fixation, on the aspects of recognition and classification of fracture X-ray images, fracture fragment segmentation based on thin-slice CT images, virtual fracture reduction, 3D fracture line heatmaps, design of an anatomical locking plate, intelligent navigation and orthopedic surgical robots, fracture reduction robots, and surgical process visualization.
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Objective:To investigate the correlation between liver stiffness and histopathological changes in a rat model of acute hepatitis using virtual touch tissue imaging quantification (VTIQ) technology.Methods:A total of 100 SPF-grade SD rats were randomly divided into 3 groups: control ( n=30), low-dose ( n=35), and high-dose ( n=35) groups. Acute hepatitis models were induced in the low-dose and high-dose groups using 400 mg/kg and 600 mg/kg of Thioacetamide (TAA), respectively. Liver stiffness parameters of the right median lobe and right lobe were measured using VTIQ technology, Mean-H and Mean-L represent the liver lobes with higher and lower liver stiffness measurments, respectively, while Mean represent the average of the measurements from both liver lobes. Comparative analyses of liver stiffness parameters were performed across three groups and between the two lobes of the liver. The correlations between the Mean values of liver stiffness and semi-quantitative histopathological data were investigated. Ten rats were randomly selected from each of the 3 groups to test the repeatability of VTIQ values before and after euthanasia with intraperitoneal anesthesia. Subsequently, 10 rats after euthanasia from each 3 group were randomly chosen to assess the repeatability of VTIQ measurements for inter-observer and intra-observer variabilities. Results:VTIQ results showed statistically significant differences in Mean, Mean-H, and Mean-L among the 3 groups (all P<0.01). The high-dose group had higher measurements compared to the low-dose and control groups, with significant intergroup differences (all P<0.01). Significant differences in Mean-H and Mean-L were observed between the two liver lobes in both low and high-dose groups (all P<0.01). The Mean value showed significant positive correlations with semi-quantitative histopathological data of hepatocellular edema, periportal inflammatory cell infiltration, macrophage proliferation, and bile duct proliferation ( r=0.391, 0.648, 0.577, 0.542; all P<0.01). Multivariate linear regression analysis indicated that hepatocellular edema, eosinophilic change, and bile duct proliferation significantly and positively predicted the Mean value (β=-0.278, -0.196, -0.333; all P<0.05). There were no significant differences of VTIQ measurements befor and after euthanasia (all P>0.05), with repeatability coefficients of 0.166, 0.182, 0.185 for Mean, Mean-H, and Mean-L, respectively. Post-euthanasia, inter- and intra-observer VTIQ differences remained non-significant (all P>0.05), with Mean, Mean-H, Mean-L coefficients of 0.114, 0.194, 0.165 and 0.206, 0.322, 0.268, respectively. Conclusions:VTIQ technology demonstrates potential clinical value in assessing a rat model of acute hepatitis, offering a new perspective for non-invasive evaluation of acute hepatitis. However, its clinical application requires further validation.
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Objective:To investigate the value of the virtual monoenergetic image (VMI) obtained by a new dual-layer detector spectral CT combined with metal artifact reduction algorithms(O-MAR) in reduction of different types of artifacts caused by 125I seeds implantation and in improvement of the post-operative CT image quality. Methods:This was a cross-sectional study. Thirty-five patients who underwent dual-layer detector spectral CT scanning of the chest and abdomen after 125I seeds implantation were retrospectively included at the First Affiliated Hospital of Zhengzhou University from March to September 2022. The spectral data were collected and reconstructed into conventional CT image (CI), VMI image (50-150 keV, 20 keV/level), CI+O-MAR image, and VMI+O-MAR image (50-150 keV, 20 keV/level). The artifacts′ removal effects and image quality improvement in each group were evaluated. Two slices with the strongest artifacts were selected for analysis for each patient, resulting in a total of 70 slices. Objective indicators including artifact index (AI), signal-to-noise ratio (SNR) and contrast-to-noise ratio (CNR) of soft tissue regions affected by artifacts were measured and calculated. Subjective indicators including the overcorrected artifacts and new artifacts, the different forms of artifacts, the diagnosis of artifacts, and the image quality were assessed. One-way analysis of variance was used for comparisons among multiple groups. Paired t test was used to compare the quantitative indicators between the combined O-MAR group and the non-O-MAR group. Kappa statistics was used to evaluate the consistency between observers. Results:In high/low-density artifacts (ROI H/L), the AI values in all groups showed decrease with increasing VMI keV. In artifact-affected tissue (ROI T), SNR of the CI/VMI (70-150 keV)+O-MAR group were significantly higher than those of the CI/VMI group ( P<0.05), CNR of the CI/VMI(50-150 keV)+O-MAR group were significantly higher than those of the CI/VMI group ( P<0.05). Both overcorrection and new artifacts mainly presented in VMI 50 keV and VMI 70 keV groups; Compared with VMI (50-70 keV) group, significantly less numbers of overcorrection and new artifacts were found in VMI (50-70 keV)+O-MAR group ( P<0.05); regarding the comparison of artifact types, with the VMI keV increasing, the number of a-type banded artifacts gradually decreased on images with high-density artifacts, reaching a minimum of 3 in the VMI 150 keV+O-MAR group; while the number of e-type artifacts with little or no artifacts increased, with the highest number of 23 in the VMI 150 keV+O-MAR group. The total number of high-density artifacts in each type decreased with increasing VMI keV. As VMI keV increased, the diagnostic and image quality scores of high-density artifacts in each group were significantly higher than those of low-density artifacts in the VMI+O-MAR group ( P<0.05). Conclusions:VMI combined with O-MAR can significantly improve the objective and subjective image quality of follow-up CT imaging after 125I seed implantation, enhancing lesion visibility and diagnostic confidence. Additionally, VMI+O-MAR showed more pronounced correction effect on high-density artifacts.
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Objective To construct,implement and evaluate the effectiveness of the virtual simulation technology-based prenatal health education course.Methods The curriculum included 4 parts:"warm delivery room and easy delivery","medicated analgesic delivery","non-medicated analgesic delivery"and"early maternal and infant health care".From May to September 2022,100 primiparas in an obstetrics and gynecology hospital in Zhejiang Province were investigated by convenient sampling method.Random number table method was used to divide the participants into an experimental group and a control group,with 50 participants per group.The control group received conventional health education,while the experimental group received an augmented virtual reality technology-based prenatal health education course during the late stages of pregnancy on this basis.We conducted a post-intervention comparative analysis of antenatal anxiety levels,fear of childbirth,and birth outcomes between the 2 groups.Furthermore,a post-intervention satisfaction survey was administered to the experimental group.Results After intervention,the antenatal anxiety of the experimental group was lower than that of the control group(x2=4.943,P=0.026),and the decrease in fear of childbirth scores was higher than that of the control group(t=3.200,P=0.002).The experimental group was highly satisfied with all of the 4 dimensions of the course,and the overall evaluation was(31.8±3.23)points.However,there were no significant differences in vaginal delivery rate,postpartum bleeding volume,postpartum hemorrhage incidence,perineal injury degree and duration of each labor stage between the 2 groups(P>0.05).Conclusion The virtual reality technology-based prenatal health education course was effective in improving the antenatal anxiety and fear of childbirth of primipara,and the use satisfaction is high.
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Objective:To explore any effect of combining robot-assisted virtual scenario training of the upper limbs with scalp acupuncture on post-stroke cognitive impairment.Methods:Ninety patients with post-stroke cognitive impairment (PSCI) were divided at random into a control group, a scalp acupuncture group and a comprehensive group, each of 30. In addition to routine health education and rehabilitation training, the scalp acupuncture group was given scalp acupuncture, while the comprehensive group was treated with scalp acupuncture and virtual scenario training with an upper limb robot. Before and after 4 weeks of the treatment, the subjects′ cognitive functioning was assessed using the Mini-mental State Examination (MMSE) and the Montreal Cognitive Assessment scale (MoCA). Ability in the activities of daily living (ADL) was quantified using the Modified Barthel Index (MBI).Results:After the intervention, significant improvement was observed in the average MMSE, MoCA and MBI scores of all three groups. The average MMSE and MBI scores of the scalp acupuncture group were then significantly higher than the control group′s averages, while the average MMSE, MoCA and MBI scores of the comprehensive group were all significantly better than those of the other two groups.Conclusion:Robot-assisted virtual scenario upper limb training combined with scalp acupuncture can significantly improve the cognition and ADL ability of PSCI patients.
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【Objective】 Virtual reality (VR) technology is closely related to eye vision. With the development and progress of hardware and software equipment, VR has been applied widely in the field of ophthalmology. This article describes the application of VR technology in the clinical research and ophthalmology education, reviews the current research results and advantages of this new technology, including the new curative effect in amblyopia/strabismus, myopia and glaucoma, as well as research on the technology’s application in cataract surgery training and ophthalmology education. The article also discusses the dangers and difficulties of VR application and predicts its future application trend. In view of the shortcomings of VR in current research applications, the paper discusses and looks forward to provide powerful strategies for amblyopia, myopia and other ophthalmic diseases and clinical research.
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@#Oral and maxillofacial tumors are common oral and maxillofacial surgery-related diseases. Digital surgical technology, represented by virtual surgical design and surgical navigation, is the main auxiliary means of the surgical diagnosis and treatment of oral and maxillofacial tumors. However, the existing digital technology still has some problems and room for improvement in terms of 3D visualization imaging and intraoperative hand-eye coordination. At present, the application of 3D visualization technology represented by mixed-reality technology has been rapidly developing in the medical field. It assists in realizing the real-time stereoscopic presentation of medical images by superimposing 3D virtual images onto the real surgical environment. Mixed-reality technology has been gradually applied to the diagnosis and treatment of oral and maxillofacial tumors. Preoperatively, mixed-reality technology can be used to construct a 3D model of the tumor and its surrounding vital structures based on imaging data, at which point the medical team can personalize the preoperative assessment and design the surgical plan in the mixed-reality environment. Intraoperatively, the combination of mixed-reality technology and surgical navigation technology can be used to display the 3D virtual model in real time in the actual environment of the operation area, overcoming the hand-eye coordination problem associated with using navigation technology alone and further improving the accuracy and safety of oral and maxillofacial tumor surgery. The combination of mixed-reality technology and internet medical technology can provide a high-quality teaching platform to promote the development of regional oral and maxillofacial surgery practices. The limitations of mixed-reality technology include image occlusion, lack of accuracy when used alone, and long alignment times. In this review, the application of mixed-reality technology to the diagnosis and treatment of oral and maxillofacial tumors will be summarized and assessed by combining information from domestic and international literature reports with the practical clinical experience of the author group.
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Objective To evaluate the value of high-energetic virtual monoenergetic imaging(MonoE),bone metal artifact reduction(O-MAR),and their combination based on dual-layer detector spectral computed tomography(DLCT)in removing the artifacts caused by lumbar metal implants.Methods Patients who undergone lumbar implant surgery and performed lumbar examination on DLCT after surgery were prospectively selected.MonoE from 100 to 200 keV with an interval of 20 keV were reconstructed.O-MAR and O-MAR combined with MonoE(O-MAR+MonoE)images were also reconstructed.The differences of objective and subjective image quality among the images were compared.Results There were 45 patients included in the study.With the increasing of keV of MonoE,the attenuation of the tissue with low-and high-density artifact on MonoE and O-MAR+MonoE was increased and decreased,respectively.140 keV MonoE was the best sequence for the artifact reduction and the display of soft tissue.200 keV MonoE and its combination with O-MAR showed the best performance in the display of the interface of metal and bone.However,O-MAR+200 keV MonoE had the lowest noise.Conclusion Compared to O-MAR and O-MAR combined with MonoE,high-energetic MonoE shows a good value in the reduction of metal artifacts caused by the lumbar metal implants.
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ObjectiveTo evaluate the effect of virtual reality (VR) on cognitive function and quality of life in patients with Parkinson's disease. MethodsA systematic search of CBM, CNKI, Wanfang data, VIP, Cochrane Library, Web of Science, Embase, and PubMed was carried out to identify randomized control trials (RCT) about the effect of VR technology on patients with Parkinson's disease from inception to February 29th, 2024. The control group received routine cognitive training, balance training or physical therapy, and the experimental group received VR technology. The quality of articles was evaluated using the Cochrane Collaboration's 5.1.0 RCT risk assessment tool for bias. The meta-analysis was performed using Revman5.4. GRADE was used to evaluate the evidence quality of outcome indicators. ResultsA total of 13 literatures involving 426 patients were included. Allocation concealment and blind methods were not described in most literatures, and selective reporting of research results or other biases was unclear. VR technology could improve the Motreal Cognitive Assessment (MoCA) score (MD = 1.11, 95%CI 0.31 to 1.90, P = 0.006), Trail Making Test (TMT)-A score (MD = -6.25, 95%CI -11.71 to -0.78, P = 0.030) and depression scale score (SMD = -0.56, 95%CI -0.95 to 0.18, P = 0.004) of patients with Parkinson's disease; however, it did not improve TMT-B score (MD = -6.01, 95%CI -28.16 to 16.14, P = 0.590), Unified Parkinson's Disease Rating Scale (UPDRS)-Part II score (MD = -2.11, 95%CI -4.97 to 0.75, P = 0.150) and Parkinson's Disease Questionnaire (PDQ-39) score (MD = -0.92, 95%CI -4.03 to 2.19, P = 0.560). For quality of evidence, MoCA score, UPDRS-Part II score and PDQ-39 score were low, and depression score and TMT score were moderate. ConclusionVR technology can improve the cognitive function and depression of patients with Parkinson's disease; however, no significant improvement is found in activities of daily living and quality of life.
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ObjectiveTo systematically review the evidence from systematic reviews of the application models and health benefits of virtual reality (VR) technology in physical activities and health domains in children and adolescents with cerebral palsy (CP). MethodsPubMed, Embase, CINAHL, SPORTDiscus, Google Scholar, PsycINFO and CNKI were searched to collect and screen systematic reviews published from January, 2020 to March, 2024 on the application of VR technology in physical activities and health for children with CP. The relevant evidence was reported following PRISMA guidelines. ResultsA total of eight English researches from China, Saudi Arabia, Indonesia and Brazil were included, involving 5 692 children and adolescents with CP, came primarily from interdisciplinary journals in clinical medicine, therapy and clinical risk management, games and gamification, and physical movement therapy. The subjects aged four to 18 years, with spastic hemiplegia and spastic diplegia. The VR technologies featured five typical application models: immersive environment simulation; interactive motion gamification; virtual training and coaching; AI-based activity data tracking and analysis, and motion capture and feedback, biofeedback integration and wearable technology applications; and augmented reality integration. Interventions lasted 15 to 90 minutes a time, one to 15 times a week, with intensities ranging from moderate to vigorous and durations from one to 24 weeks. The application of VR technology might increase the interest in participating in physical activities, enhance the interactive experience, through integration with wearable and biofeedback technologies, enable timely monitoring, tracking, analysis and feedback on children's activity statuses, improving their physical and functional abilities. ConclusionVR technology including immersive environment simulation and interactive motion gamification may improve interest in physical activities, physical quality and functional abilities, promoting behavioral health, and enhancing overall health levels and quality of life of children and adolecents with CP.
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ObjectiveExisting artificial vision devices can be divided into two types: implanted devices and extracorporeal devices, both of which have some disadvantages. The former requires surgical implantation, which may lead to irreversible trauma, while the latter has some defects such as relatively simple instructions, limited application scenarios and relying too much on the judgment of artificial intelligence (AI) to provide enough security. Here we propose a system that has voice interaction and can convert surrounding environment information into tactile commands on head and neck. Compared with existing extracorporeal devices, our device can provide a larger capacity of information and has advantages such as lower cost, lower risk, suitable for a variety of life and work scenarios. MethodsWith the latest remote wireless communication and chip technologies, microelectronic devices, cameras and sensors worn by the user, as well as the huge database and computing power in the cloud, the backend staff can get a full insight into the scenario, environmental parameters and status of the user remotely (for example, across the city) in real time. In the meanwhile, by comparing the cloud database and in-memory database and with the help of AI-assisted recognition and manual analysis, they can quickly develop the most reasonable action plan and send instructions to the user. In addition, the backend staff can provide humanistic care and emotional sustenance through voice dialogs. ResultsThis study originally proposes the concept of “remote virtual companion” and demonstrates the related hardware and software as well as test results. The system can not only achieve basic guide functions, for example, helping a person with visual impairment to shop in supermarkets, find seats at cafes, walk on the streets, construct complex puzzles, and play cards, but also can meet the demand for fast-paced daily tasks such as cycling. ConclusionExperimental results show that this “remote virtual companion” is applicable for various scenarios and demands. It can help blind people with their travels, shopping and entertainment, or accompany the elderlies with their trips, wilderness explorations, and travels.